CN217480598U - Prefabricated composite wallboard capable of heating - Google Patents
Prefabricated composite wallboard capable of heating Download PDFInfo
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- CN217480598U CN217480598U CN202220267525.1U CN202220267525U CN217480598U CN 217480598 U CN217480598 U CN 217480598U CN 202220267525 U CN202220267525 U CN 202220267525U CN 217480598 U CN217480598 U CN 217480598U
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Abstract
The utility model discloses a prefabricated compound wallboard that can heat aims at providing one kind and not only simple structure, cost of manufacture are low, and self can generate heat moreover to have the prefabricated compound wallboard that can heat of automatic temperature adjustment and heat accumulation energy-saving function. The phase-change heat-insulating plate comprises a metal panel, a back plate, a phase-change heat-insulating plate and a pressing plate which are sequentially distributed, wherein a heating element is arranged between the metal panel and the back plate, the heating element is tightly attached to the back surface of the metal panel, the back plate is tightly attached to the heating element, and the phase-change heat-insulating plate is tightly pressed on the surface of the back plate by the pressing plate.
Description
Technical Field
The utility model relates to a compound wallboard, concretely relates to prefabricated compound wallboard that can heat.
Background
In the current building interior industry, for example, the medical industry, the educational industry, the large exhibition center and other indoor interiors or partition walls mostly adopt modular mounting structures, and the modules of the modular mounting structures are generally formed by covering metal panels and back plates made of other materials, and are called prefabricated covering wall plates. The existing prefabricated composite wallboard can be directly and firmly attached to the wall surface of a brick wall, so that the wall decoration effect is achieved; the paint can also be matched with the framework to form a whole body to be used as an indoor partition wall to replace the existing brick wall, thereby avoiding the problem that organic molecules and the like in the air exceed standards caused by coating the paint. The prefabricated composite wallboard is used for decorating walls, has the characteristics of high installation efficiency, easy disassembly, no pollution and the like, and is widely applied; however, the composite wallboard has the defects that in autumn and winter, especially in cities in the south of China, no heating equipment is provided, and the composite wallboard can absorb indoor temperature to enable the indoor temperature to be in a low-temperature state; and can give the user a obvious cold sensation during the touch, user experience effect is relatively poor, even if adopt empty modulation warm, indoor temperature also can be absorbed by the cladding wallboard, then flows off partly through inboard skeleton, influences indoor heating effect, extension heating consuming time, increase the heating loss.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a not only simple structure, cost of manufacture are low, self can generate heat moreover to have the prefabricated composite wall panel that can heat of automatic temperature adjustment and heat accumulation energy-saving function.
The technical scheme of the utility model is that:
the prefabricated composite wallboard capable of heating comprises a metal panel, a back plate, a phase-change heat-insulating material plate and a pressing plate, wherein the metal panel, the back plate, the phase-change heat-insulating material plate and the pressing plate are sequentially distributed, a heating element is arranged between the metal panel and the back plate, the heating element is tightly attached to the back surface of the metal panel, the back plate is tightly attached to the heating element, and the pressing plate tightly presses the phase-change heat-insulating material plate on the surface of the back plate. The prefabricated compound wallboard of this scheme generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor being in microthermal state, can produce obvious cold sensation when influencing indoor warm effect of making and touching, the not good problem of user experience effect. Meanwhile, the back plate is tightly attached to the heating element, and the phase-change heat-insulation material plate is tightly pressed on the surface of the back plate by the pressing plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with temperature change and can provide latent heat, the prefabricated composite wall plate has the characteristics of automatic temperature adjustment, heat storage and energy conservation, the temperature of the prefabricated composite wall plate is automatically adjusted, and the prefabricated composite wall plate has the characteristics of heat storage and energy conservation. Compared with the traditional air conditioner heating mode, the prefabricated composite wall plate has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme is simple in structure, low in manufacturing cost and beneficial to actual production and manufacturing.
Preferably, the heat generating element is a flat type heat generating element, and the heat generating element is bonded to the back surface of the metal panel. Therefore, the heating uniformity of the heating element can be effectively improved, and the heating uniformity of the prefabricated composite wallboard is improved.
Preferably, the edge of the heat generating element is located inside the edge of the back sheet, the portion of the back sheet located inside the edge of the heat generating element is bonded to the surface of the heat generating element, and the portion of the back sheet between the edge of the back sheet and the edge of the heat generating element is bonded to the back surface of the metal panel. Therefore, the back plate, the heating element and the metal panel can be reliably bonded into a whole.
Preferably, the pressure plate is mounted on the back plate through rivets or screws or buckles, so that the phase change thermal insulation material plate is pressed on the surface of the back plate. Thus, the pressing plate is convenient to mount.
Preferably, the back sheet is a corrugated or plasterboard or honeycomb core sheet.
A prefabricated composite wallboard capable of heating comprises a metal panel, a back plate, a phase-change heat-insulation material plate and a pressing plate, wherein the metal panel, the back plate, the phase-change heat-insulation material plate and the pressing plate are sequentially distributed, the back plate is a metal back plate, the back plate is bonded on the back surface of the metal panel, a heating element is arranged between the back plate and the phase-change heat-insulation material plate, the phase-change heat-insulation material plate is pressed on the back plate through the pressing plate, and the heating element is pressed between the back plate and the phase-change heat-insulation material plate. The prefabricated compound wallboard of this scheme generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor being in microthermal state, can produce obvious cold sensation when influencing indoor warm effect of making and touching, the not good problem of user experience effect. Meanwhile, the heating element is tightly pressed between the back plate and the phase-change heat-insulation material plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with temperature change and can provide latent heat, the prefabricated composite wall plate has the characteristics of automatic temperature adjustment and heat storage and energy saving, the temperature of the prefabricated composite wall plate is automatically adjusted, and the prefabricated composite wall plate has the characteristics of heat storage and energy saving. Compared with the traditional air conditioner heating mode, the prefabricated composite wall plate has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme has the advantages of simple structure and low manufacturing cost, and is beneficial to actual production and manufacturing.
Preferably, the heating element is a flat-type heating element, one surface of the heating element is bonded to the surface of the back plate, and the other surface of the heating element is bonded to the surface of the phase change insulating material plate. Therefore, the heating uniformity of the heating element can be effectively improved, and the heating uniformity of the prefabricated composite wallboard is improved.
Preferably, the pressure plate is arranged on the back plate through rivets, screws or buckles, so that the phase change thermal insulation material plate is pressed on the back plate. Thus, the pressing plate is convenient to mount.
The prefabricated composite wallboard capable of heating comprises a metal panel, a phase-change heat-insulation material plate and a pressing plate, wherein the metal panel, the phase-change heat-insulation material plate and the pressing plate are sequentially distributed, a heating element is arranged between the metal panel and the phase-change heat-insulation material plate, the pressing plate presses the phase-change heat-insulation material plate on the metal panel, and the heating element is pressed between the metal panel and the phase-change heat-insulation material plate. The prefabricated compound wallboard of this scheme generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor microthermal state that is in, can produce obvious cold sensation when influencing indoor warm effect of system and touch, the not good problem of user experience effect. Meanwhile, the heating element is tightly pressed between the metal panel and the phase-change heat-insulation material plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with temperature change and can provide latent heat, the prefabricated composite wallboard has the characteristics of automatic temperature adjustment and heat storage and energy conservation, the temperature of the prefabricated composite wallboard is automatically adjusted, and the prefabricated composite wallboard has the characteristics of heat storage and energy conservation. Compared with the traditional air conditioner heating mode, the prefabricated composite wall plate has smaller heating loss; compare with warm up heating mode, the prefabricated compound wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme has the advantages of simple structure and low manufacturing cost, and is beneficial to actual production and manufacturing.
Preferably, the back surface of the metal panel is provided with a pressing plate connecting piece, the pressing plate is connected with the pressing plate connecting piece through rivets, screws or buckles, and the phase change heat insulation material plate is pressed on the metal panel. Thus, the pressing plate is convenient to mount.
The utility model has the advantages that: prefabricated compound wallboard generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor being in microthermal state, can produce obvious cold sensation when influencing indoor warm effect of making and touching, the not good problem of user experience effect. Meanwhile, a part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with the temperature change and can provide latent heat, and the prefabricated composite wall plate has the characteristics of automatic temperature adjustment and heat storage and energy conservation, and can automatically adjust the temperature of the prefabricated composite wall plate, so that the prefabricated composite wall plate has the characteristics of heat storage and energy conservation. Compared with the traditional air conditioner heating mode, the prefabricated composite wallboard has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme has the advantages of simple structure and low manufacturing cost, and is beneficial to actual production and manufacturing.
Drawings
Fig. 1 is a schematic structural diagram of a prefabricated composite wall panel capable of heating according to a first embodiment of the present invention.
Fig. 2 is a schematic structural diagram of a prefabricated composite wall panel capable of heating according to the second embodiment of the present invention.
Fig. 3 is a schematic structural diagram of a prefabricated composite wall panel capable of heating according to a third embodiment of the present invention.
In the figure:
a metal panel 1;
a heating element 2;
a back plate 3;
a phase change heat insulation material plate 4;
a pressing plate 5;
and a pressure plate connecting piece 6.
Detailed Description
To make the objects, technical solutions and advantages of embodiments of the present invention clearer, the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, not all embodiments. Based on the embodiments in the embodiment, other embodiments obtained by those skilled in the art without any creative work belong to the protection scope of the present invention.
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present solution, and are not construed as limiting the present solution.
These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.
In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "a plurality" means one or more unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
The first embodiment is as follows: as shown in fig. 1, a prefabricated composite wall panel capable of heating comprises a metal panel 1, a back panel 3, a phase-change thermal insulation material plate 4 and a pressing plate 5 which are distributed in sequence. A heating element 2 is arranged between the metal panel and the back plate. The heating element is closely attached to the back surface of the metal panel. The back plate is tightly attached to the heating element. The pressure plate compresses the phase change heat insulation material plate on the surface of the back plate.
The prefabricated compound wallboard of this embodiment generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor being in microthermal state, can produce obvious cold sensation when influencing indoor warm effect of heating and touch, the not good problem of user experience effect. Meanwhile, the back plate is tightly attached to the heating element, and the phase-change heat-insulation material plate is tightly pressed on the surface of the back plate by the pressing plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with temperature change and can provide latent heat, the prefabricated composite wallboard has the characteristics of automatic temperature adjustment and heat storage and energy conservation, the temperature of the prefabricated composite wallboard is automatically adjusted, and the prefabricated composite wallboard has the characteristics of heat storage and energy conservation. Compared with the traditional air conditioner heating mode, the prefabricated composite wallboard has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme has the advantages of simple structure and low manufacturing cost, and is beneficial to actual production and manufacturing.
In this embodiment, the back plate is a corrugated plate (for example, an aluminum corrugated plate or other metal corrugated plates) or a gypsum board or a honeycomb core plate (for example, an aluminum honeycomb core plate or a plastic honeycomb core plate).
Further, the heating element 2 is a flat type heating element, and the heating element is bonded to the back surface of the metal panel. Therefore, the heating uniformity of the heating element can be effectively improved, and the heating uniformity of the prefabricated composite wallboard is improved. In this embodiment, the heating element is an electric heating film. And a switch for controlling the heating element to work is arranged on the prefabricated composite wallboard.
The edge of the heating element is positioned at the inner side of the edge of the back plate, the part of the back plate positioned at the inner side of the edge of the heating element is adhered on the surface of the heating element, and the part of the back plate between the edge of the back plate and the edge of the heating element is adhered on the back surface of the metal panel. Therefore, the back plate, the heating element and the metal panel can be reliably bonded into a whole.
Furthermore, the pressure plate is arranged on the back plate through rivets, screws or buckles, so that the phase change heat insulation material plate is pressed on the surface of the back plate. Thus, the pressing plate is convenient to mount.
The second concrete embodiment: as shown in fig. 2, a prefabricated composite wall panel capable of heating comprises a metal panel 1, a back panel 3, a phase-change thermal insulation material plate 4 and a pressing plate 5 which are distributed in sequence. The back sheet is a metal back sheet, for example, an aluminum corrugated sheet or a corrugated sheet of other metal material. The back plate is adhered to the back surface of the metal panel. A heating element 2 is arranged between the back plate and the phase change heat insulation material plate. The pressure plate compresses the phase-change heat-insulating material plate on the back plate, so that the heating element is compressed between the back plate and the phase-change heat-insulating material plate.
The prefabricated compound wallboard of this embodiment generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor being in microthermal state, can produce obvious cold sensation when influencing indoor warm effect of heating and touch, the not good problem of user experience effect. Meanwhile, the heating element is tightly pressed between the back plate and the phase-change heat-insulation material plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change form along with temperature change and can provide latent heat, the prefabricated composite wall plate has the characteristics of automatic temperature adjustment and heat storage and energy saving, the temperature of the prefabricated composite wall plate is automatically adjusted, and the prefabricated composite wall plate has the characteristics of heat storage and energy saving. Compared with the traditional air conditioner heating mode, the prefabricated composite wallboard has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme is simple in structure, low in manufacturing cost and beneficial to actual production and manufacturing.
Further, the heating element 2 is a planar heating element, one surface of the heating element is bonded on the surface of the backboard, and the other surface of the heating element is bonded on the surface of the phase change insulation material board. Therefore, the heating uniformity of the heating element can be effectively improved, and the heating uniformity of the prefabricated composite wallboard is improved. In this embodiment, the heating element is an electric heating film. And a switch for controlling the heating element to work is arranged on the prefabricated composite wall board.
Furthermore, the pressure plate is arranged on the back plate through rivets, screws or buckles, so that the phase change heat insulation material plate is pressed on the back plate. Thus, the pressing plate is convenient to mount.
The third concrete embodiment: as shown in fig. 3, a prefabricated composite wall panel capable of heating comprises a metal panel 1, a phase-change thermal insulation material plate 4 and a pressing plate 5 which are distributed in sequence. And a heating element 2 is arranged between the metal panel and the phase change heat insulation material plate. The pressing plate presses the phase-change heat-insulating material plate on the metal panel, so that the heating element is pressed between the metal panel and the phase-change heat-insulating material plate.
The prefabricated compound wallboard of this embodiment generates heat through heating element work, makes prefabricated compound wallboard self can generate heat to effectively solve prior art's compound wallboard and can absorb indoor temperature, make indoor microthermal state that is in, can produce obvious cold sensation when influencing indoor warm effect and touch, the not good problem of user experience effect. Meanwhile, the heating element is tightly pressed between the metal panel and the phase-change heat-insulation material plate, so that part of heat generated by the heating element can be effectively transferred to the phase-change heat-insulation material plate, the phase-change heat-insulation material of the phase-change heat-insulation material plate can change the shape along with the temperature change and can provide latent heat, the prefabricated composite wall plate has the characteristics of automatic temperature adjustment and heat storage and energy saving, the temperature of the prefabricated composite wall plate is automatically adjusted, and the prefabricated composite wall plate has the characteristics of heat storage and energy saving. Compared with the traditional air conditioner heating mode, the prefabricated composite wallboard has smaller heating loss; compare with the heating mode of heating warms up, the prefabricated composite wallboard simple to operate of this scheme, easy maintenance. In addition, the prefabricated composite wallboard of the scheme is simple in structure, low in manufacturing cost and beneficial to actual production and manufacturing.
Further, the heating element 2 is a flat heating element, one surface of the heating element is bonded to the back surface of the metal panel, and the other surface of the heating element is bonded to the surface of the phase change insulation material panel. Therefore, the heating uniformity of the heating element can be effectively improved, and the heating uniformity of the prefabricated composite wallboard is improved. In this embodiment, the heating element is an electric heating film. And a switch for controlling the heating element to work is arranged on the prefabricated composite wall board.
Furthermore, the back of the metal panel is provided with a pressing plate connecting piece 6, the pressing plate is connected with the pressing plate connecting piece through a rivet, a screw or a buckle, and the phase change heat insulation material plate is pressed on the metal panel. Thus, the pressing plate is convenient to mount.
The above, only be the preferred embodiment of the utility model, it is not right the utility model discloses do any restriction, all according to the utility model discloses any simple modification, change and equivalent transformation that the technical essence was done to above embodiment all still belong to the technical scheme's of the utility model protection scope.
Claims (10)
1. A prefabricated composite wallboard capable of heating is characterized by comprising a metal panel, a back plate, a phase-change heat-insulation material plate and a pressing plate, wherein the metal panel, the back plate, the phase-change heat-insulation material plate and the pressing plate are sequentially distributed, a heating element is arranged between the metal panel and the back plate, the heating element is tightly attached to the back surface of the metal panel, the back plate is tightly attached to the heating element, and the pressing plate tightly presses the phase-change heat-insulation material plate on the surface of the back plate.
2. A prefabricated cladding panel according to claim 1 wherein said heating elements are planar heating elements bonded to the back of the metal panel.
3. A prefabricated composite wall panel capable of producing heat according to claim 2, wherein the edges of said heat-generating component are located inwardly of the edges of the back sheet, the portion of the back sheet located inwardly of the edges of the heat-generating component being bonded to the surface of the heat-generating component, and the portion of the back sheet between the edges of the back sheet and the edges of the heat-generating component being bonded to the back surface of the metal panel.
4. A prefabricated panel of the type that can be heated according to claim 1, 2 or 3, wherein said pressing plate is mounted on the back plate by means of rivets or screws or snap-fits, so that the phase change insulation material plate is pressed against the surface of the back plate.
5. A prefabricated composite wall panel capable of producing heat according to claim 1, 2 or 3, wherein said backing sheet is a corrugated or plasterboard or honeycomb core sheet.
6. The prefabricated composite wallboard capable of heating is characterized by comprising a metal panel, a back plate, a phase-change heat-insulation material plate and a pressing plate, wherein the metal panel, the back plate, the phase-change heat-insulation material plate and the pressing plate are sequentially distributed, the back plate is the metal back plate, the back plate is bonded on the back surface of the metal panel, a heating element is arranged between the back plate and the phase-change heat-insulation material plate, and the pressing plate presses the phase-change heat-insulation material plate on the back plate so that the heating element is pressed between the back plate and the phase-change heat-insulation material plate.
7. The prefabricated composite wall panel capable of heating as claimed in claim 6, wherein the heating element is a planar heating element, one surface of the heating element is bonded to the surface of the back panel, and the other surface of the heating element is bonded to the surface of the phase change insulation material panel.
8. A prefabricated panel capable of producing heat according to claim 6 or 7 wherein said pressure plate is attached to the back plate by rivets or screws or snaps to hold the phase change insulation material plate against the back plate.
9. The prefabricated composite wallboard capable of heating is characterized by comprising a metal panel, a phase-change thermal insulation material plate and a pressing plate which are sequentially distributed, wherein a heating element is arranged between the metal panel and the phase-change thermal insulation material plate, the pressing plate presses the phase-change thermal insulation material plate onto the metal panel, and the heating element is pressed between the metal panel and the phase-change thermal insulation material plate.
10. The prefabricated composite wall panel capable of heating as claimed in claim 9, wherein a pressing plate connector is provided on a rear surface of the metal panel, and the pressing plate is connected to the pressing plate connector by means of rivets or screws or fasteners to press the phase change insulation material panel onto the metal panel.
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CN202220267525.1U CN217480598U (en) | 2022-02-09 | 2022-02-09 | Prefabricated composite wallboard capable of heating |
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CN202220267525.1U CN217480598U (en) | 2022-02-09 | 2022-02-09 | Prefabricated composite wallboard capable of heating |
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