Pet sterilizer with drying function

By designing an adaptive base plate and air guiding mechanism, the problem of low drying efficiency for the feet or abdomen caused by rising hot air in pet drying equipment is solved, achieving uniform and rapid drying of all parts of the pet, improving the pet's comfort and the ease of use of the equipment.

CN119422935BActive Publication Date: 2026-07-07JI ER (ZHEJIANG) TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
JI ER (ZHEJIANG) TECHNOLOGY CO LTD
Filing Date
2024-11-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing pet drying equipment suffers from low drying efficiency for the pet's feet or abdomen due to the tendency of hot air to rise, affecting the uniformity of drying and causing excessively long drying times, which can make the pet irritable or anxious.

Method used

It adopts an adaptive base plate design, including an adaptive air outlet unit, a base plate body and a connecting port. The adaptive air outlet unit is elastically connected inside the base plate. When pressure is applied, the air direction is tilted and adjusted. Combined with the air guiding mechanism and the adaptive control mechanism, the air direction is dynamically adjusted to ensure that all parts of the pet are dried evenly.

Benefits of technology

It improves the drying efficiency and uniformity of different parts of the pet, reduces drying time, reduces pet discomfort, and enhances the user experience.

✦ Generated by Eureka AI based on patent content.

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    Figure CN119422935B_ABST
Patent Text Reader

Abstract

The application discloses a pet sterilizer with a drying function, which comprises a drying box body, wherein the drying box body is rotationally connected with a box door; an internal part of the drying box body is provided with a drying cavity; an inner wall of the drying cavity is embedded with at least one group of air inlets; a self-adapting bottom plate for controlling the bottom air direction according to the surface pressure is arranged at the bottom of the drying cavity; the self-adapting bottom plate comprises a self-adapting air outlet unit, a bottom plate main body and a communication port; the bottom plate main body is embedded at the bottom of the drying cavity; an internal part of the bottom plate main body is provided with an air cavity; the communication port is arranged on an outer end face of the bottom plate main body; the self-adapting air outlet unit is arranged in multiple groups and elastically connected in the internal part of the air cavity; and multiple groups of the self-adapting air outlet unit are flush with the surface of the self-adapting bottom plate. The application can effectively improve the uniformity of pet drying, can adaptively adjust the bottom air direction according to the pet state, and can improve the drying effect of the pet feet and the abdomen.
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Description

Technical Field

[0001] This invention relates to the field of drying equipment technology, and in particular to a pet sterilizer with drying function. Background Technology

[0002] A pet drying box is a device used to dry a pet's fur after bathing and grooming. Pet drying boxes can be categorized by size: mini, small, medium, large, and extra-large. In terms of material, domestic pet drying boxes can be made of wood, sheet metal with powder coating, stainless steel, or plastic. Based on the type of fan, they can be categorized as ordinary fan type, axial flow fan type, turbine fan type, direct exhaust fan type, and hybrid type.

[0003] Chinese Patent Publication No. CN117084188A discloses a pet dryer, belonging to the field of pet living products. The pet dryer includes a housing, a door, a drying assembly, and a light assembly. The housing has an inner cavity and a partition, which divides the inner cavity into a first receiving cavity and a second receiving cavity. The partition has a through hole, and the housing defines an air duct. The first receiving cavity has a first opening at its end away from the through hole, which is adapted to the door. The door is hinged to the end wall of the first opening. The drying assembly includes a fan and a heater. The fan is installed in the through hole and communicates with both the first and second receiving cavities. The air duct communicates with the fan's outlet and the first receiving cavity. The heater is located within the air duct. The light assembly includes a main light and a play light, both located within the first receiving cavity. The pet dryer provided in this application allows owners to easily observe and judge the dryness of their pet's fur and can automatically play with the pet, effectively alleviating the pet's fear, irritability, and anxiety during the drying process.

[0004] Existing pet disinfection and drying equipment mostly adopts bottom-up air outlet and side air outlet methods. However, because hot air tends to rise, and the bottom-up air outlet setting can lead to lower drying efficiency for the feet or abdomen when the pet is in a lying position, it affects the uniformity of drying and makes the drying time too long, which can easily make the pet irritable or anxious.

[0005] Therefore, it is necessary to provide a pet sterilizer with a drying function to solve the above-mentioned technical problems. Summary of the Invention

[0006] The purpose of this invention is to provide a pet sterilizer with a drying function to solve the above-mentioned technical problems.

[0007] To achieve the above objectives, the present invention provides the following technical solution: a pet sterilizer with drying function, comprising a drying chamber, the drying chamber being rotatably connected to a door, a drying cavity being provided inside the drying chamber, at least one set of air vents being embedded in the inner wall of the drying cavity, an adaptive bottom plate being provided at the bottom of the drying cavity that controls the bottom airflow direction according to surface pressure, the adaptive bottom plate comprising an adaptive air outlet unit, a bottom plate body and a connecting port, the bottom plate body being embedded in the bottom of the drying cavity, an air cavity being provided inside the bottom plate body, the connecting port being opened on the outer end face of the bottom plate body, multiple sets of adaptive air outlet units being provided and elastically connected inside the air cavity, the multiple sets of adaptive air outlet units being flush with the surface of the adaptive bottom plate, when the adaptive air outlet unit is pressurized, the airflow direction around the pressurized adaptive air outlet unit tilting towards the pressurized adaptive air outlet unit, three sets of air vents being provided, the three sets of air vents being respectively embedded in the side end face of the inner wall of the drying cavity excluding the door, the air vents being able to connect to an airflow source to blow airflow out to dry the pet inside the drying cavity.

[0008] Furthermore, the door can be made of transparent material or have a transparent window to facilitate observation of the pet's condition, and the outer surface of the drying box can be equipped with an operation panel to improve the ease of use of the device.

[0009] As a further embodiment of the present invention, the adaptive air outlet unit includes an air guiding mechanism, an elastic pressure plate, and an adaptive control mechanism. The elastic pressure plate is elastically connected to the inside of the air cavity. The air guiding mechanism is uniformly embedded inside the elastic pressure plate and communicates with the air cavity. The bottom of the elastic pressure plate is elastically fitted to the adaptive control mechanism for controlling the angle adjustment of the air guiding mechanism. A crossflow port is opened at the bottom edge of the elastic pressure plate.

[0010] Furthermore, the air guiding mechanism can be in various shapes such as strip or circle, and the shape of the air guiding mechanism can be adjusted according to the specific type of pet drying.

[0011] As a further embodiment of the present invention, the air guiding mechanism includes an air guiding pipe and an air outlet cavity. The air guiding pipe is disposed inside the elastic pressure plate, the air outlet cavity is opened in the middle of the air guiding pipe, and the air guiding pipe extends out of the bottom of the elastic pressure plate and passes through the adaptive control mechanism.

[0012] As a further embodiment of the present invention, the interior of the elastic pressure plate is provided with a rotating cavity adapted to the air guide tube. The rotating cavity is conical, and the inner wall of the rotating cavity is provided with an elastic element. The air guide tube is elastically disposed in the middle of the rotating cavity through the elastic element.

[0013] Furthermore, the air duct can be configured as a square or round tube as needed.

[0014] As a further embodiment of the present invention, the adaptive control mechanism includes an extension rod, a driving inclined surface, a sleeve ring, and a connector. The connector is elastically disposed at the bottom of the elastic pressure plate, the sleeve ring is opened inside the connector, the extension rod is opened on the outer end face of the connector, the extension rod is tangent to the edge of the elastic pressure plate, and the driving inclined surface is fixedly connected to the side of the extension rod away from the connector.

[0015] As a further embodiment of the present invention, the driving inclined surface extends to the lower part of the crossflow port at the edge of the adjacent elastic pressure plate, the sleeve ring is adapted to the air guide tube, and the inner wall of the sleeve ring is provided with a fitting member that fits with the air guide tube.

[0016] Furthermore, the side of the fitting component that is in contact with the air duct is curved, the driving slope is curved or curved, and the driving slopes of adjacent adaptive control mechanisms are staggered to avoid interference between adjacent adaptive control mechanisms.

[0017] As a further embodiment of the present invention, the end of the air guide tube away from the elastic pressure plate is provided with a closing mechanism.

[0018] Furthermore, the closing mechanism is made of flexible materials such as rubber.

[0019] As a further embodiment of the present invention, the adaptive air outlet unit is polygonal, and the edges of the multiple sets of adaptive air outlet units slide and fit together.

[0020] Furthermore, a rubber layer may be provided at the edge of the adaptive air outlet unit to improve the airtightness of the gaps between the adaptive air outlet units.

[0021] In use, the pet can be placed inside the drying chamber by opening the drying box. The adaptive bottom plate and air vents allow air to enter and exit the drying chamber to dry the pet. Simultaneously, the surface of the adaptive bottom plate is equipped with multiple sets of mutually fitting adaptive air outlet units, which are flexibly positioned inside the air cavity. When the pet is inside the drying chamber, some of the compressed adaptive air outlet units move downwards. This downward movement changes the airflow direction of the surrounding units that haven't moved downwards. Specifically, the airflow direction of the uncompressed adaptive air outlet units will tilt towards the direction of the compressed units. This allows the adaptive bottom plate to control the bottom airflow direction according to surface pressure. By controlling the airflow direction of the adaptive air outlet units, the pet's legs and other areas can be thoroughly dried, avoiding the slow drying of the pet's legs caused by the bottom airflow rising upwards in traditional drying ovens. Attached Figure Description

[0022] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0023] Figure 1 This is an overall schematic diagram of the present invention;

[0024] Figure 2 This is a schematic diagram of the internal structure of the box of the present invention;

[0025] Figure 3 This is a schematic diagram of the adaptive base plate structure of the present invention;

[0026] Figure 4 This is a schematic diagram of the adaptive air outlet unit structure of the present invention;

[0027] Figure 5 This is a schematic diagram of the adaptive base plate under pressure state of the present invention;

[0028] Figure 6 This is a schematic diagram of the cross-sectional structure of the adaptive air outlet unit of the present invention;

[0029] Figure 7 This is a schematic diagram of the adaptive control mechanism structure of the present invention;

[0030] Figure 8 This is a schematic cross-sectional view of the adaptive base plate under pressure state of the present invention;

[0031] Figure 9 This is the invention Figure 6 Enlarged structural diagram at point A in the middle;

[0032] Figure 10 This is the invention Figure 8 Enlarged structural diagram at point B;

[0033] Figure 11 This is a schematic diagram of the adaptive air outlet unit structure in Embodiment 3 of the present invention.

[0034] In the diagram: 1. Drying chamber; 2. Chamber door; 3. Drying cavity; 4. Adaptive base plate; 5. Air outlet; 6. Adaptive air outlet unit; 7. Base plate body; 8. Connecting port; 9. Air guiding mechanism; 10. Elastic pressure plate; 11. Adaptive control mechanism; 12. Air cavity; 13. Crossflow port; 14. Air guide pipe; 15. Air outlet cavity; 16. Rotating cavity; 17. Extension rod; 18. Drive inclined surface; 19. Sleeve ring; 20. Fitting component; 21. Connecting component; 22. Elastic component; 23. Closing mechanism. Detailed Implementation Example 1

[0035] like Figure 1 - Figure 4As shown, a pet sterilizer with drying function includes a drying chamber 1, a door 2 rotatably connected to the drying chamber 1, a drying cavity 3 inside the drying chamber 1, at least one set of air vents 5 embedded in the inner wall of the drying cavity 3, and an adaptive bottom plate 4 at the bottom of the drying cavity 3 that controls the bottom airflow direction according to the surface pressure. The adaptive bottom plate 4 includes an adaptive air outlet unit 6, a bottom plate body 7, and a connecting port 8. The bottom plate body 7 is embedded in the bottom of the drying cavity 3, and an air cavity 12 is provided inside the bottom plate body 7. The connecting port 8 is opened on the outer end face of the bottom plate body 7. Multiple sets of adaptive air outlet units 6 are provided and elastically connected inside the air cavity 12. The multiple sets of adaptive air outlet units 6 are flush with the surface of the adaptive bottom plate 4. When the adaptive air outlet unit 6 is pressurized, the airflow direction around the pressurized adaptive air outlet unit 6 tilts towards the pressurized adaptive air outlet unit 6.

[0036] Furthermore, the air vents 5 are provided in three sets. The three sets of air vents 5 are respectively embedded in the side end face of the inner wall of the drying chamber 3, excluding the side of the door 2. The air vents 5 can be connected to the airflow source to blow out airflow to dry the pet inside the drying chamber 3. The door 2 can be made of transparent material or have a transparent window to facilitate observation of the pet's condition. The outer surface of the drying chamber 1 can be provided with an operating panel to improve the ease of use of the device.

[0037] In use, the pet can be placed inside the drying chamber 3 by opening the drying chamber 1. The adaptive bottom plate 4 and the air vent 5 allow air to enter and exit the drying chamber 3 to dry the pet. At the same time, the surface of the adaptive bottom plate 4 is equipped with multiple sets of adaptive air outlet units 6 that fit together. The adaptive air outlet units 6 are elastically set inside the air cavity 12. When the pet is inside the drying chamber 3, the adaptive air outlet units 6 that are compressed will move downward. As the adaptive air outlet units 6 move downward, the air direction of the surrounding adaptive air outlet units 6 that have not moved downward will change. Specifically, the air direction of the uncompressed adaptive air outlet units 6 will tilt towards the direction of the compressed adaptive air outlet units 6. This allows the adaptive bottom plate 4 to control the bottom air direction according to the surface pressure. By controlling the air direction of the adaptive air outlet units 6, the pet's legs and other parts can be thoroughly dried, avoiding the situation in traditional drying ovens where the bottom air outlets upward, resulting in slow drying of the pet's legs. Example 2

[0038] Based on Example 1, such as Figure 1 - Figure 5 As shown, the adaptive air outlet unit 6 includes an air guiding mechanism 9, an elastic pressure plate 10, and an adaptive control mechanism 11. The elastic pressure plate 10 is elastically connected inside the air cavity 12. The air guiding mechanism 9 is evenly embedded inside the elastic pressure plate 10 and is connected to the air cavity 12. The bottom of the elastic pressure plate 10 is elastically attached to the adaptive control mechanism 11 for controlling the angle adjustment of the air guiding mechanism 9. A crossflow port 13 is opened at the bottom edge of the elastic pressure plate 10.

[0039] Furthermore, the air guiding mechanism 9 can be in various shapes such as strip or circle, and the shape of the air guiding mechanism 9 can be adjusted according to the specific type of pet drying.

[0040] During use, when a pet is inside the drying chamber 3, it is usually standing or lying down. Due to the rising effect of the hot airflow, the drying effect on the lower part of the pet is poor. When the pet is standing, traditional drying boxes usually have a bottom-up air outlet, which is not very effective at drying the fur on the pet's legs. When the pet is lying down, the fur on the abdomen piles up, blocking the abdominal air outlet. The side air outlets are also poorly dried due to their high position. The adaptive air outlet unit 6 is equipped with an elastic pressure plate 10, which is elastically set inside the air cavity 12. When the pet enters the drying chamber 3, the elastic pressure plate 10 is pressed and moves down a certain distance. This downward movement of the elastic pressure plate 10 drives the adjacent adaptive control mechanism 11, thereby enabling the adaptive control mechanism 11 to respond to the adjacent elastic pressure plate 10. The air guiding mechanism 9 in the pressure plate 10 is driven to turn, causing the air guiding mechanism 9 inside the adjacent elastic pressure plate 10 to tilt towards the downward-pressing elastic pressure plate 10, and the air guiding mechanism 9 is connected to the air cavity 12, thereby quickly drying the pet's stepped parts such as legs or abdomen, thus improving the drying effect on the pet's leg fur. Furthermore, a crossflow port 13 is provided at the bottom of the elastic pressure plate 10. When the elastic pressure plate 10 moves downward, the crossflow port 13 at the bottom of the adjacent elastic pressure plate 10 will be connected to the inside of the drying cavity 3, thereby forming a horizontal air outlet on the surface of the downward-moving elastic pressure plate 10, thus avoiding the problem of hot air rising from the side vent of the box 1. Moreover, the horizontal air outlet formed by the elastic pressure plate 10 is also closer to the pet's legs, resulting in a better drying effect, further improving the drying effect on the pet's legs.

[0041] like Figure 1 - Figure 10 As shown, the air guiding mechanism 9 includes an air guiding pipe 14 and an air outlet cavity 15. The air guiding pipe 14 is disposed inside the elastic pressure plate 10, and the air outlet cavity 15 is opened in the middle of the air guiding pipe 14. The air guiding pipe 14 extends out of the bottom of the elastic pressure plate 10 and passes through the adaptive control mechanism 11.

[0042] The interior of the elastic pressure plate 10 is provided with a rotating cavity 16 that is adapted to the air guide tube 14. The rotating cavity 16 is conical, and the inner wall of the rotating cavity 16 is provided with an elastic element 22. The air guide tube 14 is elastically set in the middle of the rotating cavity 16 through the elastic element 22.

[0043] Furthermore, the air duct 14 can be configured as a square or round tube as needed.

[0044] In use, an air guide pipe 14 is provided, which is connected to the air cavity 12 at the bottom of the elastic pressure plate 10 to guide air into the drying chamber 3. When the elastic pressure plate 10 is pressed, the adaptive control mechanism 11 at the bottom of the adjacent elastic pressure plate 10 can be driven to move away from the pressed elastic pressure plate 10. Thus, the adaptive control mechanism 11 controls the air guide pipe 14 to tilt towards the pressed elastic pressure plate 10, thereby controlling the air outlet angle of the surface of the elastic pressure plate 10, so that the air outlet angle of the unpressed elastic pressure plate 10 tilts towards the pressed elastic pressure plate 10.

[0045] like Figure 1 - Figure 10 As shown, the adaptive control mechanism 11 includes an extension rod 17, a driving inclined surface 18, a sleeve ring 19, and a connector 21. The connector 21 is elastically disposed at the bottom of the elastic pressure plate 10. The sleeve ring 19 is opened inside the connector 21. The extension rod 17 is opened on the outer end face of the connector 21. The extension rod 17 is tangent to the edge of the elastic pressure plate 10. The driving inclined surface 18 is fixedly connected to the side of the extension rod 17 away from the connector 21.

[0046] like Figure 1 - Figure 10 As shown, the driving slope 18 extends to the lower part of the cross flow port 13 at the edge of the adjacent elastic pressure plate 10, the sleeve ring 19 is adapted to the air guide tube 14, and the inner wall of the sleeve ring 19 is provided with a fitting part 20 that fits with the air guide tube 14.

[0047] Furthermore, the side of the fitting member 20 that is in contact with the air duct 14 is set in an arc shape, the driving slope 18 is set in an angle or arc shape, and the driving slope 18 of the adjacent adaptive control mechanism 11 is staggered to avoid mutual interference between adjacent adaptive control mechanisms 11.

[0048] In use, when the elastic pressure plate 10 is pressed down, it will press the driving inclined surface 18 inside the crossflow port 13. Under the action of the inclined or arc surface of the driving inclined surface 18, the driving inclined surface 18 will drive the extension rod 17 to move away from the downward elastic pressure plate 10. The extension rod 17 is fixedly connected to the connector 21. The fitting part 20 is provided with a sleeve ring 19, which is sleeved on the end of the air guide tube 14. Thus, the movement of the connector 21 drives the tilting and rotation of the air guide tube 14. The fitting part of the sleeve ring 19 and the air guide tube 14 is provided with a fitting part 20. The inner side of the fitting part 20 is arc-shaped, which facilitates the tilting drive of the air guide tube 14. After the pressure on the surface of the elastic pressure plate 10 is removed, the connector 21 will be reset under the action of the elastic force and the elastic part 22 at the end of the air guide tube 14, so that the air guide tube 14 returns to the vertical state.

[0049] like Figure 1 - Figure 10 As shown, the end of the air duct 14 away from the elastic pressure plate 10 is provided with a closing mechanism 23.

[0050] Furthermore, the closing mechanism 23 is made of flexible materials such as rubber.

[0051] When in use, when the elastic pressure plate 10 is pressed down, the air direction of its internal air guiding mechanism 9 is still vertically upward. Traditional drying equipment cannot adaptively close the bottom air vents, causing the pet's paws or abdomen to be heated for a long time when standing or lying down, and the heat accumulation causes discomfort to the pet. By providing a closing mechanism 23 at the bottom of the air guiding pipe 14, when the air guiding pipe 14 is pressed to the bottom of the air cavity 12, the closing mechanism 23 fits against the bottom of the air cavity 12, thereby closing the air guiding mechanism 9 inside the pressed elastic pressure plate 10. This makes the elastic pressure plate 10 not produce air when it is pressed, while the air direction of adjacent elastic pressure plates 10 is tilted and there is lateral airflow at the edge of the pressed elastic pressure plate 10, thereby reducing the discomfort of the pet during the drying process. Furthermore, the elastic pressure plates 10 can be linked together. When multiple sets of adjacent elastic pressure plates 10 move down synchronously, the air vents will be tilted along the edges of multiple sets of elastic pressure plates 10 and there will be lateral airflow on the surface of the elastic pressure plate 10. Example 3

[0052] Based on Examples 1 and 2, such as Figure 1 - Figure 4 and Figure 11 As shown, the adaptive air outlet unit 6 is polygonal, and the edges of multiple sets of adaptive air outlet units 6 slide and fit together.

[0053] Furthermore, a rubber layer can be provided at the edge of the adaptive air outlet unit 6 to improve the airtightness of the gaps between the adaptive air outlet units 6.

[0054] In use, the adaptive air outlet unit 6 can be configured as a polygon as needed, such as... Figure 11 The hexagonal shape shown has a certain aesthetic appeal, and the adjustable angle of the airflow direction of the adaptive airflow unit 6 will also increase as the number of variables of the adaptive airflow unit 6 increases. The higher the number of sides of the adaptive airflow unit 6, the better the adjustment angle of the airflow direction of the adaptive airflow unit 6 will be, thus improving the drying effect of the device on pets, especially their legs.

[0055] Working principle: By opening the drying chamber 1, the pet can be placed inside the drying cavity 3. The adaptive bottom plate 4 and air vents 5 allow air to enter and exit the drying cavity 3 to dry the pet. Simultaneously, the surface of the adaptive bottom plate 4 is equipped with multiple sets of mutually fitting adaptive air outlet units 6, which are elastically positioned inside the air cavity 12. When the pet is inside the drying cavity 3, the pressure on some of the adaptive air outlet units 6 will cause them to move downwards. This downward movement of the adaptive air outlet units 6 will change the airflow direction of the surrounding units that have not moved downwards. Specifically, the airflow direction of the unpressurized adaptive air outlet units 6 will tilt towards the pressurized adaptive air outlet units 6. This allows the adaptive bottom plate 4 to control the bottom airflow direction according to surface pressure. The control of the airflow direction of the adaptive air outlet units 6 achieves the desired drying effect. This system ensures thorough drying of the pet's legs and other areas, avoiding the slow drying issues common in traditional ovens where the bottom airflow is upward. When a pet is inside the drying chamber 3, they are usually standing or lying down. Due to the rising hot airflow, the lower part of the pet is less effectively dried. When the pet is standing, traditional ovens typically have a bottom-up airflow, which is ineffective for drying the fur on the pet's legs. Furthermore, when the pet is lying down, the fur on the abdomen accumulates, blocking the abdominal air vents. Side air vents, due to their higher position, also result in poor drying. The adaptive airflow unit 6 incorporates an elastic pressure plate 10, which is elastically positioned inside the air cavity 12. When the pet enters the drying chamber 3, the elastic pressure plate 10 is pressed down, causing it to move slightly downwards. The downward movement of 10 drives the adjacent adaptive control mechanism 11, which in turn drives the air guiding mechanism 9 in the adjacent elastic pressure plate 10 to tilt towards the downward-pressing elastic pressure plate 10. The air guiding mechanism 9 is connected to the air chamber 12, thus quickly drying the pet's pressed areas such as legs or abdomen, improving the drying effect on the pet's leg fur. Furthermore, a crossflow outlet 13 is provided at the bottom of the elastic pressure plate 10. When the elastic pressure plate 10 moves downward, the crossflow outlet 13 at the bottom of the adjacent elastic pressure plate 10 connects to the interior of the drying chamber 3, forming a transverse air outlet on the surface of the downward-moving elastic pressure plate 10, further improving the drying effect on the pet's legs. This is achieved through the air guiding pipe 14. The air guide pipe 14 is connected to the air cavity 12 at the bottom of the elastic pressure plate 10 to guide air into the drying chamber 3. When the elastic pressure plate 10 is pressed, the adaptive control mechanism 11 at the bottom of the adjacent elastic pressure plate 10 can be driven to move away from the pressed elastic pressure plate 10. Thus, the adaptive control mechanism 11 controls the air guide pipe 14 to tilt towards the pressed elastic pressure plate 10, thereby controlling the air outlet angle of the surface of the elastic pressure plate 10, so that the air outlet angle of the unpressed elastic pressure plate 10 tilts towards the pressed elastic pressure plate 10. When the elastic pressure plate 10 is pressed down, it will press the driving inclined surface 18 inside the crossflow port 13. Under the action of the inclined or arc surface of the driving inclined surface 18, the driving inclined surface 18 will drive the extension rod 17 to move away from the downward-moving elastic pressure plate 10.Furthermore, the extension rod 17 is fixedly connected to the connector 21, and the fitting part 20 is provided with a sleeve ring 19, which is fitted onto the end of the air duct 14. Thus, the movement of the connector 21 drives the tilting and rotation of the air duct 14. The fitting part 20 is provided at the fitting part of the sleeve ring 19 and the air duct 14. The inner side of the fitting part 20 is arc-shaped, which facilitates the tilting drive of the air duct 14. After the pressure on the surface of the elastic pressure plate 10 is removed, the connector 21 will be reset under the action of the elastic force and the elastic element 22 at the end of the air duct 14, so that the air duct 14 returns to the vertical state. When the elastic pressure plate 10 is pressed down, the air direction of its internal air guiding mechanism 9 is still vertically upward. Traditional drying equipment cannot adaptively close the bottom air vent, so that when the pet is standing or lying down, its paws or abdomen may be exposed to air. Prolonged exposure to heat and heat buildup can cause discomfort to pets. To address this, a closing mechanism 23 is installed at the bottom of the air duct 14. When the air duct 14 is pressed against the bottom of the air cavity 12, the closing mechanism 23 fits against the bottom of the air cavity 12, thus closing the air duct mechanism 9 inside the pressure-bearing elastic plate 10. This prevents the elastic plate 10 from releasing air under pressure, while the airflow from adjacent elastic plates 10 is tilted and there is lateral airflow from the edges of the pressure-bearing elastic plate 10. This reduces discomfort for pets during the drying process. Furthermore, the elastic plates 10 can be interconnected. When multiple sets of adjacent elastic plates 10 move downwards synchronously, tilted airflow and lateral airflow from the surfaces of the elastic plates 10 are formed along their edges. The adaptive airflow unit 6 can be configured as a polygon as needed, such as... Figure 11 The hexagonal shape shown has a certain aesthetic appeal, and the adjustable angle of the airflow direction of the adaptive airflow unit 6 will also increase as the number of variables of the adaptive airflow unit 6 increases. The higher the number of sides of the adaptive airflow unit 6, the better the adjustment angle of the airflow direction of the adaptive airflow unit 6 will be, thus improving the drying effect of the device on pets, especially their legs.

Claims

1. A pet sterilizer with a drying function, comprising a drying chamber, wherein the drying chamber is rotatably connected to a door, and the interior of the drying chamber is provided with a drying chamber, wherein the inner wall of the drying chamber is embedded with at least one set of air vents, characterized in that: The bottom of the drying chamber is equipped with an adaptive bottom plate that controls the bottom airflow direction according to the surface pressure. The adaptive bottom plate includes an adaptive air outlet unit, a bottom plate body, and a connecting port. The bottom plate body is embedded in the bottom of the drying chamber and has an air cavity inside. The connecting port is opened on the outer end face of the bottom plate body. Multiple sets of adaptive air outlet units are provided and elastically connected inside the air cavity. The multiple sets of adaptive air outlet units are flush with the surface of the adaptive bottom plate. When the adaptive air outlet unit is pressurized, the air outlet direction around the pressurized adaptive air outlet unit tilts towards the pressurized adaptive air outlet unit. Three sets of air outlets are provided. The three sets of air outlets are respectively embedded in the side end face of the inner wall of the drying chamber excluding the door. The air outlets can be connected to an airflow source to blow out airflow to dry the pet inside the drying chamber. The adaptive air outlet unit includes an air guiding mechanism, an elastic pressure plate, and an adaptive control mechanism. The elastic pressure plate is elastically connected to the inside of the air cavity. The air guiding mechanism is evenly embedded inside the elastic pressure plate and communicates with the air cavity. The bottom of the elastic pressure plate is elastically fitted with the adaptive control mechanism for controlling the angle adjustment of the air guiding mechanism. A crossflow port is opened at the bottom edge of the elastic pressure plate. The air guiding mechanism includes an air guiding pipe and an air outlet cavity. The air guiding pipe is disposed inside the elastic pressure plate, and the air outlet cavity is opened in the middle of the air guiding pipe. The air guiding pipe extends out of the bottom of the elastic pressure plate and passes through the adaptive control mechanism. The elastic pressure plate has a rotating cavity inside that is adapted to the air guide tube. The rotating cavity is conical, and the inner wall of the rotating cavity is provided with an elastic element. The air guide tube is elastically set in the middle of the rotating cavity through the elastic element. The adaptive control mechanism includes an extension rod, a driving ramp, a sleeve ring, and a connector. The connector is elastically disposed at the bottom of the elastic pressure plate. The sleeve ring is located inside the connector. The extension rod is located on the outer end face of the connector. The extension rod is tangent to the edge of the elastic pressure plate. The driving ramp is fixedly connected to the side of the extension rod away from the connector. The driving inclined surface extends to below the crossflow port at the edge of the adjacent elastic pressure plate, the sleeve ring is adapted to the air guide tube, and the inner wall of the sleeve ring is provided with a fitting part that fits with the air guide tube. The end of the air duct away from the elastic pressure plate is provided with a closing mechanism.

2. A pet sterilizer with drying function according to claim 1, characterized in that: The adaptive air outlet unit is polygonal, and the edges of multiple sets of adaptive air outlet units slide and fit together.