Patent Description:
At present, a control panel of most electrical apparatus such as a washing machine in a market generally has three areas: a display area, a button and a knob. Due to the increasing functions of the washing machine, the operation methods of the washing machines become increasingly diversified and complex. Most knobs are ordinary plastic knobs, which are intended to select a procedure and have a single function and appearance. With the improvement of quality of life and aesthetic requirements by people, there is a need for the knobs to improve their functionality, simplify their operation, and have breakthrough appearances.

In addition, people have been troubled by the influence of water entering into the knobs or water vapor condensation on a circuit and display. Especially for electrical products such as washing machines, the electrical products are often damaged because water enters into interiors of the knobs, which results in unnecessary economic losses.

<CIT> is a utility model that belongs to the technical field of kitchen appliances, especially, related to a cooking utensil. This document discloses a knob assembly comprising an assembly member comprising a mounting groove and a liquid blocking part, a display module electrically connected to the control module, a knob base connected to the control module, a knob body arranged on the knob base, the knob body and the knob base defining a liquid discharging cavity and a liquid discharging part arranged on the knob base, the liquid discharging part being in communication with the liquid discharging cavity and configured to discharge a medium in the liquid discharging cavity. <CIT> relates to the washing machine technology field, particularly the knob assembly of a washing machine. <CIT> relates to the technical field of household appliances, and in particular relates to a control panel assembly of household appliances. <CIT> relates to the technical field of automotive electronics, particularly a kind of automotive air-conditioning controller that is waterproof. <CIT> relates to a washing machine having a timer attached to an operation panel. <CIT> relates to the household electrical appliance field, and especially relates to a kind of control panel for washing machines. <CIT> relates to a kind of gabarit of the washing machines, in particular the operating portions such as guidance panel.

In the following, each of the described methods, apparatuses, embodiments, examples, and aspects, which do not fully correspond to the invention as defined in the claims is thus not according to the invention and is, as well as the whole following description, present for illustration purposes only or to highlight specific aspects or features of the claims. Embodiments not falling under the scope of the claims should be interpreted as examples useful for understanding the invention.

The application aims to solve at least one of the technical problems existing in the related art.

To this end, a first aspect of the application provides a knob assembly.

A second aspect of the application provides an electrical apparatus.

The first aspect of the application provides a knob assembly, which includes an assembly member, a control module, a display module, a knob base, a knob body, and a liquid discharging part. The assembly member includes a mounting groove and a first liquid blocking part. The first liquid blocking part is located at an outer periphery of the mounting groove. The control module is arranged in the mounting groove. The display module is electrically connected to the control module. The knob base is connected to the control module. The knob body is arranged on the knob base, and is located at an outer periphery of the control module. The knob body and the knob base define a liquid discharging cavity. The liquid discharging part is arranged on the knob base. The liquid discharging part is in communication with the liquid discharging cavity, and is configured to discharge a medium in the liquid discharging cavity. The first liquid blocking part is located between the liquid discharging part and the mounting groove.

The knob assembly provided by the application includes the assembly member, the control module, the display module, the knob base, the knob body, and the liquid discharging part. Herein, the assembly member is provided with the mounting groove, and the control module is arranged in the mounting groove, to ensure a stable mounting of the control module. The display module and the knob body are electrically connected to the control module, and the knob body is rotatable relative to the display module. When the knob assembly is in use, the knob body may be rotated to select a procedure, and information such as a procedure parameter or running status corresponding to the procedure may be displayed by the display module. In this way, the knob assembly provided by the application is integrated with control and display functions. Therefore, the structure of the knob assembly is novel, the space occupied by the knob assembly is small, the operation of the knob assembly is convenient, and the cost of the electrical apparatus to which the knob assembly is applied may be reduced.

Further, after the knob body is mounted on the knob base, the knob body and the knob base together define the liquid discharging cavity, and the liquid discharging part in communication with the liquid discharging cavity is arranged on the knob base. In this way, during the use of the knob assembly, liquid entering an interior of the knob assembly first enters into the liquid discharging cavity, and the liquid inside the liquid discharging cavity may be directly discharged through the liquid discharging part. In this way, on the one hand, the liquid is prevented from retaining inside the knob assembly, and the liquid entering the interior of the knob assembly can be discharged in time, which ensures a dry environment inside the knob assembly. On the other hand, the liquid entering into the liquid discharging cavity is prevented from flowing to the display module and the control module, and the damage of the knob assembly caused by the entry of water or water mist is prevented.

Further, the assembly member further includes the first liquid blocking part, and the first liquid blocking part is located at the outer periphery of the mounting groove. In this way, when the assembling of the knob assembly is completed, the first liquid blocking part is located between the knob body and the control module, and blocks the liquid between the knob body and the control module. Therefore, the external liquid is prevented from entering into the mounting groove and from coming into contact with the control module, which ensures a surrounding environment of the control module, and prevents the damage of the control module caused by the entry of the liquid. In addition, the application may avoid the design of a sealing ring in the related art due to the design of the first liquid blocking part, which may ensure that there is no direct contact between the knob body and the display module, and there is no direct contact between the knob body and the assembly member, and which may ensure the smooth rotation of the knob body.

Specifically, the assembly member and the display module of the knob assembly serve as a fixing structure of the knob assembly, and the knob body serves as a rotating structure of the knob assembly. Therefore, there is a certain gap between the knob body and the display module, and there is a certain gap between the knob body and the assembly member, to ensure the smooth and unobstructed rotation of the knob body. The knob assembly may be applied to an electrical apparatus such as a washing machine or a laundry dryer. A working environment for the electrical apparatus such as the washing machine or the laundry dryer is generally a space with heavy humidity, such as a bathroom. It is easy for the liquid to be dripped onto the display module, and it is easy for condensed water to be generated on the knob assembly during the drying of a laundry, which leads to a risk that the water enters the interior of the knob assembly.

Therefore, in the application, the knob base and the knob body together define the liquid discharging cavity, to allow the liquid entering the interior of the knob assembly to enter into the liquid discharging cavity first. Therefore, the liquid entering the interior of the knob assembly is prevented from flowing and spreading in the interior of the knob assembly. In the application, the liquid discharging part is arranged on the knob base, to allow the liquid entering into the liquid discharging cavity to be discharged from the liquid discharging part. Therefore, the liquid is prevented from retaining in the liquid discharging cavity for a long time, which ensures the dry environment inside the knob assembly, ensures that the liquid inside the liquid discharging cavity is discharged by the knob assembly in time, and ensures the service life of the knob assembly.

In addition, after the control module is mounted to the mounting groove, the first liquid blocking part may be located between the knob body and the mounting groove. Therefore, the first liquid blocking part may play a good effect of blocking the liquid for the control module arranged in the mounting groove. In this way, on the one hand, the liquid on a surface of the knob body is prevented from entering the mounting groove, and on the other hand, the liquid between the knob body and the display module is prevented from entering the mounting groove. Therefore, the effective effect of blocking the liquid for the mounting groove is realized, a dry environment inside the mounting groove is ensured, and the service life of the control module is ensured.

The knob assembly according to the above technical solution of the application may further have the following additional technical features.

In the above technical solution, the assembly member includes an assembly surface, and the mounting groove is arranged on the assembly surface. The first liquid blocking part is connected to a side wall of the mounting groove, and protrudes from the assembly surface.

In this technical solution, the assembly member includes the assembly surface. Herein, the mounting groove and the first liquid blocking part are arranged on the assembly surface, the control module is assembled inside the mounting groove, and the knob body is arranged on a surface of the assembly surface. In addition, there is a certain distance between the knob body and the assembly surface. In this way, there is no direct contact between the knob body that is rotated and the assembly surface that is fixed, which ensures the smooth rotation of the knob body.

In addition, the first liquid blocking part is connected to the side wall of the mounting groove, and protrudes from the assembly surface. In this way, the first liquid blocking part may effectively block the liquid on a peripheral side of the mounting groove, to prevent the external liquid from flowing into the mounting groove from a gap between the assembly surface and the knob body. In addition, the first liquid blocking part is located between the knob body and the mounting groove, and the first liquid blocking part is connected to the side wall of the mounting groove, which may effectively reduce a distance from the knob body to the mounting groove. Therefore, the structure consisting of the knob body, the display module and the control module is compact, and the miniaturization design of the knob assembly is realized.

According to the present invention, a second liquid blocking part is arranged on the knob base, and is located between the first liquid blocking part and the liquid discharging part.

In this technical solution, the knob assembly further includes the second liquid blocking part. Herein, the second liquid blocking part is arranged on the knob base, and is located between the first liquid blocking part and the knob body. An extension direction of the first liquid blocking part is different from an extension direction of the second liquid blocking part. The first liquid blocking part is arranged on the assembly member, and extends towards the knob base located above the first liquid blocking part. The second liquid blocking part is arranged on the knob base, and extends towards the assembly member located below the second liquid blocking part. In this way, the first liquid blocking part and the second liquid blocking part with different extending directions are arranged between the knob body and the mounting groove. Two waterproof structures may be formed by the cooperation of the first liquid blocking part and the second liquid blocking part. Therefore, the external liquid is prevented from entering into the mounting groove. In particular, the liquid dripping from the knob body is prevented from entering into the mounting groove, and the liquid dripping from the knob body is prevented from entering into the mounting groove from the gap between the knob body and the assembly surface.

In any one of the above technical solutions, the liquid discharging part is a liquid discharging channel, which is formed between the second liquid blocking part and the knob body.

In this technical solution, the liquid discharging part is the liquid discharging channel, which is defined by the second liquid blocking part and the knob body together. The liquid discharging channel has a certain liquid discharging direction and liquid discharging length. Therefore, the liquid discharging direction of the liquid discharging channel may be arranged to allow the liquid to be discharged by the liquid discharging channel in a direction away from the display module and the control module, which prevents the liquid discharged from the liquid discharging channel from entering the interior of the knob assembly again.

In addition, the first liquid blocking part and the second liquid blocking part are arranged between the liquid discharging part and the mounting groove. In this way, the first liquid blocking part and the second liquid blocking part may block the liquid between the liquid discharging part and the mounting groove. Therefore, the liquid discharged from the liquid discharging part is prevented from entering into the mounting groove, which ensures the safety of use of the control module arranged in the mounting groove.

In any one of the above technical solutions, the first liquid blocking part is an annular rib, and the second liquid blocking part is an annular rib. The control module is located in a space defined by the first liquid blocking part. The first liquid blocking part is located in a space defined by the second liquid blocking part. The knob body is located at an outer periphery of the second liquid blocking part.

In this technical solution, each of the first liquid blocking part and the second liquid blocking part is the annular rib. The control module is located in the space defined by the first liquid blocking part. The first liquid blocking part is located in the space defined by the second liquid blocking part. The knob body is located at the outer periphery of the second liquid blocking part. In this way, there are at least two waterproof structures in a direction from the knob body to the mounting groove. In addition, the knob assembly may be transversely arranged after being mounted to the electrical apparatus. Therefore, the design that each of the first liquid blocking part and the second liquid blocking part is an annular rib may ensure the waterproof effect of the knob assembly in all directions, and may realize the all-round waterproofness of the knob assembly.

Specifically, the knob assembly may be transversely arranged when it is mounted to an electrical apparatus for use. Therefore, the first liquid blocking part and the second liquid blocking part are designed to allow the liquid to be well blocked by the knob assembly in a case of the knob assembly with a transverse arrangement, which in turn ensures the safety of use of the control module arranged in the mounting groove.

Specifically, the first liquid blocking part and the second liquid blocking part are configured to block the liquid between the liquid discharging part and the mounting groove. Each of the first liquid blocking part and the second liquid blocking part is arranged between the liquid discharging part and the mounting groove, to enable the first liquid blocking part and the second liquid blocking part to block the liquid between the liquid discharging part and the mounting groove. Therefore, the liquid discharged from the liquid discharging part is prevented from entering into the mounting groove, which ensures the safety of use of the control module arranged in the mounting groove. During the use of the knob assembly, the liquid entering the interior of the knob assembly first enters into the liquid discharging cavity, and the liquid inside the liquid discharging cavity may be directly discharged through the liquid discharging part. In this way, on the one hand, the liquid is prevented from retaining inside the knob assembly, and the liquid entering the interior of the knob assembly can be discharged in time, which ensures a dry environment inside the knob assembly. On the other hand, the liquid entering into the liquid discharging cavity is prevented from flowing to the display module and the control module, and the damage of the knob assembly caused by the entry of water or water mist is prevented.

In this technical solution, further, the distance from the knob body to the assembly surface is less than a height of the first liquid blocking part by which the first liquid blocking part protrudes from the assembly surface. That is, in a height direction of the knob assembly, a part of the first liquid blocking part overlaps with a part of the knob body. In this way, an internal space of the knob assembly may be completely obscured by the cooperation of the first liquid blocking part and the second liquid blocking part when viewed from a lateral side of the knob assembly, to force the liquid dripping from the knob body to directly fall onto an outer periphery of the first liquid blocking part, and in turn prevent the liquid dripping from the knob body from flowing into the mounting groove under the blocking of the first liquid blocking part.

In particular, the knob assembly may be transversely arranged when it is in use. In this case, thanks to the design of the protruding height of the first liquid blocking part and the distance from the knob body to the assembly surface of the present application, even if the knob assembly is transversely arranged, an internal structure of the knob assembly may be completely obscured by the cooperation of the first liquid blocking part and the second liquid blocking part, to enable the first liquid blocking part and the second liquid blocking part to still play a good effect of blocking the liquid when the knob assembly is transversely arranged. Therefore, the external liquid is prevented from entering into the mounting groove, and the working environment and the service life of the control module are ensured.

In any one of the above technical solutions, the knob assembly further includes a third liquid blocking part, which is arranged on the knob base, and which is located between the display module and the liquid discharging cavity.

In this technical solution, the knob assembly further includes the third liquid blocking part. Herein, the third liquid blocking part is arranged on the knob base, and an extension direction of the third liquid blocking part is different from an extension direction of the second liquid blocking part. The second liquid blocking part extends downward from the knob base, the third liquid blocking part extends upward from the knob base, and the third liquid blocking part is located between the display module and the knob body. In this way, the third liquid blocking part may block the liquid between the knob body and the display module.

Specifically, the knob body serves as a rotating structure of the knob assembly, and the display module serves as a fixing structure of the knob assembly. Therefore, there is a certain gap between the third liquid blocking part and the display module, to ensure the smooth rotation of the knob body. During the use of the knob body, the liquid may enter into the gap. Therefore, the third liquid blocking part is arranged between the display module and the knob body, and is configured to block said liquid from entering a position where the display module is located, to ensure the environment of the display module and the service life of the display module.

In any one of the above technical solutions, the knob assembly further includes a lid plate which is capped on the display module and which covers the third liquid blocking part, and a fourth liquid blocking part which is arranged on the lid plate and which is located between the third liquid blocking part and the liquid discharging cavity.

In this technical solution, the knob assembly further includes the lid plate and the fourth liquid blocking part. Herein, the lid plate is capped on the display module, to enable the lid plate to play a certain role of protecting the display module. Therefore, on the one hand, the display module is prevented from being bumped, and on the other hand, the water is prevented from entering the display module. In addition, the lid plate may be decorated with patterns or colors, to ensure a final presentation state of the light emitted from the display module.

Further, the fourth liquid blocking part is arranged at a peripheral edge of the lid plate, and is located between the third liquid blocking part and the knob body. In particular, an extension direction of the fourth liquid blocking part is different from an extension direction of the third liquid blocking part. The third liquid blocking part is arranged on the knob base and extends upward from the knob base, and the fourth liquid blocking part is arranged on the lid plate and extends downward from the lid plate. In this way, two waterproof structures may be formed between the knob body and the display module by the cooperation of the third liquid blocking part and the fourth liquid blocking part, to further improve the waterproof effect of the display module and realize the all-round waterproofness of the display module.

In any one of the above technical solutions, the fourth liquid blocking part is arranged at the peripheral edge of the lid plate, and extends toward an inner side of the liquid discharging cavity. Herein, a gap is formed between the fourth liquid blocking part and the knob body, and the gap is in communication with the liquid discharging cavity.

In this technical solution, the fourth liquid blocking part is arranged at the peripheral edge of the lid plate. The gap is formed between the fourth liquid blocking part and the knob body. The gap ensures that there is no direct contact between the knob body and the lid plate, and that there is no friction between the knob body and the lid plate when the knob body is rotated. In addition, the gap is in communication with the liquid discharging cavity. In this way, the liquid flowing into the gap may directly enter into the liquid discharging cavity when the knob assembly is in use. Therefore, the liquid flowing into the gap does not flow and spread everywhere, and is finally discharged through the liquid discharging part, to ensure the working environment and the service life of the display module and of other control module.

Specifically, the gap, the liquid discharging cavity and the liquid discharging part constitute a flow channel. The flow channel is formed between the fixing structure and the rotating structure of the knob assembly, isolated from the display module and the control module of the knob assembly, and located on an outer periphery of the display module and an outer periphery of the control module. In this way, the design of the flow channel on the one hand ensures the smooth rotation of the knob body, and on the other hand, ensures the effect of discharging the liquid of the knob assembly. In addition, the above effect may be realized without additional complex structures, which facilitates processing and manufacturing, and is also beneficial for realization of the most simplified design of the knob assembly.

In addition, the fourth liquid blocking part extends toward the inner side of the liquid discharging cavity, and is located inside the liquid discharging cavity. In this way, the liquid entering the gap formed between the lid plate and the knob body spreads along the fourth liquid blocking part, and drips into the liquid discharging cavity from an end of the fourth liquid blocking part. Therefore, the liquid entering the gap formed between the lid plate and the knob body is prevented from spreading to the position where the display module is located.

In addition, the gap is formed between the fourth liquid blocking part and the knob body. In this way, each of the third liquid blocking part and the fourth liquid blocking part is located between the liquid discharging cavity and the display module, and the third liquid blocking part and the fourth liquid blocking part are configured to block the liquid between the liquid discharging cavity and the display module, and to further block the liquid entering into the liquid discharging cavity from flowing to the display module. Therefore, the service life of the display module is ensured.

In any one of the above technical solutions, the third liquid blocking part is an annular rib, and the fourth liquid blocking part is an annular rib. The display module is located in a space defined by the third liquid blocking part. The third liquid blocking part is located in a space defined by the fourth liquid blocking part. The knob body is located at an outer periphery of the fourth liquid blocking part.

In this technical solution, each of the third liquid blocking part and the fourth liquid blocking part is the annular rib. The display module is located in the space defined by the third liquid blocking part. The third liquid blocking part is located in the space defined by the fourth liquid blocking part. The knob body is located at the outer periphery of the fourth liquid blocking part. In this way, there are at least two waterproof ribs, i.e., at least two waterproof structures from the knob body to the display module. In addition, the knob assembly may be transversely arranged after being mounted to the electrical apparatus. Therefore, the design that each of the third liquid blocking part and the fourth liquid blocking part is an annular rib may ensure the waterproof effect of the knob assembly in all directions, and may realize the all-round waterproofness of the knob assembly.

In this technical solution, further, a distance from the fourth liquid blocking part to the knob base is less than a height of the third liquid blocking part by which the third liquid blocking part protrudes from the knob base. That is, in the height direction of the knob assembly, a part of the third liquid blocking part overlaps with a part of the fourth liquid blocking part. In this way, when viewed from the lateral side of the knob assembly, the display module is completely isolated, which effectively ensures the waterproof effect of the display module.

In particular, the knob assembly may be transversely arranged when it is in use. In this case, thanks to the design of the protruding height of the third liquid blocking part and the distance from the fourth liquid blocking part to the knob base of the present application, even if the knob assembly is transversely arranged, the display module may be completely obscured by the cooperation of the third liquid blocking part and the fourth liquid blocking part, to enable the third liquid blocking part and the fourth liquid blocking part to still play a good effect of blocking the liquid when the knob assembly is transversely arranged. Therefore, the external liquid is prevented from entering the position where the display module is located, and the working environment and the service life of the display module are ensured.

In any one of the above technical solutions, the knob assembly further includes a module support, which is connected to the display module and the control module. Herein, the fourth liquid blocking part is provided with a first snap, and the first snap is connected to the module support.

In this technical solution, the knob assembly further includes the module support. The module support is arranged on the control module, and the display module is arranged on the module support, to ensure the stable mounting of the display module. In addition, the fourth liquid blocking part is provided with the first snap, and a lid body of the lid plate may be mounted on the module support by the first snap, to ensure the stable connection of the lid body. In addition, the first snap is arranged to enable the fourth liquid blocking part to have the functions of blocking the liquid and mounting the lid body. Therefore, the separate design of a drainage structure, a liquid blocking structure and a mounting structure is avoided, the overall structure of the knob assembly is simplified, and the miniaturization design of the knob assembly is realized.

In any one of the above technical solutions, the module support is provided with a flange, the flange is capped on the third liquid blocking part, and the first snap is connected to the flange.

In this technical solution, the module support is provided with the flange. The flange is capped above the third liquid blocking part, and is at least located between the third liquid blocking part and the knob body. In this way, the cooperation of the flange and the third liquid blocking part may further improve the waterproof effect of the knob assembly, in particular to prevent the external liquid from flowing to the display module through the third liquid blocking part. In addition, the first snap is connected to the flange, to enable the flange to have the functions of mounting the lid plate and blocking the liquid.

In any one of the above technical solutions, the knob body is provided with a second snap, and the second snap is connected to the knob base.

In this technical solution, the knob body is provided with the second snap, to allow the knob body to be mounted on the knob base by the second snap, to ensure the stable mounting of the knob body. In this way, the user may rotate a rotating part of an encoder by the knob body and the knob base, and then select a corresponding procedure. In addition, the third liquid blocking part has the functions of blocking the liquid and mounting the knob body.

In any one of the above technical solutions, the knob base is an annular base, and is located at an outer periphery of the module support; and/or the liquid discharging cavity is an annular cavity, and is located at an outer periphery of the module support.

In this technical solution, the knob base is the annular base, and is located at the outer periphery of the module support and an outer periphery of the display module. The liquid discharging cavity is the annular cavity, and is located at the outer periphery of the module support and the outer periphery of the display module. In this way, when the knob assembly is transversely arranged on the electrical apparatus, the liquid entering one side of the knob assembly may flow to another side of the knob assembly under the action of gravity, and finally may be discharged from the another side.

In any one of the above technical solutions, the knob assembly further includes a main control panel, an encoder and a lead. The main control panel is arranged in the mounting groove. The encoder is connected to the main control panel. The encoder includes a rotating part and a fixing part. The knob base is arranged on the rotating part, and the module support is arranged on the fixing part. The lead is electrically connected to the main control panel and the display module.

In this technical solution, the knob assembly further includes the main control panel, the encoder and the lead. Herein, the lead is electrically connected to the main control panel and the display module. Herein, the main control panel is arranged in the mounting groove, and the encoder is arranged on the main control panel and electrically connected to the main control panel. The encoder includes the rotating part and the fixing part. The knob base is arranged on the rotating part, and the knob body is arranged on the knob base, to ensure the rotation of the knob body. The module support is arranged on the fixing part, and the display module is arranged on the module support, to ensure the fixed connection of the display module. In addition, the lead is connected to the main control panel and the display module, to ensure the signal transmission between the main control panel and the display module. Therefore, the display module may display the parameter information corresponding to the signal.

In any one of the above technical solutions, the display module includes a display support, a display panel, and a display film. The display support is arranged on the module support. The display panel is arranged on a side of the display support facing toward the module support. The display panel is electrically connected to the main control panel. The display film is arranged on a side of the display support away from the module support. Herein, the display support is provided with a light guide hole, and the display film is provided with characters or patterns.

In this technical solution, the display support is arranged on the module support. The display panel is arranged on a side of the display support facing toward the module support. The display panel is electrically connected to the main control panel by the lead. The display film is arranged on a side of the display support away from the module support. The display support is provided with the light guide hole, and the display film is provided with characters or patterns. When a procedure is selected, a light emitting diode arranged on the display panel is illuminated, and is displayed through the display support and the display film.

The second aspect of the application provides an electrical apparatus, which includes the knob assembly according to any one of the above technical solutions.

The electrical apparatus provided by the application includes the knob assembly according to any one of the above technical solutions. Therefore, all the beneficial effects based on the above electrical apparatus will not be discussed one by one herein.

Specifically, the electrical apparatus includes, but is not limited to, a washing machine, a laundry dryer, a laundry washer-dryer, and the like.

Additional aspects and advantages of the application will become apparent in the following description or will learn from the practice of the application.

The above and/or additional aspects and advantages of the application will become apparent and readily understood from the description of the embodiments in conjunction with the following drawings, in which:.

Herein, the reference symbols of the components in <FIG> are listed as follow.

<NUM> main control panel, <NUM> encoder, <NUM> knob base, <NUM> module support, <NUM> display panel, <NUM> display support, <NUM> display film, <NUM> knob body, <NUM> lid plate, <NUM> display module, <NUM> liquid discharging cavity, <NUM> gap, <NUM> liquid discharging part, <NUM> second liquid blocking part, <NUM> third liquid blocking part, <NUM> fourth liquid blocking part, <NUM> rotating part, <NUM> fixing part, <NUM> lead, <NUM> assembly member, <NUM> mounting groove, <NUM> first liquid blocking part, <NUM> flange, <NUM> first snap, <NUM> second snap, <NUM> third snap, <NUM> fourth snap, <NUM> knob decorative member, <NUM> fifth snap, <NUM> assembly surface, <NUM> control module.

In order to make the above objectives, features and advantages of the application more clear, the application will be further described in detail below in combination with the drawings and the detailed description. It should be noted that the embodiments and the features of the embodiments of the application may be combined with each other without conflict.

Many specific details are set forth in the following description to facilitate a full understanding of the application. However, the application may also be implemented in other manners different from those described herein. Therefore, the scope of protection of the application is not limited by the specific embodiments disclosed below.

A knob assembly and an electrical apparatus provided according to some embodiments of the application are described below with reference to <FIG>. Herein, arrows in <FIG>, <FIG>, <FIG>, <FIG> and <FIG> indicate a flow direction of liquid.

As shown in <FIG>, an embodiment of the application provides a knob assembly, which includes an assembly member <NUM>, a control module <NUM>, a display module <NUM>, a knob base <NUM>, a knob body <NUM>, and a liquid discharging part <NUM>. Herein, the assembly member <NUM> is provided with a mounting groove <NUM>, and the control module <NUM> is arranged in the mounting groove <NUM>, to ensure a stable mounting of the control module <NUM>. The display module <NUM> and the knob body <NUM> are electrically connected to the control module <NUM>, and the knob body <NUM> is rotatable relative to the display module <NUM>. When the knob assembly is in use, the knob body <NUM> may be rotated to select a procedure, and information such as a procedure parameter or running status corresponding to the procedure may be displayed by the display module <NUM>. In this way, the knob assembly provided by the application is integrated with control and display functions. Therefore, the structure of the knob assembly is novel, the space occupied by the knob assembly is small, the operation of the knob assembly is convenient, and the cost of an electrical apparatus to which the knob assembly is applied may be reduced.

Further, as shown in <FIG>, after the knob body <NUM> is mounted on the knob base <NUM>, the knob body <NUM> and the knob base <NUM> together define a liquid discharging cavity <NUM>, and the liquid discharging part <NUM> in communication with the liquid discharging cavity <NUM> is arranged on the knob base <NUM>. In this way, during the use of the knob assembly, the liquid entering an interior of the knob assembly first enters into the liquid discharging cavity <NUM>, and the liquid inside the liquid discharging cavity <NUM> may be directly discharged through the liquid discharging part <NUM>. In this way, on the one hand, the liquid is prevented from retaining inside the knob assembly, and the liquid entering the interior of the knob assembly can be discharged in time, which ensures a dry environment inside the knob assembly. On the other hand, the liquid entering into the liquid discharging cavity <NUM> is prevented from flowing to the display module <NUM> and the control module <NUM>, and the damage of the knob assembly caused by the entry of water or water mist is prevented.

Further, as shown in <FIG>, the assembly member <NUM> further includes a first liquid blocking part <NUM>, and the first liquid blocking part <NUM> is located at an outer periphery of the mounting groove <NUM>. In this way, when the assembling of the knob assembly is completed, the first liquid blocking part <NUM> is located between the knob body <NUM> and the control module <NUM>, and blocks the liquid between the knob body <NUM> and the control module <NUM>. Therefore, the external liquid is prevented from entering into the mounting groove <NUM> and from coming into contact with the control module <NUM>, which ensures a surrounding environment of the control module <NUM>, and prevents the damage of the control module <NUM> caused by the entry of the liquid. In addition, the embodiment of the application may avoid the design of a sealing ring in the related art due to the design of the first liquid blocking part <NUM>, which may ensure that there is no direct contact between the knob body <NUM> and the display module <NUM>, and there is no direct contact between the knob body <NUM> and the assembly member <NUM>, and which may ensure the smooth rotation of the knob body.

Specifically, as shown in <FIG>, the assembly member <NUM> and the display module <NUM> of the knob assembly serve as a fixing structure of the knob assembly, and the knob body <NUM> serves as a rotating structure of the knob assembly. Therefore, there is a certain gap between the knob body <NUM> and the display module <NUM>, and there is a certain gap between the knob body <NUM> and the assembly member <NUM>, to ensure the smooth and unobstructed rotation of the knob body. The knob assembly may be applied to an electrical apparatus such as a washing machine or a laundry dryer. A working environment for the electrical apparatus such as the washing machine or the laundry dryer is generally a space with heavy humidity, such as a bathroom. It is easy for the liquid to be dripped onto the display module <NUM>, and it is easy for condensed water to be generated on the knob assembly during the drying of a laundry, which leads to a risk that the water enters the interior of the knob assembly.

Therefore, in the embodiment of the application, the knob base <NUM> and the knob body <NUM> together define the liquid discharging cavity <NUM>, to allow the liquid entering the interior of the knob assembly to enter into the liquid discharging cavity <NUM> first. Therefore, the liquid entering the interior of the knob assembly is prevented from flowing and spreading in the interior of the knob assembly. In the embodiment of the application, the liquid discharging part <NUM> is arranged on the knob base <NUM>, to allow the liquid entering into the liquid discharging cavity <NUM> to be discharged from the liquid discharging part <NUM>. Therefore, the liquid is prevented from retaining in the liquid discharging cavity <NUM> for a long time, which ensures the dry environment inside the knob assembly, ensures that the liquid inside the liquid discharging cavity <NUM> is discharged by the knob assembly in time, and ensures the service life of the knob assembly.

In addition, as shown in <FIG>, after the control module <NUM> is mounted to the mounting groove <NUM>, the first liquid blocking part <NUM> may be located between the knob body <NUM> and the mounting groove <NUM>. Therefore, the first liquid blocking part <NUM> may play a good effect of blocking the liquid for the control module <NUM> arranged in the mounting groove <NUM>. In this way, on the one hand, the liquid on a surface of the knob body <NUM> is prevented from entering the mounting groove <NUM>, and on the other hand, the liquid between the knob body <NUM> and the display module <NUM> is prevented from entering the mounting groove <NUM>. Therefore, the effective effect of blocking the liquid for the mounting groove <NUM> is realized, a dry environment inside the mounting groove <NUM> is ensured, and the service life of the control module <NUM> is ensured.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the assembly member <NUM> includes an assembly surface <NUM>. Herein, the mounting groove <NUM> and the first liquid blocking part <NUM> are arranged on the assembly surface <NUM>, the control module <NUM> is assembled inside the mounting groove <NUM>, and the knob body <NUM> is arranged on a surface of the assembly surface <NUM>. In addition, there is a certain distance between the knob body <NUM> and the assembly surface <NUM>. In this way, there is no direct contact between the knob body <NUM> that is rotated and the assembly surface <NUM> that is fixed, which ensures the smooth rotation of the knob body <NUM>.

Further, as shown in <FIG>, the first liquid blocking part <NUM> is connected to a side wall of the mounting groove <NUM>, and protrudes from the assembly surface <NUM>. In this way, the first liquid blocking part <NUM> may effectively block the liquid on a peripheral side of the mounting groove <NUM>, to prevent the external liquid from flowing into the mounting groove <NUM> from a gap between the assembly surface <NUM> and the knob body <NUM>. In addition, the first liquid blocking part <NUM> is located between the knob body <NUM> and the mounting groove <NUM>, and the first liquid blocking part <NUM> is connected to the side wall of the mounting groove <NUM>, which may effectively reduce a distance from the knob body <NUM> to the mounting groove <NUM>. Therefore, the structure consisting of the knob body <NUM>, the display module <NUM> and the control module <NUM> is compact, and the miniaturization design of the knob assembly is realized.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the knob assembly further includes a second liquid blocking part <NUM>. Herein, the second liquid blocking part <NUM> is arranged on the knob base <NUM> and is located between the first liquid blocking part <NUM> and the knob body <NUM>.

As shown in <FIG>, an extension direction of the first liquid blocking part <NUM> is different from an extension direction of the second liquid blocking part <NUM>. The first liquid blocking part <NUM> is arranged on the assembly member <NUM>, and extends towards the knob base <NUM> located above the first liquid blocking part. The second liquid blocking part <NUM> is arranged on the knob base <NUM>, and extends towards the assembly member <NUM> located below the second liquid blocking part. In this way, the first liquid blocking part <NUM> and the second liquid blocking part <NUM> with different extending directions are arranged between the knob body <NUM> and the mounting groove <NUM>. Two waterproof structures may be formed by the cooperation of the first liquid blocking part <NUM> and the second liquid blocking part <NUM>. Therefore, the external liquid is prevented from entering into the mounting groove <NUM>. In particular, the liquid dripping from the knob body <NUM> is prevented from entering into the mounting groove <NUM>, and the liquid dripping from the knob body is prevented from entering into the mounting groove <NUM> from the gap between the knob body <NUM> and the assembly surface <NUM>.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, <FIG> and <FIG>, the liquid discharging part <NUM> is a liquid discharging channel, which is defined by the second liquid blocking part <NUM> and the knob body <NUM> together. The liquid discharging channel has a certain liquid discharging direction and liquid discharging length. Therefore, the liquid discharging direction of the liquid discharging channel may be arranged to allow the liquid to be discharged by the liquid discharging channel in a direction away from the display module <NUM> and the control module <NUM>, which prevents the liquid discharged from the liquid discharging channel from entering the interior of the knob assembly again.

In addition, as shown in <FIG>, the first liquid blocking part <NUM> and the second liquid blocking part <NUM> are arranged between the liquid discharging part <NUM> and the mounting groove <NUM>. In this way, the first liquid blocking part <NUM> and the second liquid blocking part <NUM> may block the liquid between the liquid discharging part <NUM> and the mounting groove <NUM>. Therefore, the liquid discharged from the liquid discharging part <NUM> is prevented from entering into the mounting groove <NUM>, which ensures the safety of use of the control module <NUM> arranged in the mounting groove <NUM>.

In addition, the liquid discharging part <NUM> may also directly be a liquid discharging port, which penetrates through the knob base <NUM>.

Specifically, as shown in <FIG> and <FIG>, liquid discharging parts <NUM> are water guide grooves arranged on an outer periphery of the second liquid blocking part <NUM>, and are spaced apart from each other in a circumferential direction of the second liquid blocking part <NUM>. An outer wall of the second liquid blocking part <NUM> is in close contact with an inner wall of the knob body <NUM>, and is only provided with an opening at each of the water guide grooves. In this way, the external liquid does not easily enter into the liquid discharging cavity <NUM>, and the liquid in the liquid discharging cavity <NUM> may flow out through the liquid discharging parts <NUM>, which satisfactorily achieves the functions of blocking the liquid and discharging the liquid.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, <FIG>, <FIG> and <FIG>, each of the first liquid blocking part <NUM> and the second liquid blocking part <NUM> is an annular rib. The control module <NUM> is located in a space defined by the first liquid blocking part <NUM>. The first liquid blocking part <NUM> is located in a space defined by the second liquid blocking part <NUM>. The knob body <NUM> is located at an outer periphery of the second liquid blocking part <NUM>. In this way, there are at least two waterproof structures in a direction from the knob body <NUM> to the mounting groove <NUM>. In addition, the knob assembly may be transversely arranged after being mounted to the electrical apparatus. Therefore, the design that each of the first liquid blocking part <NUM> and the second liquid blocking part <NUM> is an annular rib may ensure the waterproof effect of the knob assembly in all directions, and may realize the all-round waterproofness of the knob assembly.

Specifically, the knob assembly may be transversely arranged when it is mounted to an electrical apparatus for use. Therefore, the first liquid blocking part <NUM> and the second liquid blocking part <NUM> are designed to allow the liquid to be well blocked by the knob assembly in a case of the knob assembly with a transverse arrangement, which in turn ensures the safety of use of the control module <NUM> arranged in the mounting groove <NUM>.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the first liquid blocking part <NUM> and the second liquid blocking part <NUM> are configured to block the liquid between the liquid discharging part <NUM> and the mounting groove <NUM>. Each of the first liquid blocking part <NUM> and the second liquid blocking part <NUM> is arranged between the liquid discharging part <NUM> and the mounting groove <NUM>, to enable the first liquid blocking part <NUM> and the second liquid blocking part <NUM> to block the liquid between the liquid discharging part <NUM> and the mounting groove <NUM>. Therefore, the liquid discharged from the liquid discharging part <NUM> is prevented from entering into the mounting groove <NUM>, which ensures the safety of use of the control module <NUM> arranged in the mounting groove <NUM>.

As shown in <FIG> and <FIG>, during the use of the knob assembly, the liquid entering the interior of the knob assembly first enters into the liquid discharging cavity <NUM>, and the liquid inside the liquid discharging cavity <NUM> may be directly discharged through the liquid discharging part <NUM>. In this way, on the one hand, the liquid is prevented from retaining inside the knob assembly, and the liquid entering the interior of the knob assembly can be discharged in time, which ensures a dry environment inside the knob assembly. On the other hand, the liquid entering into the liquid discharging cavity <NUM> is prevented from flowing to the display module <NUM> and the control module <NUM>, and the damage of the knob assembly caused by the entry of water or water mist is prevented.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the distance from the knob body <NUM> to the assembly surface <NUM> is less than a height of the first liquid blocking part <NUM> by which the first liquid blocking part <NUM> protrudes from the assembly surface <NUM>. That is, in a height direction of the knob assembly, a part of the first liquid blocking part <NUM> overlaps with a part of the knob body <NUM>. In this way, an internal space of the knob assembly may be completely obscured by the cooperation of the first liquid blocking part <NUM> and the second liquid blocking part <NUM> when viewed from a lateral side of the knob assembly, to force the liquid dripping from the knob body <NUM> to directly fall onto an outer periphery of the first liquid blocking part <NUM>, and in turn prevent the liquid dripping from the knob body from flowing into the mounting groove <NUM> under the blocking of the first liquid blocking part <NUM>.

In particular, as shown in <FIG>, the knob assembly may be transversely arranged when it is in use. In this case, thanks to the design of the protruding height of the first liquid blocking part <NUM> and the distance from the knob body <NUM> to the assembly surface <NUM> of the present application, even if the knob assembly is transversely arranged, an internal structure of the knob assembly may be completely obscured by the cooperation of the first liquid blocking part <NUM> and the second liquid blocking part <NUM>, to enable the first liquid blocking part <NUM> and the second liquid blocking part <NUM> to still play a good effect of blocking the liquid when the knob assembly is transversely arranged. Therefore, the external liquid is prevented from entering into the mounting groove <NUM>, and the working environment and the service life of the knob assembly are ensured.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, the knob assembly further includes a third liquid blocking part <NUM>. Herein, the third liquid blocking part <NUM> is arranged on the knob base <NUM>. As shown in <FIG>, <FIG> and <FIG>, an extension direction of the third liquid blocking part <NUM> is different from an extension direction of the second liquid blocking part <NUM>. The second liquid blocking part <NUM> extends downward from the knob base <NUM>, the third liquid blocking part <NUM> extends upward from the knob base <NUM>, and the third liquid blocking part <NUM> is located between the display module <NUM> and the knob body <NUM>. In this way, the third liquid blocking part <NUM> may block the liquid between the knob body <NUM> and the display module <NUM>.

Specifically, as shown in <FIG> and <FIG>, the knob body <NUM> serves as a rotating structure of the knob assembly, and the display module <NUM> serves as a fixing structure of the knob assembly. Therefore, there is a certain gap between the knob body and the display module, to ensure the smooth rotation of the knob body <NUM>. During the use of the knob body <NUM>, the liquid may enter into the gap. Therefore, the third liquid blocking part <NUM> is arranged between the display module <NUM> and the knob body <NUM>, and is configured to block said liquid from entering a position where the display module <NUM> is located, to ensure the environment of the display module <NUM> and the service life of the display module <NUM>.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the knob assembly further includes a lid plate <NUM> and a fourth liquid blocking part <NUM>. Herein, the lid plate <NUM> is capped on the display module <NUM>, to enable the lid plate to play a certain role of protecting the display module <NUM>. Therefore, on the one hand, the display module <NUM> is prevented from being bumped, and on the other hand, the water is prevented from entering the display module <NUM>. In addition, the lid plate <NUM> may be decorated with patterns or colors, to ensure a final presentation state of the light emitted from the display module <NUM>.

Further, the fourth liquid blocking part <NUM> is arranged at a peripheral edge of the lid plate <NUM>, and is located between the third liquid blocking part <NUM> and the knob body <NUM>. In particular, an extension direction of the fourth liquid blocking part <NUM> is different from an extension direction of the third liquid blocking part <NUM>. The third liquid blocking part <NUM> is arranged on the knob base <NUM> and extends upward from the knob base, and the fourth liquid blocking part <NUM> is arranged on the lid plate <NUM> and extends downward from the lid plate. In this way, two waterproof structures may be formed between the knob body <NUM> and the display module <NUM> by the cooperation of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM>, to further improve the waterproof effect of the display module <NUM> and realize all-round waterproofness of the display module.

In the knob assembly provided by the embodiment of the application, further, the fourth liquid blocking part <NUM> is arranged at a peripheral edge of the lid plate <NUM>. A gap <NUM> is formed between the fourth liquid blocking part <NUM> and the knob body <NUM>. The gap <NUM> ensures that there is no direct contact between the knob body <NUM> and the lid plate <NUM>, and that there is no friction between the knob body <NUM> and the lid plate <NUM> when the knob body <NUM> is rotated. In addition, the gap <NUM> is in communication with the liquid discharging cavity <NUM>. In this way, the liquid flowing into the gap <NUM> may directly enter into the liquid discharging cavity <NUM> when the knob assembly is in use. Therefore, the liquid flowing into the gap does not flow and spread everywhere, and is finally discharged through the liquid discharging part <NUM>, to ensure the working environment and the service life of the display module <NUM> and of other control module <NUM>.

Specifically, the assembly member <NUM> and the display module <NUM> of the knob assembly serve as the fixing structure of the knob assembly, and the knob body <NUM> serves as the rotating structure of the knob assembly. The gap <NUM>, the liquid discharging cavity <NUM> and the liquid discharging part <NUM> constitute a flow channel. The flow channel is formed between the fixing structure and the rotating structure of the knob assembly, isolated from the display module <NUM> and the control module <NUM> of the knob assembly, and located on an outer periphery of the display module <NUM> and an outer periphery of the control module <NUM>. In this way, the design of the flow channel on the one hand ensures the smooth rotation of the knob body <NUM>, and on the other hand, ensures the effect of discharging the liquid of the knob assembly. In addition, the above effect may be realized without additional complex structures, which facilitates processing and manufacturing, and is also beneficial for realization of the most simplified design of the knob assembly.

In addition, the fourth liquid blocking part <NUM> extends toward an inner side of the liquid discharging cavity <NUM>, and is located inside the liquid discharging cavity <NUM>. In this way, the liquid entering the gap <NUM> formed between the lid plate <NUM> and the knob body <NUM> spreads along the fourth liquid blocking part <NUM>, and drips into the liquid discharging cavity <NUM> from an end of the fourth liquid blocking part <NUM>. Therefore, the liquid entering the gap <NUM> formed between the lid plate <NUM> and the knob body <NUM> is prevented from spreading to the position where the display module <NUM> is located.

In addition, the gap <NUM> is formed between the fourth liquid blocking part <NUM> and the knob body <NUM>. In this way, each of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM> is located between the liquid discharging cavity <NUM> and the display module <NUM>, and the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM> are configured to block the liquid between the liquid discharging cavity <NUM> and the display module <NUM>, and to further block the liquid entering into the liquid discharging cavity <NUM> from flowing to the display module <NUM>. Therefore, the service life of the display module <NUM> is ensured.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, each of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM> is an annular rib. The display module <NUM> is located in a space defined by the third liquid blocking part <NUM>. The third liquid blocking part <NUM> is located in a space defined by the fourth liquid blocking part <NUM>. The knob body <NUM> is located at an outer periphery of the fourth liquid blocking part <NUM>. In this way, there are at least two waterproof ribs, i.e., at least two waterproof structures, from the knob body <NUM> to the display module <NUM>. In addition, the knob assembly may be transversely arranged after being mounted to the electrical apparatus. Therefore, the design that each of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM> is an annular rib may ensure the waterproof effect of the knob assembly in all directions, and may realize the all-round waterproofness of the knob assembly.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, a distance from the fourth liquid blocking part <NUM> to the knob base <NUM> is less than a height of the third liquid blocking part <NUM> by which the third liquid blocking part <NUM> protrudes from the knob base <NUM>. That is, in the height direction of the knob assembly, a part of the third liquid blocking part <NUM> overlaps with a part of the fourth liquid blocking part <NUM>. In this way, when viewed from the lateral side of the knob assembly, the display module <NUM> is completely isolated, which effectively ensures the waterproof effect of the display module <NUM>.

In particular, as shown in <FIG>, the knob assembly may be transversely arranged when it is in use. In this case, thanks to the design of the protruding height of the third liquid blocking part <NUM> and the distance from the fourth liquid blocking part <NUM> to the knob base <NUM> of the present application, even if the knob assembly is transversely arranged, the display module <NUM> may be completely obscured by the cooperation of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM>, to enable the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM> to still play a good effect of blocking the liquid when the knob assembly is transversely arranged. Therefore, the external liquid is prevented from entering the position where the display module <NUM> is located, and the working environment and the service life of the display module <NUM> are ensured.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, <FIG>, the knob assembly further includes a module support <NUM>. The module support <NUM> is arranged on the control module <NUM>, and the display module <NUM> is arranged on the module support <NUM>, to ensure the stable mounting of the display module <NUM>. In addition, the fourth liquid blocking part <NUM> is provided with a first snap <NUM>, and a lid body of the lid plate may be mounted on the module support <NUM> by the first snap <NUM>, to ensure the stable connection of the lid body. In addition, the first snap <NUM> is arranged to enable the fourth liquid blocking part <NUM> to have the functions of blocking the liquid and mounting the lid body. Therefore, the separate design of a drainage structure, a liquid blocking structure and a mounting structure is avoided, the overall structure of the knob assembly is simplified, and the miniaturization design of the knob assembly is realized.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, <FIG>, the module support <NUM> is provided with a flange <NUM>. The flange <NUM> is capped above the third liquid blocking part <NUM>, and is at least located between the third liquid blocking part <NUM> and the knob body <NUM>. In this way, as shown in <FIG>, the cooperation of the flange <NUM> and the third liquid blocking part <NUM> may further improve the waterproof effect of the knob assembly, in particular to prevent the external liquid from flowing to the display module <NUM> through the third liquid blocking part <NUM>. In addition, the first snap <NUM> is connected to the flange <NUM>, to enable the flange <NUM> to have the functions of mounting the lid plate <NUM> and blocking the liquid.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, the knob body <NUM> is provided with a second snap <NUM>, to allow the knob body <NUM> to be mounted on the knob base <NUM> by the second snap <NUM>, to ensure the stable mounting of the knob body <NUM>. In this way, the user may rotate a rotating part <NUM> of an encoder <NUM> by the knob body <NUM> and the knob base <NUM>, and then select a corresponding procedure. In addition, the third liquid blocking part <NUM> has the functions of blocking the liquid and mounting the knob body <NUM>.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG>, the knob base <NUM> is an annular base, and is located at an outer periphery of the module support <NUM> and an outer periphery of the display module <NUM>. The liquid discharging cavity <NUM> is an annular cavity, and is located at the outer periphery of the module support <NUM> and the outer periphery of the display module <NUM>. In this way, when the knob assembly is transversely arranged on the electrical apparatus, the liquid entering one side of the knob assembly may flow to another side of the knob assembly under the action of gravity, and finally may be discharged from the another side.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, the knob assembly further includes a main control panel <NUM>, an encoder <NUM> and a lead <NUM>. Herein, the lead <NUM> is electrically connected to the main control panel <NUM> and the display module <NUM>. Herein, the main control panel <NUM> is arranged in the mounting groove <NUM>, and the encoder <NUM> is arranged on the main control panel <NUM> and electrically connected to the main control panel <NUM>. The encoder <NUM> includes a rotating part <NUM> and a fixing part <NUM>. The knob base is arranged on the rotating part <NUM>, and the knob body <NUM> is arranged on the knob base <NUM>, to ensure the rotation of the knob body <NUM>. The module support <NUM> is arranged on the fixing part <NUM>, and the display module <NUM> is arranged on the module support <NUM>, to ensure the fixed connection of the display module <NUM>. In addition, the lead <NUM> is connected to the main control panel <NUM> and the display module <NUM>, to ensure the signal transmission between the main control panel <NUM> and the display module <NUM>. Therefore, the display module <NUM> may display the parameter information corresponding to the signal.

In the knob assembly provided by the embodiment of the application, further, as shown in <FIG> and <FIG>, a display support <NUM> is arranged on the module support <NUM>. A display panel <NUM> is arranged on a side of the display support <NUM> facing toward the module support <NUM>. The display panel <NUM> is electrically connected to the main control panel <NUM> by the lead <NUM>. A display film <NUM> is arranged on a side of the display support <NUM> away from the module support <NUM>. The display support <NUM> is provided with a light guide hole, and the display film <NUM> is provided with characters or patterns. When a procedure is selected, a light emitting diode arranged on the display panel <NUM> is illuminated, and is displayed through the display support <NUM> and the display film <NUM>.

The embodiment of the application provides an electrical apparatus, which includes the knob assembly according to any one of the above embodiments.

The electrical apparatus provided by the embodiment of the present application includes the knob assembly according to any one of the above embodiments. Therefore, all the beneficial effects based on the above electrical apparatus will not be discussed one by one herein.

As shown in <FIG> and <FIG>, specifically, in the embodiments, the knob assembly includes an assembly member <NUM>, a main control panel <NUM>, an encoder <NUM>, a module support <NUM>, a display module <NUM>, a knob base <NUM>, a knob body <NUM>, a lid plate <NUM>, and the like. As shown in <FIG>, the assembly member <NUM> is provided with a mounting groove <NUM>, and the main control panel <NUM> and the encoder <NUM> are arranged in the mounting groove <NUM>. As shown in <FIG>, the encoder <NUM> includes a rotating part <NUM> and a fixing part <NUM>. The module support <NUM> is connected to the fixing part <NUM> of the encoder <NUM>, and the display module <NUM> is arranged on the module support <NUM>. The lid plate <NUM> is capped on the display module <NUM>, and is connected to the module support <NUM>. The knob base <NUM> is connected to the rotating part <NUM> of the encoder <NUM>. The knob body <NUM> is arranged on the knob base <NUM>, and is located outside the display module <NUM>. In addition, as shown in <FIG>, <FIG>, and <FIG>, the knob body <NUM> and the knob base <NUM> define a liquid discharging cavity <NUM>. A gap <NUM> is formed between a peripheral edge of the lid plate <NUM> and the knob body <NUM>. A liquid discharging part <NUM> is formed between the knob base and the knob body <NUM>. Each of the gap <NUM> and the liquid discharging part <NUM> is in communication with a respective one of two opposite sides of the liquid discharging cavity <NUM> (specifically, the gap <NUM> is in communication with a side of the two opposite sides which is located above the liquid discharging cavity <NUM>, and the liquid discharging part <NUM> is in communication with another side of the two opposite sides which is located below the liquid discharging cavity <NUM>).

In this embodiment, as shown in <FIG>, <FIG> and <FIG>, the gap <NUM>, the liquid discharging cavity <NUM> and the liquid discharging part <NUM> constitute a flow channel. The flow channel is formed between a fixing structure and a rotating structure of the knob assembly, isolated from the display module <NUM> and the control module <NUM> of the knob assembly, and located on an outer periphery of the display module <NUM> and an outer periphery of the control module <NUM>. In this way, the design of the flow channel on the one hand ensures the smooth rotation of the knob body <NUM>, and on the other hand, ensures the effect of discharging the liquid of the knob assembly. In addition, the above effect may be realized without additional complex structures, which facilitates processing and manufacturing, and is also beneficial for realization of the most simplified design of the knob assembly.

In this embodiment, as shown in <FIG>, <FIG> and <FIG>, an assembly surface <NUM> of the assembly member <NUM> is provided with a first liquid blocking part <NUM>. When the assembling of the knob assembly is completed, the first liquid blocking part <NUM> is located between the knob body <NUM> and the control module <NUM>, and is configured to block the liquid between the knob body <NUM> and the control module <NUM>. Therefore, the external liquid is prevented from entering into the mounting groove <NUM>, which ensures the surrounding environment of the control module <NUM>, and prevents the damage of the control module <NUM> caused by the entry of the liquid.

Further, as shown in <FIG>, <FIG> and <FIG>, the knob base <NUM> extends toward a peripheral side, and is capped on the first liquid blocking part <NUM>. An edge of the knob base <NUM> is provided with a second liquid blocking part <NUM>, the knob body <NUM> is located at an outer periphery of the second liquid blocking part <NUM>, and the liquid discharging part <NUM> is formed between the second liquid blocking part <NUM> and the knob body <NUM>. In this way, each of the first liquid blocking part <NUM> and the second liquid blocking part <NUM> is arranged between the liquid discharging part <NUM> and the mounting groove <NUM>, to allow the first liquid blocking part <NUM> and the second liquid blocking part <NUM> to simultaneously exist between the liquid discharging part <NUM> and the mounting groove <NUM>. Two waterproof structures may be formed by the cooperation of the first liquid blocking part <NUM> and the second liquid blocking part <NUM>, to prevent the liquid discharged from the liquid draining portion <NUM> and the external liquid from entering into the mounting groove <NUM>, which ensures the safety of use of the control module <NUM> arranged in the mounting groove <NUM>.

In this embodiment, further, as shown in <FIG>, <FIG> and <FIG>, the knob base <NUM> is provided with a third liquid blocking part <NUM>. The third liquid blocking part <NUM> extends upward from the knob base <NUM>, and is located between the display module <NUM> and the knob body <NUM>. In this way, the third liquid blocking part <NUM> may block the liquid between the knob body <NUM> and the display module <NUM>, and in particular may block the liquid inside the liquid discharging cavity <NUM> from entering a position where the display module <NUM> is located, to ensure the environment of the display module <NUM> and the service life of the display module <NUM>.

Further, as shown in <FIG>, <FIG> and <FIG>, a peripheral edge of the lid plate <NUM> is provided with a fourth liquid blocking part <NUM>. The gap <NUM> is formed between the fourth liquid blocking part <NUM> and the knob body <NUM>, and the fourth liquid blocking part <NUM> is located between the third liquid blocking part <NUM> and the gap <NUM>. In this way, two waterproof structures may be formed between the gap <NUM> and the display module <NUM> by the cooperation of the third liquid blocking part <NUM> and the fourth liquid blocking part <NUM>, to further improve the waterproof effect of the display module <NUM>, realize the all-round waterproofness of the display module, and ensure the service life of the display module <NUM>.

In addition, as shown in <FIG>, <FIG> and <FIG>, the fourth liquid blocking part <NUM> extends from the gap <NUM> toward an interior of the liquid discharging cavity <NUM>, to enable the fourth liquid blocking part <NUM> to serve as a drainage rib. In this way, the liquid entering the gap <NUM> formed between the lid plate <NUM> and the knob body <NUM> spreads along the fourth liquid blocking part <NUM>, and drips into the liquid discharging cavity <NUM> from an end of the fourth liquid blocking part <NUM>. Therefore, the liquid entering the gap <NUM> formed between the lid plate <NUM> and the knob body <NUM> is prevented from spreading to the position where the display module <NUM> is located.

Specifically, at present, a control panel of most washing machines in a market generally has three areas: a display area, a button and a knob. Due to the increasing functions of the washing machine, the operation methods of the washing machines become increasingly diversified and complex. Most knobs are ordinary plastic knobs, which are intended to select a procedure and have a single function and appearance. With the improvement of quality of life and aesthetic requirements by people, there is a need for the knobs to improve their functionality, simplify their operation, and have breakthrough appearances.

In order to meet the requirements of simplifying an operation method and an operation interface and increasing the practicability and aesthetics of the knobs, the embodiment of the application designs a knob assembly, which is integrated with a display function and a procedure selection function. The appearance of the knob assembly is novel, and the operation of the knob assembly is simple.

As shown in <FIG>, the knob assembly includes an encoding switch and a lid plate <NUM>. The encoding switch includes a rotating portion (the knob base <NUM>, the knob body <NUM> and a knob decorative member <NUM>), the encoder <NUM> and its main control panel <NUM>, and a fixing display portion (the display module <NUM>, the module support <NUM> and the lid plate <NUM>). The display module <NUM> includes a display panel <NUM>, a display support <NUM>, and a display film <NUM>. The encoder <NUM> acts as an intermediary to associate the rotating portion with the fixing display portion.

Specifically, as shown in <FIG>, the encoder <NUM> is mounted on the main control panel <NUM>, and the encoder and the main control panel are welded together by stitch welding. The rotation of the encoder <NUM> triggers the procedure of the main control panel <NUM>. As shown in <FIG> and <FIG>, the knob base <NUM> is fixed to the rotating part <NUM> of the encoder <NUM> by a fifth snap <NUM> distributed in a circumferential direction of the knob base <NUM>. As shown in <FIG>, the knob body <NUM> is fixed to the knob base <NUM> by a second snap <NUM> of the knob body which is located on inner side of the knob body. As shown in <FIG>, <FIG>, and <FIG>, the knob decorative member <NUM> functions to indicate the procedure, and is fixed to the knob body <NUM> by a third snap <NUM>. As shown in <FIG>, the module support <NUM> is fixed to the fixing part <NUM> of the encoder <NUM> by a fourth snap <NUM> distributed in a circumferential direction of the module support. The entire portion of the module support is stationary. In this way, the display portion is stationary when the knob body <NUM> is rotated. As shown in <FIG>, the display module <NUM> is arranged on the module support <NUM>. The display panel <NUM> is mounted on a back surface of the display support <NUM>, and is fixed to the back surface of the display support <NUM> by sealing glue. The display film <NUM> is adhered to a front surface of the display support <NUM>. The display film <NUM> is printed with characters or patterns to be displayed. When the procedure is selected, the light emitting diode of the display panel <NUM> is illuminated, and is displayed through the display support <NUM> and the display film <NUM>. The lid plate <NUM> is capped on the display module <NUM>, and is mounted on the module support <NUM> by the first snap <NUM>. Specifically, the first snap <NUM> is arranged on the fourth liquid blocking part <NUM>, to enable the fourth liquid blocking part <NUM> to have the functions of drainage, liquid blocking, and mounting and fixing. The lid plate <NUM> is generally decorated with patterns or colors. The state in which the light emitted from the display module <NUM> is finally presented on the knob assembly is ensured.

In particular, people have been troubled by the influence of water entering into such appearance element or water vapor condensation on a circuit and display. Therefore, the embodiments of the application improve the water discharging property and water blocking property of the knob assembly.

Herein, as shown in <FIG>, <FIG>, and <FIG>, water flow may enter the interior of the knob assembly through the gap <NUM> between the lid plate <NUM> arranged on a front of the knob assembly and the knob body <NUM>, or through the gap <NUM> between the assembly member <NUM> and the knob body <NUM>. In the embodiment of the application, the fourth liquid blocking part <NUM> is arranged at an edge of the lid plate <NUM>, and the third liquid blocking part <NUM> cooperating with the fourth liquid blocking part <NUM> is arranged on the knob base <NUM>, to reduce a possibility that water flow enters the interior of the knob assembly from a front surface of the knob assembly. In addition, multiple liquid discharging parts <NUM> are distributed around the knob base <NUM>, to guide water flow to flow out of the multiple liquid discharging parts <NUM>. In addition, the second liquid blocking part <NUM> arranged on the knob base <NUM> and the first liquid blocking part <NUM> arranged on the assembly member <NUM> also block the water flow originating from an external side surface of the knob assembly from entering the interior of the knob assembly.

In the embodiments of the application, the knob assembly realizes the effect of integrating the procedure selection function and the display function, thus the display area of the electrical apparatus to which the knob assembly is applied is reduced, and the original display area has more design space. The waterproofness and drainage property of the knob assembly are effectively ensured by improving the internal structure of the knob assembly (the first liquid blocking part <NUM>, the second liquid blocking part <NUM>, the third liquid blocking part <NUM>, the fourth liquid blocking part <NUM> and the liquid discharging part <NUM>).

In the application, the term "multiple" means two or more, unless expressly defined otherwise. The terms "mounted", "connected", "connection", "fixed" and the like shall be understood in a broad sense. For example, "connection" may be a fixed connection, a detachable connection, or an integral connection, and "connected" may be directly connected, or indirectly connected through an intermediary. The specific meanings of the above terms in the application may be understood according to the specific situations for those skilled in the art.

Claim 1:
A knob assembly, comprising: an assembly member (<NUM>) comprising a mounting groove (<NUM>) and a first liquid blocking part (<NUM>), the first liquid blocking part (<NUM>) being located at an outer periphery of the mounting groove (<NUM>); a control module (<NUM>) arranged in the mounting groove (<NUM>); a display module (<NUM>) electrically connected to the control module (<NUM>); a knob base (<NUM>) connected to the control module (<NUM>); a knob body (<NUM>) arranged on the knob base (<NUM>) and located at an outer periphery of the control module (<NUM>), the knob body (<NUM>) and the knob base (<NUM>) defining a liquid discharging cavity (<NUM>); and a liquid discharging part (<NUM>) arranged on the knob base (<NUM>), the liquid discharging part (<NUM>) being in communication with the liquid discharging cavity (<NUM>) and configured to discharge a medium in the liquid discharging cavity (<NUM>), the first liquid blocking part (<NUM>) being located between the liquid discharging part (<NUM>) and the mounting groove (<NUM>), further comprising:
a second liquid blocking part (<NUM>) arranged on the knob base (<NUM>) and located between the first liquid blocking part (<NUM>) and the liquid discharging part (<NUM>).