Pet comb
By designing the combing and hair removal devices in the pet groomer, convenient and efficient hair cleaning is achieved, solving the problem of inconvenient hair removal with existing pet combs, and improving user experience and product practicality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 李晋琴
- Filing Date
- 2025-05-20
- Publication Date
- 2026-06-09
AI Technical Summary
Existing pet combs lack convenient and efficient hair removal functions, requiring users to manually pluck each hair from the comb teeth after combing. This process is cumbersome and time-consuming, affecting the combing effect and the lifespan of the comb.
A pet grooming device has been designed, which includes a grooming device and a hair removal device. By pressing the handle and the transmission rod together, the push plate is moved along the direction of the comb teeth, which gathers and pushes the hair attached between the comb teeth to the end of the comb teeth, making it easy to remove in one go.
It simplifies the hair cleaning process, improves convenience and efficiency, avoids the tedious operation of manually plucking each hair, and significantly enhances the user experience and practicality of pet combs.
Smart Images

Figure CN224330126U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of pet supplies technology, and in particular to a pet groomer. Background Technology
[0002] With the continuous growth of the pet-owning population and the booming pet market, pet grooming has become an important part of the daily lives of many pet owners. One common form of grooming is using a pet comb to brush their fur, which not only helps maintain the pet's cleanliness and health but also promotes bonding between the pet and its owner. However, cleaning the hair residue off the comb has always been a challenging issue in pet grooming. Current pet comb designs generally lack convenient and efficient hair-cleaning functions, requiring users to spend considerable time and effort cleaning the comb teeth after brushing. Typically, users can only manually pluck the hair attached to the comb teeth one by one, or use scissors, brushes, or other auxiliary tools to complete the cleaning. These methods are not only cumbersome and time-consuming but also easily damage the comb teeth, affecting the grooming effect and the lifespan of the pet comb. Utility Model Content
[0003] In view of this, the present invention proposes a pet grooming tool, which aims to solve the problem of the inconvenience of cleaning residual hair with existing pet combs.
[0004] This utility model discloses a pet grooming tool, including a first grooming tool and a handle, wherein the first grooming tool and the handle are detachably connected, and the first grooming tool includes a front shell, a rear shell, a grooming device, and a hair removal device; wherein...
[0005] The front shell and the rear shell enclose a cavity. The front shell is provided with a first through groove and a first through hole. The front shell is recessed toward the rear shell to form a mounting position for installing the combing device.
[0006] The combing device includes a base plate and a plurality of comb teeth. The base plate is connected to the front shell and located at the mounting position. The base plate is provided with a second through groove, the position of which corresponds to the position of the first through groove. One end of the comb teeth is connected to the base plate.
[0007] The hair removal device includes a pressing handle, a transmission rod, and a push plate. A rotating shaft is provided in the middle of the pressing handle. The pressing handle is connected to the front shell through the rotating shaft and can rotate around the rotating shaft. The bottom of the pressing handle extends out of the front shell through the first through hole. The top of the pressing handle is located in the cavity. One end of the transmission rod is connected to the top of the pressing handle. The other end of the transmission rod passes through the first through groove and the second through groove in sequence and is connected to the push plate. The push plate is located in front of the bottom plate and the two are arranged side by side. The push plate is provided with several second through holes. The other end of the comb teeth extends out of the push plate through the second through holes.
[0008] When the bottom of the pressing handle rotates backward, the top of the pressing handle rotates forward about the rotation axis to push the transmission rod, and through the transmission rod, drive the push plate to move forward along the comb teeth from one end of the comb teeth to the other end of the comb teeth.
[0009] In one possible implementation, the depilatory device further includes a connecting block and an elastic element. One end of the transmission rod is connected to the top of the pressing handle via the connecting block, one end of the elastic element is connected to the connecting block, and the other end of the elastic element is connected to the front housing. When the bottom of the pressing handle rotates backward, the top of the pressing handle pushes the connecting block forward to compress the elastic element. When the elastic element is in a reset state, the elastic element pushes the top of the pressing handle backward via the connecting block, while the bottom of the pressing handle rotates forward about the rotation axis. The elastic element also pulls the transmission rod backward via the connecting block, and the backward-moving transmission rod drives the push plate to move backward along the comb teeth from one end of the comb teeth to the other end of the comb teeth.
[0010] In one possible implementation, the front shell is further provided with a third through hole, and the first comber further includes a water spraying device. The water spraying device includes a water tank, a micro-orifice nozzle, a micro electric pump, and a control circuit. The water tank is connected to the micro electric pump and the micro-orifice nozzle respectively. The micro electric pump is also electrically connected to the control circuit. The water tank, the micro electric pump, and the control circuit are all located in the cavity, and the micro-orifice nozzle is connected to the third through hole.
[0011] In one possible implementation, the pet groomer further includes a second groomer, which is detachably connected to the handle.
[0012] The second comb includes a disc-shaped left and right rotating disc, a cylindrical left and right cover, a hollow cylindrical sleeve, and at least two combs. The sleeve has a first opening on its side and both bottom surfaces are open. The left rotating disc, the left cover, the right rotating disc, the right cover, and the sleeve are all concentrically arranged. The left and right rotating discs are symmetrically arranged at the left and right ends of the sleeve. The left cover closes the left end of the sleeve and is connected to the central axis of the left rotating disc. The right cover closes the right end of the sleeve and is connected to the central axis of the right rotating disc. The right cover, the right rotating disc, the left cover, and the left rotating disc can all rotate relative to the sleeve. The comb is disposed in the hollow area of the sleeve. The comb includes a comb body and a comb ridge. One side of the comb body is connected to the comb ridge, and the other side of the comb body faces the inside of the sleeve. One end of the comb ridge passes through the left turntable, and the other end of the comb ridge passes through the right turntable. The comb ridge has a cylindrical structure and can rotate relative to the left and right turntables. The inner wall of the sleeve is provided with at least two recesses, and the comb and the recesses correspond one-to-one. The left turntable is provided with a locking device on the side facing the left cover. The locking device includes a U-shaped frame, a spring, and a cone. One end of the spring is connected to the bottom of the U-shaped frame, and the other end of the spring is connected to the cone.
[0013] When the right cover rotates relative to the sleeve, the right turntable, the left turntable, and the left cover all rotate synchronously. If the left turntable rotates to a position where the tip of the cone aligns with the recess, the spring pushes the tip out of the top opening of the U-shaped frame and into the recess, the cone is locked by the recess, and the spring is in a reset state. If the left turntable rotates to a position where the tip of the cone and the recess are misaligned, the tip retracts into the U-shaped frame, the cone and the recess separate, and the spring is in a compressed state.
[0014] In one possible implementation, the left cover has two identical and parallel strip plates on the side facing the left turntable. Both strip plates are close to the U-shaped frame and located above the side opening of the U-shaped frame. The distance between the two strip plates is less than the side width of the U-shaped frame.
[0015] In one possible implementation, the second comb further includes a locking bar. A third through groove is provided on the surface of the sleeve. One end of the locking bar is located inside the sleeve, and the other end of the locking bar extends out of the sleeve through the third through groove. The locking bar can slide left and right along the third through groove. A toothed ring is provided on the side of the right cover facing the right turntable. When the locking bar slides to the right along the third through groove to the position where it engages with the toothed ring, the right cover cannot rotate. When the locking bar slides to the left along the third through groove to the position where the locking bar separates from the toothed ring, the right cover can rotate.
[0016] In one possible implementation, the comb includes at least two of a detangling comb, a knot-removing comb, a sparse-needle comb, and a dense-needle comb.
[0017] In one possible implementation, the second comb further includes a torsion spring. A gear is provided at the other end of the comb ridge, the gear is connected to the outside of the comb ridge and the two are concentrically arranged. The torsion spring is sleeved on the outside of the comb ridge, one end of the torsion spring is connected to the gear, and the other end of the torsion spring is connected to the right turntable. A plurality of continuously arranged teeth are provided on the inner wall of the sleeve near the first opening. The gear is located in a position that can mesh with the teeth. When the right turntable rotates to the point where the gear and the teeth mesh and continue to rotate, the gear is driven by the teeth to rotate in the forward direction. The comb ridge rotates synchronously with the gear, so that the comb body rotates from facing the inside of the sleeve to facing the outside of the sleeve, and the torsion spring is in a deformed state.
[0018] In one possible implementation, a protrusion is provided at one end of the comb ridge, and a limiting block is provided at one end of the left turntable near the comb ridge, with the protrusion and the limiting block corresponding one-to-one; when the right turntable rotates to switch the gear and the teeth from the meshing state to the disengaged state, the torsion spring is in the reset state, and the torsion spring drives the gear to rotate in the opposite direction, and the comb ridge rotates synchronously with the gear, so that the comb body rotates from facing the outside of the sleeve to facing the inside of the sleeve, and at the same time, the protrusion and the limiting block switch from the separated state to the abutting state.
[0019] In one possible implementation, the first comb is equipped with an elastic buckle, and the handle is a hollow cylinder extending vertically. Both the upper and lower ends of the handle are open structures. The outer wall of the hollow cylinder has a fourth through hole that matches the elastic buckle. When the elastic buckle enters the hollow cylinder through the open structure, it is squeezed by the inner wall of the hollow cylinder, and moves backward and is in a compressed state. When the elastic buckle moves to a position aligned with the fourth through hole, it is no longer squeezed by the inner wall of the hollow cylinder, and is in a reset state. The elastic buckle moves forward and engages with the fourth through hole.
[0020] Compared with the prior art, the beneficial effects of this utility model are as follows: A pet grooming device includes a first grooming tool and a handle, the first grooming tool and the handle being detachably connected. The first grooming tool includes a front shell, a rear shell, a grooming device, and a hair removal device. The front shell and the rear shell form a cavity. The front shell is provided with a first through groove and a first through hole. The front shell is recessed towards the rear shell to form a mounting position for installing the grooming device. The grooming device includes a base plate and several comb teeth. The base plate is connected to the front shell and located at the mounting position. The base plate is provided with a second through groove, the position of which corresponds to the position of the first through groove. One end of each comb tooth is connected to the base plate. The hair removal device includes a pressing handle, a transmission rod, and a push plate. A rotating shaft is provided in the middle of the pressing handle. The pressing handle is connected to the front shell via the rotating shaft and can rotate around the rotating shaft. The bottom of the pressing handle extends out of the front shell through the first through hole, and the top of the pressing handle is located in the cavity. One end of the transmission rod is connected to the top of the pressing handle, and the other end of the transmission rod passes through the first through slot and the second through slot in sequence and is connected to the push plate. The push plate is located in front of the base plate and the two are arranged side by side. The push plate is provided with several second through holes, and the other end of the comb teeth extends out of the push plate through the second through holes. When the bottom of the pressing handle rotates backward, the top of the pressing handle rotates forward around the rotating shaft to push the transmission rod, and the transmission rod drives the push plate to move forward along the comb teeth from one end of the comb teeth to the other end of the comb teeth. It can be seen that after using the combing device to groom the pet's fur, the user only needs to manually press the pressing handle, and with the help of the linkage between the pressing handle and the transmission rod, push the push plate to move along the comb teeth. The moving push plate gathers and pushes the hair attached between the comb teeth to the ends, allowing users to easily remove it all at once. This design effectively avoids the tedious process of manually plucking each hair, significantly improving the convenience and efficiency of grooming pets with a comb. Attached Figure Description
[0021] Figure 1 A first structural schematic diagram of a pet groomer provided in an embodiment of this utility model;
[0022] Figure 2 This is a schematic diagram of the second structure of the pet groomer provided in an embodiment of the present invention;
[0023] Figure 3 This is a structural disassembly diagram of the pet groomer provided in an embodiment of the present utility model;
[0024] Figure 4 This is a first structural disassembly diagram of the first comb provided in an embodiment of the present utility model;
[0025] Figure 5 The structural disassembly diagram of the combing device and the dehairing device provided in the embodiments of this utility model;
[0026] Figure 6 This is an exploded view of the second structure of the first comb provided in an embodiment of the present utility model;
[0027] Figure 7 This is a structural disassembly diagram of the second comb provided in an embodiment of the present utility model;
[0028] Figure 8 A schematic diagram of the sleeve provided in an embodiment of this utility model;
[0029] Figure 9 This is a schematic diagram of the structure of the second comb removal sleeve provided in an embodiment of the present utility model;
[0030] Figure 10 A schematic diagram of the structure of the left cover provided in an embodiment of this utility model;
[0031] Figure 11 This is a schematic diagram of the structure of the second comber with the left cover removed, provided in an embodiment of the present invention.
[0032] Figure 12 A schematic diagram of the right cover provided in an embodiment of this utility model;
[0033] Figure 13 This is a schematic diagram of the structure of the second comber with the right cover removed, provided in an embodiment of the present invention.
[0034] The annotations in the attached figures are explained as follows:
[0035] 10. Handle; 11. Front shell; 111. First through slot; 112. Second through hole; 12. Rear shell; 121. Silicone water plug; 122. Switch; 13. Fourth through hole; 21. Base plate; 22. Comb teeth; 31. Press handle; 311. Rotating shaft; 32. Transmission rod; 33. Push plate; 34. Connecting block; 35. Elastic element; 41. Water tank; 42. Micro-orifice nozzle; 43. Battery; 51. Left turn 511. Disc; 512. U-shaped frame; 513. Spring; 514. Conical body; 515. Limiting block; 52. Left cover; 521. Strip plate; 53. Right turntable; 54. Right cover; 541. Rack; 55. Sleeve; 551. Recess; 552. Tooth; 553. Third through groove; 56. Torsion spring; 57. Locking bar; 61. Comb ridge; 611. Gear; 612. Protrusion; 70. Elastic buckle. Detailed Implementation
[0036] The solutions in the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this utility model, and not all of them. Based on the embodiments of this utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this utility model.
[0037] It should be noted that if the embodiments of this utility model involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and sliding situation between the components in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicators will also change accordingly.
[0038] Furthermore, if the embodiments of this utility model involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0039] Please refer to Figure 1-3 As shown, this utility model proposes a pet grooming tool, including a first grooming tool and a handle 10. The first grooming tool and the handle 10 are detachably connected. The first grooming tool includes a front shell 11, a rear shell 12, a grooming device, and a hair removal device; wherein,
[0040] The front shell 11 and the rear shell 12 enclose a cavity. The front shell 11 is provided with a first through groove 111 and a first through hole. The front shell 11 is recessed towards the rear shell 12 to form a mounting position for installing the combing device.
[0041] The combing device includes a base plate 21 and a plurality of comb teeth 22. The base plate 21 is connected to the front shell 11 and located at the mounting position. The base plate 21 is provided with a second through groove, the position of which corresponds to the position of the first through groove 111. One end of the comb teeth 22 is connected to the base plate 21.
[0042] The hair removal device includes a pressing handle 31, a transmission rod 32, and a push plate 33. A rotating shaft 311 is provided in the middle of the pressing handle 31. The pressing handle 31 is connected to the front shell 11 through the rotating shaft 311 and can rotate around the rotating shaft 311. The bottom of the pressing handle 31 extends out of the front shell 11 through the first through hole, and the top of the pressing handle 31 is located in the cavity. One end of the transmission rod 32 is connected to the top of the pressing handle 31, and the other end of the transmission rod 32 passes through the first through groove 111 and the second through groove in sequence and is connected to the push plate 33. The push plate 33 is located in front of the bottom plate 21 and the two are arranged side by side. The push plate 33 is provided with a plurality of second through holes 112. The other end of the comb teeth 22 extends out of the push plate 33 through the second through holes 112.
[0043] When the bottom of the pressing handle 31 rotates backward, the top of the pressing handle 31 rotates forward around the rotating axis 311 to push the transmission rod 32, and through the transmission rod 32, drive the push plate 33 to move forward along the comb teeth 22 from one end of the comb teeth 22 to the other end of the comb teeth 22.
[0044] Specifically, please refer to Figure 4 As shown, this pet groomer uses a mechanical transmission structure of the hair removal device to gather and push out the hair remaining in the comb teeth 22, which greatly simplifies the process of cleaning residual hair, solves the problem of inconvenience in cleaning residual hair with existing pet combs, and improves user experience and product practicality.
[0045] Compared with existing technologies, the pet groomer proposed in this embodiment allows the user to manually press the handle 31 after grooming the pet's fur. The linkage between the handle 31 and the transmission rod 32 moves the push plate 33 along the comb teeth 22. The movement of the push plate 33 gathers the hair attached to the comb teeth 22 and pushes it to the end of the teeth, allowing for easy removal in one go. This design effectively avoids the tedious manual plucking of individual hairs, significantly improving the convenience and efficiency of pet grooming.
[0046] In some embodiments of this application, the hair removal device further includes a connecting block 34 and an elastic element 35. One end of the transmission rod 32 is connected to the top of the pressing handle 31 through the connecting block 34. One end of the elastic element 35 is connected to the connecting block 34, and the other end of the elastic element 35 is connected to the front shell 11. When the bottom of the pressing handle 31 rotates backward, the top of the pressing handle 31 pushes the connecting block 34 forward to compress the elastic element 35. When the elastic element 35 is in the reset state, the elastic element 35 pushes the top of the pressing handle 31 to rotate backward through the connecting block 34. At the same time, the bottom of the pressing handle 31 rotates forward around the rotation axis 311. The elastic element 35 also pulls the transmission rod 32 backward through the connecting block 34. Simultaneously, the backward-moving transmission rod 32 drives the push plate 33 to move backward along the comb teeth 22 from the other end of the comb teeth 22 to one end of the comb teeth 22.
[0047] Specifically, please refer to Figure 5 As shown, the connecting block 34 is the connecting hub between the transmission rod 32 and the top of the pressing handle 31, and also connects the elastic element 35, enabling effective transmission and conversion of force. When the elastic element 35 is in a compressed state, the top of the pressing handle 31 pushes the transmission rod 32 forward through the connecting block 34; when the elastic element 35 is in a reset state, the connecting block 34 pushes the top of the pressing handle 31 to rotate backward and pulls the transmission rod 32 backward. The elastic element 35 has an elastic reset function, which enables the push plate 33 to automatically reset in preparation for the next de-hairing action. The de-hairing device has a compact mechanical structure, ensuring smooth movement of the push plate 33 along the comb teeth 22. To ensure the coordination of the action and the balanced distribution of force, the de-hairing device can be equipped with two transmission rods 32, and two contact points are provided on the top of the pressing handle 31. The connecting block 34 connects the two transmission rods 32 to these two contact points respectively. To accommodate the design of the two transmission rods 32, two first through slots 111 and two second through slots are also required. This design achieves uniform force distribution and balanced transmission, avoiding offset or jamming caused by uneven force on one side, thereby improving the stability of the de-hairing action. Of course, the de-hairing device can also be equipped with two elastic elements 35 (such as two springs). Through the synergistic effect of the two elastic elements 35, the reset process is made smoother and more gradual, further reducing mechanical impact and wear, and improving the durability of the de-hairing device.
[0048] In some embodiments of this application, the front shell 11 is further provided with a third through hole, and the first comber further includes a water spraying device. The water spraying device includes a water tank 41, a micro-orifice nozzle 42, a micro electric pump, and a control circuit. The water tank 41 is connected to the micro electric pump and the micro-orifice nozzle 42 respectively. The micro electric pump is also electrically connected to the control circuit. The water tank 41, the micro electric pump, and the control circuit are all located in the cavity, and the micro-orifice nozzle 42 is connected to the third through hole.
[0049] Specifically, please refer to Figure 6 As shown, the rear shell 12 is provided with a silicone water plug 121 communicating with the water tank 41. Through this silicone water plug 121, the water tank 41 can be filled with water and sealed, facilitating water addition for the user while effectively preventing water leakage and ensuring the sealing and safety of the spray device. The water tank 41 stores water and is connected to a micro electric pump and a micro-orifice nozzle 42. When water spraying is needed, the control circuit starts the micro electric pump to overcome the hydrostatic pressure of the water tank 41 and push the water to the micro-orifice nozzle 42 for spraying. The micro-orifice nozzle 42 has an extremely fine aperture; when water flows through it, it is atomized into a fine mist, achieving a uniform spray effect and reducing static electricity generated by friction. When water spraying is not needed, the control circuit stops the micro electric pump. The micro-orifice nozzle 42 utilizes its extremely fine aperture to generate a capillary effect, combined with water pressure balance, effectively preventing water from flowing out naturally due to pressure difference, achieving a leak-free self-sealing function. The control circuit is also electrically connected to a switch 122 located on the rear housing 12. Users can start or stop the water spraying function by pressing the switch 122, making operation simple and convenient. In addition, a battery 43 is also provided in the cavity as a power source. The battery 43 is electrically connected to the control circuit to ensure the power supply for the micro electric pump and the control circuit.
[0050] In some embodiments of this application, the pet groomer further includes a second groomer, which is detachably connected to the handle 10;
[0051] The second comb includes a disc-shaped left and right rotating disc 51 and 53, a cylindrical left and right cover 52 and 54, a hollow cylindrical sleeve 55, and at least two combs. The sleeve 55 has a first opening on its side and both bottom surfaces are open. The left and right rotating discs 51, 52, 53, 54, and sleeve 55 are concentrically arranged. The left and right rotating discs 51 and 53 are symmetrically arranged at the left and right ends of the sleeve 55. The left cover 52 closes the left end of the sleeve 55 and is connected to the central axis of the left rotating disc 51. The right cover 54 closes the right end of the sleeve 55 and is connected to the central axis of the right rotating disc 53. The right cover 54, right rotating disc 53, left cover 52, and left rotating disc 51 can all rotate relative to the sleeve 55. The comb is disposed in the hollow area of the sleeve 55. The comb includes a comb body and a comb ridge 61. One side of the comb body is connected to the comb ridge 61, and the other side of the comb body faces the interior of the sleeve 55. One end of the comb ridge 61 passes through the left turntable 51, and the other end of the comb ridge 61 passes through the right turntable 53. The comb ridge 61 has a cylindrical structure and can rotate relative to the left turntable 51 and the right turntable 53. The inner wall of the sleeve 55 is provided with at least two recesses 551, and the comb and the recesses 551 correspond one-to-one. The left turntable 51 is provided with a clamping device on the side facing the left cover 52. The clamping device includes a U-shaped frame 511, a spring 512, and a cone 513. One end of the spring 512 is connected to the bottom of the U-shaped frame 511, and the other end of the spring 512 is connected to the cone 513.
[0052] When the right cover 54 rotates relative to the sleeve 55, the right turntable 53, the left turntable 51, and the left cover 52 all rotate synchronously. If the left turntable 51 rotates to a position where the tip of the cone 513 aligns with the recess 551, the spring 512 pushes the tip out of the top opening of the U-shaped frame 511 and into the recess 551, the cone 513 is stuck by the recess 551, and the spring 512 is in a reset state. If the left turntable 51 rotates to a position where the tip of the cone 513 is misaligned with the recess 551, the tip retracts into the U-shaped frame 511, the cone 513 and the recess 551 separate, and the spring 512 is in a compressed state.
[0053] Specifically, please refer to Figure 7-9As shown, the right cover 54 is connected to the central axis of the right turntable 53, so the right cover 54 can drive the right turntable 53 to rotate relative to the sleeve 55. The comb ridge 61 is a cylindrical structure and passes between the left turntable 51 and the right turntable 53, so the left turntable 51 and the right turntable 53 can rotate synchronously. The left cover 52 is connected to the central axis of the left turntable 51, so the left turntable 51 can drive the left cover 52 to rotate relative to the sleeve 55. That is, when the right cover 54 drives the right turntable 53 to rotate relative to the sleeve 55, the right turntable 53, the left turntable 51, and the left cover 52 can rotate synchronously, and drive the comb to rotate together. During the rotation of the left turntable 51, the conical body 513 of the clamping device determines whether to extend into the recess 551 according to the alignment of its tip with the recess 551 on the inner wall of the sleeve 55. When the tip of the cone 513 aligns with the recess 551, the spring 512 pushes the cone 513 into the recess 551, locking it in place. The left turntable 51 stops rotating, and the user-selected comb is now near the first opening of the sleeve 55. When the tip of the cone 513 is not aligned with the recess 551, the cone 513 retracts from the recess 551, the spring 512 is compressed, and the left turntable 51 can continue to rotate, allowing the user to select a comb.
[0054] In some embodiments of this application, the left cover 52 has two strip plates 521 of the same shape and arranged in parallel on the side facing the left turntable 51. Both strip plates 521 are close to the U-shaped frame 511 and located above the side opening of the U-shaped frame 511. The distance between the two strip plates 521 is less than the side width of the U-shaped frame 511.
[0055] Specifically, please refer to Figure 10-11 As shown, the two strip plates 521 can block the side opening of the U-shaped frame 511 to a certain extent, so as to further restrict the position of the spring 512 inside the U-shaped frame 511, prevent the spring 512 from coming out of the U-shaped frame 511 or from shifting inside the U-shaped frame 511, and ensure the stability and reliability of the clamping device.
[0056] In some embodiments of this application, the second comb further includes a locking bar 57. A third through groove 553 is provided on the surface of the sleeve 55. One end of the locking bar 57 is located inside the sleeve 55, and the other end of the locking bar 57 extends out of the sleeve 55 through the third through groove 553. The locking bar 57 can slide left and right along the third through groove 553. A toothed ring 541 is provided on the side of the right turntable 53. When the locking bar 57 slides to the right along the third through groove 553 to the position where it is engaged with the toothed ring 541, the right cover 54 cannot rotate. When the locking bar 57 slides to the left along the third through groove 553 to the position where the locking bar 57 and the toothed ring 541 are separated, the right cover 54 can rotate.
[0057] Specifically, the locking bar 57 and the rack 541 work together to form a locking structure. This locking structure effectively prevents the right cover 54 from rotating unnecessarily, thus avoiding accidental rotation of the comb when grooming a pet. The locking bar 57 can be easily locked and unlocked by a simple sliding motion, making operation simple and convenient. Locking the right cover 54 also indirectly locks the right turntable 53, the left turntable 51, and the left cover 52, preventing them from rotating and ensuring the stability and reliability of the comb during use.
[0058] In some embodiments of this application, the comb includes at least two of a hair removal comb, a knot-removing comb, a sparse-needle comb, and a dense-needle comb.
[0059] Specifically, the detangling comb is used to remove loose hair from the animal's body surface, the detangling comb is used to comb and loosen clumps in the hair, the sparse-needle comb has sparser needles and is suitable for combing thicker or longer hair, while the dense-needle comb has denser needles and is suitable for fine cleaning and combing soft hair. Preferably, four combs—the detangling comb, the detangling comb, the sparse-needle comb, and the dense-needle comb—are installed in the sleeve 55, and are distributed in four positions: top, bottom, left, and right. The combs in the top and bottom positions are symmetrical, and the combs in the left and right positions are also symmetrical to ensure the overall structural balance and form a balanced and stable layout. By rotating the right cover 54, the user can easily and quickly switch between the four combs, and the locking device and the recess 551 enable precise selection of the comb. This design not only improves the ease of operation but also meets diverse hair combing needs.
[0060] In some embodiments of this application, the second comb further includes a torsion spring 56. A gear 611 is provided at the other end of the comb ridge 61. The gear 611 is connected to the outside of the comb ridge 61 and the two are concentrically arranged. The torsion spring 56 is sleeved on the outside of the comb ridge 61. One end of the torsion spring 56 is connected to the gear 611, and the other end of the torsion spring 56 is connected to the right turntable 53. A plurality of continuously arranged teeth 552 are provided on the inner wall of the sleeve 55 near the first opening. The gear 611 is located in a position that can mesh with the teeth 552. When the right turntable 53 rotates to the point where the gear 611 and the teeth 552 mesh and continue to rotate, the gear 611 is driven by the teeth 552 to rotate in the forward direction. The comb ridge 61 rotates synchronously with the gear 611, so that the comb body rotates from facing the inside of the sleeve 55 to facing the outside of the sleeve 55, and the torsion spring 56 is in a deformed state.
[0061] Specifically, please refer to Figure 12-13As shown, the interaction between gear 611 and teeth 552 enables the automatic flipping action of the comb. After the user selects the comb, further rotation of the right cover 54 causes teeth 552 to drive gear 611 to rotate, thus smoothly flipping the comb from its stored state (comb body facing inwards from the sleeve 55) to its usable state (comb body facing outwards from the sleeve 55), facilitating grooming of pets. The torsion spring 56 deforms during the flipping process, storing energy for subsequent reset and making the flipping action smoother and gentler. It should be noted that the inner wall of the sleeve 55 may be provided with four teeth 552.
[0062] In some embodiments of this application, a protrusion 612 is provided at one end of the comb ridge 61, and a limiting block 514 is provided at one end of the left turntable 51 near the comb ridge 61. The protrusion 612 and the limiting block 514 correspond one-to-one. When the right turntable 53 rotates to switch the gear 611 and the teeth 552 from the meshing state to the disengaged state, the torsion spring 56 is in the reset state. The torsion spring 56 drives the gear 611 to rotate in the opposite direction, and the comb ridge 61 rotates synchronously with the gear 611, so that the comb body rotates from facing the outside of the sleeve 55 to facing the inside of the sleeve 55. At the same time, the protrusion 612 and the limiting block 514 switch from the separated state to the abutting state.
[0063] Specifically, the interaction of gear 611, teeth 552, and torsion spring 56 enables the automatic flipping of the comb. After use, the user can further rotate the right cover 54 to disengage gear 611 and teeth 552, releasing the stored elastic energy of the torsion spring 56. This causes the comb to automatically flip back into the sleeve 55, achieving a reset and keeping the product clean while effectively protecting the comb. The abutment between the protrusion 612 and the limiting block 514 effectively prevents the comb from over-flipping, ensuring it accurately returns to its initial storage position and guaranteeing a stable reset process.
[0064] In some embodiments of this application, the first comb is provided with an elastic buckle 70, and the handle 10 is a hollow cylinder that extends vertically. The upper and lower ends of the handle 10 are both open structures. The outer wall of the hollow cylinder is provided with a fourth through hole 13 that matches the elastic buckle 70. When the elastic buckle 70 enters the hollow cylinder through the open structure, the elastic buckle 70 is squeezed by the inner wall of the hollow cylinder, and the elastic buckle 70 moves backward and is in a compressed state. When the elastic buckle 70 moves to a position aligned with the fourth through hole 13, the elastic buckle 70 is no longer squeezed by the inner wall of the hollow cylinder, the elastic buckle 70 is in a reset state, and the elastic buckle 70 moves forward and engages with the fourth through hole 13.
[0065] Specifically, the elastic buckle 70, as a connector, possesses good elasticity and deformation capability. The fourth through hole 13 cooperates with the elastic buckle 70 to achieve a secure yet convenient detachable connection between the first comb and the handle 10. Of course, the second comb and the handle 10 can also use the same detachable connection method, which will not be elaborated upon here.
[0066] The pet grooming tool provided by this utility model includes a first grooming tool and a second grooming tool with different functions; specifically:
[0067] The first pet groomer integrates functions such as loose hair combing, water spraying, and one-button hair removal. The combing device is a loose hair comb. When grooming pet hair, the water mist sprayed by the water spray device effectively reduces friction between the hair and the comb teeth 22, thereby reducing static electricity and making the hair smoother and easier to comb. The one-button hair removal function is achieved through a hair removal mechanism. When pet hair adheres to the comb teeth 22, pressing the handle 31 pushes the hair on the comb teeth 22 together by the push plate 33, allowing for easy removal by the user, greatly improving the convenience and efficiency of cleaning residual hair.
[0068] The second groomer features a rotating mechanism that allows for the switching between four different brushes: a detangling brush, a knot-removing brush, a sparse brush, and a dense brush. The ingeniously designed rotating mechanism allows users to easily switch to the desired brush by simply turning the right cover 54. The selected brush can also automatically switch between storage and use modes. The detangling brush effectively removes a large amount of loose fur from pets; the knot-removing brush addresses tangled fur with its specially shaped and arranged teeth 22, easily untangling knots; the sparse and dense brushes can be selected according to the density of the pet's fur, meeting the daily grooming needs of different pets.
[0069] Furthermore, both the first and second grooming brushes are detachably connected to the handle 10. After detachment, the overall weight of the pet grooming brush is reduced, making it more portable and allowing users to operate it flexibly when grooming their pets. It can easily reach every corner of the pet's body and some hard-to-reach areas, ensuring that the pet's fur receives comprehensive and meticulous care.
[0070] The pet groomer provided in this embodiment has a clever design and the following advantages:
[0071] 1. Versatile Functionality: This pet groomer integrates five different comb heads. One end features water spraying, one-button hair removal, and loose hair combing, while the other end allows switching between four different comb functions via a rotating motion, meeting various pet grooming needs. This pet groomer eliminates the need for pet owners to purchase multiple comb heads, making it convenient and practical.
[0072] 2. Convenient brush switching: The rotating mechanism allows for quick switching between different brushes, making operation simple and efficient, and improving the efficiency of pet grooming.
[0073] 3. Effectively solves static electricity problems: During the grooming process, the water spray device can reduce static electricity, making the pet's fur smooth, improving the grooming effect, and reducing the pet's resistance to grooming.
[0074] 4. Easy hair removal: The one-click hair removal function makes hair removal easy and simple, while preventing hair residue from breeding bacteria and ensuring the health of your pet.
[0075] 5. Flexible operation: Both ends of the groomer are detachable. After detachment, the pet groomer is lightweight and can easily reach all parts of the pet's body for comprehensive and meticulous care.
[0076] It should be noted that the technical solutions of the various embodiments of this utility model can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or cannot be implemented, it should be considered that such combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.
[0077] The above description is only a part or preferred embodiment of this utility model. Neither the text nor the drawings should limit the scope of protection of this utility model. All equivalent structural transformations made using the content of this utility model specification and drawings under the overall concept of this utility model, or direct / indirect applications in other related technical fields, are included within the scope of protection of this utility model.
Claims
1. A pet grooming device, characterized in that, The product includes a first comb and a handle, which are detachably connected. The first comb includes a front shell, a rear shell, a combing device, and a hair removal device. The front shell and the rear shell enclose a cavity. The front shell is provided with a first through groove and a first through hole. The front shell is recessed toward the rear shell to form a mounting position for installing the combing device. The combing device includes a base plate and a plurality of comb teeth. The base plate is connected to the front shell and located at the mounting position. The base plate is provided with a second through groove, the position of which corresponds to the position of the first through groove. One end of the comb teeth is connected to the base plate. The hair removal device includes a pressing handle, a transmission rod, and a push plate. A rotating shaft is provided in the middle of the pressing handle. The pressing handle is connected to the front shell through the rotating shaft and can rotate around the rotating shaft. The bottom of the pressing handle extends out of the front shell through the first through hole. The top of the pressing handle is located in the cavity. One end of the transmission rod is connected to the top of the pressing handle. The other end of the transmission rod passes through the first through groove and the second through groove in sequence and is connected to the push plate. The push plate is located in front of the bottom plate and the two are arranged side by side. The push plate is provided with several second through holes. The other end of the comb teeth extends out of the push plate through the second through holes. When the bottom of the pressing handle rotates backward, the top of the pressing handle rotates forward about the rotation axis to push the transmission rod, and through the transmission rod, drive the push plate to move forward along the comb teeth from one end of the comb teeth to the other end of the comb teeth.
2. A pet grooming device according to claim 1, wherein The depilatory device further includes a connecting block and an elastic element. One end of the transmission rod is connected to the top of the pressing handle via the connecting block. One end of the elastic element is connected to the connecting block, and the other end of the elastic element is connected to the front shell. When the bottom of the pressing handle rotates backward, the top of the pressing handle pushes the connecting block forward to compress the elastic element. When the elastic element is in the reset state, the elastic element pushes the top of the pressing handle to rotate backward via the connecting block, while the bottom of the pressing handle rotates forward around the rotation axis. The elastic element also pulls the transmission rod backward via the connecting block, and the backward-moving transmission rod drives the push plate to move backward along the comb teeth from one end of the comb teeth to the other end of the comb teeth.
3. A pet grooming device according to claim 1, wherein The front shell is also provided with a third through hole. The first comb also includes a water spraying device, which includes a water tank, a micro-orifice nozzle, a micro electric pump, and a control circuit. The water tank is connected to the micro electric pump and the micro-orifice nozzle respectively. The micro electric pump is also electrically connected to the control circuit. The water tank, the micro electric pump, and the control circuit are all located in the cavity. The micro-orifice nozzle is connected to the third through hole.
4. A pet grooming device according to claim 1, wherein The pet groomer also includes a second groomer, which is detachably connected to the handle. The second comb includes a disc-shaped left and right rotating disc, a cylindrical left and right cover, a hollow cylindrical sleeve, and at least two combs. The sleeve has a first opening on its side and both bottom surfaces are open. The left rotating disc, the left cover, the right rotating disc, the right cover, and the sleeve are all concentrically arranged. The left and right rotating discs are symmetrically arranged at the left and right ends of the sleeve. The left cover closes the left end of the sleeve and is connected to the central axis of the left rotating disc. The right cover closes the right end of the sleeve and is connected to the central axis of the right rotating disc. The right cover, the right rotating disc, the left cover, and the left rotating disc can all rotate relative to the sleeve. The comb is disposed in the hollow area of the sleeve. The comb includes a comb body and a comb ridge. One side of the comb body is connected to the comb ridge, and the other side of the comb body faces the inside of the sleeve. One end of the comb ridge passes through the left turntable, and the other end of the comb ridge passes through the right turntable. The comb ridge has a cylindrical structure and can rotate relative to the left and right turntables. The inner wall of the sleeve is provided with at least two recesses, and the comb and the recesses correspond one-to-one. The left turntable is provided with a locking device on the side facing the left cover. The locking device includes a U-shaped frame, a spring, and a cone. One end of the spring is connected to the bottom of the U-shaped frame, and the other end of the spring is connected to the cone. When the right cover rotates relative to the sleeve, the right turntable, the left turntable, and the left cover all rotate synchronously. If the left turntable rotates to a position where the tip of the cone aligns with the recess, the spring pushes the tip out of the top opening of the U-shaped frame and into the recess, the cone is locked by the recess, and the spring is in a reset state. If the left turntable rotates to a position where the tip of the cone and the recess are misaligned, the tip retracts into the U-shaped frame, the cone and the recess separate, and the spring is in a compressed state.
5. A pet grooming device according to claim 4, wherein The left cover has two identical and parallel strip plates on the side facing the left turntable. Both strip plates are close to the U-shaped frame and located above the side opening of the U-shaped frame. The distance between the two strip plates is less than the side width of the U-shaped frame.
6. A pet grooming device according to claim 4, wherein The second comb also includes a locking bar. A third through groove is provided on the surface of the sleeve. One end of the locking bar is located inside the sleeve, and the other end of the locking bar extends out of the sleeve through the third through groove. The locking bar can slide left and right along the third through groove. A toothed ring is provided on the side of the right cover facing the right turntable. When the locking bar slides to the right along the third through groove to the position where it is engaged with the toothed ring, the right cover cannot rotate. When the locking bar slides to the left along the third through groove to the position where the locking bar separates from the toothed ring, the right cover can rotate.
7. A pet grooming device according to claim 4, wherein The combs include at least two of the following: a detangling comb, a knot-removing comb, a sparse-needle comb, and a dense-needle comb.
8. A pet grooming device according to claim 4, wherein The second comb also includes a torsion spring. A gear is provided at the other end of the comb ridge. The gear is connected to the outside of the comb ridge and the two are concentrically arranged. The torsion spring is sleeved on the outside of the comb ridge. One end of the torsion spring is connected to the gear, and the other end of the torsion spring is connected to the right turntable. Several continuously arranged teeth are provided on the inner wall of the sleeve near the first opening. The gear is located in a position that can mesh with the teeth. When the right turntable rotates to the point where the gear and the teeth mesh and continue to rotate, the gear is driven by the teeth to rotate in the forward direction. The comb ridge follows the gear and rotates synchronously, so that the comb body rotates from facing the inside of the sleeve to facing the outside of the sleeve. The torsion spring is in a deformed state.
9. A pet groomer according to claim 8, characterized in that, One end of the comb ridge is provided with a protrusion, and the left turntable is provided with a limiting block at one end near the comb ridge. The protrusion and the limiting block correspond one-to-one. When the right turntable rotates to switch the gear and the teeth from the meshing state to the disengaged state, the torsion spring is in the reset state. The torsion spring drives the gear to rotate in the opposite direction, and the comb ridge rotates synchronously with the gear, so that the comb body rotates from facing the outside of the sleeve to facing the inside of the sleeve. At the same time, the protrusion and the limiting block switch from the separated state to the abutting state.
10. A pet groomer according to claim 1, characterized in that, The first comb is equipped with an elastic buckle. The handle is a hollow cylinder that runs vertically through the shaft. Both the upper and lower ends of the handle are open structures. The outer wall of the hollow cylinder has a fourth through hole that matches the elastic buckle. When the elastic buckle enters the hollow cylinder through the open structure, it is squeezed by the inner wall of the hollow cylinder, and moves backward and is in a compressed state. When the elastic buckle moves to a position aligned with the fourth through hole, it is no longer squeezed by the inner wall of the hollow cylinder, and is in a reset state. The elastic buckle moves forward and engages with the fourth through hole.