CN217004632U - Indoor temperature adjusting structure of integrated wallboard - Google Patents

Abstract

The application discloses structure is adjusted to indoor temperature of integrated wallboard for the cost that solves prior art existence is with high costs, mounting structure is complicated, the installation rate is slow and the wall problem of going mildy and skinning easily, a structure is adjusted to indoor temperature of integrated wallboard includes: lay integrated wallboard, main inlet tube, main wet return and multiunit capillary pipeline around the wall and on the top surface, integrated wallboard is provided with a plurality of parallel perforating holes, and multiunit capillary pipeline is fixed to be set up in a plurality of perforating holes that correspond, and multiunit capillary pipeline one end is connected with main inlet tube, and the other end is connected with main wet return, and main inlet tube sets up in the integrated wallboard outside with main wet return. Product mounting structure is simple, compares in integrated wallboard of traditional disconnect-type and water service pipe, has saved installation space, detach installed parts such as buckle in the design, and the cost is with low costs and installation rate is fast, has the advantage of modularization installation, has dampproofing and waterproofing function simultaneously, can effectively stop the wall and go mildy and skinning.

Description

Indoor temperature adjusting structure of integrated wallboard

Technical Field

The application relates to the technical field of interior decoration structures, in particular to an indoor air temperature adjusting structure of an integrated wallboard.

Background

With the rapid development of social economy, the requirements of people on living environment and indoor decoration are higher and higher, and various decoration structures are produced at the same time. The temperature is generally adjusted by combining an air conditioner and a heater in the existing indoor decoration, and the air conditioner is particularly easy to fall ash when being arranged on a wall or a corner throughout the year. The interior of the air conditioner is troublesome to clean, and a lot of people only can symbolically clean the dust on the outer surface. The dust inside the air conditioner is deposited more and more, and when the air conditioner is started next time, the dust can be blown into a room and sucked into the human body to induce respiratory diseases or infection. Too much dust is piled up in the air conditioner, and the operation of air conditioner slows down, and the accumulational dust can reduce the scavenging air volume, increases wind wheel weight, hinders the operation of evaporimeter fin, and refrigeration effect worsens, and power consumption also can increase. Indoor winter uses the radiator heat supply, and area is big, and the heat supply is inhomogeneous, and indoor thermal cycle effect is relatively poor.

The indoor air temperature regulation of integrated wallboard is a new indoor decoration idea in recent years, and the integrated wallboard and the integrated roof of modular assembly formula are used as base plates, and are matched with a cooling and heating pipeline system, so that the indoor conditions such as air, temperature or humidity are more suitable for human bodies. However, the existing indoor air temperature adjusting structure of the integrated wallboard is that a conventional water through pipe is laid on a blank wall, and then the integrated wallboard covers the water through pipe, which is similar to the installation form of a floor heater. The mounting structure is comparatively complicated, and the cost is higher, has also lost modular structure's advantage when the installation is slower, and the wall is mouldy skinning easily.

Disclosure of Invention

Therefore, the application provides an indoor temperature regulation structure of integrated wallboard to solve the problem that the cost that prior art exists is with high costs, mounting structure is complicated, the installation rate is slow and the wall is moldy and skinning easily.

In order to achieve the above purpose, the present application provides the following technical solutions:

an integrated wall panel indoor air temperature conditioning structure comprising: the integrated wall plate is laid on a wall surface and provided with a plurality of groups of parallel through holes, and the capillary pipelines are fixedly arranged in the corresponding through holes; one end of each group of capillary pipelines is connected with the main water inlet pipe, and the other end of each group of capillary pipelines is connected with the main water return pipe; the main water inlet pipe and the main water return pipe are both arranged on the outer side of the integrated wallboard.

Optionally, each group of capillary pipelines in the multiple groups of capillary pipelines is of a U-shaped structure, two parallel vertical pipes in the U-shaped structure are respectively installed in two adjacent vertical through holes, and the end portions of the two vertical pipes extend out of the end face of the integrated wallboard and are respectively connected with the main water inlet pipe and the main water return pipe.

Optionally, the diameters of the main water inlet pipe and the main water return pipe are the same, the diameters of the multiple groups of capillary pipelines are the same, and the diameters of the main water inlet pipe and the main water return pipe are larger than the diameters of the multiple groups of capillary pipelines.

Optionally, the diameter of the main water inlet pipe and the diameter of the main water return pipe are 20 mm-25 mm.

Optionally, the plurality of sets of capillary channels have a diameter of 3.3mm to 4.3 mm.

Alternatively, the main inlet pipe supplies 12 ° -20 ° cold water in the summer and 30 ° -40 ° hot water in the winter.

Optionally, the multiple groups of capillary pipelines are bonded in the corresponding multiple through holes through heat-conducting silica gel, and the heat-conducting silica gel is used for fixing the capillary pipelines and reducing thermal contact resistance generated between the surfaces of the capillary pipelines and the contact surface of the integrated wallboard.

Optionally, integrated wallboard comprises base substrate and face decorative board, the base substrate is provided with a plurality of vertical direction perforating holes, and the base substrate is laid at the wall, the face decorative board splices in the base substrate.

Compared with the prior art, the method has the following beneficial effects:

1. integrated wallboard is provided with the parallel perforating hole of multiunit, and multiunit capillary line is fixed to be set up in the multiunit perforating hole that corresponds, and mounting structure is simple, compares and lays on the blank wall in traditional water service pipe, then integrated wallboard covers water service pipe structure, has saved installation space, and installed part such as buckle are detached in the design, and the cost is with low costs and installation rate is fast, has the advantage of modularization installation. The multiple groups of capillary pipelines are not in contact with the wall surface of the blank, the integrated wallboard has a waterproof and moistureproof function, and the integral structure can effectively prevent the wall surface from mildewing and peeling. Multiunit capillary pipeline one end is connected with main inlet tube, and the other end is connected with main wet return, and main inlet tube sets up in the integrated wallboard outside with main wet return, is convenient for maintain and install.

2. Each group of the multiple groups of capillary pipelines are arranged in two adjacent through holes, and each group of capillary pipelines are in U-shaped disk return on the upper side of the integrated wallboard. Each group of capillary pipelines forms a closed loop, so that the influence is not generated, and the operation of the whole system is not influenced when one group of capillary pipelines breaks down.

Drawings

To more intuitively explain the prior art and the present application, exemplary drawings are given below. It should be understood that the specific shapes, configurations and illustrations in the drawings are not to be construed as limiting, in general, the practice of the present application; for example, it is within the ability of those skilled in the art to make routine adjustments or further optimization of the add/drop/attribute division, specific shapes, positional relationships, connection manners, size ratios, etc. of certain elements (components) based on the technical concepts disclosed in the present application and the exemplary drawings.

Fig. 1 is a schematic overall structure diagram provided in a first embodiment of the present application;

FIG. 2 is a schematic view of a second integrated wall panel according to an embodiment of the present application;

FIG. 3 is a schematic view of a second capillary channel mounting structure according to an embodiment of the present application;

fig. 4 is a schematic view of a part of a structure provided in the third embodiment of the present application;

description of the reference numerals:

1. integrating the wallboard; 2. a main water inlet pipe; 3. a primary water return pipe; 4. a capillary tube; 5. a through hole; 6. a base substrate; 7. a face decoration board.

Detailed Description

The present application will be described in further detail below with reference to specific embodiments thereof, with reference to the accompanying drawings.

In the description of the present application: "plurality" means two or more unless otherwise specified. The terms "first", "second", "third", and the like in this application are intended to distinguish one referenced item from another without having a special meaning in technical connotation (e.g., should not be construed as emphasizing a degree or order of importance, etc.). The terms "comprising," "including," "having," and the like, are intended to be inclusive and mean "not limited to" (some elements, components, materials, steps, etc.).

In the present application, terms such as "upper", "lower", "left", "right", "middle", and the like are generally used for easy visual understanding with reference to the drawings, and are not intended to absolutely limit the positional relationship in an actual product. Changes in these relative positional relationships are also considered to be within the scope of the present disclosure without departing from the technical concepts disclosed in the present disclosure.

Example one

As shown in fig. 1, an integrated wall panel indoor air temperature adjusting structure includes: lay integrated wallboard 1 on the wall (including the wall all around with the top surface), main inlet tube 2, main wet return 3 and multiunit capillary pipeline 4, integrated wallboard 1 is by the bamboo timber, the compound back of raw materials such as fibre and plastics, integrated into one piece under high temperature, be provided with a plurality of vertical direction perforating holes 5, multiunit capillary pipeline 4 is fixed to be set up in a plurality of perforating holes 5 that correspond, 4 one end of multiunit capillary pipeline are connected with main inlet tube 2, the other end is connected with main wet return 3, main inlet tube 2 sets up in 1 downside of integrated wallboard with main wet return 3. Each group of the multiple groups of capillary pipelines 4 are all arranged in two adjacent through holes 5, and each group of the capillary pipelines 4 returns in a U-shaped manner on the upper side of the integrated wallboard 1. Each group of capillary pipelines 4 forms a closed loop, so that the influence is not generated, and the operation of the whole system is not influenced when one group of capillary pipelines fails. Exposed capillary line 4, main inlet tube 2 and main wet return 3 use furred ceiling or skirting line to shelter from according to different mounted position, use the furred ceiling to shelter from when 1 upside of integrated wallboard, use the skirting line to shelter from when the downside.

The diameters of the main water inlet pipe 2 and the main water return pipe 3 are the same, the diameters of the multiple groups of capillary pipelines 4 are the same, and the diameters of the main water inlet pipe 2 and the main water return pipe 3 are larger than the diameters of the multiple groups of capillary pipelines 4. The diameters of the main water inlet pipe 2 and the main water return pipe 3 are 20 mm-25 mm. The diameter of the multiple groups of capillary pipelines 4 is 3.3 mm-4.3 mm. The main inlet pipe 2 supplies cold water at 12-20 degrees in summer, and the main inlet pipe 2 supplies hot water at 30-40 degrees in winter. The multiple groups of capillary pipelines 4 are bonded in the corresponding through holes 5 through the heat-conducting silica gel, and the heat-conducting silica gel is used for fixing the capillary pipelines and reducing the contact thermal resistance generated between the surfaces of the capillary pipelines and the contact surface of the integrated wallboard. The heat-conducting silica gel can well fill gaps of the contact surfaces and extrude air out of the contact surfaces, and the air is a poor heat conductor and can seriously hinder the heat transfer between the contact surfaces; the heat-conducting silica gel is supplemented, so that the contact surfaces can be in better and full contact, the surface-to-surface contact is really realized, and the reaction on the temperature can reach the temperature difference as small as possible.

The product simple structure compares in traditional integrated wallboard indoor temperature regulation, has saved installation space, detach installed parts such as buckle in the design, and the cost is with low costs and installation rate is fast, has the advantage of modularization installation. The multiple groups of capillary pipelines are not in contact with the wall surface of the blank, the integrated wallboard has a waterproof and moistureproof function, and the integral structure can effectively prevent the wall surface from mildewing and peeling; multiunit capillary line one end is connected with main inlet tube, and the other end is connected with main wet return, and main inlet tube sets up in integrated wallboard downside with main wet return, be convenient for maintenance and installation. The capillary pipeline cold and heat radiation mode is used for adjusting the indoor air temperature, and the air conditioner has the advantages of uniform temperature adjustment, low energy consumption, avoidance of discomfort caused by blowing feeling and the like.

Example two

As shown in fig. 2, the integrated wall board 1 is composed of a base substrate 6 and a surface decorative board 7, the base substrate 6 is provided with a plurality of through holes 5 in the vertical direction, the base substrate 6 is laid on the wall surface, the surface decorative board 7 is glued to the base substrate 6, decorative patterns are arranged on the surface of the surface decorative board 7, and compared with wallpaper decoration or paint decoration, the surface decorative board has the advantages of firm and durable material, natural surface decoration, high product cost performance, environmental protection, no pollution and the like. As shown in fig. 3, two adjacent vertical through holes 5 have connecting slots, and the U-shaped structure of the group of capillary channels 4 is installed in the connecting slots and hidden in the integrated wall board 1.

The rest technical characteristics are the same as those of the first embodiment.

EXAMPLE III

As shown in fig. 4, the main water inlet pipe 2 and the main water return pipe 3 are respectively disposed on the upper side and the lower side of the integrated wall board, one end of each group of capillary pipelines 4 is connected to the main water inlet pipe 2, the other end is connected to the main water return pipe 3, and a group of capillary pipelines 4 is disposed in each through hole 5.

The other technical features are the same as those of the first embodiment.

All the technical features of the above embodiments can be arbitrarily combined (as long as there is no contradiction between the combinations of the technical features), and for brevity of description, all the possible combinations of the technical features in the above embodiments are not described; such non-explicitly written embodiments should be considered as being within the scope of the present description.

The present application has been described in considerable detail with reference to certain embodiments and examples thereof. It should be understood that several conventional adaptations or further innovations of these specific embodiments may also be made based on the technical idea of the present application; however, such conventional modifications and further innovations may also fall within the scope of the claims of the present application as long as they do not depart from the technical idea of the present application.

Claims (8)

1. An indoor temperature regulation structure of integrated wallboard, characterized in that includes: the integrated wall plate is laid on a wall surface and provided with a plurality of groups of parallel through holes, and the plurality of groups of capillary pipelines are fixedly arranged in the corresponding plurality of groups of through holes; one end of each group of capillary pipelines is connected with the main water inlet pipe, and the other end of each group of capillary pipelines is connected with the main water return pipe; the main water inlet pipe and the main water return pipe are both arranged on the outer side of the integrated wallboard.

2. The indoor air temperature adjusting structure of the integrated wall panel as claimed in claim 1, wherein each group of the plurality of groups of capillary pipelines is a U-shaped structure, two parallel vertical pipes in the U-shaped structure are respectively installed in two adjacent vertical through holes, and end portions of the two vertical pipes extend out of the end surface of the integrated wall panel and are respectively connected with the main water inlet pipe and the main water return pipe.

3. The indoor air temperature adjusting structure of an integrated wall panel as claimed in claim 1, wherein the diameters of the main water inlet pipe and the main water return pipe are the same, the diameters of the plurality of sets of capillary pipes are the same, and the diameters of the main water inlet pipe and the main water return pipe are larger than the diameters of the plurality of sets of capillary pipes.

4. The indoor air temperature adjusting structure of an integrated wall panel as claimed in claim 3, wherein the diameters of the main water inlet pipe and the main water return pipe are 20 mm-25 mm.

5. An integrated wallboard indoor air temperature adjusting structure according to claim 3, wherein the diameter of the plurality of groups of capillary tubes is 3.3 mm-4.3 mm.

6. An integrated wall panel indoor air temperature adjusting structure as claimed in claim 1, wherein the main inlet pipe is supplied with cold water of 12 ° to 20 ° in summer and hot water of 30 ° to 40 ° in winter.

7. The indoor air temperature adjusting structure of an integrated wallboard of claim 1, wherein the plurality of sets of capillary pipelines are adhered in the corresponding plurality of through holes through heat-conducting silica gel, and the heat-conducting silica gel is used for fixing the capillary pipelines and reducing thermal contact resistance generated between the surfaces of the capillary pipelines and the contact surface of the integrated wallboard.

8. The indoor air temperature adjusting structure of an integrated wall panel as claimed in claim 1, wherein the integrated wall panel comprises a base substrate and a surface decorative plate, the base substrate is provided with a plurality of vertical through holes, the base substrate is laid on a wall surface, and the surface decorative plate is adhered to the base substrate.

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