CN106989462B

CN106989462B - Ceiling radiation plate and ceiling heating/refrigerating system

Info

Publication number: CN106989462B
Application number: CN201710319695.3A
Authority: CN
Inventors: 王有志; 沙群淮
Original assignee: Bride Kunshan Environmental Protection Equipment Co ltd
Current assignee: Bride Kunshan Environmental Protection Equipment Co ltd
Priority date: 2017-05-09
Filing date: 2017-05-09
Publication date: 2022-11-08
Anticipated expiration: 2037-05-09
Also published as: CN106989462A

Abstract

The invention discloses a ceiling radiation plate and a ceiling heating/refrigerating system, which comprise a radiation plate arranged on a ceiling keel of a building, wherein the radiation plate comprises a heat insulation plate, a metal heat conduction layer and a heating pipe, wherein the lower surface of the heat insulation plate is provided with a pipe groove, the metal heat conduction layer covers the lower surface of the heat insulation plate, the heating pipe is fixed in the pipe groove, a high/low temperature flowing medium is filled in the heating pipe, part of the metal heat conduction layer is positioned in the pipe groove and is in heat conduction contact with the heating pipe, and the metal heat conduction layer forms a heat conduction plane for being in heat conduction contact with a gypsum board.

Description

Ceiling radiation plate and ceiling heating/refrigerating system

Technical Field

The invention relates to the field of tail end heat dissipation equipment of air conditioning systems, in particular to an indoor suspended ceiling heating/refrigerating system.

Background

The ceiling radiation plate is a heating/cooling device installed on the ceiling of the building room and used for heating/cooling by means of infrared radiation heat transfer, and the ceiling radiation plate is essentially a heat radiation technology.

The ceiling radiation plate is usually installed on the ceiling by ceiling keel, the metal radiation plate combined with the plate pipe is used as a radiation source, and the pipe is introduced with flowing media such as hot/cold water to circulate and flow, so as to heat/cool the indoor. Ceiling radiant panels typically include a ceiling grid secured to the ceiling or ceiling of a building room and a radiant panel secured or suspended below the ceiling grid, the radiant panel typically including a thermally conductive plate, capillary tubes through which a high/low temperature fluid medium is passed, and a thermally conductive layer covering the capillary tubes. In the prior art, the heat conducting plate, the capillary tube and the heat conducting layer outside the heat conducting plate are mostly made of materials such as metal, the whole weight is large, the installation is inconvenient, and the chemical corrosion resistance is poor; because the heat-conducting plate is made of metal materials, the heat is dissipated quickly and the heat is dissipated relatively dispersedly, the whole heat radiation effect of the radiation plate is not ideal, a pipe groove is usually arranged on the heat-conducting plate, the capillary tube is installed in the pipe groove of the heat-conducting plate, the capillary tube is mostly a hollow copper core pipe, in the manufacturing process, the capillary tube needs to be bent along the trend of the pipe groove by a bending device, then the capillary tube is pressed into the pipe groove for fixing, the process is complicated, and the efficiency is low.

Disclosure of Invention

In order to solve the above technical problems, an object of the present invention is to provide a ceiling radiant panel which is light in weight, small in deformation, easy to manufacture and install, and has a better heating/cooling effect.

In order to achieve the purpose of the invention, the invention adopts the following technical scheme:

a ceiling radiation plate comprises a radiation plate arranged on a ceiling keel of a building, wherein the radiation plate comprises a heat insulation plate, a metal heat conduction layer and a heating pipe, the heat insulation plate is provided with a pipe groove on the lower surface, the metal heat conduction layer covers the lower surface of the heat insulation plate, the heating pipe is fixed in the pipe groove, high/low temperature flowing media are led into the heating pipe, a part of the metal heat conduction layer is positioned in the pipe groove and is in heat conduction contact with the heating pipe, and the metal heat conduction layer forms a heat conduction plane used for being in heat conduction contact with a gypsum board.

In the above technical scheme, preferably, the heat insulation board is made of a foaming material.

In the above technical solution, preferably, the foaming material is an EPP material.

In the above technical solution, preferably, the heating pipe is an oxygen-barrier plastic pipe.

In the above technical scheme, preferably, the heating pipe is provided with a water inlet end and a water outlet end, and the water inlet end and the water outlet end of the heating pipe are located on the same side of the radiation plate.

In the above technical solution, preferably, the radiation plate includes a plurality of the insulation plates, and the insulation plates are seamlessly lapped.

In the above technical scheme, preferably, an upper pressing bar and a lower pressing bar are fixed at the joint of two adjacent insulation boards, the metal heat conduction layers and the heating pipes are clamped and fixed between the upper pressing bar and the lower pressing bar, and the upper pressing bar and the lower pressing bar are fixed through fasteners.

In the above technical solution, preferably, the metal heat conduction layer is formed by a metal sheet through die pressing and fixed on the heat insulation board.

It is another object of the present invention to provide a ceiling heating/cooling system that is light in weight, has little deformation, and is easy to manufacture and install.

The utility model provides a furred ceiling heating/refrigerating system, includes outdoor heating/refrigerator, installs the combination furred ceiling in indoor, the combination furred ceiling include a plurality of radiant panels of installing on indoor furred ceiling fossil fragments and cover a plurality ofly the gypsum board of radiant panel below, radiant panel include that the lower surface sets up the heated board of tube seat, cover the metal heat-conducting layer at the heated board lower surface, fix the tube seat in and inside heating pipe with the medium that flows of high/low temperature, the metal heat-conducting layer have the part to be located the tube seat in and with heating pipe heat conduction contact, the metal heat-conducting layer form be used for with the heat conduction plane of gypsum board heat conduction contact.

In the above technical solution, preferably, the thickness of the gypsum board is 9.5mm.

Compared with the prior art, the invention has the following beneficial effects: the metal heat conduction layer is in heat conduction contact with the heating pipe and forms a heat conduction plane which is used for being in heat conduction contact with the gypsum board, so that the radiation plate can continuously radiate heat to one side of the gypsum board along the heat conduction plane, and the radiation plate is not easy to deform and has good insulating property.

Drawings

FIG. 1 is a schematic perspective view of a ceiling radiant panel according to the present invention;

FIG. 2 is a schematic bottom view of the ceiling radiant panel of the present invention;

FIG. 3 is a partially exploded perspective view of the ceiling radiant panel of the present invention;

fig. 4 isbase:Sub>A schematic view ofbase:Sub>A cut-awaybase:Sub>A-base:Sub>A of the ceiling radiant panel of the present invention.

Wherein: 1. a ceiling keel; 11. a keel boom; 12. a main keel; 121. a keel sliding buckle; 13. a false keel; 2. A radiation plate; 21. a thermal insulation board; 211. a pipe groove; 2111. a straight line segment; 2112. a circular arc section; 2113. a protrusion; 22. a metal heat conducting layer; 23. a heating pipe; 231. a water inlet end; 232. a water outlet end; 24. transversely pressurizing the elastic sheet; 241. a pressurization part; 242. a hook portion; 25. pressing strips; 251. a stopper; 26. and pressing the strips.

Detailed Description

For the purpose of illustrating the technical content, the constructional features, the achieved objects and the effects of the invention in detail, reference will be made to the following detailed description of the embodiments in conjunction with the accompanying drawings.

The suspended ceiling heating/refrigerating system comprises an outdoor heating/refrigerating machine and a plurality of combined suspended ceilings installed indoors, each combined suspended ceiling comprises a plurality of radiation plates 2 installed on keels 1 of the indoor suspended ceiling and gypsum boards covering the lower sides of the radiation plates 2, each radiation plate 2 comprises a heat insulation plate 21 with a lower surface provided with a pipe groove 211, a metal heat conduction layer 22 covering the lower surface of the heat insulation plate 21, a heating pipe 23 fixed in the pipe groove 211 and internally communicated with a high/low temperature flowing medium, the metal heat conduction layer 22 is partially positioned in the pipe groove 211 and is in heat conduction contact with the heating pipe 23, and the metal heat conduction layer 22 forms a heat conduction plane for being in heat conduction contact with the gypsum boards.

As shown in fig. 1, 3 and 4, the ceiling keel 1 is fixedly installed on an indoor ceiling/ceiling of a building, and the ceiling keel 1 comprises a keel hanger rod 11, a main keel 12 fixed at the lower end of the keel hanger rod 11, and two auxiliary keels 13 fixed on the main keel 12 and perpendicular to the main keel 12; the main keel 12 is movably provided with a keel slide fastener 121, the auxiliary keels 13 are fixedly arranged on the keel slide fastener 121 and can slide along the axial direction of the main keel 12 through the keel slide fastener 121, and further the distance between every two adjacent auxiliary keels 13 is adjusted; and a radiation plate 2 is arranged between the two auxiliary keels 13.

The radiant panel 2 comprises a heat insulation board 21, a metal heat conduction layer 22 and a heating pipe 23; the heat insulation board 21 is made of EPP material, the EPP is an abbreviation of expanded polypropylene (Expandoldypropene), is a short name of novel foam plastic, and has the advantages of light specific gravity, shock resistance, compression resistance, high deformation recovery rate, resistance to various chemical solvents, insulation, heat resistance and the like, and the heat insulation board 21 made of the material can continuously insulate heat, so that the heat dissipation effect of the radiation plate is enhanced; the heating pipe 23 is a five-layer oxygen-resistant plastic pipe and is made of food-grade PE-Xc (irradiation cross-linked polyethylene) materials, the radiation plate 2 is formed by splicing a plurality of insulation plates 21, an upper pressing strip 25 and a lower pressing strip 26 are fixed at the joint of two adjacent insulation plates 21, the metal heat conduction layers 22 and the heating pipe 23 are clamped and fixed between the upper pressing strip 25 and the lower pressing strip 26, and the upper pressing strip and the lower pressing strip are fixed through fasteners.

The two ends of the upper trim strip 25 are hinged to the limiting member 251, and the limiting member 251 can rotate 90 degrees around the hinge points at the two ends of the upper trim strip 25, so that the limiting member 251 has an unfolded state and a folded state, and when the limiting member 251 is in the folded state, the width of the radiation plate 2 is smaller than the width between the two keels 13 positioned at the left side and the right side of the radiation plate 2; when the limiting members 251 are in the unfolded state, the limiting members 251 are stopped above the auxiliary keels 13 positioned at the left and right sides of the radiation plate 2; thereby installing or detaching the radiant panel 2 between the two false keels 13; the upper surface of the radiation plate 2 is abutted with a transverse pressurizing elastic sheet 24.

The transverse pressurizing elastic sheet 24 has an elastic deformation state and an original state, the transverse pressurizing elastic sheet 24 comprises a pressurizing part 241 and hook parts 242 positioned at the left end and the right end of the transverse pressurizing elastic sheet 24, and when the transverse pressurizing elastic sheet 24 is in the original state, the lower surface of the hook part 242 is higher than the lower surface of the pressurizing part 241; when the transverse pressurizing elastic sheet 24 is in an elastic deformation state, the hook parts 242 at the two ends of the transverse pressurizing elastic sheet 24 are respectively hooked on the auxiliary keels 13 positioned at the left side and the right side of the radiation plate 2, and the pressurizing parts 241 are abutted against the upper surface of the radiation plate 2 and apply downward elastic force to the upper surface of the radiation plate 2; the lower surface of the radiant panel 2 is flush with or below the lower surface of the furring channel 13.

As shown in fig. 2 and 4, a pipe groove 211 is formed in the heat-insulating plate 21, the width of the bottom of the pipe groove 211 is greater than that of the notch, the pipe groove 211 includes a plurality of parallel straight sections 2111 and arc sections 2112 respectively connected to the plurality of straight sections 2111, and the straight sections 2111 and the arc sections 2112 are connected end to form a continuous and disc-shaped pipe groove 211; the straight line sections 2111 are located in the middle of the radiation plate 2, the circular arc sections 2112 are located at two ends of the radiation plate 2, the distance between two adjacent straight line sections 2111 of the pipe groove 211 is 1-1.5 times of the pipe diameter of the heating pipe 23, and protrusions 2113 extending to the center of the pipe groove along the plane where the cross section of the pipe groove is located are arranged on two sides of the inner wall of the pipe groove 211.

In order to enhance the heat dissipation effect of the radiation plate, a metal heat conduction layer 22 made of thin metal sheet covers the lower surface of the heat insulation plate 21, a part of the metal heat conduction layer 22 extends into the pipe groove 211 and clings to the inner wall of the pipe groove 211, a gypsum board covers the outer side of the metal heat conduction layer 22 on the lower surface of the radiation plate 2 and is in heat conduction contact with the metal heat conduction layer 22, and the thickness of the gypsum board is 9.5mm.

For convenience of manufacture and installation, the heating pipe 23 is made of soft plastic, when being installed, the heating pipe 23 is extruded into the pipe groove 211, the heating pipe 23 includes a water inlet end 231 and a water outlet end 232, the water inlet end 231 and the water outlet end 232 simultaneously extend out from the same side of the radiation plate 2, and a high/low temperature fluid medium, such as cold/hot water, is introduced into the heating pipe 23.

The above embodiments are only for illustrating the technical idea and features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the content of the present invention and implement the present invention, and not to limit the protection scope of the present invention by this means. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A ceiling radiant panel comprising a radiant panel (2) for mounting on a building ceiling grid (1), characterized in that: the heat insulation board comprises a heat insulation board (2), a metal heat conduction layer (22) and a heating pipe (23), wherein the lower surface of the heat insulation board (21) is provided with a pipe groove (211), the metal heat conduction layer (22) covers the lower surface of the heat insulation board (21), the heating pipe (23) is fixed in the pipe groove (211), high/low temperature flowing media are introduced into the heating pipe (22), the heat insulation board (21) is made of foaming materials, the heating pipe (23) is an oxygen-resistant plastic pipe, the metal heat conduction layer (22) is in heat conduction contact with the heating pipe (23), the metal heat conduction layer (22) forms a heat conduction plane which is in heat conduction contact with a gypsum board, the heat insulation board (2) comprises a plurality of heat insulation boards (21), the heat insulation boards (21) are in seamless lap joint connection, an upper pressing strip (25) and a lower pressing strip (26) are fixed at the joint of two adjacent heat insulation boards (21), the metal heat conduction layer (22) and the heating pipe (23) are clamped and fixed between the upper pressing strip (25) and the lower pressing strip (26), two ends of the upper pressing strip (25) and the lower pressing strip (26) of a limiting piece (13) of a left keel and a right keel (13) of the heat insulation board are respectively hinged to the radiation board.

2. The suspended ceiling radiation plate according to claim 1, wherein the foaming material is EPP material, the radiation plate (2) is abutted with transverse pressurizing elastic sheets (24), the transverse pressurizing elastic sheets (24) have an elastic deformation state and an original state, the transverse pressurizing elastic sheets (24) comprise a pressurizing part (241) and hook parts (242) positioned at the left end and the right end of the transverse pressurizing elastic sheets (24), when the transverse pressurizing elastic sheets (24) are in the elastic deformation state, the hook parts (242) at the two ends of the transverse pressurizing elastic sheets (24) are respectively hooked on the auxiliary keels (13) positioned at the left side and the right side of the radiation plate (2), and the pressurizing part (241) is abutted against the upper surface of the radiation plate (2) and applies downward elastic force to the upper surface of the radiation plate (2).

3. The ceiling radiant panel of claim 1, wherein: the heating pipe (23) is provided with a water inlet end (231) and a water outlet end (232), and the water inlet end (231) and the water outlet end (232) of the heating pipe (23) are positioned on the same side of the radiation plate (2).

4. The ceiling radiant panel of claim 1, wherein: the metal heat conduction layer (22) is formed by a metal sheet in a die pressing mode and is fixed on the heat insulation plate (21).

5. A suspended ceiling heating/cooling system, characterized in that; the combined ceiling comprises an outdoor heating/refrigerating machine and a combined ceiling installed indoors, wherein the combined ceiling comprises a plurality of radiation plates installed on keels (1) of the indoor ceiling and gypsum boards covering the lower sides of the radiation plates (2), each radiation plate (2) comprises a heat insulation plate (21) with a pipe groove (211) formed in the lower surface, a metal heat conduction layer (22) covering the lower surface of the heat insulation plate (21), and a heating pipe (23) fixed in the pipe groove (211) and filled with high/low-temperature flowing media, each heat insulation plate (21) is made of a foaming material, each heating pipe (23) is an oxygen-resistant plastic pipe, each metal heat conduction layer (22) is in heat conduction contact with the corresponding heating pipe (23), each metal heat conduction layer (22) is in seamless joint with the gypsum boards to form heat conduction contact, each radiation plate (2) comprises a plurality of heat insulation plates (21), the heat insulation plates (21) are in seamless joint, an upper pressing strip (25) and a lower pressing strip (26) are fixed at the joint of two adjacent heat insulation plates (21), and the heat insulation plates (22) and the heating pipes (23) are fixed between the upper pressing strips (26) and the lower pressing strips (26); furred ceiling fossil fragments (1) including fossil fragments jib (11), fix main joist (12) at fossil fragments jib (11) lower extreme and fix on main joist (12) and with two false keel (13) of main joist (12) mutually perpendicular, the both ends of upper moulding (25) articulated respectively have and selectively keep off in radiant panel (2) the left and right sides locating part (251) of false keel (13) top, upper moulding (25) and holding down strip (26) between fixed through the fastener.

6. The suspended ceiling heating/cooling system of claim 5, wherein: the thickness of the gypsum board is 9.5mm, the upper surface of the radiation board (2) is abutted with a transverse pressurizing elastic sheet (24), the transverse pressurizing elastic sheet (24) has an elastic deformation state and an original state, the transverse pressurizing elastic sheet (24) comprises a pressurizing part (241) and hook parts (242) positioned at the left end and the right end of the transverse pressurizing elastic sheet (24), when the transverse pressurizing elastic sheet (24) is in the elastic deformation state, the hook parts (242) at the two ends of the transverse pressurizing elastic sheet (24) are respectively hooked on the auxiliary keels (13) positioned at the left side and the right side of the radiation board (2), and the pressurizing part (241) is abutted against the upper surface of the radiation board (2) and applies downward elastic force to the upper surface of the radiation board (2).