Pet washing, drying and raising machine
By introducing a brushing mechanism, a spray system, and a recycled water system into the pet drying box, the problem of the single function of the pet drying box is solved, and a comprehensive care effect of pet washing, drying and grooming is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- GUANGDONG SHUNDE LVAI ELECTRICAL TECH CO LTD
- Filing Date
- 2026-04-23
- Publication Date
- 2026-06-05
AI Technical Summary
Existing pet drying boxes have limited functionality and cannot meet the growing needs of pet care, especially lacking comprehensive functions in washing, drying, and grooming.
A pet washing, drying, and grooming all-in-one machine has been designed, equipped with a brushing mechanism, a spray system, and a water recycling system. The brushing mechanism includes a lower elastic comb and an upper elastic comb for brushing different parts of the pet's body. The spray system can spray cleaning agent and clean water, and the water recycling system is used for water reuse.
The functions of the pet shampoo, dryer and groomer combo machine have been enhanced, which can effectively brush, wash and dry pet fur, improving the overall efficiency and effect of pet care.
Smart Images

Figure CN122139673A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of pet drying boxes, specifically to a pet washing, drying, and grooming all-in-one machine. Background Technology
[0002] Currently, pet drying boxes are used to dry pets' fur. References can be made to Chinese invention patent publication number CN120391355A, "A Heat Exchange System for a Dual-Air Duct Pet Drying Box," and patent publication number CN223080801U, "A Pet Fur Care Dryer." Some pet drying boxes also have spray components, such as invention patent publication number CN119655195A, "A Pet Washing and Drying Integrated Machine." As people's living standards gradually improve, their demands for pet care are also increasing. While some existing pet drying boxes have washing and drying functions, their functionality is still insufficient, making them unsuitable for the growing needs of pet owners. Therefore, it is necessary to improve existing pet drying boxes. Summary of the Invention
[0003] The purpose of this invention is to overcome the shortcomings of the prior art and provide a pet washing, drying and grooming all-in-one machine with a wide range of functions.
[0004] The objective of this invention is achieved through the following technical solution.
[0005] The pet washing, drying, and grooming machine disclosed in this invention includes a housing with a pet holding cavity inside. The pet holding cavity is provided with a brushing mechanism, which includes a lower elastic comb for brushing the lower part of the pet's body inside the pet holding cavity and an upper elastic comb for brushing the upper part of the pet's body inside the pet holding cavity. The lower elastic comb and the upper elastic comb are respectively oscillating.
[0006] Preferably, the brushing mechanism includes a lower rotating shaft and an upper rotating shaft, one end of the lower elastic comb is connected to the lower rotating shaft, one end of the upper elastic comb is connected to the upper rotating shaft, the lower part of the pet accommodating cavity is provided with a grooved grid plate for supporting the pet, the lower rotating shaft and the upper rotating shaft are located on the outside of the grooved grid plate, and the grooved grid plate is formed with grid gaps for correspondingly avoiding the lower elastic comb and the upper elastic comb.
[0007] Preferably, the upper rotating shaft is located above the corresponding lower rotating shaft, the other end of the lower elastic comb is configured to swing up and down, and the other end of the upper elastic comb is configured to swing left and right.
[0008] Preferably, the pet drying box of the present invention further includes a spray system, the spray system including branch pipes, a cavity spray head, a spray water inlet, a clean water pipe, and a mixing auxiliary material pipe. The cavity spray head is disposed at the top of the pet cavity. The spray water inlet is connected to the branch pipe via the clean water pipe and the mixing auxiliary material pipe. The cavity spray head is connected to the branch pipe. The spray system is provided with a plurality of cleaning auxiliary material bottles and a peristaltic pump. The mixing auxiliary material pipe includes a mixing pipe. The inlet of the peristaltic pump is connected to the corresponding cleaning auxiliary material bottle, and the outlet of the peristaltic pump is connected to the mixing pipe. A spray booster pump is provided on the mixing auxiliary material pipe, and the spray booster pump is disposed between the mixing pipe and the branch pipe.
[0009] Preferably, the spraying system includes a spraying foaming air pump, the air outlet of the spraying foaming air pump is connected to the mixing auxiliary material pipeline through a first foaming tee, the first foaming tee is located between the spraying booster pump and the branch pipe, and a pulse solenoid valve is provided between the air outlet of the spraying foaming air pump and the first foaming tee.
[0010] Preferably, the pet drying box of the present invention further includes a recycled water circulation system, the recycled water circulation system including a front spray pipe spraying water downwards and backwards, a bottom spray pipe spraying water upwards and a circulating water pump, the front spray pipe being located at the upper front end of the pet holding cavity, a liquid receiving tray being provided at the bottom of the box body, the liquid receiving tray being located below the corresponding pet holding cavity, the pet holding cavity being connected to the liquid receiving tray through the grid gap, the bottom spray pipe being located at the lower part of the grooved grid plate, the liquid inlet end of the circulating water pump being connected to the liquid receiving tray, and the liquid outlet end of the circulating water pump being connected to the front spray pipe and the bottom spray pipe.
[0011] Preferably, an inner flow channel is formed inside the upper rotating shaft, and a lateral spray hole is formed on the upper rotating shaft. The lateral spray hole and the upper elastic comb are arranged in the same direction relative to the upper rotating shaft. The lateral spray hole communicates with the inner flow channel. The liquid outlet end of the circulating water pump is connected to one end of the inner flow channel. The position of the lateral spray hole corresponds to the grid gap.
[0012] Preferably, the front side of the enclosure is provided with a door, and the door has an interactive window for the partial passage of the pet's body inside the pet housing cavity.
[0013] Preferably, the interactive window is covered with an interactive window mesh cover, which is located on the outside of the box door. An interactive space is formed inside the interactive window mesh cover for partial entry of the pet's body into the pet holding cavity. An interactive opening is formed at the top of the interactive window mesh cover. A shower head is provided on the outside of the box, and the shower head is connected to a shower head water supply hose.
[0014] Preferably, the interactive window cover is provided with an interactive window cover, the interactive window cover is set to be transparent, the interactive window cover is located on the outside of the box door, the interactive window cover has a cover cavity formed inside for the partial entry of the pet's body in the pet holding cavity, the lower end of the interactive window cover is hinged to the box door by a spring hinge, and the interactive window cover can swing forward and downward.
[0015] Compared with the prior art, the beneficial effects of this invention are as follows: by setting a brushing mechanism corresponding to the pet holding cavity, the brushing mechanism includes a lower elastic comb for brushing the lower part of the pet's body in the pet holding cavity and an upper elastic comb for brushing the upper part of the pet's body in the pet holding cavity. The lower elastic comb and the upper elastic comb are respectively oscillating, which adds the function of brushing the pet to the pet washing, drying and grooming all-in-one machine of this invention, thus making the functions of the pet washing, drying and grooming all-in-one machine of this invention more comprehensive. Attached Figure Description
[0016] Figure 1 This is a front perspective view of the pet washing, drying, and grooming combo machine according to the first embodiment of the present invention.
[0017] Figure 2 This is a front perspective view of the pet washing, drying, and grooming machine of the present invention, with the door removed.
[0018] Figure 3 This is a cross-sectional view of the pet washing, drying, and grooming machine according to the first embodiment of the present invention, viewed from the right.
[0019] Figure 4 This is a three-dimensional structural diagram of the pet washing, drying, and grooming machine of the present invention, with the right side of the box and the box door removed.
[0020] Figure 5 This is a rear view schematic diagram of the combination of the combing mechanism and the grooved grid plate of the present invention.
[0021] Figure 6 This is a top-view perspective schematic diagram of the combing mechanism of the present invention.
[0022] Figure 7 This is a rear top-view perspective structural diagram of the pet washing, drying, and grooming machine of the present invention, with the box and door removed.
[0023] Figure 8 This is a rear-view perspective three-dimensional structural diagram of the pet washing, drying, and grooming machine of the present invention, with the box body and box door removed.
[0024] Figure 9 This is a cross-sectional view of the pet washing, drying, and grooming machine of the present invention from the front view.
[0025] Figure 10This is a partial cross-sectional structural diagram of the combination of the upper rotating shaft and the upper elastic comb bar of the present invention.
[0026] Figure 11 This is a rear view schematic diagram of the combing mechanism and pet assembly of the present invention.
[0027] Figure 12 This is a simplified structural diagram of the spray system of the present invention.
[0028] Figure 13 This is a simplified structural diagram of the water recycling system of the present invention.
[0029] Figure 14 This is a front-view three-dimensional structural diagram of the interactive window cover of the present invention.
[0030] Figure 15 This is a rear view structural diagram of the cabinet door according to the first embodiment of the present invention.
[0031] Figure 16 This is a simplified schematic diagram of a pet washing, drying, and grooming combo machine combined with a pet, according to the first embodiment of the present invention.
[0032] Figure 17 This is a front perspective view of the pet washing, drying, and grooming combo machine according to the second embodiment of the present invention.
[0033] Figure 18 This is a simplified schematic diagram of a pet washing, drying, and grooming combo machine combined with a pet, according to a second embodiment of the present invention.
[0034] Labeling Explanation: 1. Box Body; 11. Box Opening; 10. Pet Compartment; 1001. Mounting Plate; 1002. Box Door; 12. Interaction Window; 121. Grooved Grille; 100. Horizontal Grille; 101. Vertical Grille; 102. Grille Gap; 103. Support Plate; 13. Support; 14. Drain Tray; 15. Electric Ball Valve; 151. Electric Heating Plate; 152. Air Guide Plate; 16. Inner Cavity of Air Inlet Duct; 2. Interaction Window Cover; 2. Interaction Space; 20. Warp Grille; 201. Weft Grille; 202. Interaction Exit; 211. Bottom Bag; 22. Water Curtain; 24. Grooming Mechanism; 3. Lower elastic comb bar 31; Upper elastic comb bar 32; Lower rotating shaft 33; Upper rotating shaft 34; Electric push rod 35; Housing 351; Telescopic rod 352; Connecting rod 36; Swing arm 37; Spray system 4; Branch fittings 40; Containing chamber spray head 41; Shower head 42; Shower water supply hose 421; Angle valve 422; Impeller cleaning nozzle 43; Impeller cleaning solenoid valve 431; Spray booster pump 44; Mixing auxiliary material water inlet solenoid valve Valve 441; Water flow regulating valve 442; Mixing pipe 444; First foaming tee 445; Mixing auxiliary material check valve 446; Spray foaming air pump 45; First pressure switch 451; First air outlet check valve 452; Pulse solenoid valve 453; Cleaning auxiliary material bottle 46; Peristaltic pump 461; Clean water inlet solenoid valve 47; Clean water check valve 471; Filter 48; Spray water input terminal 49; Recycled water circulation system 5; Side spray hole 51; Inner flow channel 510; Front spray pipe 52; Circulating water pump 53; Cleaning foaming air pump 54; Second pressure switch 55; Second air outlet check valve 56; Second foaming tee 57; Inner flow channel water inlet connector 58; Bottom spray hole 59; Bottom spray pipe 590; Interactive window cover 7; Cover cavity 70; Spring hinge 71; Heat exchange system 8; Front cross-flow fan 81; Rear cross-flow fan 82; Pet 99. Detailed Implementation
[0035] The present invention will now be further described with reference to the accompanying drawings.
[0036] The pet washing, drying, and grooming combo machine of the present invention, such as Figures 1 to 3 As shown, the device includes a housing 1, which contains a pet-holding cavity 10. The front of the housing 1 has an opening 11 for a pet 99 to enter and exit, and the opening 11 connects to the pet-holding cavity 10, which is used to hold the pet 99. Figures 4 to 11As shown, the pet holding cavity 10 is equipped with a brushing mechanism 3. The brushing mechanism 3 includes a lower elastic comb 31 for brushing the lower part of the pet 99's body inside the pet holding cavity 10 and an upper elastic comb 32 for brushing the upper part of the pet 99's body inside the pet holding cavity 10. The lower elastic comb 31 and the upper elastic comb 32 are respectively oscillating, that is, the lower elastic comb 31 and the upper elastic comb 32 can be elastically bent and deformed. For example, the lower elastic comb 31 and the upper elastic comb 32 can be made of nylon, polyurethane rubber, or polyvinyl chloride. The oscillation axis of the lower elastic comb 31 and the oscillation axis of the upper elastic comb 32 can both be along the front-back direction. Figure 11 As shown, the lower elastic comb 31 and the upper elastic comb 32 are roughly straight in their free state. When the lower elastic comb 31 and the upper elastic comb 32 swing, they can contact the body of the pet 99 inside the pet housing cavity 10. Correspondingly, the body of the pet 99 bends the lower elastic comb 31 and the upper elastic comb 32, causing them to elastically bend and deform. When the lower elastic comb 31 and the upper elastic comb 32 leave the pet 99, they can elastically restore their shape. When the lower elastic comb 31 swings upwards towards the legs of the pet 99, it can also elastically move aside. In other words, the legs of the pet 99 can relatively push away the lower elastic comb 31, meaning that the lower elastic comb 31 can also elastically bend and deform forward and backward, allowing it to slide across the front (or back) side of the pet 99's legs.
[0037] The lower elastic comb 31 and upper elastic comb 32 can respectively brush the pet 99's body, thus removing dirt from the pet 99's fur. Furthermore, because the lower elastic comb 31 and upper elastic comb 32 can lift the pet 99's fur, it helps the fur to have good contact with air, thereby accelerating the evaporation of water from the pet 99's fur. In addition, the lower elastic comb 31 and upper elastic comb 32 also provide elastic pressure to the pet 99's body, helping the pet 99 relieve fatigue. The pet washing, drying, and grooming all-in-one machine of the present invention, by adding a brushing mechanism 3, enriches the functions of the pet washing, drying, and grooming all-in-one machine, helping it to meet the growing demand for functional pet washing, drying, and grooming all-in-one machines.
[0038] Furthermore, such as Figures 4 to 10 As shown, the combing mechanism 3 includes a lower rotating shaft 33 and an upper rotating shaft 34, both extending in the front-to-back direction. One end of the lower elastic comb 31 is connected to the lower rotating shaft 33, and one end of the upper elastic comb 32 is connected to the upper rotating shaft 34. The upper elastic comb 32 is approximately perpendicular to the upper rotating shaft 34, and the lower elastic comb 31 is approximately perpendicular to the lower rotating shaft 33. Figure 10 As shown, specifically, a protruding cylinder can be welded to the outer wall of the upper rotating shaft 34. One end of the upper elastic comb 32 is adapted to be inserted into the protruding cylinder, and one end of the upper elastic comb 32 can be bonded to the protruding cylinder; one end of the lower elastic comb 31 can be inserted into the lower rotating shaft 33, and one end of the lower elastic comb 31 is bonded to the lower rotating shaft 33. Figures 2 to 5 and Figure 11 As shown, the lower part of the pet housing 10 is provided with a grooved grid plate 100 for supporting the pet 99. The lower rotating shaft 33 and the upper rotating shaft 34 are located on the outside of the grooved grid plate 100. Specifically, the grooved grid plate 100 includes horizontal grid bars 101 extending in the left-right direction and vertical grid bars 102 extending in the up-down direction. The left and right ends of the horizontal grid bars 101 are integrally connected to the lower ends of the corresponding vertical grid bars 102, as shown. Figure 11 As shown, the pet 99 can stand on the horizontal grille 101, while the vertical grille 102 restricts the pet 99's lateral movement. Therefore, it can also be understood that the lower part of the pet housing cavity 10 is located within the area of the grooved grille 100. Figure 5 As shown, the number of brushing mechanisms 3 is set to two sets, which are arranged approximately symmetrically from left to right. The lower rotating shaft 33 and upper rotating shaft 34 of the brushing mechanism 3 located on the left are located on the left side of the vertical grid 102, while the lower rotating shaft 33 and upper rotating shaft 34 of the brushing mechanism 3 located on the right are located on the right side of the vertical grid 102. Because the two sets of brushing mechanisms 3 are arranged approximately symmetrically from left to right, as... Figure 11 As shown, this allows the pet to have a brushing effect on both sides of its body simultaneously. Figure 3 and Figure 4 As shown, the grooved grid plate 100 has grid gaps 103 for correspondingly avoiding the lower elastic comb bar 31 and the upper elastic comb bar 32. Specifically, the horizontal grid bars 101 are arranged at intervals along the front-back direction, and the vertical grid bars 102 are also arranged at intervals along the front-back direction. The lower part of the grid gap 103 is formed between adjacent horizontal grid bars 101, and the upper part of the grid gap 103 is formed between adjacent vertical grid bars 102. The lower part and the upper part of the grid gap 103 are correspondingly connected. That is to say, in the front-back direction, the end of the lower elastic comb bar 31 connected to the lower rotating shaft 33 is located between the corresponding adjacent horizontal grid bars 101, and the end of the upper elastic comb bar 32 connected to the upper rotating shaft 34 is located between the corresponding adjacent vertical grid bars 102. The lower elastic comb bars 31 are evenly distributed along the front-back direction, and the upper elastic comb bars 32 are evenly distributed along the front-back direction. Figure 4 As shown, a support plate 13 is fixedly installed inside the housing 1, and the front and rear ends of the lower rotating shaft 33 are respectively rotatably connected to the corresponding support plate 13; with the above arrangement, when the lower rotating shaft 33 rotates, the lower rotating shaft 33 drives the lower elastic comb 31 to swing, and when the upper rotating shaft 34 rotates, it drives the upper elastic comb 32 to swing. Due to the presence of the grid gap 103, such as Figure 10As shown, the lower elastic comb 31 and the upper elastic comb 32 can be partially inserted from the outside of the grooved grid plate 100 into the inside of the grooved grid plate 100, so that the lower elastic comb 31 and the upper elastic comb 32 can respectively brush the body of the pet 99. During this process, the lower elastic comb 31 and the upper elastic comb 32 respectively pass through the grid gap 103; in other words, by setting the grid gap 103, the lower rotating shaft 33 and the upper rotating shaft 34 can be set on the outside of the grooved grid plate 100, so that when the lower elastic comb 31 and the upper elastic comb 32 are not used, as Figure 5 As shown, the lower elastic comb 31 and the upper elastic comb 32 can be completely extended beyond the grooved grille 100, thus preventing them from encroaching on the pet's (99) activity space. Figure 5 As shown, since the pet 99 is confined within the grooved grid plate 100, when the pet 99 jumps and bumps within the pet housing cavity 10, the pet 99 will not collide with the lower rotating shaft 33 or the upper rotating shaft 34.
[0039] Furthermore, such as Figure 5 As shown, the upper rotating shaft 34 is located above the lower rotating shaft 33. The other end of the lower elastic comb 31 (i.e., the swing end of the lower elastic comb 31) is set to swing up and down, and the other end of the upper elastic comb 32 (i.e., the swing end of the upper elastic comb 32) is set to swing left and right. Figure 11 As shown, this allows the lower elastic comb 31 to swing upwards into the grooved grid plate 100, during which the lower elastic comb 31 passes between the corresponding adjacent horizontal grid bars 101. The swinging end of the lower elastic comb 31 applies a roughly vertical reciprocating brushing force to the pet 99. The swinging end of the upper elastic comb 32, located on the left, can swing to the right into the grooved grid plate 100, during which the upper elastic comb 32 passes between the corresponding adjacent vertical grid bars 102. Then, the upper elastic comb 32, located on the left... When the upper elastic comb 32 swings back to the lower left, it can brush the upper back of the pet 99. The swing end of the upper elastic comb 32 located on the right can swing to the left into the grooved grid plate 100. The upper elastic comb 32 located on the left can apply a back-and-forth brushing force to the pet 99 in a general direction from the lower left to the upper right. The upper elastic comb 32 located on the right can apply a back-and-forth brushing force to the pet 99 in a general direction from the lower right to the upper left, thereby avoiding the pet 99 only receiving a brushing effect in one direction.
[0040] like Figure 5 and Figure 6As shown, the combing mechanism 3 also includes an electric push rod 35, a connecting rod 36, and a swing arm 37. The electric push rod 35 is prior art. For example, refer to the "integrated electric push rod" in utility model patent announcement number CN220510923U and the "electric push rod" in invention patent announcement number CN114024402B. The electric push rod 35 includes a housing 351 and a telescopic rod 352, such as... Figure 8 As shown, the upper end of the outer casing 351 is hinged to the mounting plate 1001, allowing the lower part of the outer casing 351 to swing slightly left and right, such as... Figure 4 As shown, the mounting plate 1001 is located inside the housing 1, and its left and right ends are fixedly connected to the housing 1. The mounting plate 1001 is located on the upper side of the pet holding cavity 10. Figure 5 and Figure 6 As shown, the rear ends of the lower rotating shaft 33 and the upper rotating shaft 34 are respectively connected to one end of the corresponding swing arm 37, so that the lower rotating shaft 33 and the corresponding swing arm 37 are circumferentially positioned about the axis of the lower rotating shaft 33, and the upper rotating shaft 34 and the corresponding swing arm 37 are circumferentially positioned about the axis of the upper rotating shaft 34. The lower rotating shaft 33 and the upper rotating shaft 34 are perpendicular to the corresponding swing arm 37. The connecting rod 36 extends approximately vertically. The upper part and the lower end of the connecting rod 36 are respectively hinged to the other end of the corresponding swing arm 37. That is, the upper part of the connecting rod 36 is connected to the upper rotating shaft 34 through the upper swing arm 37, and the lower end of the connecting rod 36 is connected to the lower rotating shaft 33 through the lower swing arm 37. The lower end of the telescopic rod 352 is hinged to the upper end of the connecting rod 36. Figure 5 As shown, when the telescopic rod 352 extends downwards to its limit relative to the outer casing 351, both the lower elastic comb 31 and the upper elastic comb 32 are located outside the grooved grid plate 100. The upper elastic comb 32 extends vertically downwards relative to the upper rotating shaft 34, and the swing end of the lower elastic comb 31 is located below the horizontal grid bar 101. When the telescopic rod 352 moves upwards and retracts into the outer casing 351, the telescopic rod 352 drives the connecting rod 36 upwards. The connecting rod 36 then drives the swing arm 37 to swing, causing the lower elastic comb 31 to swing upwards into the grooved grid plate 100, and the upper elastic comb 32 to swing into the grooved grid plate 100 as well. Taking the upper elastic comb 32 located on the right as an example, the swing end of the upper elastic comb 32 located on the right swings to the left into the grooved grid plate 100. The swing angle travel of the lower elastic comb 31 and the upper elastic comb 32 is approximately 90 degrees. Figure 11 As shown, for the brushing mechanism 3 on the right, when the swing end of the lower elastic comb 31 swings upward, the swing end of the upper elastic comb 32 also swings to the upper left at the same time, so the lower elastic comb 31 and the upper elastic comb 32 can be staggered. By setting the structure in which the electric push rod 35 drives the lower elastic comb 31 and the upper elastic comb 32 to swing simultaneously, the lower rotating shaft 33 and the upper rotating shaft 34 are not connected to independent electric push rods, which helps to reduce the cost of the pet washing, drying and grooming combo machine.
[0041] Furthermore, such as Figure 12 As shown, the pet washing, drying, and grooming combo machine of the present invention also includes a spray system 4. The spray system 4 includes branch pipes 40, a accommodating spray head 41, a spray water inlet 49, a clean water pipeline, and a mixing auxiliary material pipeline, as shown. Figure 3 and Figure 9 As shown, the accommodating cavity spray head 41 is located at the top of the pet accommodating cavity 10. The accommodating cavity spray head 41 sprays water downwards. Examples of the accommodating cavity spray head 41 can be found in Chinese Invention Patent Publication No. CN117244710A, "Rotating Spray Head and Cleaning Device Equipped with the Rotating Spray Head," and Chinese Utility Model Patent Publication No. CN218921196U, "A Durable Rotating Spray Head." The spray water input end 49 is connected to the branch pipe fitting 40 through a switch between a clean water pipeline and a mixing auxiliary material pipeline. For example, the spray water input end 49 is connected to the clean water pipeline and the mixing auxiliary material pipeline through a corresponding tee fitting. The spray water input end 49 is equipped with a filter 48. On the aforementioned clean water pipeline, a clean water inlet solenoid valve 47 and a clean water one-way valve 471 are sequentially arranged along the water flow direction. The accommodating cavity spray head 41 is connected to the branch pipe fitting 40. The spray system 4 is equipped with several cleaning auxiliary material bottles 46 and a peristaltic pump 461, such as... Figure 2 As shown, a recess 1002 is provided on the right outer wall of the box 1. The cleaning agent bottle 46 is placed in the recess 1002. The cleaning agent bottle 46 can be removed from the recess 1002 by hand to the right. The recess 1002 is located on the upper right side of the box 1, which is convenient for right-handed users to pick up and put in the cleaning agent bottle 46. Figure 12As shown, the mixing pipeline includes a mixing pipe 444. The inlet end of the peristaltic pump 461 is connected to the corresponding cleaning auxiliary bottle 46. Specifically, the inlet end of the peristaltic pump 461 is connected to an inlet hose, which extends into the corresponding cleaning auxiliary bottle 46. Therefore, when it is necessary to remove the cleaning auxiliary bottle 46 from the cavity 1002, the corresponding inlet hose can be pulled out of the cleaning auxiliary bottle 46 first. When the cleaning auxiliary bottle 46 is put back into the cavity 1002, the cleaning auxiliary bottle 46 can be put into the cavity 1002 first, and then the corresponding inlet hose can be inserted into the cleaning auxiliary bottle 46. The cleaning aid bottle 46 is used to hold cleaning aids. The outlet of the peristaltic pump 461 is connected to the mixing pipe 444. For example, if there are three cleaning aid bottles 46, then there are also three peristaltic pumps 461. For example, the three cleaning aid bottles 46 can hold disinfectant, formaldehyde remover, and detergent respectively. For formaldehyde remover, refer to the Chinese invention patent announcement number CN108771961B, "A biological enzyme formaldehyde remover and its application". A spray booster pump 44 is provided on the mixing aid pipeline. The spray booster pump 44 is located between the mixing pipe 444 and the branch pipe fitting 40. The outlet of the spray booster pump 44 is connected to the branch pipe fitting 40. Specifically, on the above-mentioned mixing aid pipeline, a mixing aid inlet solenoid valve 441, a water flow regulating valve 442, a mixing pipe 444, a spray booster pump 44, and a mixing aid one-way valve 446 are arranged sequentially along the water flow direction. Figure 8As shown, the water flow regulating valve 442 can be installed on the upper rear side of the housing 1. Examples of the water flow regulating valve 442 can be found in the utility model patent announcement number CN223825701U "A water flow regulating valve" and the invention patent announcement number CN101225882B "Flow regulating valve". The working principle of the spray system 4 is as follows: The spray water inlet 49 is connected to the tap water pipe or the hot water outlet of an externally installed water heater. When cleaning additives are not needed, the mixing additive inlet solenoid valve 441 is closed and the purified water inlet solenoid valve 47 is opened, switching the spray water inlet 49 to the purified water pipeline. The water flowing into the spray water inlet 49 first passes through the filter 48, then through the purified water pipeline to the branch fitting 40. The water then flows through the branch fitting 40 to the receiving cavity spray head 41, which sprays water downwards (i.e., into the pet receiving cavity 10). When cleaning additives need to be mixed in... When the mixing auxiliary material inlet solenoid valve 441 is opened and the clean water inlet solenoid valve 47 is closed, the spray water input terminal 49 is switched to connect to the above-mentioned mixing auxiliary material pipeline. The water flow into the spray water input terminal 49 first flows through the above-mentioned filter 48, and then the water flow through the above-mentioned mixing auxiliary material pipeline to reach the branch pipe fitting 40. During this period, the peristaltic pump 461 correspondingly inputs the cleaning auxiliary material in the cleaning auxiliary material bottle 46 into the mixing pipe 444. The water flowing through the mixing pipe 444 can mix with the cleaning auxiliary material. According to the specific cleaning auxiliary material required, the peristaltic pump 461 is activated accordingly, and the spray booster pump 44 can increase the spray intensity of the accommodating cavity spray head 41.
[0042] like Figure 3 As shown, the pet washing, drying, and grooming combo machine of the present invention includes a heat exchange system 8, which includes a front cross-flow fan 81 and a rear cross-flow fan 82. The heat exchange system 8 can be referenced from the Chinese invention patent publication number CN120391355A, "A Heat Exchange System for a Dual-Channel Pet Drying Box." The front cross-flow fan 81 and the rear cross-flow fan 82 are located in the upper part of the box body 1, above the pet holding cavity 10. Figure 12 As shown, the branch fitting 40 is connected to an impeller cleaning nozzle 43, such as... Figure 3 As shown, impeller cleaning nozzles 43 are respectively provided on the upper side of the front cross-flow impeller 81 and the upper side of the rear cross-flow impeller 82, such as... Figure 12As shown, an impeller cleaning solenoid valve 431 is provided between the branch pipe fitting 40 and the impeller cleaning nozzle 43. The branch pipe fitting 40 is specifically a four-way pipe fitting. When it is necessary to bathe the pet 99 in the pet housing 10, the impeller cleaning solenoid valve 431 can be closed, the clean water inlet solenoid valve 47 can be closed, and the mixing agent inlet solenoid valve 441 can be opened. The peristaltic pump 461 draws detergent from the cleaning agent bottle 46, and the housing spray head 41 sprays water downwards to shower the pet 99. During this process, the combing mechanism 3 can work, and the lower elastic comb 31 and upper elastic comb 32 can help remove dirt from the pet 99's body. Then, the impeller cleaning solenoid valve 431 is kept closed, the clean water inlet solenoid valve 47 is opened, and the mixing agent inlet solenoid valve 441 is closed. Then, the housing spray head 41 sprays clean water onto the pet 99 to clean it. After the pet 99 is cleaned, the spray system 4 stops working, and then the heat exchange system 8 works to dry the pet 99. During operation, the brushing mechanism 3 can work simultaneously. The lower elastic comb 31 and the upper elastic comb 32 lift up the pet 99's fur, which helps to speed up the drying process. Afterward, the brushing mechanism 3 stops working. During this time, the lower elastic comb 31 and the upper elastic comb 32 comb the pet 99's fur. As the lower elastic comb 31 and the upper elastic comb 32 sweep across the pet 99's body, they also rub against the pet 99's fur. The lower elastic comb 31 and the upper elastic comb 32 have a pulling and smoothing effect on the fur through friction. This means that the fur combed by the lower elastic comb 31 roughly corresponds to the swing direction of the lower elastic comb 31, and the fur combed by the upper elastic comb 32 roughly corresponds to the swing direction of the upper elastic comb 32, thus helping to straighten the pet 99's fur. When it is necessary to clean the front cross-flow fan 81 and the rear cross-flow fan 82, the impeller cleaning solenoid valve 431 is opened, the mixing auxiliary material inlet solenoid valve 441 is opened, and the clean water inlet solenoid valve 47 is closed. The impeller cleaning nozzles 43 spray water onto the front cross-flow fan 81 and the rear cross-flow fan 82 respectively, and the container cavity spray nozzles 41 also spray water into the pet container cavity 10 to clean the pet container cavity 10. During this process, the detergent in the cleaning auxiliary material bottle 46 is first injected into the mixing auxiliary material bottle 46 by the corresponding peristaltic pump 461. After the detergent is rinsed inside the pet washing, drying, and grooming machine, the detergent injection stops in the feed pipe 444. Then, the disinfectant solution from the cleaning aid bottle 46 is injected into the mixing pipe 444 via the corresponding peristaltic pump 461 to disinfect the pet holding cavity 10, the front cross-flow fan 81, and the rear cross-flow fan 82. After disinfection, all peristaltic pumps 461 stop working, and the pet holding cavity 10, the front cross-flow fan 81, and the rear cross-flow fan 82 are further rinsed with clean water. Figure 16 As shown (for easy viewing), Figure 16 relatively Figure 3(Simplified drawing) Inside the housing 1, there is an air guide plate 16. The air guide plate 16 and the back of the housing 1 form an air inlet cavity 17. That is to say, in the front-rear direction, the air guide plate 16 is located between the pet holding cavity 10 and the air inlet cavity 17. The pet holding cavity 10 is located in front of the air inlet cavity 17. The air guide plate 16 and the air inlet cavity 17 can be referred to as "A heat exchange system for a dual-air duct pet drying box" in Chinese invention patent publication number CN120391355A. The front cross-flow fan 81 is located in the front volute, and the rear cross-flow fan 82 is located in the rear volute. The impeller cleaning nozzle 43 extends into the front volute and the rear volute respectively. The front exhaust vent and the forward air vent of the shell are connected to the top of the pet housing cavity 10. The rear exhaust vent of the rear volute is connected to the top of the pet housing cavity 10. The rear air inlet of the rear volute is connected to the upper end of the air inlet duct cavity 17. The lower end of the air inlet duct cavity 17 is connected to the drip tray 15. Water sprayed onto the forward cross-flow impeller 81 will flow down into the pet housing cavity 10 through the front exhaust vent and the forward air vent. Water sprayed onto the rear cross-flow impeller 82 will flow down into the pet housing cavity 10 through the rear exhaust vent and down into the air inlet duct cavity 17 through the rear air inlet. Then the water will flow down into the drip tray 15. The water in the pet housing cavity 10 will fall into the drip tray 15 through the grate 103. As can be seen from the above, the structure of setting up the spray water input end 49 to switch between the clean water pipeline and the mixing auxiliary material pipeline and connecting the branch pipe fitting 40, and combining it with the peristaltic pump 461 to inject the cleaning auxiliary material in the cleaning auxiliary material bottle 46 into the mixing auxiliary material pipeline, is conducive to enabling the spray system 4 to achieve a variety of spray cleaning effects (including spraying with detergent, spraying with disinfectant, and spraying with clean water), thereby enriching the functions of the pet washing, drying, and grooming combo machine.
[0043] Furthermore, such as Figure 12As shown, the spray system 4 includes a spray foaming air pump 45. The air outlet of the spray foaming air pump 45 is connected to the mixing auxiliary material pipeline through a first foaming tee 445. The first foaming tee 445 is located between the spray booster pump 44 and the branch pipe 40. Specifically, a first pressure switch 451 and a first air outlet check valve 452 are sequentially installed on the pipeline from the air outlet of the spray foaming air pump 45 to the first foaming tee 445. The peristaltic pump 461 injects the detergent in the cleaning auxiliary material bottle 46 into the mixing auxiliary material pipeline. The air outlet of the spray foaming air pump 45 outputs compressed air, which is injected into the mixing auxiliary material pipeline through the first foaming tee 445. The compressed air mixes violently with the water mixed with detergent (such as shampoo or shower gel), and then the fluid containing a large amount of foam is sprayed onto the pet 99's fur through the spray head 41 in the receiving cavity, which helps to improve the cleaning effect. The working principle of foam generation by the spray foaming air pump 45 can be found in the utility model patent publication number CN223556243U, "A Foaming Device". When the air pressure detected by the first pressure switch 451 exceeds the set value, the first pressure switch 451 disconnects the circuit of the spray foaming air pump 45 to stop the spray foaming air pump 45 from working, thus preventing damage to the spray foaming air pump 45 due to excessive internal pressure. Figure 12 As shown, in some embodiments, a pulse solenoid valve 453 is provided between the air outlet of the spray foaming air pump 45 and the first foaming tee 445. More specifically, the pulse solenoid valve 453 can be located between the first pressure switch 451 and the first air outlet check valve 452. The compressed air output by the spray foaming air pump 45 is pulsed into the mixing auxiliary material pipeline through the pulse solenoid valve 453. Since the compressed air helps to drive the water flow through the accommodating cavity spray head 41, by setting the pulse solenoid valve 453, the accommodating cavity spray head 41 can realize pulsed water spray (i.e., avoid continuous high-intensity water spray), which can avoid the continuous high-intensity impact of water on the pet 99, thus making the pet 99 feel comfortable.
[0044] Furthermore, such as Figure 13 As shown, the pet washing, drying, and grooming combo machine of the present invention also includes a recycled water circulation system 5. The recycled water circulation system 5 includes a front spray pipe 52 that sprays water downwards and backwards, a bottom spray pipe 590 that sprays water upwards and upwards, and a circulating water pump 53. Figure 8 As shown, the front spray pipe 52 is located at the upper front end of the pet housing cavity 10. The front spray pipe 52 extends in the left-right direction, and the lower rear part of the front spray pipe 52 has upward spray holes spaced apart in the left-right direction. The upward spray holes are connected to the inner cavity of the front spray pipe 52, so the upward spray holes can spray water downwards and backwards. Figure 3 , Figure 4 and Figure 9As shown, the bottom of the enclosure 1 is provided with a drip tray 15, which is located below the pet holding cavity 10. The pet holding cavity 10 is connected to the drip tray 15 through a grid gap 103. The bottom spray pipe 590 is located at the lower part of the grooved grid plate 100. Specifically, the horizontal grid bar 101 includes left and right parts, and the bottom spray pipe 590 is located between the left and right parts of the horizontal grid bar 101. Figure 8 and Figure 13 As shown, the inlet end of the circulating water pump 53 is connected to the aforementioned liquid receiving tray 15, and the outlet end of the circulating water pump 53 is connected to the front spray pipe 52 and the bottom spray pipe 590, as follows. Figure 2 As shown, the top of the bottom spray pipe 590 has bottom spray holes 59 arranged at intervals in the front-to-back direction. The bottom spray holes 59 are connected to the inner cavity of the bottom spray pipe 590, so the bottom spray holes 59 can spray water upwards. Figure 8 As shown, the inlet end of the circulating water pump 53 is specifically connected to the lower rear end of the aforementioned liquid receiving tray 15. The lower rear end of the liquid receiving tray 15 is also connected to an electric ball valve 151. The electric ball valve 151 is existing technology. For an example of the electric ball valve 151, please refer to the "Electric Ball Valve" in the utility model patent announcement number CN201475407U. When the electric ball valve 151 is opened, the water in the liquid receiving tray 15 can be discharged to the outside of the pet washing, drying and grooming machine through the electric ball valve 151. In other words, the liquid receiving tray 15 can be connected to the sewage pipe through the electric ball valve 151. When the spray system 4 sprays water to clean the inside of the pet washing, drying and grooming machine, the water falls into the drip tray 15, causing the electric ball valve 151 to close or reduce its opening. The circulating water pump 53 then operates, drawing water from the drip tray 15 and transporting it to the front spray pipe 52 and the bottom spray pipe 590. The bottom spray pipe 590 then sprays water upwards (into the pet housing 10), while the front spray pipe 52 sprays water downwards (into the pet housing 10). The water then falls back into the drip tray 15, thus reducing water waste. The combination of the front spray pipe 52 and the bottom spray pipe 590 enables two-way water spraying to clean the pet housing 10, which helps improve the cleaning effect of the pet housing 10.
[0045] Furthermore, such as Figure 10As shown, an inner flow channel 510 is coaxially formed within the upper rotating shaft 34. Lateral spray holes 51 are formed on the upper rotating shaft 34. The lateral spray holes 51 and the upper elastic comb bars 32 are co-located with respect to the upper rotating shaft 34. That is, the lateral spray holes 51 and the upper elastic comb bars 32 are located on the same side of the upper rotating shaft 34. The upper elastic comb bars 32 are evenly spaced along the front-to-back direction, while the lateral spray holes 51 are located between two adjacent protrusions. The lateral spray holes 51 connect to the inner flow channel 510, circulating... The outlet end of the water pump 53 is connected to one end (specifically, the front end) of the inner flow channel 510. The rear end of the inner flow channel 510 is closed. Specifically, an inner flow channel inlet connector 58 is inserted into the front end of the inner flow channel 510. The inner flow channel inlet connector 58 can rotate relative to the upper rotating shaft 34. A sealing ring is provided between the outer wall of the inner flow channel inlet connector 58 and the inner wall of the inner flow channel 510. The inner flow channel inlet connector 58 is also adapted to pass through the support 14. The support 14 is installed on the inner wall of the housing 1. Figure 8 and Figure 10 As shown, the support 14 supports the front end of the upper rotating shaft 34 through the inner flow channel water inlet connector 58, as... Figure 4 As shown, the rear end of the upper rotating shaft 34 can be rotatably connected to the support plate 13, as... Figure 10 As shown, the inner flow channel inlet connector 58 can be a right-angle elbow, and the inner flow channel inlet connector 58 is connected to the outlet end of the circulating water pump 53 through a corresponding pipe. Figure 3 , Figure 8 and Figure 10As shown, the positions of the side nozzles 51 correspond to the grid gaps 103. Specifically, the upper elastic comb 32 and the side nozzles 51 are respectively positioned in two adjacent grid gaps 103. When the circulating water pump 53 is working, the circulating water pump 53 delivers water to the inner flow channel 510, the water pressure in the inner flow channel 510 increases, and then the water is sprayed out through each side nozzle 51. Since the upper elastic comb 32 can be inserted into the grooved grid plate 100, and the side nozzles 51 and the upper elastic comb 32 are relative to the upper rotating shaft... With the 34 nozzles positioned in the same direction, the water jets ejected from the side nozzles 51 also follow the upper elastic comb 32 into the grooved grid plate 100. That is to say, the water jets pass through the corresponding grid gaps 103. As the electric push rod 35 drives the upper elastic comb 32 to swing back and forth, the water jets also sweep back and forth across the pet holding cavity 10. The water jets will diverge due to air resistance. Combined with the front spray pipe 52 and the bottom spray pipe 590, this helps to clean the pet holding cavity 10. Since the left and right sides of the grooved grid plate 100 are respectively provided with upper rotating shafts 34, the side spray holes 51 spray water into the pet holding cavity 10 from the left and right sides of the grooved grid plate 100 respectively; the water sprayed by the side spray holes 51 to the bottom of the pet holding cavity 10 can be received by the drip tray 15. When the side spray holes 51 swing downward, the water jet sprayed downward by the side spray holes 51 is located between the inner wall of the box 1 and the vertical grid bar 102. That is to say, at this time, the water jet sprayed downward by the side spray holes 51 is located on the outside of the grooved grid plate 100, and the water that is sprayed or splashed out to the outside of the pet holding cavity 10 will be blocked by the inner wall of the box 1 and fall to the bottom of the box 1, and then the water will flow into the drip tray 15. Figure 3 As shown, an electric heating plate 152 is attached to the outer bottom of the drip tray 15. The electric heating plate 152 is prior art; reference can be made to the "electric heating plate" in invention patent publication number CN103697506B. When working, the electric heating plate 152 heats the bottom of the drip tray 15, heating the water inside. The heated water is then sprayed into the pet holding cavity 10 by the circulating water pump 53. As mentioned above, the spray system 4 can spray water mixed with detergent into the pet holding cavity 10. The detergent-mixed water falls into the drip tray 15, and the warm water mixed with detergent rinses the pet holding cavity 10, which helps to enhance the activity of the detergent and improve the cleaning effect. Figure 13 As shown, the recycled water circulation system 5 is also equipped with a cleaning foaming air pump 54. The air outlet of the cleaning foaming air pump 54 is connected to the pipeline from the liquid outlet of the circulating water pump 53 to the front spray pipe 52 via a second foaming tee 57, thus enabling the front spray pipe 52 to spray foam. A second pressure switch 55 and a second air outlet check valve 56 are sequentially installed on the pipeline from the air outlet of the cleaning foaming air pump 54 to the second foaming tee 57.
[0046] Furthermore, such as Figure 1As shown, the front of the box 1 is provided with a door 12, which is used to open and close the box opening 11. The left end of the door 12 is hinged to the box 1, and the door 12 can swing open horizontally. An interactive window 121 is formed on the door 12 for partial passage of the pet 99 inside the pet housing cavity 10; Figure 16 As shown, when the pet 99 is bathed or dried (i.e. blow-dried) in the pet housing cavity 10, even if the box door 12 is closed, parts of the pet 99's body can extend out of the box door 12 through the interaction window 121. For example, the pet 99's head or the pet 99's feet can extend out of the box door 12 through the interaction window 121. The owner of pet 99 can interact with pet 99 through the interaction window 121. For example, the owner of pet 99 can make gestures or use sound to interact with pet 99 from the front of the interaction window 121. When pet 99 discovers the owner outside the interaction window 121, pet 99 can extend a part of its body through the interaction window 121 to the outside of the box door 12, so that the owner of pet 99 can touch the part of pet 99's body that is extended outside the box door 12. Therefore, when pet 99 becomes agitated in the pet housing cavity 10, the owner of pet 99 can effectively soothe pet 99 through human-pet interaction, which can prevent pet 99 from becoming agitated and randomly bumping into the inner wall of the pet housing cavity 10. Or, before pet 99 has any emotional problems, the owner of pet 99 can interact with pet 99 through the interaction window 121, which is conducive to pet 99 having a pleasant bath or drying process.
[0047] In some embodiments, such as Figure 1 , Figure 3 and Figure 16 As shown, the interactive window 121 is covered with an interactive window mesh cover 2, which is located outside the box door 12. Inside the interactive window mesh cover 2, an interactive space 20 is formed for partial entry of the pet 99 into the pet housing cavity 10, as shown... Figure 14 As shown, the interactive window cover 2 includes warp strips 201 and weft strips 202, which are welded to the warp strips 201. An interactive opening 211 is formed at the top of the interactive window cover 2. When a part of the pet 99's body moves outward through the interactive window 121, it enters the interactive space 20. At this time, the interactive window cover 2 protects the pet 99's body part, while the pet's owner can reach through the interactive opening 211 to pet the pet, thus enhancing human-pet interaction. After the interaction, the pet 99's body part can return to the pet housing cavity 10 by moving back through the interactive window 121. Figure 1 and Figure 2As shown, a shower head 42 is provided on the outside of the housing 1. The shower head 42 is connected to a shower head water supply hose 421. A shower head bracket is provided on the right outer side of the housing 1. For an example of the above-mentioned shower head bracket, please refer to the "Shower Head Bracket" of utility model patent announcement number CN206956858U. The shower head 42 can be inserted into the above-mentioned shower head bracket, such as... Figure 12 As shown, specifically, one end of the shower water supply hose 421 is connected to the shower head 42, and the other end of the shower water supply hose 421 is connected to the spray water inlet 49 via an angle valve 422. Therefore, when the angle valve 422 is opened by hand, the water flow into the spray water inlet 49 can flow through the angle valve 422 to the shower head 42. Because the shower head 42 is connected to the shower water supply hose 421, by setting an appropriate length for the shower water supply hose 421, the owner of the pet 99 can remove the shower head 42 from the shower head bracket and move it to the corresponding interactive window cover 2, so that the shower head 42 sprays a portion of the pet 99's body within the interactive space 20, realizing the spray interaction between the owner and the pet 99. When the door 12 is opened, the user can use the shower head 42 to spray the pet housing cavity 10. Figure 14 As shown, the lower inner side of the interactive window mesh cover 2 is provided with a bottom pocket 22. If the pet 99's feet are inserted into the interactive space 20, the pet 99's feet can rest on the bottom pocket 22, which can prevent the pet 99's feet from directly contacting the mesh structure of the interactive window mesh cover 2 and feeling uncomfortable.
[0048] exist Figure 16 In the illustrated embodiments, as Figure 15 As shown, more specifically, a water curtain 24 can be set at the interaction window 121. The water curtain 24 includes curtain panels arranged in the left and right directions. The curtain panels can be made of PVC (polyvinyl chloride) and are transparent and flexible. When the pet 99 is drying in the pet housing cavity 10, the pet 99 may cause water to splash out through the interaction window 121 when it shakes its body. By setting up the water curtain 24 to block the splashing water droplets, water droplets can be prevented from splashing out of the box 1. The pet 99 can visually interact with the user through the water curtain 24. Since sound can be transmitted through the gaps between adjacent curtain panels, the water curtain 24 has little impact on the human-pet sound interaction. When a part of the pet 99's body passes through the interaction window 121, it can push open the curtain panels of the water curtain 24.
[0049] In some embodiments, such as Figure 17 and Figure 18As shown, the interactive window 121 is covered with an interactive window cover 7, which is transparent and can be made of polypropylene. The interactive window cover 7 can be hemispherical and located outside the door 12, meaning it protrudes forward from the door 12. The interactive window cover 7 forms a cavity 70 within the pet housing 10, allowing partial entry of the pet 99's body. When the door 12 is closed, the cavity 70 connects to the front of the pet housing 10. When the interactive window cover 7 is closed, its transparency allows the pet 99's owner to visually interact with the pet 99 through it. The lower end of the interactive window cover 7 is hinged to the door 12 via a spring hinge 71 (note that only...). Figure 18 The spring hinge 71 is schematically shown, allowing the interactive window cover 7 to swing forward and downward. The spring hinge 71 is prior art; for example, refer to the utility model patent publication number CN204511126U, "A Spring Hinge." The lower end of the interactive window cover 7 and the lower edge of the interactive window 121 can be respectively glued with the spring hinge 71. The elastic force of the spring in the spring hinge 71 keeps the interactive window cover 7 in the closed interactive window 121 position. That is, when the interactive window cover 7 is in the closed interactive window 121 state, the spring in the spring hinge 71 is in an elastic deformation state. When the pet 99's head or paw pushes the interactive window cover 7 forward... When the pet 99 pushes against the interactive window cover 7, the force of the spring on the spring hinge 71 overcomes the elastic force of the spring, causing the interactive window cover 7 to swing forward and downward, that is, to open the interactive window 121. At this time, the owner of the pet 99 can touch the pet 99, or the owner of the pet 99 can actively open the interactive window cover 7 by hand. When the hand or the pet 99 leaves the interactive window cover 7, the interactive window cover 7 can automatically swing backward and upward to close by the elastic force of the spring hinge 71. When the pet 99 bumps into the interactive window cover 7 inside, the spring of the spring hinge 71 can cushion the impact. When the interactive window cover 7 is in the closed state, water droplets splashing forward from the pet housing cavity 10 onto the interactive window 121 will be blocked by the interactive window cover 7.
[0050] In summary, the pet washing, drying, and grooming all-in-one machine of the present invention has a wide range of functions, which helps to meet people's growing demand for the functions of pet washing, drying, and grooming all-in-one machines.
Claims
1. A pet washing, drying, and grooming all-in-one machine, comprising a housing (1), wherein the housing (1) is provided with a pet holding cavity (10), characterized in that: The pet holding cavity (10) is provided with a combing mechanism (3). The combing mechanism (3) includes a lower elastic comb (31) for combing the lower part of the body of the pet (99) in the pet holding cavity (10) and an upper elastic comb (32) for combing the upper part of the body of the pet (99) in the pet holding cavity (10). The lower elastic comb (31) and the upper elastic comb (32) are respectively oscillating.
2. The pet washing, drying, and grooming all-in-one machine according to claim 1, characterized in that: The combing mechanism (3) includes a lower rotating shaft (33) and an upper rotating shaft (34). One end of the lower elastic comb (31) is connected to the lower rotating shaft (33), and one end of the upper elastic comb (32) is connected to the upper rotating shaft (34). The lower part of the pet housing cavity (10) is provided with a grooved grid plate (100) for supporting the pet (99). The lower rotating shaft (33) and the upper rotating shaft (34) are located on the outside of the grooved grid plate (100). The grooved grid plate (100) has a grid gap (103) for correspondingly avoiding the lower elastic comb (31) and the upper elastic comb (32).
3. The pet washing, drying, and grooming combo machine according to claim 2, characterized in that: The upper rotating shaft (34) is located above the lower rotating shaft (33), the other end of the lower elastic comb (31) is configured to swing up and down, and the other end of the upper elastic comb (32) is configured to swing left and right.
4. The pet washing, drying, and grooming combo machine according to claim 2, characterized in that: It also includes a sprinkler system (4), which includes a branch pipe fitting (40), a accommodating cavity sprinkler head (41), a sprinkler water inlet (49), a clean water pipeline, and a mixing auxiliary material pipeline. The accommodating cavity sprinkler head (41) is located at the top of the pet accommodating cavity (10). The sprinkler water inlet (49) is connected to the branch pipe fitting (40) via the clean water pipeline and the mixing auxiliary material pipeline. The accommodating cavity sprinkler head (41) is connected to the branch pipe fitting (40). The shower system (4) is provided with several cleaning auxiliary bottles (46) and a peristaltic pump (461). The mixing auxiliary pipeline includes a mixing pipe (444). The inlet end of the peristaltic pump (461) is connected to the corresponding cleaning auxiliary bottle (46), and the outlet end of the peristaltic pump (461) is connected to the mixing pipe (444). A spray booster pump (44) is provided on the mixing auxiliary pipeline. The spray booster pump (44) is located between the mixing pipe (444) and the branch pipe (40).
5. The pet washing, drying, and grooming combo machine according to claim 4, characterized in that: The spraying system (4) includes a spraying foaming air pump (45). The air outlet of the spraying foaming air pump (45) is connected to the mixing auxiliary material pipeline through a first foaming tee (445). The first foaming tee (445) is located between the spraying booster pump (44) and the branch pipe (40). A pulse solenoid valve (453) is provided between the air outlet of the spraying foaming air pump (45) and the first foaming tee (445).
6. The pet washing, drying, and grooming combo machine according to claim 4, characterized in that: It also includes a recycled water circulation system (5), which includes a front spray pipe (52) that sprays water downwards and backwards, a bottom spray pipe (590) that sprays water upwards and a circulating water pump (53). The front spray pipe (52) is located at the upper front end of the pet holding cavity (10). The bottom of the box body (1) is provided with a liquid receiving tray (15), which is located below the corresponding part of the pet holding cavity (10). The pet holding cavity (10) is connected to the liquid receiving tray (15) through the grid gap (103). The bottom spray pipe (590) is located at the lower part of the grooved grid plate (100). The inlet end of the circulating water pump (53) is connected to the liquid receiving tray (15), and the outlet end of the circulating water pump (53) is connected to the front spray pipe (52) and the bottom spray pipe (590).
7. The pet washing, drying, and grooming combo machine according to claim 6, characterized in that: An inner flow channel (510) is formed inside the upper rotating shaft (34), and a side spray hole (51) is formed on the upper rotating shaft (34). The side spray hole (51) and the upper elastic comb (32) are arranged in the same direction relative to the upper rotating shaft (34). The side spray hole (51) is connected to the inner flow channel (510). The outlet end of the circulating water pump (53) is connected to one end of the inner flow channel (510). The position of the side spray hole (51) corresponds to the grid gap (103).
8. The pet washing, drying, and grooming combo machine according to claim 1, characterized in that: The front side of the box (1) is provided with a box door (12), and an interactive window (121) is formed on the box door (12) for the partial passage of the body of the pet (99) in the pet housing cavity (10).
9. The pet washing, drying, and grooming combo machine according to claim 8, characterized in that: The interactive window (121) is covered with an interactive window mesh cover (2), which is located outside the box door (12). An interactive space (20) is formed inside the interactive window mesh cover (2) for the pet (99) in the pet housing cavity (10) to partially enter. An interactive opening (211) is formed on the upper part of the interactive window mesh cover (2). A shower head (42) is provided on the outside of the box body (1), and the shower head (42) is connected to a shower head water supply hose (421).
10. The pet washing, drying, and grooming combo machine according to claim 8, characterized in that: The interactive window (121) is covered with an interactive window cover (7), which is transparent. The interactive window cover (7) is located outside the box door (12). The interactive window cover (7) has a cover cavity (70) formed inside for a part of the body of the pet (99) in the pet holding cavity (10) to enter. The lower end of the interactive window cover (7) is hinged to the box door (12) by a spring hinge (71). The interactive window cover (7) can be opened forward and downward.