Pet phototherapy bin

By using a four-sided surround therapy lamp module and a light-transmitting excrement tray, the problem of uneven light therapy and low light utilization efficiency in pet phototherapy equipment is solved, achieving all-round uniform phototherapy and stability of the phototherapy environment for pets, thus improving the effect and comfort of pet phototherapy.

CN122321354APending Publication Date: 2026-07-03E SHINE SYST LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
E SHINE SYST LTD
Filing Date
2026-05-26
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing pet phototherapy equipment requires pets to be restrained, resulting in an unpleasant experience. Furthermore, the light utilization efficiency is low and the irradiation is uneven during the phototherapy process.

Method used

Design a pet phototherapy chamber that uses a four-sided surround therapy lamp module, including left, right, top and bottom therapy lamps, with the main light axes intersecting to form superimposed light intensity. Combined with a light-transmitting excrement tray and lamp heat dissipation module, it provides all-round uniform phototherapy coverage.

Benefits of technology

It achieves uniform phototherapy for pets from all directions without blind spots, improving the accuracy and efficiency of phototherapy effects, and ensuring the comfort of pets during activities and the stability of the phototherapy environment.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a pet phototherapy chamber, relating to the field of pet physiotherapy equipment technology. The pet phototherapy chamber includes a chamber body and a physiotherapy lamp module. The chamber body has a physiotherapy cavity where the pet receives phototherapy. The physiotherapy lamp module includes a left physiotherapy lamp located on the left side of the physiotherapy cavity, a right physiotherapy lamp located on the right side of the physiotherapy cavity, a top physiotherapy lamp located on the top side of the physiotherapy cavity, and a bottom physiotherapy lamp located on the bottom side of the physiotherapy cavity. The left, right, top, and bottom physiotherapy lamps all irradiate into the physiotherapy cavity, and the main optical axes of the left and right physiotherapy lamps intersect. The technical solution provided by this invention can provide multi-directional phototherapy for pets.
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Description

Technical Field

[0001] This invention relates to the field of pet physiotherapy equipment technology, and in particular to a pet phototherapy chamber. Background Technology

[0002] With the improvement of socio-economic levels and the development of technology, pets are playing an increasingly important role in modern families. Users' needs for pet care have expanded from basic survival guarantees to a more refined focus on the quality of life and long-term health of their pets. Among related technologies, therapeutic lamps are used to provide pets with skin repair, anti-inflammation, and pain relief. However, existing phototherapy devices typically provide directional light, requiring the pet to be restrained during the treatment, which is not pet-friendly. Summary of the Invention

[0003] The main objective of this invention is to provide a pet phototherapy chamber that can provide pets with phototherapy in a multi-faceted manner.

[0004] To achieve the above objectives, the present invention provides a pet phototherapy chamber comprising: The enclosure contains a therapy chamber where the pet receives light therapy. The physiotherapy lamp module includes a left physiotherapy lamp located on the left side of the physiotherapy cavity, a right physiotherapy lamp located on the right side of the physiotherapy cavity, a top physiotherapy lamp located on the top side of the physiotherapy cavity, and a bottom physiotherapy lamp located on the bottom side of the physiotherapy cavity. The left physiotherapy lamp, the right physiotherapy lamp, the top physiotherapy lamp, and the bottom physiotherapy lamp all irradiate into the physiotherapy cavity. The main optical axis of the left physiotherapy lamp and the main optical axis of the right physiotherapy lamp intersect.

[0005] In one embodiment, the physiotherapy lamp module further includes a lamp assembly bracket, which includes a first plate segment, a second plate segment, and a third plate segment connected in sequence. The lamp assembly bracket is disposed near the top of the chamber body. The second plate segment extends horizontally. The first plate segment and the third plate segment extend and intersect above the second plate segment. The left physiotherapy lamp and the right physiotherapy lamp are respectively disposed on the first plate segment and the third plate segment. The top physiotherapy lamp is disposed on the second plate segment.

[0006] In one embodiment, the first plate segment and the third plate segment extend above the second plate segment and intersect to form an included angle α, the included angle α being between 60° and 120°.

[0007] In one embodiment, the pet phototherapy chamber further includes an excrement tray, which covers the bottom therapy lamp and connects to the therapy cavity. The excrement tray is made of a light-transmitting material and is detachably connected to the chamber body.

[0008] In one embodiment, the excrement tray includes storage troughs on the left and right sides, guide ramps communicating with the storage troughs, and receiving surfaces connected to the two guide ramps. The two guide ramps extend obliquely towards the side closer to the receiving surface in a direction from the bottom to the top of the hopper.

[0009] In one embodiment, the two storage tanks are respectively disposed on the left and right sides of the bottom therapy lamp, between the receiving surface and the two guiding inclined surfaces, with at least the receiving surface disposed directly above the bottom therapy lamp.

[0010] In one embodiment, the sidewall of the storage tank near the guide slope is defined as the guide wall, which extends obliquely towards the receiving surface in a direction from the bottom to the top of the tank.

[0011] In one embodiment, the bottom sidewall of the physiotherapy cavity is composed of at least the receiving surface and two drainage plates. The drainage plates are respectively disposed on the left and right sides of the physiotherapy cavity and cover the upper side of the storage tank. There is a material passage gap between the drainage plate and the receiving surface, and the material passage gap communicates with the storage tank.

[0012] In one embodiment, the bottom sidewall of the silo is provided with an overflow hole and an overflow channel connecting the overflow hole and the excrement tray, the overflow channel extending along the front-rear direction of the silo.

[0013] In one embodiment, the pet phototherapy chamber further includes a lamp panel heat dissipation module, and a lamp panel heat dissipation channel is also provided inside the chamber. The lamp panel heat dissipation channel is located above the therapy cavity. The right therapy lamp, the top therapy lamp, and the left therapy lamp are all located inside the lamp panel heat dissipation channel. The lamp panel heat dissipation module includes a lamp panel heat dissipation fan. The top side wall of the chamber is provided with an air outlet, and the left side wall and the right side wall are respectively provided with air inlets. The air outlet and the air inlets are connected to the lamp panel heat dissipation channel, and the lamp panel heat dissipation fan is provided corresponding to the air outlet.

[0014] In this invention, a closed phototherapy space is provided for pets by setting up a chamber with a therapy cavity. A four-sided surround therapy lamp module is constructed, consisting of a left, right, top, and bottom therapy lamp that irradiates into the therapy cavity. This achieves uniform phototherapy coverage of the pet's entire body without blind spots, eliminating the need to restrain the pet and providing skin repair, anti-inflammation, and pain relief for the areas requiring phototherapy. It is understood that if only certain areas of the pet require phototherapy, a custom-made smock can be provided, exposing only the areas needing treatment. Even if the pet rolls over, the 360° surround therapy module ensures that the affected areas are treated. If the pet requires full-body phototherapy, it can be placed directly into the therapy cavity, allowing for full-body phototherapy even when the pet is rolling over. Furthermore, the intersecting main optical axes of the left and right therapy lamps create a superposition effect of light intensity in the intersection area, enhancing the intensity of phototherapy in that area. Simultaneously, it optimizes the light propagation path, reduces light scattering loss, and improves light energy utilization efficiency. The independent therapy chamber within the enclosure can concentrate and constrain the light emitted by the therapy lamps, preventing light leakage and further improving the efficiency of phototherapy. It also provides pets with an independent and stable therapy space, ensuring the stability of the irradiation environment during phototherapy. The multi-directional irradiation design also allows the phototherapy light to precisely target the pet within the therapy chamber, improving the accuracy and effectiveness of the phototherapy. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of a structure of an embodiment of the pet phototherapy chamber provided by the present invention; Figure 2 for Figure 1 The diagram shown is a structural schematic of the door when it is open in the embodiment shown. Figure 3 for Figure 1 A partial sectional view of the embodiment shown; Figure 4 for Figure 1 Exploded view of the embodiment shown; Figure 5 for Figure 1 Another exploded view of the embodiment shown; Figure 6 for Figure 1Another partial sectional view of the embodiment shown; Figure 7 for Figure 1 Another exploded view of the embodiment shown; Figure 8 for Figure 1 A cross-sectional view of the embodiment shown.

[0017] Explanation of icon numbers: 100. Compartment body; 11. Therapy chamber; 111. Side observation window; 112. Drainage plate; 113. Feed passage gap; 12. Mounting groove; 121. Protective cover; 13. Light panel heat dissipation channel; 131. Air outlet; 132. Air inlet; 14. Overflow channel; 141. Overflow hole; 15. Pet entrance / exit; 16. Universal casters; 17. Handle; 171. Lifting groove; 18. Rear partition; 181. Ventilation grille hole; 19. Control chamber; 200. Physiotherapy lamp module; 21. Left physiotherapy lamp; 22. Right physiotherapy lamp; 23. Top physiotherapy lamp; 24. Bottom physiotherapy lamp; 25. Lamp assembly bracket; 251. First panel segment; 252. Second panel segment; 253. Third panel segment; 300. Excrement tray; 31. Storage trough; 311. Guide trough wall; 32. Receiving surface; 33. Guide ramp; 400. Lamp panel heat dissipation module; 41. Lamp panel heat dissipation fan; 500. Door body; 51. Front observation window; 52. Light-transmitting panel; 53. Ventilation grille holes; 600. Physiotherapy cooling module; 61. Physiotherapy cooling fan; 700. Control module.

[0018] The realization of the objective, functional features and advantages of the present invention will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0019] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present invention.

[0020] It should be noted that if the embodiments of the present invention involve directional indicators (such as up, down, left, right, front, back, etc.), the directional indicators are only used to explain the relative positional relationship and movement of the components in a specific posture. If the specific posture changes, the directional indicators will also change accordingly.

[0021] Furthermore, if the embodiments of this invention involve descriptions such as "first" or "second," these descriptions are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the use of "and / or" or "and / or" throughout the text includes three parallel solutions. For example, "A and / or B" includes solution A, solution B, or a solution where both A and B are satisfied simultaneously. Furthermore, the technical solutions of the various embodiments can be combined with each other, but this must be based on the ability of those skilled in the art to implement them. When the combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this invention.

[0022] This invention proposes a pet phototherapy chamber.

[0023] Please see Figures 1 to 8 In one embodiment of the present invention, the pet phototherapy chamber includes: The enclosure 100 contains a therapy chamber 11, in which the pet receives light therapy. The physiotherapy lamp module 200 includes a left physiotherapy lamp 21 located on the left side of the physiotherapy cavity 11, a right physiotherapy lamp 22 located on the right side of the physiotherapy cavity 11, a top physiotherapy lamp 23 located on the top side of the physiotherapy cavity 11, and a bottom physiotherapy lamp 24 located on the bottom side of the physiotherapy cavity 11. The left physiotherapy lamp 21, the right physiotherapy lamp 22, the top physiotherapy lamp 23, and the bottom physiotherapy lamp 24 all irradiate into the physiotherapy cavity 11. The main optical axis of the left physiotherapy lamp 21 and the main optical axis of the right physiotherapy lamp 22 are intersected.

[0024] In the technical solution of this invention, a chamber 100 with a therapy cavity 11 provides a dedicated enclosed phototherapy space for pets. A four-sided surround therapy lamp module 200 is constructed by a left therapy lamp 21, a right therapy lamp 22, a top therapy lamp 23, and a bottom therapy lamp 24 irradiating into the therapy cavity 11. This achieves uniform phototherapy coverage of the pet's entire body without blind spots, eliminating the need to restrain the pet and providing skin repair, anti-inflammation, and pain relief for the areas requiring phototherapy. It is understood that if only certain areas of the pet require phototherapy, a custom-made smock can be provided, exposing only the areas needing phototherapy. Even when the pet rolls over, the 360° surround therapy lamp module ensures that the areas requiring phototherapy are still treated. If the pet requires phototherapy for its entire body, it can be placed directly into the therapy cavity, allowing for full-body phototherapy even when the pet is rolling over.

[0025] Furthermore, the intersecting main optical axes of the left and right therapy lamps 21 and 22 create a superposition effect of light intensity in the intersecting area, enhancing the intensity of phototherapy in that area. At the same time, it optimizes the light propagation path, reduces light scattering loss, and improves light energy utilization efficiency. The independent therapy cavity 11 in the chamber 100 can concentrate and constrain the light from the therapy lamps, preventing light leakage and further improving the efficiency of phototherapy. It also provides pets with an independent and stable therapy space, ensuring the stability of the irradiation environment during phototherapy. The multi-directional irradiation structure design also allows the phototherapy light to be precisely applied to the pet in the therapy cavity 11, improving the accuracy and effectiveness of phototherapy.

[0026] It should be noted that the left therapy lamp 21, right therapy lamp 22, top therapy lamp 23, and bottom therapy lamp 24 all include lamp panels and LED beads. The lamp panel substrate uses a high thermal conductivity aluminum substrate to ensure good heat dissipation performance. Multiple LED bead arrays of specific wavelengths are welded and fixed onto each lamp panel. The spectral configuration has been optimized through bio-optics, including two main bands: the visible red light band and the near-infrared light band. The red light band mainly uses LED beads with wavelengths of 630 nm and 660 nm. These two wavelengths of red light have good penetration into the skin and subcutaneous tissue, effectively promoting microcirculation, stimulating the synthesis of collagen and elastin fibers, and accelerating epidermal cell regeneration. Therefore, it has significant effects on skin repair, wound healing, hair follicle health, and the reduction of superficial inflammation. The near-infrared light band is equipped with LED beads with longer wavelengths of 810 nm, 830 nm, 850 nm, and 1060 nm. Near-infrared light, especially the band above 800 nm, has stronger tissue penetration capabilities. These devices can act on deeper muscles, fascia, articular cartilage, and even bones, with their biological effects focusing on joint repair and pain relief, wound healing, anti-inflammatory and analgesic effects, and accelerated postoperative recovery. It's worth noting that using red and / or infrared light for phototherapy in pets usually requires consideration of power density and treatment duration. These factors are related to the treatment target and the pet's size, and should be followed according to the veterinarian's instructions and / or the phototherapy equipment's manual.

[0027] In one embodiment, the physiotherapy lamp module 200 further includes a lamp support 25, which includes a first plate segment 251, a second plate segment 252, and a third plate segment 253 connected in sequence. The lamp support 25 is disposed near the top of the chamber 100. The second plate segment 252 extends horizontally. The first plate segment 251 and the third plate segment 253 extend and intersect above the second plate segment 252 (it should be noted that the extension and intersection here does not mean that the first plate segment 251 and the third plate segment 253 have a physical and intersecting extension plate above the second plate segment 252, but rather that the first plate segment 251 and the third plate segment 253 intersect at a virtual extension above the second plate segment 252, so as to show that the first plate segment 251 and the third plate segment 253 are set at an angle). The left physiotherapy lamp 21 and the right physiotherapy lamp 22 are respectively disposed on the first plate segment 251 and the third plate segment 253, and the top physiotherapy lamp 23 is disposed on the second plate segment 252. The lamp bracket 25 provides a stable and precise mounting platform for the left therapy lamp 21, right therapy lamp 22, and top therapy lamp 23, preventing the therapy lamps from becoming loose or shifting and affecting the irradiation effect. The horizontal extension of the second plate segment 252 ensures that the top therapy lamp 23 irradiates the therapy cavity 11 evenly in the vertical direction. The intersecting layout of the first plate segment 251 and the second plate segment 252 can precisely adjust the installation angle of the left and right therapy lamps 22, ensuring that their irradiation light is directed towards the inside of the therapy cavity 11 and that they are intersecting. At the same time, the lamp bracket 25 is positioned close to the top of the chamber 100, which can make reasonable use of the upper space of the chamber 100 and avoid occupying the effective activity space inside the therapy cavity 11, ensuring the pet's comfort while moving around in the therapy cavity 11. The overall structure takes into account installation stability, irradiation accuracy, and space utilization. In other embodiments, at least part of the right and left walls of the physiotherapy cavity 11 may be designed with an inclined structure, and the left physiotherapy lamp 21 and the right physiotherapy lamp 22 may be directly installed on the side wall of the physiotherapy cavity 11.

[0028] In one embodiment, the first plate segment 251 and the third plate segment 253 extend above the second plate segment 252 and intersect to form an angle α, the value of which is between 60° and 120°. This limited angle range allows for precise control of the illumination angles of the left and right therapy lamps 22, preventing the intersection area of ​​the two lamps from being too concentrated due to an excessively small angle, which could cause excessive local light intensity and potentially damage the pet's body tissues. It also prevents the intersection area of ​​the two lamps from being too scattered and the light intensity from being insufficient due to an excessively large angle, thus failing to achieve effective phototherapy. The angle of 60° to 120° allows the light from the left and right therapy lamps 22 to form a reasonable overlapping area in the middle of the therapy cavity 11. Combined with the top and bottom therapy lamps 24, this further optimizes the uniformity and intensity distribution of light inside the therapy cavity 11, ensuring both the phototherapy effect and the safety of the pet, and adapting to the phototherapy needs of pets of different sizes.

[0029] In one embodiment, the pet phototherapy chamber also includes an excrement tray 300, which covers the bottom therapy lamp 24 and connects to the therapy chamber 11. The excrement tray 300 is made of a light-transmitting material and is detachably connected to the chamber body 100. The light-transmitting material design ensures that the light from the bottom therapy lamp 24 can pass through the tray smoothly into the therapy chamber 11 without affecting the phototherapy effect of the bottom therapy lamp 24 due to the tray blocking it. The excrement tray 300, connected to the therapy chamber 11, can collect the excrement produced by the pet during phototherapy in a timely manner, preventing excrement from contaminating the therapy chamber 11 and the bottom therapy lamp 24, ensuring the hygiene inside the therapy chamber 11, reducing bacterial growth, and ensuring the safety of the pet's phototherapy environment. The detachable connection design makes it easy for users to remove the tray for cleaning and disinfection, making operation convenient. At the same time, it can prevent damage to the bottom therapy lamp 24 during cleaning, extend the service life of the equipment, and balance the phototherapy effect, hygiene, and ease of use. Furthermore, the excrement tray 300 can be made of a transparent material. In other embodiments, the excrement tray 300 may not be provided.

[0030] In one embodiment, the excrement tray 300 includes storage troughs 31 on the left and right sides, guide ramps 33 communicating with the storage troughs 31, and receiving surfaces 32 connected to the two guide ramps 33. The two guide ramps 33 extend inclined towards the side closer to the receiving surface 32 in the direction from the bottom to the top of the compartment 100. The receiving surface 32 can directly receive pet excrement, preventing excrement from directly contacting the tray area corresponding to the bottom therapy lamp 24 and reducing light obstruction. The inclined guide ramps 33 can use gravity to guide the excrement on the receiving surface 32 into the storage troughs 31 on both sides, preventing excrement from accumulating on the receiving surface 32, ensuring the tray surface is clean, and reducing cleaning dead corners. The storage troughs 31 can centrally collect excrement, preventing excrement from scattering, further improving the ease of cleaning the tray. At the same time, this structural design does not affect the light transmission performance of the tray, ensuring that the light from the bottom therapy lamp 24 can pass through normally, taking into account both practicality and phototherapy effect. In other embodiments, the bottom surface of the excrement tray 300 may be a horizontal plane, that is, it does not have structures such as the storage trough 31, the guide slope 33, and the receiving surface 32.

[0031] In one embodiment, two food storage troughs 31 are respectively located on the left and right sides of the bottom therapy lamp 24, between the receiving surface 32 and the two guide slopes 33, with at least the receiving surface 32 located directly above the bottom therapy lamp 24. The design of the food storage troughs 31 avoiding direct exposure to the bottom therapy lamp 24 prevents excrement in the food storage troughs 31 from blocking the light from the bottom therapy lamp 24, ensuring that the light from the bottom therapy lamp 24 can fully and evenly illuminate the therapy cavity 11 through the light-transmitting receiving surface 32, maximizing the phototherapy effect of the bottom therapy lamp 24. The receiving surface 32 being located directly above the bottom therapy lamp 24 allows the light from the bottom therapy lamp 24 to directly act on the lower part of the pet's body, achieving all-round, blind-angle irradiation in conjunction with the left, right, and top therapy lamps 23. At the same time, the layout of the food storage troughs 31 on both sides does not affect the lighting effect and can effectively collect excrement, achieving an optimized balance between phototherapy effect and ease of use. In other embodiments, two storage tanks 31 may be respectively located on the front and rear sides of the bottom physiotherapy lamp 24.

[0032] In one embodiment, the side wall of the storage trough 31 near the guide ramp 33 is defined as the guide wall 311. The guide wall 311 extends obliquely towards the receiving surface 32 in the direction from the bottom to the top of the hopper 100. The oblique guide wall 311 can work in conjunction with the guide ramp 33 to guide the excrement on the guide ramp 33 smoothly into the storage trough 31, avoiding the excrement getting stuck or accumulating at the connection between the guide ramp 33 and the storage trough 31, and reducing cleaning dead corners. At the same time, the oblique guide wall 311 can expand the opening receiving range of the storage trough 31, improve the effectiveness of excrement collection, and this structural design does not affect the overall structural strength and light transmission performance of the tray, nor does it occupy extra space, further improving the practicality and ease of cleaning of the excrement tray 300.

[0033] Furthermore, the extending direction of the guide channel wall 311 intersects with the extending direction of the guide ramp 33. The guide angle formed by their intersection further optimizes the sliding path of the excrement, preventing the excrement from accumulating at the connection point and ensuring that the excrement can quickly and smoothly enter the storage tank 31, improving the excrement collection efficiency. At the same time, the intersecting structure enhances the connection strength between the guide channel wall 311 and the guide ramp 33, preventing them from deforming or loosening due to long-term use or bearing the weight of the excrement, extending the service life of the tray, and without affecting the light transmittance and overall layout of the tray, thus balancing structural stability and practicality. In other embodiments, the guide channel wall 311 may not be provided.

[0034] In one embodiment, the bottom sidewall of the physiotherapy cavity 11 is composed of at least a receiving surface 32 and two drainage plates 112. The drainage plates 112 are respectively disposed on the left and right sides of the physiotherapy cavity 11 and cover the upper side of the storage tank 31. There is a material passage gap 113 between the drainage plate 112 and the receiving surface 32, and the material passage gap 113 communicates with the storage tank 31. The drainage plate 112 covers the food storage trough 31, preventing pets from stepping on or coming into contact with excrement in the trough 31 while moving around in the therapy chamber 11. This avoids contamination or slipping, ensuring the pet's safety during phototherapy. The feeding gap 113 ensures that excrement on the receiving surface 32 can pass smoothly through the gap into the food storage trough 31 for effective collection, while preventing the food storage trough 31 from being directly exposed inside the therapy chamber 11, facilitating pet movement within the chamber. This structure, in conjunction with the excrement tray 300, does not obstruct the light penetration of the bottom therapy lamp 24, ensuring the phototherapy effect remains unaffected. Furthermore, the top side of the drainage plate 112 is configured as an arc-shaped structure that seamlessly connects with the receiving surface 32 and the sidewall of the therapy chamber 11. In other embodiments, the drainage plate 112 may be omitted.

[0035] In one embodiment, the bottom sidewall of the chamber 100 is provided with an overflow hole 141 and an overflow channel 14 connecting the overflow hole 141 and the excrement tray 300. The overflow channel 14 extends along the front-rear direction of the chamber 100. When there is too much excrement (especially liquid excrement) in the excrement tray 300, the overflow channel 14 can discharge the excess excrement or liquid through the overflow hole 141, preventing excrement from overflowing the tray and contaminating the physiotherapy chamber 11, the interior of the chamber 100, and the bottom physiotherapy lamp 24, further improving the hygiene protection capability of the equipment. The design of the overflow channel 14 extending along the front-rear direction can achieve full overflow coverage of the front and rear areas of the tray, avoiding local excrement accumulation that leads to untimely overflow, ensuring the stability of the overflow effect. At the same time, this structure does not affect the installation and phototherapy effect of the bottom physiotherapy lamp 24, nor does it occupy the effective space of the physiotherapy chamber 11, improving the reliability of the equipment. In other embodiments, the overflow hole 141 may not be provided, and a liquid level detection device may be provided in the storage tank 31. When there is too much excrement, the liquid level detection device sends a warning signal to the control module 700 of the pet phototherapy chamber to alert the user.

[0036] In one embodiment, the outer side of the bottom sidewall of the chamber 100 has a mounting groove 12, and the bottom therapy lamp 24 is disposed in the mounting groove 12. The mounting groove 12 is made of a light-transmitting material, and a protective cover plate 121 is provided at the opening of the mounting groove 12 to protect the bottom therapy lamp 24 from bumps. The mounting groove 12 provides a dedicated installation space for the bottom therapy lamp 24, preventing the bottom therapy lamp 24 from being exposed to collisions and contamination, thus protecting the therapy lamp and extending its service life. The light-transmitting material of the groove ensures that the light from the bottom therapy lamp 24 can pass smoothly into the therapy cavity 11 without affecting the phototherapy effect. The groove sidewall of the mounting groove 12 is raised on the inner side of the chamber 100. The overflow channel 14 is formed by the bottom sidewall of the chamber 100, the groove sidewall of the mounting groove 12, and the left or right sidewall of the chamber 100. The overflow hole 141 is located between the groove sidewall of the mounting groove 12 and the sidewall of the chamber 100. The protrusions on the inner sidewall of the trough enhance the structural strength of the bottom sidewall of the chamber 100, while providing a natural forming space for the overflow channel 14. This eliminates the need for additional channel structures, simplifying the overall structural design of the equipment, reducing production difficulty, and ensuring the overflow channel 14 is positioned appropriately without affecting the installation of the bottom therapy lamp 24 or the overflow effect. In other embodiments, the mounting groove 12 may be omitted, and the chamber 100 may have an installation cover that covers the bottom therapy lamp 24 and is sealed to the bottom sidewall of the chamber 100. The installation cover may be made of a light-transmitting material.

[0037] In one embodiment, the pet phototherapy chamber also includes a lamp panel heat dissipation module 400. The chamber body 100 is also provided with a lamp panel heat dissipation channel 13, which is located above the therapy cavity 11. The right therapy lamp 22, the top therapy lamp 23, and the left therapy lamp 21 are all located in the lamp panel heat dissipation channel 13. The lamp panel heat dissipation module 400 includes a lamp panel heat dissipation fan 41. The top side wall of the chamber body 100 is provided with an air outlet 131, and the left side wall and the right side wall are respectively provided with air inlets 132. The air outlet 131 and the air inlets 132 are connected to the lamp panel heat dissipation channel 13, and the lamp panel heat dissipation fan 41 is provided corresponding to the air outlet 131. The therapy lamp module 200 generates heat during operation. The lamp panel heat dissipation channel 13 encloses the left therapy lamp 21, right therapy lamp 22, and top therapy lamp 23, which can collect the heat generated by the left therapy lamp 21, right therapy lamp 22, and top therapy lamp 23. Together with the lamp panel cooling fan 41, air inlet 132, and air outlet 131, air convection is formed, which can quickly expel heat from the chamber 100, preventing heat from accumulating in the therapy cavity 11 and causing the chamber 100 to overheat, thus preventing burns to the pet or damage to the therapy lamp. The lamp panel heat dissipation channel 13 is located above the therapy cavity 11, without occupying the internal space of the therapy cavity 11, and does not affect the pet's activities in the therapy cavity 11. The air outlet 131 is connected to the lamp panel heat dissipation channel 13, ensuring smooth airflow, improving the lamp panel heat dissipation efficiency, ensuring long-term stable operation of the therapy lamp, extending the overall service life of the equipment, and at the same time not affecting the irradiation angle and phototherapy effect of the therapy lamp, realizing the synergistic optimization of phototherapy function and lamp panel heat dissipation function. In other embodiments, the lamp panel heat dissipation module 400 may not be provided.

[0038] In one embodiment, the chamber 100 is provided with a pet entrance / exit 15 communicating with the therapy chamber 11. The pet entrance / exit 15 is located on the front side wall of the chamber 100. The pet phototherapy chamber also includes a door 500, which is rotatably mounted on the chamber 100 to open and close the pet entrance / exit 15. Good user interaction is crucial for reducing user anxiety and improving the user experience. To allow users to observe the pet's state (posture, breathing, and whether its expression is stable) in the chamber in real time and from multiple angles without interfering with the therapy, this pet phototherapy chamber has a front observation window 51 in the middle of the door 500, and side observation windows 111 on the left and right sides of the chamber 100. A light-transmitting plate 52 is provided on the front observation window 51 and the two side observation windows, allowing users to clearly see the pet through the light-transmitting plate 52, eliminating concerns about "black box" operation and increasing the transparency and reassurance of the therapy process.

[0039] It should be noted that the light-transmitting plates 52 on both the front observation window 51 and the side observation window 111 have heat dissipation grille holes 53 for heat dissipation and ventilation of the physiotherapy chamber 11. Furthermore, the side observation window 111 is located near the bottom on both the left and right side walls of the chamber 100 to avoid obstructing the lamp assembly bracket 25. In other embodiments, the front observation window 51 and the side observation window 111 may not be provided.

[0040] In one embodiment, considering the need for the pet phototherapy chamber to move between different locations in the home, such as the living room, bedroom, and balcony, and to adjust its position during daily cleaning, ease of movement is an important design indicator. Therefore, four omnidirectional casters 16 with braking devices are installed at the bottom of the pet phototherapy chamber. The casters are made of quiet and wear-resistant rubber, with a suitable diameter to ensure smooth and quiet rolling on common household surfaces such as wooden floors and tiles. At least two of the casters have a foot-operated locking mechanism, which can be fixed in place after selection to prevent the chamber 100 from sliding. In other embodiments, the omnidirectional casters 16 may not be provided.

[0041] In one embodiment, handles 17 are provided on the outer side walls of the left and right sides of the compartment 100 near the top, facilitating short-distance lifting or moving up and down stairs. The combination of omnidirectional casters 16 and handles 17 allows both male and female users to easily handle the product's movement and repositioning needs. The handles 17 include lifting grooves 171 formed in the outer side walls of the compartment 100. In other embodiments, handles 17 may not be provided.

[0042] In one embodiment, the pet phototherapy chamber 100 is provided with a rear partition 18. The rear sidewall of the rear partition 18 and the rear sidewall of the chamber 100 enclose a control cavity 19. The front sidewall of the rear partition 18 serves as the rear sidewall of the therapy cavity 11 and the rear sidewall of the lamp panel heat dissipation channel 13. The pet phototherapy chamber also includes a control module 700 and a therapy heat dissipation module 600. Both the control module 700 and the therapy heat dissipation module 600 are located in the control cavity 19. The control module 700 is electrically connected to the therapy lamp module 200, the lamp panel heat dissipation module 400, and the therapy heat dissipation module 600. The therapy heat dissipation module 600 includes a therapy heat dissipation fan 61. Both the rear partition 18 and the rear sidewall of the chamber 100 have ventilation grille holes 181. The therapy heat dissipation fan 61 is positioned corresponding to the ventilation grille holes 181 so as to cooperate with the heat dissipation grille holes 53 at the front observation window 51 and the side observation window 111. Specifically, when the physiotherapy cooling module 600 is activated, the physiotherapy cooling fan 61 operates, drawing in cool air from the external environment through the ventilation grille holes 181 on the rear partition 18 and the rear side wall of the chamber 100. The cool air enters the physiotherapy chamber 11 via the control cavity 19, where it exchanges heat with the heat generated during the physiotherapy process. Driven by the fan, the air that has absorbed heat is exhausted to the outside of the chamber 100 through the ventilation grille holes 53 at the front observation window 51 and the side observation window 111. Through this directional air circulation path, heat is continuously removed from the physiotherapy chamber 11, effectively maintaining the internal temperature of the physiotherapy chamber 11 within a comfortable physiotherapy range for the pet, and preventing excessively high temperatures from affecting the physiotherapy effect or the pet's experience.

[0043] The above description is merely an exemplary embodiment of the present invention and does not limit the scope of protection of the present invention. Any equivalent structural transformations made based on the technical concept of the present invention and the contents of the specification and drawings of the present invention, or direct / indirect applications in other related technical fields, are included within the scope of protection of the present invention.

Claims

1. A pet phototherapy chamber, characterized in that, include: The enclosure contains a therapy chamber where the pet receives light therapy. The physiotherapy lamp module includes a left physiotherapy lamp located on the left side of the physiotherapy cavity, a right physiotherapy lamp located on the right side of the physiotherapy cavity, a top physiotherapy lamp located on the top side of the physiotherapy cavity, and a bottom physiotherapy lamp located on the bottom side of the physiotherapy cavity. The left physiotherapy lamp, the right physiotherapy lamp, the top physiotherapy lamp, and the bottom physiotherapy lamp all irradiate into the physiotherapy cavity. The main optical axis of the left physiotherapy lamp and the main optical axis of the right physiotherapy lamp intersect.

2. The pet phototherapy chamber as described in claim 1, characterized in that, The physiotherapy lamp module also includes a lamp assembly bracket, which includes a first plate segment, a second plate segment, and a third plate segment connected in sequence. The lamp assembly bracket is located near the top of the chamber. The second plate segment extends horizontally. The first plate segment and the third plate segment extend and intersect above the second plate segment. The left physiotherapy lamp and the right physiotherapy lamp are respectively located on the first plate segment and the third plate segment. The top physiotherapy lamp is located on the second plate segment.

3. The pet phototherapy chamber as described in claim 2, characterized in that, The first plate segment and the third plate segment extend above the second plate segment and intersect to form an included angle α, the included angle α being between 60° and 120°.

4. The pet phototherapy chamber as described in claim 1, characterized in that, The pet phototherapy chamber also includes an excrement tray, which is placed above the bottom therapy lamp and connected to the therapy cavity. The excrement tray is made of a light-transmitting material and is detachably connected to the chamber body.

5. The pet phototherapy chamber as described in claim 4, characterized in that, The excrement tray includes storage troughs on the left and right sides, guide ramps communicating with the storage troughs, and receiving surfaces connected to the two guide ramps. The two guide ramps extend inclined towards the side closer to the receiving surfaces in a direction from the bottom to the top of the hopper.

6. The pet phototherapy chamber as described in claim 5, characterized in that, The two storage tanks are respectively located on the left and right sides of the bottom therapy lamp, between the receiving surface and the two guiding inclined surfaces, with at least the receiving surface located directly above the bottom therapy lamp.

7. The pet phototherapy chamber as described in claim 6, characterized in that, The side wall of the storage tank near the guide slope is defined as the guide wall, which extends obliquely towards the receiving surface in the direction from the bottom to the top of the tank.

8. The pet phototherapy chamber as described in claim 5, characterized in that, The bottom sidewall of the physiotherapy cavity is composed of at least the receiving surface and two drainage plates. The drainage plates are respectively disposed on the left and right sides of the physiotherapy cavity and cover the upper side of the storage tank. There is a material passage gap between the drainage plate and the receiving surface, and the material passage gap is connected to the storage tank.

9. The pet phototherapy chamber as described in claim 4, characterized in that, The bottom side wall of the silo is provided with an overflow hole and an overflow channel connecting the overflow hole and the excrement tray, and the overflow channel extends along the front-rear direction of the silo.

10. The pet phototherapy chamber as described in claim 1, characterized in that, The pet phototherapy chamber also includes a lamp panel heat dissipation module. The chamber is also equipped with a lamp panel heat dissipation channel located above the therapy cavity. The right therapy lamp, the top therapy lamp, and the left therapy lamp are all located within the lamp panel heat dissipation channel. The lamp panel heat dissipation module includes a lamp panel heat dissipation fan. The top side wall of the chamber is provided with an air outlet, and the left and right side walls are respectively provided with air inlets. The air outlet and the air inlets are connected to the lamp panel heat dissipation channel, and the lamp panel heat dissipation fan is positioned corresponding to the air outlet.