Patent Description:
Gas water heaters generally exhaust fume through connected fume exhaust hood and fume exhaust pipe, while the fume exhaust hood and the exhaust pipe of related gas water heaters are two independent parts. When the water heaters are produced and assembled, workers need to install and fix the fume exhaust hood with the fume exhaust pipe, resulting in complicated assembly procedures and low product production efficiency. <CIT> discloses a flue assembly of a water heater and the water heater. The flue assembly defines a channel allowing smoke to flow. The channel is provided with flue inlets and a flue outlet and comprises a main body section and a contracted section, wherein one end of the main body section communicates with the flue inlets, the contracted section is provided with a first end and a second end, the first end communicates with the other end of the main body section, the second end communicates with the smoke outlet, the width of the first end is W1, and the width of the second end is W2; in a cross section perpendicular to the smoke flowing direction, the cross sectional area of the first end is S1, and the cross sectional area of the second end is S2; and W1 is larger than W2, and S1 is equal to S2. <CIT> discloses a condensing boiler with a heat exchanger having a smoke gas and condensate collector and a device for making the smoke gas and condensate collector. The heater has an exhaust gas and condensate collecting bath passing directly through a channel in its side wall to the exhaust connection. <CIT> discloses a boiler comprising a housing made of polypropylene material, wherein the housing comprises a fume exhaust hood and fume exhaust pipe.

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

Therefore, one object of this application is to provide a fume exhaust assembly that can improve production efficiency of a gas water heater.

Another object of this application is to provide a gas water heater including the above-mentioned fume exhaust assembly.

To achieve the above object, the invention provides a fume exhaust assembly, which is defined in claim <NUM>.

In this solution, according to the invention the fume exhaust pipe and the fume exhaust hood are integrally formed. This design eliminates the assembly work of the fume exhaust pipe and the fume exhaust hood, simplifies the assembly process of the gas water heaters, and improves the production efficiency of the gas water heaters.

The fume exhaust pipe and the fume exhaust hood are preferably formed integrally by injection molding.

In this solution, both the fume exhaust pipe and the fume exhaust hood may be made of plastic materials, and the fume exhaust pipe and the fume exhaust hood are integrated by injection molding, so that the production process of the fume exhaust assembly is simple and the production cost of the fume exhaust assembly is low.

In any of the above technical solutions, an interior of the fume exhaust hood is provided with a cavity, a bottom of the cavity is open, and the fume exhaust pipe is arranged at a top of the fume exhaust hood and is in communication with the cavity.

The fume exhaust assembly further includes a condensed water collection box, and the fume exhaust hood is mounted on a top of the condensed water collection box.

The fume exhaust assembly provided by the invention further includes a condensed water collection box. The fume exhaust hood and a heat exchanger of the gas water heater are installed on a top of the condensed water collection box. The fume formed after the combustion of the air and gas mixture enters the heat exchanger first, and the temperature of the fume decreases and a certain amount of condensate is produced after the heat exchange between the fume and the heat exchanger. Then the fume and the condensed water enter the condensed water collection box through the air outlet of the heat exchanger, and then the condensed water is drained from a water outlet at a bottom of the condensed water collection box, while the fume will enter the fume exhaust hood from the condensed water collection box, then enter the fume exhaust pipe from the fume exhaust hood, and then discharged through the fume exhaust pipe.

In any of the above technical solutions, the condensed water collection box includes a box body bottom wall and a box body side wall extending upward from an edge of the box body bottom wall, the top of the condensed water collection box is provided with an opening, and a bottom of the fume exhaust hood is connected to a top of the box body side wall.

In this solution, the condensed water collection box is a box with an open top, so that the condensed water collection box has a simple structure and low production and processing difficulty.

In any of the above technical solutions, optionally, the bottom of the fume exhaust hood is connected to the top of the box body side wall by screws.

In this solution, the fume exhaust hood is installed on the condensed water collection box by screws, so that the fume exhaust hood and the condensed water collection box has high reliability in connection and fixation, and the fume exhaust hood and the condensed water collection box are not prone to loosening. Specifically, one of the bottom of the fume exhaust hood and the top of the box body side wall is provided with a stud, and the other is provided with a connection hole. When the fume exhaust hood is installed on the condensed water collection box, the stud is aligned with the connection hole and fixed by screws.

The box body bottom wall is provided with a support portion including a stud and a support protrusion, the fume exhaust hood is provided with a rib at a side of the bottom of the fume exhaust hood close to the support portion, the rib defines a through hole, the rib is abutted against a top of the support protrusion, the through hole is opposite to the stud, a heat exchanger of the gas water heater is connected to the stud by a screw, so that the rib is pressed and fixed on the support protrusion.

In related art, the fume exhaust hood and the heat exchanger are installed on the top of the condensed water collection box, so that the fume exhaust hood, the heat exchanger and the condensed water collection box are communicated. The positions of the fume exhaust hood and the heat exchanger corresponding to the box body side wall are respectively fixedly connected to the box body side wall by screws, and it is necessary to arrange studs on the box body bottom wall for the fume exhaust hood and the heat exchanger respectively, so that the parts of the fume exhaust hood and the heat exchanger located above the box body bottom wall are respectively fixedly connected to the stud by a screw. While a large number of screws are used in this fixing method, resulting in low production and assembly efficiency of gas water heaters. In this solution, the fixing method of the fume exhaust hood is changed. A support protrusion and a stud are arranged on a box body bottom wall of a condensed water collection box, and a rib is arranged on a side of the fume exhaust hood close to the stud. When assembling the fume exhaust hood, the heat exchanger, and the condensed water collection box, first install the fume exhaust hood on the condensed water collection box. A position of the fume exhaust hood corresponding to a box body side wall of a condensed water collection box is fixedly connected to the box body side wall by screws. The rib of the fume exhaust hood is abutted against the support protrusion on the box body bottom wall, and a through hole on the rib is aligned with the stud. After the fume exhaust hood is in place, install the heat exchanger on the condensed water collection box. A position of the heat exchanger corresponding to the box body side wall is fixedly connected to the box body side wall by screws. A part of the heat exchanger located above the box body bottom wall is connected to the stud by a screw, so that the rib is pressed and fixed on the support protrusion, thereby completing the assembly of the fume exhaust hood, the heat exchanger, and the condensed water collection box. This design reduces the number of screws, which can improve the production and assembly efficiency of gas water heaters.

In any of the above technical solutions, optionally, the top of the box body side wall is provided with an outwardly extended flange, and the bottom of the fume exhaust hood is connected to the flange by a screw.

In this solution, a flange is provided on the top of the box body side wall, and the fume exhaust hood is connected to the flange of the condensed water collection box by screws. This design can improve the reliability of the connection and fixation of the fume exhaust hood and the condensed water collection box.

The invention also provides a gas water heater, including the fume exhaust assembly provided by any one of the embodiments of the invention.

In the above technical solution, optionally, the gas water heater further includes a fan, a burner and a heat exchanger, where an air outlet of the fan is connected to an air inlet of the burner, an air outlet of the burner is connected to an air inlet of the heat exchanger, and an air outlet of the heat exchanger is connected to an air inlet of the fume exhaust assembly.

Optionally, the heat exchanger of the gas water heater is an integrated condensing heat exchanger consisting of a sensible heat exchanger and a latent heat exchanger. The sensible heat exchanger directly uses the heat generated by the combustion of the gas in the burner to heat water, and the latent heat exchanger exchanges heat with the fume generated by the combustion of the gas, and heats the water through the heat of the fume.

The additional aspects and advantages of the invention will become apparent in the following description, or be understood through the practice of this application.

In order to more clearly describe the technical solutions in the embodiments of this application or the related art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the related art. Obviously, the drawings in the following description are only some embodiments of this application. For those of ordinary skill in the art, without creative work, other drawings can be obtained according to the structures shown in these drawings.

The above and/or additional aspects and advantages of the invention will become obvious and easy to understand from the description of the embodiments in conjunction with the following drawings, in which:.

The corresponding relationship between the reference numerals and component names in <FIG> is as follows.

<NUM> fume exhaust hood, <NUM> fume exhaust pipe, <NUM> rib, <NUM> condensed water collection box, <NUM> box body bottom wall, <NUM> stud, <NUM> support protrusion, <NUM> water outlet, <NUM> box body side wall, <NUM> flange, <NUM> fan, <NUM> burner, <NUM> heat exchanger.

The realization of the object of this application, functional characteristics, and advantages will be further described in conjunction with the embodiments and with reference to the accompanying drawings.

The technical solutions in the embodiments of the invention will be described clearly and completely in conjunction with the drawings in the embodiments of this application.

It should be noted that if there is a directional indication (such as up, down, left, right, front, back. ) in the embodiment of this application, the directional indication is only used to explain the relative positional relationship, movement conditions, etc. among the components in a specific posture (as shown in the drawings), if the specific posture changes, the directional indicator also changes accordingly.

In addition, if there are descriptions related to "first", "second", etc. in the embodiments of this application, the descriptions of "first", "second", etc. are for descriptive purposes only, and cannot be understood as indicating or implying their relative importance or implicitly indicating the number of indicated technical features. Thus, the features defined as "first" and "second" may include at least one of the features either explicitly or implicitly. In addition, the technical solutions between the various embodiments can be combined with each other, but they must be based on the ability of those skilled in the art to realize. When the combination of technical solutions conflicts with each other or cannot be realized, it should be considered that the combination of such technical solutions does not exist , nor within the scope of protection required by this application.

Some embodiments of the invention provide a fume exhaust assembly, applied in a gas water heater. As shown in <FIG>, the fume exhaust assembly includes a fume exhaust hood <NUM>, and the fume exhaust hood <NUM> is provided with a fume exhaust pipe <NUM>, and the fume exhaust pipe <NUM> and the fume exhaust hood <NUM> are integrally formed.

In this solution, the fume exhaust pipe <NUM> and the fume exhaust hood <NUM> are integrally formed. This design eliminates the assembly work of the fume exhaust pipe <NUM> and the fume exhaust hood <NUM>, simplifies the assembly process of the gas water heaters, and improves the production efficiency of the gas water heaters.

In any of the above technical solutions, optionally, the fume exhaust pipe <NUM> and the fume exhaust hood <NUM> are formed integrally by injection molding.

In this solution, both the fume exhaust pipe <NUM> and the fume exhaust hood <NUM> are made of plastic materials, and the fume exhaust pipe <NUM> and the fume exhaust hood <NUM> are integrated by injection molding, so that the production process of the fume exhaust assembly is simple and the production cost of the fume exhaust assembly is low.

In any of the above technical solutions, the fume exhaust hood <NUM> is provided with a cavity, a bottom of the cavity is open, and the fume exhaust pipe <NUM> is arranged at a top of the fume exhaust hood <NUM> and is in communication with the cavity.

In any of the above technical solutions, the fume exhaust assembly further includes a condensed water collection box <NUM>, and the fume exhaust hood <NUM> is mounted on a top of the condensed water collection box <NUM>.

The fume exhaust assembly provided by this solution further includes a condensed water collection box <NUM>. The fume exhaust hood <NUM> and a heat exchanger <NUM> of the gas water heater are installed on a top of the condensed water collection box <NUM>. The fume formed after the combustion of the air and gas mixture enters the heat exchanger <NUM> first, and the temperature of the fume decreases and a certain amount of condensate is produced after the heat exchange between the fume and the heat exchanger <NUM>. Then the fume and the condensed water enter the condensed water collection box <NUM> through the air outlet of the heat exchanger <NUM>, and then the condensed water is drained from a water outlet <NUM> at a bottom of the condensed water collection box <NUM>, while the fume will enter the fume exhaust hood <NUM> from the condensed water collection box <NUM>, then enter the fume exhaust pipe <NUM> from the fume exhaust hood <NUM>, and then discharged through the fume exhaust pipe <NUM>.

In any of the above technical solutions, the condensed water collection box <NUM> includes a box body bottom wall <NUM> and a box body side wall <NUM> extending upward from an edge of the box body bottom wall <NUM>, the top of the condensed water collection box <NUM> is provided with an opening, and a bottom of the fume exhaust hood <NUM> is connected to a top of the box body side wall <NUM>.

In this solution, the condensed water collection box <NUM> is a box with an open top, so that the condensed water collection box <NUM> has a simple structure and low production and processing difficulty.

In any of the above technical solutions, optionally, the top of the box body side wall <NUM> is provided with an outwardly extended flange <NUM>, and the bottom of the fume exhaust hood <NUM> is connected to the flange <NUM> by a screw.

In this solution, the fume exhaust hood <NUM> is installed on the condensed water collection box <NUM> by screws, so that the fume exhaust hood <NUM> and the condensed water collection box <NUM> has high reliability in connection and fixation, and the fume exhaust hood <NUM> and the condensed water collection box <NUM> are not prone to loosening. Specifically, one of the bottom of the fume exhaust hood and the flange is provided with a stud, and the other is provided with a connection hole. When the fume exhaust hood is installed on the condensed water collection box, the stud is aligned with the connection hole and fixed by screws.

As shown in <FIG>, the box body bottom wall <NUM> is provided with a support portion including a stud <NUM> and a support protrusion <NUM>, the fume exhaust hood <NUM> is provided with a rib <NUM> at a side of the bottom of the fume exhaust hood <NUM> close to the support portion, the rib <NUM> defines a through hole, the rib <NUM> is abutted against a top of the support protrusion <NUM>, the through hole is opposite to the stud <NUM>, a heat exchanger <NUM> of the gas water heater is connected to the stud <NUM> by a screw, so that the rib <NUM> is pressed and fixed on the support protrusion <NUM>.

In related art, the fume exhaust hood and the heat exchanger are installed on the top of the condensed water collection box, so that the fume exhaust hood, the heat exchanger and the condensed water collection box are communicated. The positions of the fume exhaust hood and the heat exchanger corresponding to the box body side wall are respectively fixedly connected to the box body side wall by screws, and it is necessary to arrange studs on the box body bottom wall for the fume exhaust hood and the heat exchanger respectively, so that the parts of the fume exhaust hood and the heat exchanger located above the box body bottom wall are respectively fixedly connected to the stud by a screw. While a large number of screws are used in this fixing method, resulting in low production and assembly efficiency of gas water heaters. In this solution, the fixing method of the fume exhaust hood <NUM> is changed. A support protrusion <NUM> and a stud <NUM> are arranged on a box body bottom wall <NUM> of a condensed water collection box, and a rib <NUM> is arranged on a side of the fume exhaust hood <NUM> close to the stud <NUM>. When assembling the fume exhaust hood <NUM>, the heat exchanger <NUM>, and the condensed water collection box <NUM>, first install the fume exhaust hood <NUM> on the condensed water collection box <NUM>. A position of the fume exhaust hood <NUM> corresponding to a box body side wall <NUM> of a condensed water collection box is fixedly connected to the box body side wall <NUM> by screws. The rib <NUM> of the fume exhaust hood <NUM> is abutted against the support protrusion <NUM> on the box body bottom wall <NUM>, and a through hole on the rib <NUM> is aligned with the stud <NUM>. After the fume exhaust hood <NUM> is in place, install the heat exchanger <NUM> on the condensed water collection box <NUM>. A position of the heat exchanger <NUM> corresponding to the box body side wall <NUM> is fixedly connected to the box body side wall <NUM> by screws. A part of the heat exchanger <NUM> located above the box body bottom wall <NUM> is connected to the stud <NUM> by a screw, so that the rib <NUM> is pressed and fixed on the support protrusion <NUM>, thereby completing the assembly of the fume exhaust hood <NUM>, the heat exchanger <NUM>, and the condensed water collection box <NUM>. This design reduces the number of screws, which can improve the production and assembly efficiency of gas water heaters.

The gas water heater may be a fully premixed condensing gas water heater, as shown in <FIG>, the fully premixed condensing gas water heater includes a fan <NUM>, a burner <NUM>, a heat exchanger <NUM> and the fume exhaust assembly provided by any embodiment of the first aspect. An air outlet of the fan <NUM> is connected to an air inlet of the burner <NUM>, an air outlet of the burner <NUM> is connected to an air inlet of the heat exchanger <NUM>, and an air outlet of the heat exchanger <NUM> is connected to an air inlet of the fume exhaust assembly.

In the description of this application, it should be noted that the terms "top", "bottom", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, only for the convenience of describing the present application and simplify the description, rather than indicating or implying that the device or element referred to must have a specific orientation, be constructed and operate in a specific orientation, and therefore cannot be construed as limiting the present application. The terms "connected", "installed", "fixed", etc. should be understood in a broad sense. For example, "connected" can be a fixed connection, a detachable connection, or an integral connection; it can be directly connected or indirectly connected through an intermediary. For those of ordinary skill in the art, the specific meanings of the above-mentioned terms in this application can be understood according to specific circumstances.

In the description of this specification, the description referring to the terms "one embodiment", "some embodiments", "schematic embodiment", "example", "specific examples", or "some examples" means specific features, structures, materials or characteristics described in conjunction with the embodiment or examples are included in at least one embodiment or example of this application. In this specification, the schematic expression of the above terms does not necessarily refer to the same embodiment or example. Moreover, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Claim 1:
A fume exhaust assembly for a gas water heater, comprising a fume exhaust hood (<NUM>), wherein the fume exhaust hood (<NUM>) is provided with a fume exhaust pipe (<NUM>), wherein the fume exhaust pipe (<NUM>) and the fume exhaust hood (<NUM>) are integrally formed,
wherein an interior of the fume exhaust hood (<NUM>) is provided with a cavity, a bottom of the cavity is open, and the fume exhaust pipe (<NUM>) is arranged at a top of the fume exhaust hood (<NUM>) and is in communication with the cavity,
wherein the fume exhaust assembly further comprises a condensed water collection box (<NUM>), and the fume exhaust hood (<NUM>) is mounted on a top of the condensed water collection box (<NUM>),
wherein the condensed water collection box (<NUM>) comprises a box body bottom wall (<NUM>) and a box body side wall (<NUM>) extending upward from an edge of the bottom wall (<NUM>), the top of the condensed water collection box (<NUM>) is provided with an opening, and a bottom of the fume exhaust hood (<NUM>) is connected to a top of the box body side wall (<NUM>),
characterized in that the bottom wall (<NUM>) is provided with a support portion comprising a stud (<NUM>) and a support protrusion (<NUM>), the fume exhaust hood (<NUM>) is provided with a rib (<NUM>) at a side of the bottom of the fume exhaust hood (<NUM>) close to the support portion, the rib (<NUM>) is provided with a through hole, the rib (<NUM>) is abutted against a top of the support protrusion (<NUM>), the through hole is aligned with the stud (<NUM>), a heat exchanger (<NUM>) of the gas water heater is connected to the stud (<NUM>) by a screw, so that the rib (<NUM>) is pressed and fixed on the support protrusion (<NUM>).