CN220757023U - Temperature regulation mattress - Google Patents

Abstract

The application relates to the technical field of furniture articles, in particular to a temperature adjusting mattress. The temperature-adjusting mattress comprises a bottom layer, a comfortable layer, a temperature conduction assembly, a temperature adjusting device and an air blowing device; the temperature conduction assembly comprises a first guide pipe and a second guide pipe, the second guide pipe is sleeved outside the first guide pipe, and the surface of the second guide pipe is provided with an air outlet hole; the temperature regulating device is suitable for introducing a cooling medium or a heating medium into the first conduit; the air blowing device is suitable for introducing air into the second conduit, and the air is also suitable for flowing to the comfort layer through the air outlet hole. The application is through temperature regulating device with refrigerant or heat medium carry to temperature conduction assembly's first pipe in to through blowing device to temperature conduction assembly's second pipe lets in the air current. The air cooled or heated by the first guide pipe can be blown to the comfortable layer through the air outlet, so that the user feel can feel breeze blowing, the heating or cooling effect can be realized, the use of the user in summer and winter is facilitated, and the air-cooled device has strong universality.

Description

Temperature regulation mattress

Technical Field

The utility model relates to the technical field of furniture articles, in particular to a temperature-adjusting mattress.

Background

In the prior art, most of thin pads used at home do not have a temperature regulating function, for example, in summer, after the part of the thin pad contacted with a human body is contacted with the human body for a long time, heat cannot be timely dissipated, and at the moment, the temperature of the body of a user is overhigh, and the part of the body contacted with the thin pad sweats. In addition, most users use the summer sleeping mat, the cooling effect is achieved by paving the summer sleeping mat on a mattress, but the summer sleeping mat is heated after being used for a period of time, and the low temperature cannot be continuously maintained. In winter, the environment temperature is too low, especially before the bed is put on, the quilt is too cold, and the quilt can be warmed only after a long time. In addition, more electric blankets are used by users in winter, but the electric blankets which are generally adopted cannot adapt to the change of different seasons at the same time, and are only used in winter.

Disclosure of Invention

The utility model solves the problem that the existing mattress cannot give consideration to different seasonal changes so as to perform corresponding heating or cooling.

In order to solve the problems, the utility model provides a temperature-adjusting mattress, which comprises a bottom layer, a comfortable layer, a temperature conduction component, a temperature adjusting device and an air blowing device; the comfortable layer is detachably connected with the bottom layer; the temperature conduction assembly comprises a first conduit and a second conduit, the first conduit is connected with the second conduit, the second conduit is sleeved outside the first conduit, an air outlet hole is formed in the surface of the second conduit, and the temperature conduction assembly is arranged between the bottom layer and the comfort layer; the temperature adjusting device is connected with the first conduit and is suitable for introducing a cooling medium or a heating medium into the first conduit; the air blowing device is connected with the second conduit, the air blowing device is suitable for introducing air into the second conduit, and the air is also suitable for flowing to the comfort layer through the air outlet hole.

Optionally, the temperature regulation mattress further comprises a plurality of connecting components, and the connecting component is used for connecting two adjacent temperature conduction components.

Optionally, the connection assembly includes a first connector, the quantity of first pipe is a plurality of, first connector install in the tip of first pipe, first connector is used for communicating adjacent two first pipe.

Optionally, the connecting assembly further comprises second connecting pieces, the number ratio of the second guide pipes to the number ratio of the first guide pipes is 2:1, each first guide pipe is sleeved with two second guide pipes, and the second connecting pieces are used for communicating the two second guide pipes.

Optionally, the connecting assembly further comprises a third connecting piece, the third connecting piece is connected with the second connecting piece and the blowing device respectively, and the third connecting piece is used for communicating two adjacent second connecting pieces.

Optionally, the connecting assembly further includes a fourth connecting piece, two second conduits sleeved outside the two adjacent first conduits are connected through the fourth connecting piece, and the fourth connecting piece is used for communicating the two second conduits.

Optionally, the fourth connecting piece is provided with a through hole, the first conduit is suitable for penetrating through the through hole, and the circumferential outer surface of the first conduit is suitable for being attached to the circumferential inner surface of the through hole.

Optionally, the temperature conduction assembly further comprises a support member, the support member being respectively abutted against the first conduit and the second conduit, the first conduit being adapted to be connected with the second conduit through the support member.

Optionally, the temperature adjusting mattress further comprises a mattress body structure, the mattress body structure comprises a first supporting layer and a second supporting layer, the temperature conduction component is installed between the first supporting layer and the second supporting layer, and the mattress body structure is installed between the bottom layer and the comfort layer.

Optionally, a first mounting groove is formed in the first supporting layer, a second mounting groove is formed in the second supporting layer, and the temperature conduction assembly is located in a space formed by the first mounting groove and the second mounting groove in a surrounding mode.

Compared with the prior art, the temperature adjusting mattress has the beneficial effects that:

the cooling medium or the heating medium is conveyed into the first conduit of the temperature conduction assembly through the temperature adjusting device, and the air flow is introduced into the second conduit of the temperature conduction assembly through the air blowing device, so that the air flows between the first conduit and the second conduit. The air cooled or heated by the first guide pipe can be blown to the comfortable layer through the air outlet, so that the user feel can feel breeze blowing, the heating or cooling effect can be realized, the use of the user in summer and winter is convenient, and the air-cooled device has stronger universality.

Drawings

FIG. 1 is a schematic view of a temperature-regulated mattress according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a temperature conduction assembly according to an embodiment of the present utility model;

FIG. 3 is a schematic view of another embodiment of a temperature conduction assembly of the present utility model;

FIG. 4 is a schematic cross-sectional view of a temperature conduction assembly according to an embodiment of the utility model.

Reference numerals illustrate:

1-a bottom layer; 2-a temperature conduction assembly; 21-a first conduit; 22-a second conduit; 221-air outlet holes; 23-a support; 3-a temperature adjusting device; 4-blowing device; a 5-connection assembly; 51-first connection; 52-a second connector; 53-a third connector; 54-fourth connection; 541-a via; 6-pad structure; 61-a first support layer; 62-a second support layer.

Detailed Description

The terms "mounted," "connected," "coupled," and "connected" are to be construed broadly, and may be, for example, fixedly coupled, detachably coupled, or rotatably coupled; may be a mechanical connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

The coordinate system XYZ is provided in the drawings of the embodiments of the present utility model, in which the forward direction of the X axis represents the right direction, the reverse direction of the X axis represents the left direction, the forward direction of the Z axis represents the upper direction, the reverse direction of the Z axis represents the lower direction, the forward direction of the Y axis represents the front direction, and the reverse direction of the Y axis represents the rear direction, and the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", and "right", etc. are based on the directions or positional relationships shown in the drawings, only for convenience of description and simplification of description, but do not indicate or imply that the device referred to must have a specific direction, be constructed and operated in a specific direction, and therefore should not be construed as limiting the present utility model.

The terms "first," "second," "third," and "fourth," etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "first", "second", "third", and "fourth" may explicitly or implicitly include at least one such feature.

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 1 to 3, an embodiment of the present utility model provides a temperature-adjusting mattress including a base layer 1, a comfort layer, a temperature conduction assembly 2, a temperature adjusting device 3, and an air blowing device 4; the comfort layer is detachably connected with the bottom layer 1; the temperature conduction assembly 2 comprises a first conduit 21 and a second conduit 22, the first conduit 21 is connected with the second conduit 22, the second conduit 22 is sleeved outside the first conduit 21, an air outlet 221 is formed in the surface of the second conduit 22, and the temperature conduction assembly 2 is installed between the bottom layer 1 and the comfort layer; the temperature adjusting device 3 is connected with the first conduit 21, and the temperature adjusting device 3 is suitable for introducing a cooling medium or a heating medium into the first conduit 21; the air blowing device 4 is connected with the second conduit 22, the air blowing device 4 is suitable for introducing air into the second conduit 22, and the air is also suitable for flowing to the comfort layer through the air outlet hole 221.

The cooling medium or heating medium can be liquid or gas, and air is introduced between the first conduit 21 and the second conduit 22 to realize cooling or heating of the mattress. The temperature adjusting device 3 can be a heating and refrigerating integrated machine and can be connected with the heat conducting pipe; the blowing means 4 may be a fan, an air pump, etc., which may be connected to the support assembly. Taking the cooling as an example, on the one hand, the temperature adjusting device 3 may be used to introduce low-temperature gas into the first conduit 21, the gas may flow in the first conduit 21, and along with the low-temperature gas flowing in the first conduit 21, the temperature of the surface of the first conduit 21 may be in a low-temperature state. At this time, the air flow is blown in by the second duct 22 through the air blowing device 4, the air flows through the space between the first duct 21 and the second duct 22, the air which is introduced through the first duct 21 is cooled, and the cooled air can flow out through the air outlet 221 on the second duct 22, so as to realize the effect of cooling the mattress.

On the other hand, the low-temperature liquid may be introduced into the first duct 21 from the temperature control device 3, and the liquid may flow in the first duct 21, so that the temperature of the surface of the first duct 21 may be in a low-temperature state as the low-temperature liquid flows in the first duct 21. At this time, the air flow is blown in by the second duct 22 through the air blowing device 4, the air flows through the space between the first duct 21 and the second duct 22, the air which is introduced through the first duct 21 is cooled, and the cooled air can flow out through the air outlet 221 on the second duct 22, so as to realize the effect of cooling the mattress. And the temperature of the introduced gas is reduced through the surface of the pipe, so that the blown gas can not be supercooled, the temperature control is facilitated, and the comfort of a user is ensured.

When heating is needed, on the one hand, the temperature adjusting device 3 can be used for introducing high-temperature gas into the first conduit 21, the gas can flow in the first conduit 21, and along with the low-temperature gas flowing in the first conduit 21, the temperature of the surface of the first conduit 21 can be in a high-temperature state. At this time, the air flow is blown in by the second duct 22 through the air blowing device 4, the air flows between the first duct 21 and the second duct 22, the temperature of the air is raised through the first duct 21, and the air after the temperature rise can flow out through the air outlet 221 on the second duct 22, so as to realize the effect of raising the temperature of the mattress.

On the other hand, the temperature control device 3 may be provided to the inside of the first duct 21, so that the high-temperature liquid may flow in the first duct 21, and the surface temperature of the first duct 21 may be in a high-temperature state as the high-temperature liquid flows in the first duct 21. At this time, the air flow is blown in by the second duct 22 through the air blowing device 4, the air flows between the first duct 21 and the second duct 22, the temperature of the air is raised through the first duct 21, and the air after the temperature rise can flow out through the air outlet 221 on the second duct 22, so as to realize the effect of raising the temperature of the mattress.

The comfort layer (not shown) is a portion in direct contact with the user, and the user can lie on the comfort layer (not shown), and the comfort layer (not shown) can be made of breathable materials, such as 3D fabrics, knitted fabrics, etc., so that good breathability of the comfort layer (not shown) can be ensured. The air flow which is heated or cooled can easily penetrate through the fabric to achieve the heating or cooling effect, so that the whole mattress is heated or cooled, and the temperature is kept in a comfortable interval.

The cooling medium or heating medium is fed into the first conduit 21 of the temperature conduction assembly 2 by the temperature adjusting device 3, and the second conduit 22 of the temperature conduction assembly 2 is introduced with a gas flow by the blowing device 4, so that the gas flows between the first conduit 21 and the second conduit 22. The air cooled or heated by the first conduit 21 can be blown to the comfort layer through the air outlet 221, so that the user feel can feel breeze blowing, the heating or cooling effect can be realized, the use of the user in summer and winter is facilitated, and the comfort layer has strong universality.

As shown in fig. 2 and 3, the temperature adjustment mattress further comprises a connecting assembly 5, wherein the number of the temperature conduction assemblies 2 is a plurality, and the connecting member assemblies are used for connecting two adjacent temperature conduction assemblies 2.

The plurality of temperature conduction assemblies 2 can be evenly distributed in the pad body structure 6, the effect of overall temperature transmission of the pad body structure 6 can be guaranteed, the temperature control of each position of a user is guaranteed, and the connecting assemblies 5 can connect two adjacent temperature conduction assemblies 2 together. The flow of the cooling medium or heating medium in the entire mat structure 6 can be ensured, and the flow of the air flow in the entire mat structure 6 can also be ensured. The hot air flow heated by the first duct 21 or the cold air flow cooled by the first duct 21 can be blown out through the air outlet 221 on the second duct 22, so that the human body can feel the feeling that the micro air flow blows on the surface of the body, and the effect of heating or cooling can be achieved.

As shown in fig. 2 and 3, the connection assembly 5 includes a plurality of first connectors 51, the first pipes 21 are mounted on the ends of the first pipes 21, and the first connectors 51 are used for communicating two adjacent first pipes 21.

The first connector 51 may be used to connect two first ducts 21 side by side, the first ducts 21 may be arranged along the Y-axis direction, and the first connector 51 may be made of a flexible material, such as a PVC pipe, a rubber pipe, or the like. The first connector 51, which is made of flexible material, facilitates the rolling of the mattress in the X-axis direction. Meanwhile, the first connection piece 51 can ensure that when the cooling medium or heating medium is introduced into one of the first conduits 21, the cooling medium or heating medium can flow into the next first conduit through the first connection piece 51. This ensures that the refrigerant or the heating medium flows through the plurality of first pipes 21.

As shown in fig. 2 and 3, the connection assembly 5 further includes a second connection member 52, the ratio of the number of the second pipes 22 to the number of the first pipes 21 is 2:1, and each first pipe 21 is sleeved with two second pipes 22, and the second connection member 52 is used for communicating the two second pipes 22.

The two second guide pipes 22 can be connected by adopting a second connecting piece 52, the second connecting piece 52 can be a three-way pipe, and two openings of the three-way pipe can be respectively sleeved at the end part of one second guide pipe 22, so that the communication inside the two second guide pipes 22 is realized. According to the area of the cushion body structure 6, the third opening of the three-way pipe is closed or communicated with the other temperature conduction assemblies 2 as required, and different numbers of the temperature conduction assemblies 2 are connected together according to the size of the actual cushion body structure 6 so as to ensure the balance of the whole heating and refrigerating effects.

As shown in fig. 2 and 3, the temperature-adjusting mattress further includes a third connecting member 53, the third connecting member 53 is connected to the second connecting member 52 and the air blowing device 4, respectively, and the third connecting member 53 is used for communicating two adjacent second connecting members 52.

The third connecting piece 53 may also be a three-way pipe, two openings of the three-way pipe may be respectively communicated with one of the second connecting pieces 52, the third opening of the three-way pipe may be connected with the air blowing device 4, and the air blowing device 4 may blow air into the two temperature conduction assemblies 2 connected with the third connecting piece 53. And the third connecting piece 53 can be used for diverting the entering air flow, and the diverted air can respectively enter different temperature conduction assemblies 2 so as to ensure that the air flow rate of the air entering the temperature conduction assemblies 2 at two sides of the air inlet pipe is consistent.

As shown in fig. 2 and 3, the connecting assembly 5 further includes a fourth connecting member 54, two second conduits 22 sleeved outside two adjacent first conduits 21 are connected by the fourth connecting member 54, and the fourth connecting member 54 is used for communicating the two second conduits 22.

The fourth connecting member 54 may be an integral part, and when the fourth connecting member 54 is an integral part, it may be "i" shaped and have 2 openings therein, and the fourth connecting member 54 has a passage for gas to pass through. The two openings of the fourth connecting member 54 may be connected to the ends of the two side-by-side second ducts 22, respectively, to thereby connect the two side-by-side second ducts 22, so as to facilitate the air flow between the two side-by-side second ducts 22.

Of course, the fourth connecting member 54 may also be composed of two bent pipes, which may be respectively installed at the end of one of the second guide pipes 22, and a straight pipe, which may be used to connect the two second bent pipes. Thus, after the air flow is introduced from one of the second ducts 22, the air flow passes through the first second duct 22, the first bent pipe, the straight pipe, the second bent pipe and the second duct 22 in sequence, so that the air flow is realized.

As shown in fig. 2 and 3, the fourth connecting member 54 is provided with a through hole 541, the first conduit 21 is adapted to be disposed through the through hole 541, and a circumferential outer surface of the first conduit 21 is adapted to be bonded to a circumferential inner surface of the through hole 541.

The through hole 541 formed in the fourth connecting member 54 can be used for avoiding the first conduit 21, and since the second conduit 22 is sleeved on the circumferential surface of the first conduit 21, the second conduit 22 is facilitated to be extended by forming the through hole 541 when the fourth connecting member 54 is sleeved on the end portion of the second conduit 22. And the circumferential outer surface of the first pipe 21 is adapted to be bonded to the circumferential inner surface of the through hole 541, so that sealability in the passage can be ensured, and a sealant can be coated at the bonding portion of the first pipe 21 and the through hole 541, or a sealing ring can be installed between the first pipe 21 and the through hole 541 to ensure airtightness.

As shown in fig. 2 and 4, the temperature conduction assembly 2 further comprises a support 23, the support 23 being respectively abutted against the first conduit 21 and the second conduit 22, the first conduit 21 being adapted to be connected with the second conduit 22 through the support 23.

The support 23 serves to space the first duct 21 from the second duct 22 and also to maintain a normal gas flow between the first duct 21 and the second duct 22. In one embodiment, the support 23 is polygonal in shape. For example, the support 23 may have a triangular shape, in which an opening may be formed in the middle, the first conduit 21 may be disposed through the opening, and three vertexes of the triangle may abut against the wall of the second conduit 22. Thereby ensuring that the first duct 21 and the second duct 22 are spaced apart and that there is sufficient space between the first duct 21 and the second duct 22 for the air flow to pass through. In addition, the shape of the supporting member 23 may be other polygonal shapes, such as regular polygon, non-regular polygon, convex polygon, concave polygon, etc., which can achieve the same effect as that achieved by the supporting member 23 with a triangular shape, and will not be repeated herein.

As shown in fig. 1, the temperature adjustment mattress further comprises a cushion structure 6, the cushion structure 6 comprises a first support layer 61 and a second support layer 62, the temperature conduction assembly 2 is installed between the first support layer 61 and the second support layer 62, and the cushion structure 6 is installed between the bottom layer 1 and the comfort layer. The pad structure 6 may enable fixation of the temperature conduction assembly 2, and the pad structure 6 may be made of a flexible material, for example: sponge, silica gel, etc.

The first supporting layer 61 is provided with a first mounting groove (not shown), the second supporting layer 62 is provided with a second mounting groove (not shown), and the temperature conduction assembly 2 is located in a space surrounded by the first mounting groove (not shown) and the second mounting groove (not shown).

The first support layer 61 and the second support layer 62 may be made of a flexible material having a certain shape, such as silica gel, sponge, etc., which can ensure that the flexible contact with the temperature conduction assembly 2 can avoid the damage of the temperature conduction assembly 2. The first mounting groove (not shown) formed on the surface of the first support layer 61 may have a semicircular shape, a trapezoidal shape, a rectangular shape, etc., so that it can fix the position of the temperature conduction assembly 2 after the temperature conduction assembly 2 is placed therein. Second, the second mounting groove (not shown) formed on the surface of the second supporting layer 62 is similar to the first mounting groove (not shown), and will not be repeated again, and the temperature conduction assembly 2 is placed in a space formed by surrounding the first mounting groove (not shown) and the second mounting groove (not shown), so that the position of the temperature conduction assembly 2 relative to the first supporting layer 61 and the second supporting layer 62 can be ensured, and the risk that the temperature conduction assembly 2 may shift in position in the use process is avoided.

As shown in fig. 1, the number of the pad structures 6 is a plurality. The corresponding partitioning can be done ergonomically by providing different numbers of pad structures 6. Preferably, taking a single mattress as an example, the number of the cushion structures 6 can be three, and the three cushion structures 6 are respectively distributed in the head and shoulder area, the trunk area and the leg area of the user, and as the comfort temperature of the three areas of the user sleeping at night is different, different temperature control is respectively carried out on different areas of the user through the three cushion structures 6, so that the mattress is more suitable for the actual use requirements of the user, and the comfort experience of the user is ensured.

Although the present disclosure is described above, the scope of protection of the present disclosure is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the disclosure, and these changes and modifications will fall within the scope of the utility model.

Claims (10)

1. A temperature-regulated mattress, comprising:

a bottom layer;

the comfortable layer is detachably connected with the bottom layer;

the temperature conduction assembly comprises a first conduit and a second conduit, the first conduit is connected with the second conduit, the second conduit is sleeved outside the first conduit, an air outlet hole is formed in the surface of the second conduit, and the temperature conduction assembly is arranged between the bottom layer and the comfort layer;

the temperature adjusting device is connected with the first conduit and is suitable for introducing a refrigerant or a heating medium into the first conduit;

and the air blowing device is connected with the second conduit, is suitable for introducing air into the second conduit, and is also suitable for flowing to the comfort layer through the air outlet.

2. The temperature-regulated mattress of claim 1, further comprising a plurality of connection assemblies, the connection assemblies connecting adjacent two of the temperature-conduction assemblies.

3. The temperature-regulated mattress of claim 2, wherein the connection assembly includes a first connector, the number of first conduits being a number, the first connector being mounted to an end of the first conduit, the first connector being configured to communicate between adjacent ones of the first conduits.

4. The temperature-regulated mattress of claim 2, wherein the connection assembly further comprises a second connector, the number of the second conduits to the number of the first conduits is 2:1, and each of the first conduits is sleeved with two of the second conduits, and the second connector is used for communicating the two second conduits.

5. The temperature-regulated mattress of claim 4, wherein the connector assembly further comprises a third connector connected to the second connector and the air blower, respectively, the third connector being configured to communicate with two adjacent second connectors.

6. The temperature-regulated mattress of claim 4, wherein said connector assembly further comprises a fourth connector through which two of said second conduits that are sleeved adjacent to two of said first conduits are connected, said fourth connector being adapted to communicate with two of said second conduits.

7. The temperature-regulating mattress of claim 6, wherein the fourth connector has a through-hole formed therein, the first conduit is adapted to pass through the through-hole, and a peripheral outer surface of the first conduit is adapted to conform to a peripheral inner surface of the through-hole.

8. The temperature regulated mattress of claim 1, wherein the temperature conduction assembly further comprises a support member that abuts the first conduit and the second conduit, respectively, the first conduit being adapted to be connected to the second conduit by the support member.

9. The temperature-regulated mattress of claim 1, further comprising a cushion structure including a first support layer and a second support layer, the temperature-conduction assembly being mounted between the first support layer and the second support layer, the cushion structure being mounted between the bottom layer and the comfort layer.

10. The temperature-regulated mattress of claim 9, wherein the first support layer has a first mounting groove formed therein and the second support layer has a second mounting groove formed therein, the temperature-conduction assembly being located in a space defined by the first and second mounting grooves.