Spring mattress with intelligent pressure boosting temperature control device

By installing an intelligent pressure boosting and temperature control device under the support spring of the spring pad, the problems of fatigue damage and complex structure of existing temperature control devices are solved, realizing the combination of temperature control and support functions and providing a better user experience.

CN224483512UActive Publication Date: 2026-07-14YANTAI SANQI INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YANTAI SANQI INTELLIGENT TECH CO LTD
Filing Date
2025-07-29
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The heating or cooling devices in existing temperature-controlled mattresses and sofa cushions are prone to fatigue and damage, affecting their support function, and their structure is complex and costly.

Method used

An intelligent pressure-boosting and temperature-controlling device is installed under the supporting spring of the spring pad, including an intelligent electronic control system, a circulation system and a pressure-boosting and temperature-controlling assembly, which provides temperature and pressure support for different parts through the pressure-boosting and temperature-controlling bag and the air bag.

Benefits of technology

It achieves temperature control without compromising the support function of the spring pad, providing soft support and comfort, while reducing structural complexity and cost.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model provides a spring pad with intelligent pressure increasing temperature control device, including bottom plate, the bottom plate top is equipped with a plurality of elastic support body, spring pad body is equipped with intelligent pressure increasing temperature control device, the intelligent pressure increasing temperature control device includes the pressure increasing temperature control combination that is located the elastic support body top and is equipped with the circulation system and intelligent electric control system that are located bottom plate below, intelligent electric control system is connected with pressure increasing temperature control combination and circulation system respectively, the pressure increasing temperature control combination is connected with the circulation pipe of circulation system's bottom plate below through the connecting pipe, the pressure increasing temperature control combination includes multiple pressure increasing temperature control bags, and each pressure increasing temperature control bag is connected through the communicating pipe between each other. The present application sets up the pressure increasing water bag and the pressure increasing gas bag through the spring pad surface, controls the liquid temperature in temperature control water bag and the gas pressure of pressure increasing gas bag through the intelligent electric control system, can provide different temperature and pressure for different parts of spring pad, gives different soft support elasticity and comfortable temperature to different parts of human body.
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Description

Technical Field

[0001] This utility model belongs to the field of household products technology, specifically relating to a spring pad equipped with an intelligent pressure boosting and temperature control device. Background Technology

[0002] Currently, most temperature-controlled mattresses and sofa cushions on the market use heating or cooling devices such as heating blankets, temperature-controlled water pipes, or water bags placed on the upper surface of the mattress or sofa cushion. When using the mattress or sofa cushion, the surface will rise or fall due to pressure. Over time, heating blankets, water pipes, and water bags are prone to fatigue and damage. Moreover, placing them on the surface can affect the elastic support function of the mattress or sofa cushion. If a certain part of the surface needs to be supported higher and another part needs to be supported lower, the heating blanket or water pipe or water bag will affect the effectiveness of this function due to the overall connection. The utility model patent "Intelligent Temperature-Controlled Spring Pad" with patent number 202420684284X discloses setting a temperature control device under the support spring. Although this patent does not affect the support function of the support spring, the product has the disadvantages of complex structure, high manufacturing cost, and easy heat loss, which still need further improvement. Utility Model Content

[0003] To solve the above problems, this utility model provides a spring pad equipped with an intelligent pressure boosting and temperature control device, which can achieve temperature control without affecting the independent support function of the supporting spring on the spring pad.

[0004] The technical solution of this utility model is implemented as follows: A spring pad equipped with an intelligent pressure-boosting and temperature-controlling device includes a base plate, a plurality of elastic support bodies on the base plate, each elastic support body including a support spring and a spring connecting body, the spring connecting body including a combination block, the support springs being connected to the base plate and the combination block respectively, an intelligent pressure-boosting and temperature-controlling device being provided inside the spring pad, the intelligent pressure-boosting and temperature-controlling device being combined and connected with the elastic support bodies, the intelligent pressure-boosting and temperature-controlling device including an intelligent electronic control system, a circulation system and a pressure-boosting and temperature-controlling combination, the pressure-boosting and temperature-controlling combination including a plurality of pressure-boosting and temperature-controlling bags, each pressure-boosting and temperature-controlling bag being provided with a connecting tube, the combination block being provided with a tube hole A, the base plate being provided with a tube hole B, the connecting tubes on the pressure-boosting and temperature-controlling bags being connected to the circulation tubes of the circulation system through tube holes A and tube holes B respectively, and the pressure-boosting and temperature-controlling bags being connected to the upper side of the combination block through tube hole A;

[0005] Preferably, the pressurized temperature control bag includes a temperature control water bag and a pressurized air bag, the pressurized air bag is disposed above the temperature control water bag, and a face mask is covered on top of the pressurized temperature control bag;

[0006] Preferably, the connecting pipe includes an inlet pipe, an outlet pipe, and a connecting pipe, and adjacent pressurized temperature-controlled bags are interconnected through the connecting pipe;

[0007] Preferably, the circulation system includes a storage tank, a circulation pump, and a booster pump. The circulation pipe includes a supply pipe, a return pipe, and a branch pipe. Each control node on the circulation pipe is equipped with a solenoid valve. The storage tank is connected to a water storage tank via a branch pipe, a solenoid valve, a circulation pump, and a booster pump. The water storage tank is connected to a compressor. The water storage tank is connected to the inlet pipes of multiple temperature-controlled water bags via the supply pipe and the branch pipe. The storage tank is connected to the outlet pipes of multiple temperature-controlled water bags via the return pipe and the branch pipe.

[0008] Preferably, the circulation system includes a gas storage tank, which is connected to the gas storage tank via branch pipes, solenoid valves, circulation pumps, and booster pumps. The gas storage tank is connected to the inlet pipes of multiple booster gas bags via supply pipes and branch pipes, and the gas storage tank is connected to the outlet pipes of multiple booster gas bags via return pipes and branch pipes.

[0009] Preferably, a control frame A is installed inside the lower support spring of the combined block. A tension spring and a positioning bracket A are respectively installed at the lower end of the control frame A. A partition slide is connected between adjacent combined blocks. Rollers are installed inside the combined blocks. Adjacent partition slides are connected by a slide pull rope. The partition slide has a soft strap hole. The upper end of the tension spring is connected to the connecting soft strap. The connecting soft strap uses the rollers and soft strap holes to squeeze the sides of two adjacent combined blocks against the partition slide and slide them up and down. The partition slide is slidably connected to the pressurized temperature control bag.

[0010] Preferably, a control frame B is mounted on the base plate inside the support spring, a buffer spring is mounted on the upper end of the control frame B, a positioning bracket B is mounted on the upper end of the buffer spring, a positioning pull rope is connected to the base plate, and the other end of the positioning pull rope is connected to the lower side of the assembly block.

[0011] Preferably, the intelligent electronic control system includes an electronic control box, which is connected to a circulating pump, a booster pump, a solenoid valve, a compressor, a sensor, and an intelligent controller via circuits. Each solenoid valve is connected to a circulation pipe, and the multiple sensors are connected to an intelligent booster temperature control device.

[0012] The beneficial effects of this utility model are as follows: By setting a pressurizing water bag and a pressurizing electric bag on the upper part of the spring connecting body of the spring pad, and controlling the liquid temperature in the pressurizing water bag and the gas pressure in the pressurizing air bag through an intelligent electronic control system, different temperatures and pressures can be provided to different parts of the spring pad, providing different support elasticity to different parts of the human body. This achieves both temperature control and auxiliary support effects, and adds a soft support function to the strong support spring on the spring pad, thus satisfying the user's need for a better rest experience. Attached Figure Description

[0013] Figure 1This is a top view of the present invention after the face mask has been removed;

[0014] Figure 2 This is a top view of the horizontal cross-section of the assembly block of this utility model;

[0015] Figure 3 This utility model Figure 1 A cross-sectional view along direction AA after the face mask is installed;

[0016] Figure 4 This utility model Figure 1 BB cross-sectional view after the mask is installed;

[0017] Figure 5 This utility model Figure 1 A cross-sectional view along the CC direction after the face mask is installed.

[0018] Parts Description:

[0019] 1. Base plate; 2. Elastic support body; 4. Face mask; 5. Support spring; 8. Assembly block; 9. Intelligent electronic control system; 14. Connecting pipe; 15. Pipe hole A; 16. Pipe hole B; 18. Inlet pipe; 19. Outlet pipe; 20. Connecting pipe; 21. Temperature-controlled water bag; 22. Pressurized air bag; 23. Storage tank; 24. Circulation pump; 25. Booster pump; 26. Supply pipe; 27. Return pipe; 28. Branch pipe; 29. ​​Solenoid valve; 30. Compressor; 31. Water storage tank; 32. Air storage tank; 33. Control frame A 34. Positioning support A, 35. Tension spring, 36. Roller, 37. Separating slide, 38. Slide pull rope, 39. Connecting soft belt, 40. Soft belt hole, 50. Control frame B, 51. Buffer spring, 52. Positioning support B, 53. Electrical control box, 55. Circuit, 56. Sensor, 58. Positioning pull rope, 59. Intelligent control machine. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0021] In the description of this utility model, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0022] See attached document Figure 1-5A spring pad equipped with an intelligent pressure-boosting and temperature-controlling device includes a base plate 1. Multiple elastic support bodies 2 are provided on the base plate 1. Each elastic support body 2 includes a support spring 5 and a spring connector. The spring connector includes a combination block 8. The support spring 5 is connected to the base plate 1 and the combination block 8 respectively. An intelligent pressure-boosting and temperature-controlling device is provided inside the spring pad. The intelligent pressure-boosting and temperature-controlling device is combined and connected to the elastic support bodies 2. The intelligent pressure-boosting and temperature-controlling device includes an intelligent electronic control system 9, a circulation system, and a pressure-boosting and temperature-controlling assembly. The pressure-boosting and temperature-controlling assembly includes multiple sets of pressure-boosting and temperature-controlling bags. Each pressure-boosting and temperature-controlling bag is provided with a connecting tube 14. The combination block 8 is provided with a tube hole A15. The base plate 1 is provided with a tube hole B16. The circulation system is provided with a circulation tube. The connecting tube 14 on the pressure-boosting and temperature-controlling bag is connected to the circulation tube on the circulation system through tube holes A15 and B16 respectively. The pressure-boosting and temperature-controlling bag is connected to the upper side of the combination block 8 through tube hole A15. The connecting pipe 14 includes an inlet pipe 18, an outlet pipe 19, and a connecting pipe 20. The adjacent pressurized and temperature-controlled bags are interconnected through the connecting pipe 20. Each pressurized and temperature-controlled bag includes a temperature-controlled water bag 21, and a mask 4 covers the top of each pressurized and temperature-controlled bag. The circulation system includes a storage tank 23, a circulation pump 24, and a booster pump 25. The circulation pipe includes a supply pipe 26, a return pipe 27, and a branch pipe 28. Each control node on the circulation pipe is equipped with a solenoid valve 29. The storage tank 23 is connected to a water storage tank 31 through the branch pipe 28, the solenoid valve 29, the circulation pump 24, and the booster pump 25. The water storage tank 31 is connected to a compressor 30. The water storage tank 31 is connected to the inlet pipes 18 of multiple temperature-controlled water bags 21 through the supply pipe 26 and the branch pipe 28. The storage tank 23 is connected to the outlet pipes 19 of multiple temperature-controlled water bags 21 through the return pipe 27 and the branch pipe 28. The circulation system includes a gas storage tank 32. The gas storage tank 23 is connected to the gas storage tank 32 via a branch pipe 28, a solenoid valve 29, a circulation pump 24, and a booster pump 25. The gas storage tank 32 is connected to the inlet pipe 18 on multiple booster gas bags 22 via a supply pipe 26 and a branch pipe 28. The gas storage tank 23 is connected to the outlet pipe 19 on multiple booster gas bags 22 via a return pipe 27 and a branch pipe 28. The booster temperature control bag includes a booster gas bag 22, which is located above the temperature control water bag 21.A control frame A33 is installed inside the lower support spring 5 of the assembly block 8. A tension spring 35 and a positioning bracket A34 are respectively installed at the lower end of the control frame A33. A separating slide plate 37 connects adjacent assembly blocks 8. A roller 36 is installed inside each assembly block 8. Adjacent separating slide plates 37 are connected by a slide plate pull rope 38. The separating slide plate 37 has a flexible strap hole 40. The upper end of the tension spring 35 is connected to a connecting flexible strap 39. The connecting flexible strap 39, through the roller 36 and the flexible strap hole 40, respectively presses the sides of two adjacent assembly blocks 8 against the separating slide plate 37 and slides them up and down. The separating slide plate 37 is slidably connected to the pressurized temperature control bag. A control frame B50 is installed on the base plate 1 inside the support spring 5. A buffer spring 51 is installed at the upper end of the control frame B50. A positioning bracket B52 is installed at the upper end of the buffer spring 51. A positioning pull rope 58 is connected to the base plate 1, and the other end of the positioning pull rope 58 is connected to the lower side of the assembly block 8. The intelligent electronic control system 9 includes an electronic control box 53, which is connected to a circulating pump 24, a booster pump 25, a solenoid valve 29, a compressor 30, a sensor 56, and an intelligent controller 59 via a circuit 55. Each solenoid valve 29 is connected to a circulation pipe, and the multiple sensors 56 are connected to an intelligent booster temperature control device 3.

[0023] Specifically, after power is supplied to the electrical control box 53 on the intelligent electrical control system 9, the intelligent controller 59 controls the compressor 30, the circulating pump 24, and each solenoid valve 29 to start working according to the set program and the transmitted temperature and pressure signals received from the sensor 56. The temperature-controlled circulating water is pressurized by the booster pump 25 and then introduced from the water storage tank 31 into the supply pipe 26 through the opening of the solenoid valve 29, the water supply branch pipe 28 and the inlet pipe 18 into the temperature-controlled water bag 51. Then it passes through the connecting pipe 20, the outlet pipe 19, the return water branch pipe 28, the solenoid valve 29 and the return pipe 27 into the storage tank 23. After passing through the circulating pump 24, it is pumped back into the water storage tank 31, forming a water circulation loop. After the temperature-controlled water bag 21 is filled with temperature-controlled circulating water, it begins to inflate, achieving a certain degree of soft support and temperature control. The pressure inside the temperature-controlled water bag 21 is controlled by the pressure inside the water storage tank 31 and the flow rate of the return pipe 27. The flow rate of the return pipe 27 is controlled by a combination of factors, including the opening and closing time of the connected solenoid valve and the diameter of the return pipe 27. When using the spring pad, the locally compressed combination blocks 8 will move up and down relative to each other. The combination blocks 8, through their connection with the connecting soft strap 39 and the tension spring 35, together with the supporting force of the spring 5, can achieve a reasonable and comfortable support effect for the human body. The combination block 8 and the separating slide plate 37 can be raised and lowered and slidably connected. The temperature-controlled water bag 21 rises and falls along with the combination block 8. The separating slide plate 37 separates adjacent temperature-controlled water bags 21, preventing them from squeezing against each other and causing wear. During the raising and lowering of the combination block 8, the two ends of the connecting soft strap 9 stretch the two tension springs 35. One end of the tension spring 35 rises, and when it rises to contact the lower side of the combination block 8, the connecting soft strap 9 stops moving. That is, the combination block 8 that is being lowered by pressure and the adjacent combination block 8 that is not being lowered by pressure will have a mutual raising and lowering process through the stretching of the connecting soft strap 9, which can improve the independent support function of the spring pad. At the same time, combined with the temperature-controlled water bag with soft support and temperature control function, the spring pad has more intelligent support functions and achieves better use. Through the lateral connection of the separating slide plate 37 and the slide plate rope 38, it will rise and fall stably without squeezing, collision and damage. The rollers 36 assist the connecting soft straps 39 in smooth movement, reducing wear. The tension springs 35 connect the connecting soft straps 39, improving the soft support effect and independent support function of the spring pads. Each set of pressurized temperature-controlled bags 13 connected to each assembly block 8 is connected via the connecting pipe 20, ensuring that the normal lifting and lowering function of the assembly block 8 is not affected when using the spring pads. Adjacent sets of pressurized temperature-controlled bags can be connected via the connecting pipe 20. When the pressurized temperature-controlled bags rise and fall with the assembly block 8, the connecting pipe 20 moves in the lower space of the assembly block 8 without affecting the support effect of the spring pads. This design effectively solves the shortcomings of the prior art.Each solenoid valve can control each branch pipe, and each branch pipe can control multiple sets of pressurized temperature control bags connected to multiple combination blocks 8. This allows each branch pipe to be connected to at least one inlet pipe 18. Through the connecting pipe 20, at least two sets of pressurized temperature control bags 13 are connected in an outlet-inlet circulation process, so that the connected sets of pressurized temperature control bags have the same pressurization and temperature control effect. This reduces the need for too many pipelines and the resulting complex structure. This also reduces the pipeline distribution inside the spring pad and can better control the different temperature and pressurization support effects in different areas of the spring pad, providing different setting requirements for different areas.

[0024] When the intelligent controller 59 receives the pressure and temperature signals transmitted by the sensor 56, it controls the booster pump 25 and various solenoid valves to operate. The booster pump 25 draws gas from the storage tank 23 to pressurize the water tank 31 and the gas tank 32 respectively. The pressurized gas enters the supply pipe 26, is opened by the solenoid valve 29, enters the gas supply branch pipe 28 and the inlet pipe 18, enters the pressurized gas bag 22, enters the outlet pipe 18 through the connecting pipe 20, and enters the return branch pipe 28, which is closed by the solenoid valve 29. When it is necessary to depressurize the pressurized gas bag 56, the solenoid valve 29 can be opened again, and the gas can flow back to the storage tank 23 through the return pipe 27 or be discharged from the pressure control valve on the storage tank 23. After the pressurization process described above, the pressurized air bag 22 inflates upon injection of pressurized gas, achieving a certain degree of soft support. This function differs from the temperature-controlled water bag 21 in that the gas's compressibility and expansion properties are better than liquid water. Therefore, when a person presses the pressurized air bag 22 through the mask 4, the soft elastic support effect is better than that of the temperature-controlled water bag 51. The overlapping arrangement of the two further enhances the soft elastic support function of the spring pad. The temperature-controlled water bag 21 and the pressurized air bag 22 have the same structure and technical solution. By setting corresponding positioning supports A34 and B52, when the combined block 8 descends under significant pressure, the positioning support A35 contacts the positioning support B52, causing the combined block 8 to stop descending after buffering. This arrangement prevents damage to the internal components of the spring pad due to the combined block 8 descending too quickly under significant pressure. The positioning support B52, supported by the buffer spring 51, reduces the discomfort caused by the rapid impact of the combined block 8's descent. The positioning pull rope 58 is set to control the height of the combination block 8, so that the support spring 5 maintains a stable support force. The intelligent control machine 59 can control the pressure of the pressurized air bag 22 and the temperature of the temperature-controlled water bag 21 at any time in each area of ​​the spring pad, so as to achieve better comfort and rest for the user and promote physical health.

[0025] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A spring pad equipped with an intelligent pressure boosting and temperature control device, comprising a base plate (1), wherein a plurality of elastic supports (2) are provided on the base plate (1), wherein each elastic support (2) comprises a support spring (5) and a spring connector, wherein the spring connector comprises a combination block (8), wherein the support spring (5) is connected to the base plate (1) and the combination block (8) respectively, characterized in that The spring pad is equipped with an intelligent pressure-boosting and temperature-controlling device. The intelligent pressure-boosting and temperature-controlling device is combined and connected with the elastic support body (2). The intelligent pressure-boosting and temperature-controlling device includes an intelligent electronic control system (9), a circulation system and a pressure-boosting and temperature-controlling assembly. The pressure-boosting and temperature-controlling assembly includes multiple sets of pressure-boosting and temperature-controlling bags. The pressure-boosting and temperature-controlling bags are equipped with connecting pipes (14). The assembly block (8) is equipped with pipe holes A (15). The bottom plate (1) is equipped with pipe holes B (16). The connecting pipes (14) on the pressure-boosting and temperature-controlling bags are connected to the circulation pipes of the circulation system through pipe holes A (15) and pipe holes B (16), respectively. The pressure-boosting and temperature-controlling bags are connected to the upper side of the assembly block (8) through pipe holes A (15).

2. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1, characterized in that... The pressurized temperature control bag includes a temperature control water bag (21) and a pressurized air bag (22). The pressurized air bag (22) is located above the temperature control water bag (21), and a mask (4) covers the top of the pressurized temperature control bag.

3. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1 or 2, characterized in that... The connecting pipe (14) includes an inlet pipe (18), an outlet pipe (19), and a connecting pipe (20), and adjacent pressurized temperature control bags are connected to each other through the connecting pipe (20).

4. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1 or 2, characterized in that... The circulation system includes a storage tank (23), a circulation pump (24), and a booster pump (25). The circulation pipe includes a supply pipe (26), a return pipe (27), and a branch pipe (28). Each control node on the circulation pipe is equipped with a solenoid valve (29). The storage tank (23) is connected to the water storage tank (31) through the branch pipe (28), the solenoid valve (29), the circulation pump (24), and the booster pump (25). The water storage tank (31) is connected to the compressor (30). The water storage tank (31) is connected to the inlet pipe (18) of multiple temperature-controlled water bags (21) through the supply pipe (26) and the branch pipe (28). The storage tank (23) is connected to the outlet pipe (19) of multiple temperature-controlled water bags (21) through the return pipe (27) and the branch pipe (28).

5. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 4, characterized in that... The circulation system includes a gas storage tank (32), and the gas storage tank (23) is connected to the gas storage tank (32) through a branch pipe (28), a solenoid valve (29), a circulation pump (24), and a booster pump (25). The gas storage tank (32) is connected to the inlet pipe (18) of a plurality of booster gas bags (22) through a supply pipe (26) and a branch pipe (28). The gas storage tank (23) is connected to the outlet pipe (19) of a plurality of booster gas bags (22) through a return pipe (27) and a branch pipe (28).

6. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1 or 2, characterized in that... The lower support spring (5) of the combined block (8) is equipped with a control frame A (33). The lower end of the control frame A (33) is equipped with a tension spring (35) and a positioning bracket A (34). A partition slide (37) is connected between adjacent combined blocks (8). A roller (36) is installed in the combined block (8). The adjacent partition slides (37) are connected by a slide pull rope (38). The partition slide (37) is provided with a soft belt hole (40). The upper end of the tension spring (35) is connected to a connecting soft belt (39). The connecting soft belt (39) uses the roller (36) and the soft belt hole (40) to squeeze the sides of the two adjacent combined blocks (8) against the partition slide (37) and slide up and down. The partition slide (37) is slidably connected to the pressurized temperature control bag.

7. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1 or 2, characterized in that... A control frame B (50) is mounted on the base plate (1) inside the support spring (5). A buffer spring (51) is mounted on the upper end of the control frame B (50). A positioning bracket B (52) is mounted on the upper end of the buffer spring (51). A positioning pull rope (58) is connected to the base plate (1). The other end of the positioning pull rope (58) is connected to the lower side of the assembly block (8).

8. A spring pad equipped with an intelligent pressure boosting and temperature control device as described in claim 1 or 2, characterized in that... The intelligent electronic control system (9) includes an electronic control box (53), which is connected to a circulating pump (24), a booster pump (25), a solenoid valve (29), a compressor (30), a sensor (56), and an intelligent controller (59) via a circuit (55). Each solenoid valve (29) is connected to a circulating pipe, and the multiple sensors (56) are connected to an intelligent booster temperature control device.