CN220655212U - Intelligent bedspread and bedspread subassembly thereof - Google Patents

Abstract

The utility model relates to the technical field of household appliances, in particular to an intelligent bedspread and a bedspread component thereof, and aims to solve the problems of uneven temperature and poor user experience of the traditional bedspread component of the intelligent bedspread. For this purpose, the bed cover assembly of the intelligent bed cover of the utility model comprises a soft rubber bed cover comprising: a main body portion, a heat conductive member provided on the main body portion, the heat conductive member being provided at least partially exposed from an upper surface of the main body portion; and the heat exchange flow path can be used for enabling a heat exchange medium to flow in the heat exchange flow path, and the heat exchange medium in the heat exchange flow path can exchange heat with the heat conducting piece. Because the heat conduction piece conducts heat, the heat or cold of the heat exchange medium can be rapidly conducted to other parts of the soft rubber bedspread, the temperature of the whole soft rubber bedspread is uniform, and the user experience is improved.

Description

Intelligent bedspread and bedspread subassembly thereof

Technical Field

The utility model relates to the technical field of household appliances, and particularly provides an intelligent bedspread.

Background

In winter, in order to make the bed more warm and comfortable, some people adopt an electric blanket for heating, but the electric blanket has great potential safety hazard, and a fire disaster can occur after long-time use.

Furthermore, the electric blanket can only be heated and cannot be cooled. In hot summer, when the temperature on the bed is too high, the indoor temperature is reduced by the air conditioner, but the temperature of the mattress under the human body is higher, and the phenomenon of sweating can occur. In order to be able to keep the temperature of the mattress at the desired constant temperature, intelligent bed covers have been developed. The temperature of the bed sheet on which the human body lies can be kept at a required constant temperature all the time.

However, most of mattress materials are silica gel, and the flow path is arranged in the silica gel, so that the temperature of the mattress is lower in refrigeration and higher in heating only at the position where the flow path passes through due to poor heat conductivity of the silica gel; the temperature of mattress is inhomogeneous, makes user's experience feel relatively poor.

Accordingly, there is a need in the related art for an intelligent bed cover and a bed cover assembly thereof to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the technical problems, namely the problems of uneven temperature and poor user experience of the bedspread component of the existing intelligent bedspread.

In a first aspect, the present utility model provides a bed cover assembly of an intelligent bed cover, the bed cover assembly of the intelligent bed cover comprising a soft gel bed cover comprising:

the main body part is provided with a plurality of grooves,

a heat conductive member disposed on the main body, the heat conductive member being disposed at least partially exposed on an upper surface of the main body;

and the heat exchange flow path can be used for enabling a heat exchange medium to flow in the heat exchange flow path, and the heat exchange medium in the heat exchange flow path can exchange heat with the heat conducting piece.

In a specific embodiment of the above bedspread assembly, the heat conducting member covers the upper surface of the main body portion.

In a specific embodiment of the bedspread assembly, the main body portion is provided with a hollowed-out groove, and the heat conducting piece is embedded in the hollowed-out groove.

In a specific embodiment of the bedspread assembly, the main body portion is provided with a notch with an upward opening, and the heat conducting piece is partially embedded in the notch and is arranged to cover the upper surface of the main body portion.

In a specific embodiment of the bedspread assembly, the heat exchange flow path is embedded in the heat conducting member or arranged below the heat conducting member.

In a specific embodiment of the bedspread assembly, the heat conducting member is made of cold gel, epoxy heat conducting glue, heat conducting silica gel or heat conducting silicone grease.

In the specific implementation mode of the bedspread assembly, the heat exchange flow paths are distributed in an S shape or a well shape.

In a second aspect, the present utility model provides an intelligent bed cover comprising a main machine and a bed cover assembly as described above, the main machine being in communication with the heat exchange flow path for providing a heat exchange medium to the heat exchange flow path.

In a specific embodiment of the foregoing smart bed cover, the host includes:

the refrigerating and heating assembly is used for refrigerating or heating the heat exchange medium;

a water pump,

the water tank, the water pump, the refrigerating and heating assembly and the water tank are provided with heat exchange flow paths, the heat exchange flow paths are communicated with the heat exchange flow paths, and the water pump is used for driving heat exchange media to flow in the heat exchange flow paths and the heat exchange flow paths.

In the specific implementation mode of the intelligent bedspread, the main machine further comprises fans, the fans are arranged on two sides of the refrigerating and heating assembly, and the wind directions of all the fans are the same; and/or

The host computer still includes damping member and casing, the fan sets up on the curb plate of casing, the fan with be provided with between the curb plate damping member.

Under the condition that the technical scheme is adopted, the heat conducting piece of the bedspread assembly is arranged on the main body, a heat exchange medium can flow in the heat exchange flow path, and the heat exchange medium in the heat exchange flow path can exchange heat with the heat conducting piece so as to enable the heat conducting piece to refrigerate or heat. Because the heat conduction piece conducts heat, the heat or cold of the heat exchange medium can be rapidly conducted to other parts of the soft rubber bedspread, the temperature of the whole soft rubber bedspread is uniform, and the user experience is improved.

The heat conducting piece covers the main body part for arrangement, so that cold or heat can be rapidly transferred, the temperature of the bedspread component is uniform, and the experience is improved.

Furthermore, the heat conducting piece is made of soft materials, so that the comfort of people lying down can be ensured.

Both sides of the refrigerating and heating assembly are provided with fans, and the wind directions are the same, so that the fans can meet the cooling requirement at a small rotating speed, and larger noise and vibration are not generated.

The water tank cover is fixed in a clamping manner, so that the water tank cover cannot be automatically opened, and the tightness of the water tank can be ensured. The second elastic piece is used for driving the clamping piece to move towards the outer side of the shell, so that the first clamping part can be clamped with the second clamping part, and locking can be firmer through driving of the second elastic piece.

The movable clamping piece can enable the first clamping part to be separated from the second clamping part so as to release the clamping of the water tank cover and the clamping piece and open the water tank cover; the opening mode is simple and quick. The clamping piece is arranged in the shell, is designed in a hidden mode and is attractive.

The water tank is integrated on the upper cover, and is integrally formed with the upper cover, so that parts of the host can be reduced, the structure of the water tank is simpler, and the production and assembly costs of the parts are reduced. The parts are reduced, the required dies are reduced, and the production cost is reduced.

The water tank cover made of transparent materials is convenient for observing the liquid level and the liquid quality so as to carry out liquid supplementing and maintenance.

Be provided with the damping member between fan and the lateral wall, the vibration that fan operation produced can make the damping member absorb, makes the vibration energy unable to transmit to the casing on, makes the fan can not produce the vibration, even has the vibration also less vibration.

A plurality of shock absorbing members are arranged on the periphery of the support in a surrounding mode, vibration energy in all directions of the fan can be absorbed by the shock absorbing members, and the fan can hardly vibrate.

Vibration generated by the operation of the fan can be absorbed by the damping piece, so that vibration energy cannot be transmitted to the shell, the fan cannot vibrate, and even if vibration exists, the fan can vibrate less.

Drawings

Preferred embodiments of the present utility model are described below with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a host according to the present utility model;

FIG. 2 is a schematic diagram of a host according to the present utility model;

FIG. 3 is a schematic diagram of a part of a host according to the present utility model;

FIG. 4 is a schematic diagram of a part of a host according to the present utility model;

FIG. 5 is a schematic view of a flow path provided by the present utility model;

fig. 6 is a cross-sectional view of a water tank provided by the present utility model;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is a schematic view of the structure of the valve body provided by the present utility model;

fig. 9 is a cross-sectional view of a water tank and a cover provided by the present utility model;

FIG. 10 is a schematic diagram of a part of a host according to the present utility model;

FIG. 11 is a schematic view of a blower and side plate configuration provided by the present utility model;

fig. 12 is a schematic structural view of a connector provided by the present utility model.

List of reference numerals:

1. a housing; 11. an upper cover; 111. a cover body; 112. a second clamping part; 113. a clamping piece; 1131. a first clamping part; 114. a second elastic member; 115. avoidance holes; 12. a side plate; 121. a wind window; 101. a first control valve; 102. a second control valve; 103. a third control valve; 2. a water tank; 21. installing a pipe; 211. a first stop protrusion; 22. a valve body; 221. a valve cover; 222. a segment; 223. a second stop protrusion; 23. a first elastic member; 24. an outlet; 25. a first temperature detecting member; 3. a refrigerating and heating assembly; 31. a heat exchange part; 4. a water pump; 5. a blower; 6. a shock absorbing member; 7. a support frame; 81. a heat exchange flow path.

Detailed Description

Preferred embodiments of the present utility model are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present utility model, and are not intended to limit the scope of the present utility model.

It should be noted that, in the description of the present utility model, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected, can be indirectly connected through an intermediate medium, and can also be communicated with the inside of two elements. The specific meaning of the above terms in the present utility model can be understood by those skilled in the art according to the specific circumstances.

In order to solve the inhomogeneous problem of bedspread subassembly temperature of current intelligent bedspread, user experience feels relatively poor.

The embodiment discloses a bedspread subassembly of intelligent bedspread, and the bedspread subassembly includes soft rubber bedspread and knitting cloth cover, and wherein knitting cloth cover covers and establishes on soft rubber bedspread.

The soft rubber bedspread comprises a main body part, a heat conducting piece and a heat exchanging flow path 81, wherein the main body part is basically the same as the material and structure of the existing mattress. The heat conducting member is disposed on the main body, at least a part of the heat conducting member is exposed on the upper surface of the main body, the heat exchanging medium can flow through the heat exchanging channel 81, and the heat exchanging medium in the heat exchanging channel 81 can exchange heat with the heat conducting member, so that the heat conducting member can refrigerate or heat.

Because the heat conduction piece conducts heat, the heat or cold of the heat exchange medium can be rapidly conducted to other parts of the soft rubber bedspread, and the temperature of the whole soft rubber bedspread can be relatively uniform.

The heat conducting piece is made of soft and good heat conducting performance, heat or cold can be conducted rapidly, people can lie comfortably, and lying comfort is guaranteed.

The heat-conducting resin can be cold gel, epoxy heat-conducting glue, heat-conducting silica gel or heat-conducting silicone grease.

The heat exchange flow path 81 is specifically arranged in an "S" shape or "well" shape. In order to enable the temperature of each zone to be controlled individually and to be adapted to different persons on the mattress cover. The soft rubber bedspread is divided into a left partition and a right partition, each partition is internally provided with a heat exchange flow path 81, the heat exchange flow paths 81 of the two partitions are arranged in parallel, and the temperatures of the two partitions can be controlled independently, so that people lying in different partitions can enjoy the respective required temperatures.

The specific structure of the soft rubber bedspread will be described in detail in several embodiments.

Example 1

The heat conducting piece covers the upper surface of the main body part, namely the heat conducting piece is a heat conducting pad, and is fixed on the main body part in a bonding mode or in a spinning mode; in the present embodiment, the specific fixing method is not limited as long as it can be fixed.

If the heat exchange flow path 81 is S-shaped, specifically, a pipeline is laid, the pipeline may be formed in the heat conductive pad, or may be laid under the heat conductive pad and attached to the heat conductive pad.

If the heat exchange flow path 81 is arranged in a 'well' -shaped manner, specifically, a crimping piece is formed by crimping two plate surfaces with grooves, and the heat exchange flow path 81 is arranged in the crimping piece and cannot be arranged in the heat conducting pad, the heat exchange flow path 81 is arranged below the heat conducting pad; it is of course also possible to arrange the crimp member slightly smaller so that it is molded into the heat conducting pad. Preferably below the thermal pad.

The heat conduction pad is arranged to quickly conduct heat or cold in the heat exchange flow path 81 to the heat conduction pad so as to make the temperature of the upper surface of the soft rubber bedspread relatively uniform.

Example two

The main body part is provided with a hollowed-out groove, and the heat conducting piece is embedded in the hollowed-out groove. The hollow groove can be specifically arranged on the upper surface of the main body part in an opening manner, namely, the heat conducting part is partially exposed out of the upper surface of the main body part.

It should be noted that, although in the present embodiment, the opening of the hollowed-out groove is located on the upper surface of the main body, in other embodiments, the hollowed-out groove may be selected as a hidden groove, that is, the heat conducting member is embedded in the main body without departing from the principles of the present utility model; or the bottom of the main body is provided with an opening, so that the heat conducting piece is embedded in the hollowed-out groove and then is plugged. Without departing from the basic principle of the utility model, it will fall within the scope of the utility model.

The heat exchange flow path 81 is embedded in the heat conductive member or provided below the heat conductive member, and preferably the heat exchange flow path 81 is embedded in the heat conductive member. The heat or cold of the heat exchange flow path 81 can be quickly transferred to the upper surface and the side surface of the heat conductive member, and further transferred to the surface of the main body portion, so that the temperature of the upper surface of the main body portion is relatively uniform.

Example III

The main body part is provided with a notch with an upward opening, one part of the heat conducting piece is embedded in the notch, and the other part of the heat conducting piece is arranged to cover the upper surface of the main body part.

Preferably, the heat exchange flow path 81 is embedded in the heat conducting member, so that heat or cold of the heat exchange flow path 81 can be quickly transferred to the portion where the heat conducting member is embedded and controlled, and then quickly transferred to a portion of the main body part, so that the temperature of the upper surface of the main body part is relatively uniform.

As shown in fig. 1-12, this embodiment also discloses an intelligent bedspread, which includes a main machine and the bedspread assembly described above.

As shown in fig. 1 to 4, the main machine includes a housing 1, a cooling and heating assembly 3, a water tank 2, a water pump 4, a fan 5, a circulation loop, and the like.

As shown in fig. 5, the water tank 2 is used for storing a heat exchange medium, specifically water in this embodiment, and in other embodiments, the heat exchange medium may be a liquid such as a refrigerant. The main machine is provided with a water outlet and a water return port, and comprises a water tank 2 and a circulation loop, wherein the circulation loop comprises a water outlet pipe, a recovery pipe and a communicating pipe; the water outlet pipe is connected with the water outlet and the outlet of the water tank 2, and a first control valve 101 is arranged on the water outlet pipe; the water return pipe is connected with a water return port and an inlet of the water tank 2, and a second control valve 102 is arranged on the water return pipe; the communicating pipe is connected with the water outlet and the water return port, and is provided with a third control valve 103; the first control valve 101, the second control valve 102 and the third control valve 103 are all electromagnetic valves or electric ball valves, and are electrically connected with a control module of the intelligent bedspread, and the opening degrees of the first control valve 101, the second control valve 102 and the third control valve 103 are controlled by the control module.

Since there are two heat exchange channels 81, there are two circulation loops, each corresponding to one water outlet and one water return port, so that the two heat exchange channels 81 can be controlled in temperature independently. The water outlet is connected with the inlet of the heat exchange flow path 81 through a pipeline, and the water return port is connected with the outlet of the circulation loop, so that water in the circulation loop can flow through the heat exchange flow path 81 to perform refrigeration or heating.

The water pump 4 is capable of driving water to flow in the circulation loop and heat exchange flow path 81 to cool or heat the bed cover assembly. Specifically, the water pump 4 is disposed on the water outlet pipe, and one end of the communicating pipe, which is communicated with the water outlet, is connected to the water inlet of the water pump 4, so that the water pump 4 can drive the water in the water tank 2 to participate in circulation, and can also drive the water in the communicating pipe to participate in circulation. Each circulation loop is correspondingly provided with a water pump 4, namely, each water outlet pipe is provided with the water pump 4.

The cooling and heating unit 3 includes two heat exchanging portions 31, and water exchanges heat in the heat exchanging portions 31. The two heat exchange portions 31 are provided corresponding to the two heat exchange passages 81. The heat exchanging portion 31 is specifically provided downstream of the water pump 4. Of course, the heat exchanger may be disposed upstream of the water pump 4, and the corresponding communication pipe may communicate with the inlet of the heat exchanger 31.

Although the water pump 4 is provided on the water outlet side of the water tank 2 in the present embodiment, it may be provided on the water inlet side of the water pump 4 in other embodiments, in which case the side of the communicating pipe of the water pump 4 connected to the water return port is connected to the outlet of the water pump 4. However, the heat exchanging portion 31 is provided on the water outlet side so that the water flowing into the heat exchanging passage 81 can be water at the target temperature; especially when the water in the tank 2 participates in the circulation.

The refrigerating and heating assembly 3 is a semiconductor refrigerating and heating assembly, and can cool water and heat water; when the bedspread component needs to be refrigerated, the refrigerating and heating component 3 is used for cooling water; when the bedspread assembly needs to be heated, the refrigerating and heating assembly 3 is used for heating water.

When the water in the water tank 2 participates in circulation, the first control valve 101 and the second control valve 102 are opened, and the third control valve 103 is closed; at this time, the water in the water tank 2 flows to the heat exchange flow path 81 through the water outlet pipe, the first control valve 101, the water pump 4 and the cooling and heating unit 3, flows through the water return pipe and the second control valve 102 after heat exchange, and then flows back into the water tank 2.

When the water in the water tank 2 does not participate in the circulation, at least one of the first control valve 101 and the second control valve 102 is closed, and the third control valve 103 is opened. Specifically, when the water in the water tank 2 does not participate in the circulation and does not replenish the circulation circuit and the heat exchange flow path 81, both the first control valve 101 and the second control valve 102 are closed, and the third control valve 103 is opened. When water in the water tank 2 needs to replenish water to the circulation circuit and the heat exchange flow path 81, one of the first control valve 101 and the second control valve 102 is opened, the other is closed, and the third control valve 103 is closed. The water in the water tank 2 can be supplied to the circulation circuit through a water outlet pipe or a water return pipe, preferably, the first control valve 101 is opened, the second control valve 102 and the third control valve 103 are closed, and the circulation circuit is supplied with water through the water outlet pipe. The heat exchange medium in the water tank 2 can not participate in circulation by controlling the opening and closing of the valve, so that excessive water is not required to be cooled or heated, and unnecessary energy consumption is avoided; even when the water tank 2 is toppled, when water in the water tank 2 flows out, the heat exchange medium can not flow out due to the control of the control valve, so that circulation can be continuously ensured, and further, the intelligent bedspread can be ensured to work normally.

The intelligent bedspread has multiple modes and can be flexibly switched, so that the intelligent bedspread can meet various use requirements.

A detecting member is provided at the water outlet for detecting whether the circulation circuit and the heat exchange flow path 81 are deficient in liquid, specifically, whether bubbles exist or not by ultrasonic wave, and then whether the liquid is deficient or not is determined.

The water tank 2 is located the upper reaches of refrigeration heating subassembly 3, can make the temperature of bedspread subassembly can adjust to required temperature rapidly, promotes customer's experience and feels.

As shown in fig. 6-8, the main machine further comprises an adjustment assembly provided with an inlet on the tank 2, the adjustment assembly comprising a valve body 22 slidingly provided at the inlet. When water does not flow, the valve body 22 can close the inlet; when the water flows, the returned water can drive the valve body 22 to move, and the inlet is opened so that the water can flow back into the water tank 2. Both return pipes are connected to the valve body.

Specifically, the adjustment assembly further comprises a first elastic member 23 and a mounting tube 21. The first elastic member 23 can urge the valve body 22 to close the inlet. The mounting tube 21 is provided on the recovery port, and is formed integrally with the water tank 2.

The valve body 22 includes a valve cap 221 and a valve cartridge connected to each other, the valve cap 221 being located in the water tank 2, the valve cartridge being slidably disposed in the mounting tube 21, both ends of the first elastic member 23 acting on the valve cartridge and the mounting tube 21. Specifically, the first elastic member 23 is a compression spring, the inner wall of the mounting tube 21 is provided with a first stop protrusion 211, one end of the valve core, which is far away from the valve cover 221, is provided with a second stop protrusion 223, the compression spring is sleeved on the valve core, and two ends of the compression spring are respectively abutted against the first stop protrusion 211 and the second stop protrusion 223.

When the water return pipe does not work, the first elastic piece 23 can drive the valve core to move into the mounting pipe 21 so that the valve cover 221 covers the mounting pipe 21; due to the blocking of the valve cover 221, the water in the loop can not flow back into the water tank 2, and the pressure in the loop can be kept at a high value.

The flowing water can strike the valve cover 221 to move the valve cover 221 toward an end away from the mounting tube 21 to open the valve cover 221; the valve cover 221 is opened by the impact of water, and the pressure of the water in the circuit can be ensured when the water flows.

The valve core comprises a plurality of duct pieces 222 which are arranged at intervals, and water can flow back into the water tank 2 from gaps among the duct pieces 222; the segments 222 are two in number and are symmetrically arranged.

A first temperature detecting member 25, specifically a temperature sensor, is provided in the water tank 2 for detecting the temperature of the water in the water tank 2. The water tank 2 is provided with an outlet 24, and a filter element is arranged in the outlet 24. The inlet, the outlet 24 and the first temperature detecting member 25 are all provided at the bottom of the water tank 2. The first temperature detecting member 25 is electrically connected to the controller, and can feed back detected temperature information to the controller.

As shown in fig. 1 to 4 and 9, the housing 1 includes an upper cover 11, a bottom plate, two side plates 12, a front plate, and a rear plate, and the upper cover 11, the bottom plate, the two side plates 12, the front plate, and the bottom plate are enclosed to form the housing 1.

The water tank 2 and the upper cover 11 are integrally formed, the required die for forming is reduced, parts are reduced, the structure is simpler, and the manufacturing cost is saved.

The first end of the cover body 111 is rotatably connected with the upper cover 11, the first end and the upper cover are specifically connected through a pin shaft, a torsion spring is sleeved on the pin shaft, and two force arms of the torsion spring respectively act on the cover body 111 and the upper cover 11, so that the cover body 111 can be automatically opened.

The cover 111 can be locked to the upper cover 11, specifically, the second end of the cover 111 is snap-connected to the upper cover 11. The main unit further includes a click piece 113 movably provided on the housing 1, specifically, movably provided in the upper cover 11, movable in the front-rear direction with respect to the upper cover 11.

The clamping member 113 is provided with a first clamping portion 1131, the second end of the cover 111 is provided with a second clamping portion 112, and the second clamping portion 112 can be clamped with the first clamping portion 1131, so that the cover 111 and the clamping member 113 are clamped.

The adjusting assembly further includes a second elastic member 114 for driving the clamping member 113 to move in a direction of the outer side of the housing 1, so that the first clamping portion 1131 can be clamped with the second clamping portion 112. The second elastic member 114 is specifically a compression spring, and two ends of the second elastic member are respectively abutted against the clamping member 113 and the upper cover 11, so that the clamping member 113 can be driven to move in the direction of the outer side of the housing 1.

The first clamping portion 1131 and the second clamping portion 112, one of which is a clamping protrusion, and the other is a clamping groove. Specifically, the first clamping portion 1131 is a clamping groove, and the second clamping portion 112 is a clamping protrusion. Moving the clamping member 113 can disengage the first clamping portion 1131 from the second clamping portion 112 to release the clamping between the cover 111 and the clamping member 113, specifically, a window is provided on the housing 1, a pressing portion of the clamping member 113 is located in the window, and pressing the clamping member 113 can move the clamping member 113 inwards to disengage the first clamping portion 1131 from the second clamping portion 112. The cover body 111 can be clamped by only one elastic piece and one clamping piece 113, so that the structure is simple; the opening is convenient by pressing. The clamping piece 113 is arranged in the upper cover 11, is designed in a hidden mode, and is concise and elegant in appearance.

The opening of the water tank 2 is wide-mouth, and at least part of the area of the part of the cover body 111 covering the opening of the water tank 2 is made of transparent material; the wide-mouth design can observe the condition in the water tank 2 through the transparent part, and can observe the water level and the water quality. Preferably, in the present embodiment, the whole cover 111 is made of transparent material. The water tank 2 is provided with water level scale marks on the inner side wall, and the liquid level can be observed through the water level scale marks, so that liquid can be timely replenished when the liquid level is lower.

In this embodiment, the water is specifically water, and when the liquid level in the water tank 2 is low, the cover 111 is opened to add water. In other embodiments, the water may also be an antifreeze solution.

As shown in fig. 3, the host machine further comprises a support frame 7, which is specifically a sheet metal part. A support frame 7 is provided between the bottom plate and the water tank 2 for supporting the water tank 2.

As shown in fig. 1-4, 10 and 11, the heat exchange portion is plate-shaped, and the heat exchange portion is arranged in parallel with the side plate 12, that is, the heat exchange portion is in a standing design, so that the heat dissipation efficiency of the heat exchange portion is higher. At least one side of the heat exchange part is provided with a fan 5; preferably, in this embodiment, fans 5 are disposed on both sides of the heat exchange portion, and wind directions of all fans 5 are the same.

The first side of the heat exchange part is provided with a fan 5, and the fan 5 can cover the heat exchange part. The second side of the heat exchange part is provided with a fan 5, and the fan 5 can cover the heat exchange part. The fan 5 on the first side is used for blowing air to the refrigerating and heating assembly 3, and the fan 5 on the second side is used for sucking air from the refrigerating and heating assembly 3 side; one side induced drafts one side and blows, reduces the effort of unilateral fan 5, can increase the heat dissipation capacity under the circumstances that fan 5 rotational speed is not high, reduces the noise of fan 5. When the refrigerating and heating assembly 3 refrigerates water, the heat exchange part can generate a large amount of heat, and the fan 5 blows air to dissipate heat of the heat exchange part; when the refrigerating and heating assembly 3 is used for heating water, water is taken away to heat, so that the temperature of the heat exchange part can be reduced, and the fan 5 blows air to heat the heat exchange part, so that air in the shell 1 is prevented from not circulating, and the outer surface of the heat exchange part is prevented from frosting.

It should be noted that, although one fan 5 is disposed on each side in the present embodiment, this is not a limitation of the present utility model, and in other embodiments, a plurality of fans 5 may be disposed on one side of the heat exchanging portion, where the plurality of fans 5 are laid along the plane of the side plate 12, without departing from the principles of the present utility model. Without departing from the basic principle of the utility model, and therefore falls within the scope of the utility model.

The fan 5 is fixed on the side plate 12 and is positioned on the inner side of the side plate 12, and a wind window 121 is arranged at the position, opposite to the fan 5, of the side plate 12, and the wind window 121 plays a role in ventilation. The first side louver 121 may allow the first side wind to enter the housing 1, and the second side louver 121 may allow the second side wind to exit the housing 1.

As shown in fig. 11 and 12, the main machine further comprises a damping member 6, and the damping member 6 is arranged between the fan 5 and the side plate 12; the damping member 6 plays a role in damping, so that the vibration of the fan 5 can be absorbed by the damping member 6, and cannot be transmitted to the housing 1, and the vibration of the housing 1 is reduced.

The periphery of the bracket is provided with a plurality of shock absorbing members 6. Specifically, each corner of the bracket is provided with a shock absorbing member 6.

It should be noted that the location of the shock absorbing members 6 is not limited to the present utility model, and the shock absorbing members 6 are provided at each corner, and in other embodiments, the shock absorbing members 6 are provided on each side of the bracket when the bracket is arc-shaped, without departing from the principles of the present utility model. Without departing from the basic principle of the utility model, and therefore falls within the scope of the utility model.

The bracket part of the fan 5 extends into the damping piece 6, and the damping piece 6 is fixedly connected with the side plate 12. Specifically, the material of the shock absorbing member 6 is an elastic material, and more specifically, the elastic material is rubber or silica gel. The shock absorbing member 6 is provided with an inserting groove, and the corners of the bracket are inserted into the inserting groove. The shock absorbing member 6 is further provided with a connecting lug, a connecting hole is formed in the connecting lug, and the shock absorbing member 6 is connected to the side plate 12 through a bolt.

It should be noted that, although the material of the shock absorbing member 6 is an elastic material in the present embodiment, this is not a limitation of the present utility model, and in other embodiments, the shock absorbing member 6 includes a first connecting member, a second connecting member, and an elastic member connecting the first connecting member and the second connecting member, where the first connecting member is connected to the bracket, and the second connecting member is connected to the side plate 12 without departing from the principles of the present utility model.

Thus far, the technical solution of the present utility model has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present utility model is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present utility model, and such modifications and substitutions will fall within the scope of the present utility model.

Claims (10)

1. A bedspread assembly of an intelligent bedspread, characterized in that it comprises a soft rubber bedspread, said soft rubber bedspread comprising:

the main body part is provided with a plurality of grooves,

a heat conductive member provided on the main body;

and a heat exchange flow path (81) through which a heat exchange medium can flow, wherein the heat exchange medium in the heat exchange flow path (81) can exchange heat with the heat conducting member.

2. The bed cover assembly of claim 1, wherein the thermally conductive member covers an upper surface of the main body portion.

3. The bed cover assembly of claim 1, wherein the body portion is provided with a hollowed-out groove, and the heat conducting member is embedded in the hollowed-out groove.

4. The bed cover assembly according to claim 1, wherein the main body portion is provided with a notch with an upward opening, the heat conducting member is partially embedded in the notch, and the other part is arranged to cover the upper surface of the main body portion.

5. The bed cover assembly according to any one of claims 2-4, wherein the heat exchange flow path (81) is embedded within or arranged below the heat conducting member.

6. The bed cover assembly according to any one of claims 2-4, wherein the heat conducting member is made of a cold gel, an epoxy heat conducting gel, a heat conducting silicone gel or a heat conducting silicone grease.

7. The bed cover assembly according to any one of claims 2-4, wherein the heat exchange flow path (81) is arranged in an "S" or "well" shape.

8. A smart bed cover, characterized in that it comprises a main machine and a bed cover assembly according to any one of claims 1-7, said main machine being in communication with said heat exchange flow path (81) for providing said heat exchange flow path (81) with a heat exchange medium.

9. The intelligent bed cover according to claim 8, wherein the main machine comprises:

the refrigerating and heating assembly (3) is used for refrigerating or heating the heat exchange medium;

a water pump (4),

the water tank (2), water pump (4), refrigeration heating subassembly (3) with water tank (2) are formed with heat transfer flow path (81), heat transfer flow path (81) communicate in heat transfer flow path (81), water pump (4) are used for driving the heat transfer medium in heat transfer flow path (81) with flow in heat transfer flow path (81).

10. The intelligent bedspread according to claim 9, characterized in that the main machine further comprises fans (5), the fans (5) are arranged on both sides of the refrigerating and heating assembly (3), and the wind directions of all fans (5) are the same; and/or

The main machine further comprises a damping piece (6) and a shell (1), the fan (5) is arranged on a side plate (12) of the shell (1), and the damping piece (6) is arranged between the fan (5) and the side plate (12).