HAIR REMOVER

A hair remover is provided, including a main body, a positioning member, a mounting member and a blade assembly. The positioning member is mounted on the main body. The mounting member has one end connected to the blade assembly and one other end received in the positioning member and movably connected thereto. The mounting member defines a receiving chamber. At least one through hole communicating with the receiving chamber is defined on a periphery of the mounting member. The mounting member is slidable to enable the positioning member to completely cover the through hole.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present disclosure claims priority to Chinese Patent Application No. 202111341100.7, filed Nov. 12, 2021, which is hereby incorporated by reference herein as if set forth in its entirety.

TECHNICAL FIELD

The present disclosure relates to relates to the technical field of personal care products, in particular to a hair remover.

BACKGROUND

Electronic hair remover is a common personal care product, which is used by consumers to remove body hair. The electric hair remover is provided under a blade with a receiving groove for collecting body hair scraps. It is necessary to disassembly or open the blade assembly of the electric hair remover for cleaning of the receiving groove, which is troublesome.

In order to solve the above problem, for example, Chinese patent No. 201010290604.6 provides a nose hair trimmer provided with a structure with which an internal chamber X can be cleaned without disassembling or opening the blade unit12. Specifically, a main body11is provided with an outlet15ecommunicating with the internal chamber X, and a movable cover19configured to cover the outlet15eor uncover the outlet15e. As disclosed inFIGS.5(a) and5(b)in the aforementioned document, two cleaning modes are provided as follows.

A first mode is that water enters the internal chamber X through the blade unit12and finally exits the main body11from the outlet15e, thereby rushing the nose hair scraps away from the internal chamber X.

A second mode is that the blade unit12rotates to draw the water into the internal chamber X and finally discharge the water out of the main body11from the outlet15e, thereby rushing the nose hair scraps away from the internal chamber X.

The cleaning structure of the above nose hair trimmer has the following defects.

Firstly, only one outlet15eis provided, with merely one flow path for the water. Especially in the first mode, there is some dead corners of cleaning as it is difficult for the water to fill the entire internal chamber X, so that the nose hair scraps can not be completely rushed away from the internal chamber X.

Secondly, since the outlet15eis located at a bottom of the internal chamber X, and it is difficult for the user to see clearly the entire internal chamber X through the outlet15eto determine whether the nose hair scraps is completely rushed away from the internal chamber X.

SUMMARY

In order to solve the above problems, the present disclosure provides a hair remover which is convenient in cleaning.

The present disclosure is realized by the following technical schemes.

The present disclosure provides a hair remover including a main body, a positioning member, a mounting member and a blade assembly. The positioning member is mounted on the main body. The mounting member has one end connected to the blade assembly and one other end received in the positioning member and movably connected thereto. The mounting member defines a receiving chamber. At least one through hole communicating with the receiving chamber is defined on a periphery of the mounting member. The mounting member is slidable to enable the positioning member to completely cover the through hole.

In an embodiment, a tapered boss protrudes from a bottom of the receiving chamber.

In an embodiment, the receiving chamber is further provided with a stopper ring fixedly connected to the mounting member. The main body is provided with a motor with a drive shaft. The drive shaft sequentially passes through the tapered boss and the stopper ring to connect with the blade assembly in a transmission manner.

In an embodiment, the blade assembly includes a cutter and a cover. The cutter is movably received in the cover and abuts against the stop ring. One end of the drive shaft away from the motor is engaged with the cutter.

In an embodiment, a snap is provided in the cover, a groove is provided on the periphery of the mounting member, and the snap is engaged with the groove.

In an embodiment, a first sliding slot is provided on the periphery of the mounting member and extends vertically. Both ends of the first sliding slot are recessed inwardly to form a first limiting hole and a second limiting hole. The positioning member is provided with a first sliding block movably received in the first sliding slot. The first sliding block is slidable to engage with the first limiting hole or the second limiting hole.

In an embodiment, a third limiting hole is defined on the periphery of the mounting member and communicates with the first limiting hole. A first limiting plate is provided at a connection between the third limiting hole and the first limiting hole. The first sliding block is slidable to engage with the third limiting hole.

In an embodiment, a second sliding slot and a third sliding slot are defined on the periphery of the mounting member. The second sliding slot extends horizontally. The third sliding slot extends to form a notch at an end of the mounting member. The third sliding slot communicates with the second sliding slot, and the second sliding slot communicates with the second limiting hole. A second limiting plate is provided at a connection between the second sliding slot and the second limiting hole.

In an embodiment, a fourth sliding slot is defined on a periphery of the main body and extends horizontally. A second sliding block is provided in the positioning member and movably received in the fourth sliding slot. At least one fourth limiting hole is formed in the fourth sliding slot. The second sliding block slidable to engage with each of the at least one fourth limiting hole.

In an embodiment, a fifth sliding slot is defined on the periphery of the main body and communicates with the fourth sliding slot, and the fifth sliding slot extends to form a notch at an end of the main body.

The present disclosure has the following advantageous effects.

Three through holes are provided on the periphery of the mounting member of the hair remover according to the present disclosure. During cleaning, the blade assembly is slid to expose the through holes completely, and the receiving chamber can be washed with water in any direction to ensure that the body hair scraps are completely removed from the receiving chamber, and the entire receiving chamber can be seen by the user through the through holes.

DETAILED DESCRIPTION

For clearer and complete description to the technical schemes of the present disclosure, the present disclosure is described further with reference to the accompanying drawings.

Referring toFIGS.1to7, the present disclosure provides a hair remover, the hair remover includes a main body10, a positioning member20, a mounting member30, and a blade assembly40. The positioning member20is detachably mounted on the main body10. One end of the mounting member30is detachably connected to the blade assembly40, the other end of the mounting member30is received in the positioning member20and movably connected to the positioning member20. The mounting member30defines a receiving chamber31. At least one through hole32communicating with the receiving chamber31is defined on a periphery of the mounting member30. The mounting member30is slidable to enable the positioning member20to completely cover the through hole32.

In the present embodiment, three through holes32is provided, equidistantly arranged along the periphery of the mounting member30at a same height. The receiving chamber31is configured to collect body hair scraps caused by the blade assembly40. The mounting member30is movably connected to the positioning member20. The mounting member30is slidable and rotatable through the blade assembly40. For example, the mounting member30is slidable in a direction away from the positioning member20for completely exposing the through holes32, and the mounting member30is slidable in a direction close to the positioning member20for completely covering the through holes32with the positioning member20. When it is required to remove the body hair scraps from the receiving chamber31, the blade assembly40is slid to expose the through holes32completely. In this way, the receiving chamber31can be washed with water in any direction to ensure that the body hair scraps are completely removed from the receiving chamber31, and the entire receiving chamber31can be seen by the user through the through holes32.

In this embodiment, during removing of the body hair scraps from the receiving chamber31, the blade assembly40is slid to completely expose the through hole32, the hair remover is held slantly or horizontally, the body hair scraps accumulated in the receiving chamber31are first washed with water away from the receiving chamber31via the through holes32. Then, the blade assembly40is washed with water to make the body hair scraps remaining in the blade assembly40to enter the receiving chamber31and finally be washed with water away from the receiving chamber31via the through hole32.

Further, a tapered boss33aprotrudes from a bottom of the receiving chamber31.

In this embodiment, during removing of the body hair scraps from the receiving chamber31, the tapered boss33disperses the water flow so that the water sufficiently washes the inner wall of the receiving chamber31, resulting in a better cleaning effect.

Further, the receiving chamber31is further provided with a stopper ring34fixedly connected to the mounting member30. The main body10is provided with a motor (not shown), the motor is provided with a drive shaft12sequentially passing through the tapered boss33and the stopper ring34to connect with the blade assembly40in a transmission manner.

Further, the blade assembly40includes a cutter41and a cover42. The cutter41is movably received in the cover42and abuts against the stopper ring34. One end of the drive shaft12away from the motor is engaged with the cutter41.

In this embodiment, the cutter41abuts against the stopper ring34, by which the cutter41is limited within the cover42. The end of the drive shaft12away from the motor is engaged with the cutter41to enable the motor to drive the cutter41to rotate through the drive shaft12.

Further, a snap43is provided in the cover42, a groove35is provided on the periphery of the mounting member30, and the snap43is engaged with the groove35.

In this embodiment, with engagement of the snap43with the groove35, the blade assembly40and the mounting member30are detachably connected. The blade assembly40is detachable from the mounting member30manually, thereby facilitating replacement of the cutter41by a user.

Further, a first sliding slot36is provided on the periphery of the mounting member30and extends vertically, and both ends of the first sliding slot36are recessed inwardly to form a first limiting hole37and a second limiting hole38, The positioning member20is provided with a first sliding block21movably received in the first sliding slot36. The first sliding block21is slidable to engage with the first limiting hole37or the second limiting hole38.

In this embodiment, when the first sliding block21is received in the first sliding slot36, the mounting member30is driven to slide in a direction away from the positioning member20by pulling the blade assembly40, or in a direction close to the positioning member20by pressing the blade assembly40. The through holes32are completely covered by the positioning member20when the first sliding block21slides into engagement with the first limiting hole37, or completely exposed when the first sliding block21slides into engagement with the second limiting hole38to uncover the through holes32.

Further, a third limiting hole39is defined on the periphery of the mounting member30and communicates with the first limiting hole37. A first limiting plate391is provided at a connection between the third limiting hole39and the first limiting hole37. The first sliding block21is slidable to engage with the third limiting hole39.

In this embodiment, the mounting member30is rotatable relative to the positioning member20with rotation of the blade assembly40. After the first sliding block21slides into engagement with the first limiting hole37, the blade assembly40is rotated clockwise to rotate the mounting member30, so that the first sliding block21is slid over the first limiting plate391to engage with the third limiting hole39. In this way, the mounting member30is prevented from sliding in a direction away from or near the positioning member20.

Further, a second sliding slot392and a third sliding slot393are defined on the periphery of the mounting member30. The second sliding slot392extends horizontally. The third sliding slot393extends to form a notch at an end of the mounting member30. The third sliding slot393communicates with the second sliding slot392, and the second sliding slot392communicates with the second limiting hole38. A second limiting plate394is provided at a connection between the second sliding slot392and the second limiting hole38.

In this embodiment, after the first sliding block21slides into engagement with the second limiting hole38, the blade assembly40is rotated counterclockwise, the blade assembly40is rotated to rotate the mounting member30, so that the first sliding block21slides over the second limiting plate394to enter the second sliding slot392. The blade assembly40is further rotated counterclockwise to enable the first sliding block21to slide into contact with a side wall of the second sliding slot392. Then, the blade assembly40is pulled to enable the mounting member30to slide away from the positioning member20, so that the first sliding block21slides into the third sliding slot393and then exits the third sliding slot393. In this way, the mounting member30is finally detached from the positioning member20.

Further, a fourth sliding slot13is defined on a periphery of the main body10and extends horizontally. A second sliding block22is provided in the positioning member20and movably received in the fourth sliding slot13. At least one fourth limiting hole14is formed in the fourth sliding slot13, and the second sliding block22is slidable to engage with each fourth limiting hole14.

Further, a fifth sliding slot15is defined on the periphery of the main body10and communicates with the fourth sliding slot13. The fifth sliding slot15extends to form a notch at an end of the main body10.

In this embodiment, two fourth limiting holes14are provided. When the second sliding block22slides into engagement with one of the fourth limiting holes14, the positioning member20is prevented from sliding in a direction away from or close to the main body10.

In this embodiment, when the second sliding block22slides to a connection between the fourth sliding slot13and the fifth sliding slot15, the positioning member20is manually pulled to enable the second sliding block22to enter the fifth sliding slot15and then exit the fifth sliding slot15. In this way, the positioning member20is finally detached from the main body10.

It should be appreciated that the present disclosure may have various embodiments, and other embodiments obtained by those skilled in the art based on the embodiment in the present description without any creative effort fall within the protection scope of the present disclosure.