CN211781403U - Multi-tube curved surface high-temperature radiation plate with graphene rapid-heating coating - Google Patents

Abstract

The utility model discloses a quick hot coating multitube curved surface high temperature radiation board of graphite alkene, including casing subassembly and installation component, the bottom of heat preservation is equipped with the curved surface radiation board, the outer wall bottom evenly distributed of curved surface radiation board has radiating fin, the outer wall left and right sides of curved surface radiation board is equipped with the heat conductor, the extexine of heat conductor is equipped with the graphite alkene coating, the inner chamber evenly distributed of curved surface radiation board has the heating pipe. The utility model discloses an extrusion moulding technology, heat-generating body and radiating fin integrated into one piece are showing and are increasing heat conduction efficiency, the surface adopts the curved surface and increases little wing, increase surface heat radiating area, the radial heat dissipation of curved surface, radiation angle and area increase, the multitube is parallelly connected, promotion heating pipe life, under the equal power condition of room heater, the multitube is parallelly connected, reduce inside components and parts load current, complete machine life promotes, the curved surface radiator compares the plain rice radiator, the heat accumulation volume increases, the heat accumulation reinforcing, the radiating time extension.

Description

Multi-tube curved surface high-temperature radiation plate with graphene rapid-heating coating

Technical Field

The utility model relates to a graphite alkene high temperature radiation board technical field specifically is graphite alkene fast hot coating multitube curved surface high temperature radiation board.

Background

The existing radiant panel adopts a single heating pipe, the surface temperature of the single heating pipe is too high under the same power, the planar heat dissipation is realized, the heat dissipation area is limited, the heat conversion is not thorough, the heat is easy to collect, the service life is short, under the condition that the power is the same, the power of the single heating pipe is too high, the connected terminals and components such as a rocker switch are too large in load current, the long-term heating capacity is easy to damage, and the normal work cannot be realized. Therefore, the graphene rapid-heating coating multi-tube curved-surface high-temperature radiation plate is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a graphite alkene fast hot coating multitube curved surface high temperature radiation board to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the multi-tube curved-surface high-temperature radiation plate with the graphene rapid-heating coating comprises a shell assembly and an installation assembly, wherein the shell assembly comprises a curved-surface radiation plate, a radiating fin, an electric wire, an insulating rubber pad, a heat conductor, a graphene coating, a heating tube, a first tube seat, a second tube seat, a heat insulation layer and a back plate, the mounting assembly comprises a mounting plate, a first screw, a second screw, a first angle iron, a third screw, a fourth screw, a first rubber pad, a second angle iron, a fifth screw, a sixth screw and a second rubber pad, a back plate is welded at the bottom of the mounting plate, a heat-insulating layer is arranged at the bottom of the back plate, a curved radiation plate is arranged at the bottom of the heat-insulating layer, radiating fins are uniformly distributed at the bottom of the outer wall of the curved surface radiating plate, heat conductors are arranged on the left side and the right side of the outer wall of the curved surface radiating plate, the outer surface layer of the heat conductor is provided with a graphene coating, and heating pipes are uniformly distributed in the inner cavity of the curved-surface radiation plate.

As further preferable in the present technical solution: the top left side of mounting panel is equipped with first screw, the top right side of mounting panel is equipped with the second screw, the bottom of first screw runs through in the top left side of mounting panel and extends to the inner chamber left side top of curved surface radiant panel, the bottom of second screw runs through in the top right side of mounting panel and extends to the inner chamber right side top of curved surface radiant panel.

As further preferable in the present technical solution: the left side of the outer wall of the curved-surface radiation plate is provided with an insulating rubber pad, the left side of the insulating rubber pad is provided with an electric wire, the right side of the electric wire penetrates through the left side of the outer wall of the insulating rubber pad and extends to the inner cavity of the curved-surface radiation plate, and the output end of the electric wire is electrically connected with the input end of the heating pipe.

As further preferable in the present technical solution: the heating pipe comprises a curved surface radiation plate and is characterized in that first pipe seats are uniformly distributed on the left side wall of an inner cavity of the curved surface radiation plate, the first pipe seats are connected with the left side of a heating pipe in an inserting mode, second pipe seats are uniformly distributed on the right side wall of the inner cavity of the curved surface radiation plate, and the second pipe seats are connected with the right side of the heating pipe in an inserting mode.

As further preferable in the present technical solution: the left side wall of mounting panel is equipped with first angle bar, the internal surface bottom of first angle bar is equipped with the third screw, one side of third screw runs through in the internal surface bottom of first angle bar and extends to the left side wall of mounting panel, the internal surface top of first angle bar is equipped with the fourth screw, one side of fourth screw runs through in the internal surface top of first angle bar, the right side wall of mounting panel is equipped with the second angle bar, the internal surface bottom of second angle bar is equipped with the fifth screw, one side of fifth screw runs through in the internal surface bottom of second angle bar and extends to the right side wall of mounting panel, the internal surface top of second angle bar is equipped with the sixth screw, one side of sixth screw runs through in the internal surface top of second angle bar.

As further preferable in the present technical solution: be equipped with first rubber pad between the left side wall of first angle bar and mounting panel, be equipped with the second rubber pad between the right side wall of second angle bar and mounting panel.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses an extrusion moulding technology, heat-generating body and radiating fin integrated into one piece are showing and are increasing heat conduction efficiency, the surface adopts the curved surface and increases little wing, increase surface heat radiating area, the radial heat dissipation of curved surface, radiation angle and area increase, adopt the multitube to connect in parallel, reduce single heating pipe power, promote heating pipe life, under the equal power condition of room heater, the multitube is parallelly connected, reduce inside components and parts load current, complete machine life promotes, the curved surface radiator compares the plain rice radiator, the heat accumulation volume increases, the heat accumulation reinforcing, the radiating time extension.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of the right-side view structure of the present invention;

fig. 3 is a schematic top view of the curved radiation plate of the present invention;

fig. 4 is a schematic structural view of a first angle iron of the present invention;

fig. 5 is a schematic structural view of a second angle iron of the present invention.

In the figure: 1. a housing assembly; 101. a curved radiation plate; 102. a heat dissipating fin; 103. an electric wire; 104. an insulating rubber pad; 105. a heat conductor; 106. a graphene coating; 107. heating a tube; 108. a first stem; 109. a second stem; 110. a heat-insulating layer; 111. a back plate; 2. mounting the component; 201. mounting a plate; 202. a first screw; 203. a second screw; 204. a first angle iron; 205. a third screw; 206. a fourth screw; 207. a first rubber pad; 208. a second angle iron; 209. a fifth screw; 210. a sixth screw; 211. and a second rubber pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-5, the present invention provides a technical solution: a graphene rapid-heating coating multi-tube curved-surface high-temperature radiation plate comprises a shell assembly 1 and a mounting assembly 2, wherein the shell assembly 1 comprises a curved-surface radiation plate 101, radiating fins 102, electric wires 103, an insulating rubber pad 104, a heat conductor 105, a graphene coating 106, a heating tube 107, a first tube seat 108, a second tube seat 109, a heat insulation layer 110 and a back plate 111, the mounting assembly 2 comprises a mounting plate 201, a first screw 202, a second screw 203, a first angle iron 204, a third screw 205, a fourth screw 206, a first rubber pad 207, a second angle iron 208, a fifth screw 209, a sixth screw 210 and a second rubber pad 211, the back plate 111 is welded at the bottom of the mounting plate 201, the heat insulation layer 110 is arranged at the bottom of the back plate 111, the curved-surface radiation plate 101 is arranged at the bottom of the heat insulation layer 110, the radiating fins 102 are uniformly distributed at the bottom of the outer wall of the curved-surface radiation plate, the outer surface layer of the heat conductor 105 is provided with the graphene coating 106, the heating pipes 107 are uniformly distributed in the inner cavity of the curved-surface radiation plate 101, the curved-surface radiation plate 101 adopts a one-step extrusion molding process, and the curved-surface radiation plate 101, the heat conductor 105 and the radiating fins 102 are integrally molded, so that the heat conduction efficiency is obviously improved; the surface of the curved-surface radiation plate 101 adopts a curved surface, the radiation fins 102 are added, the surface radiation area is increased, the curved surface radiates radially, the radiation angle and area are increased, the heating pipes 107 adopt a plurality of pipes which are connected in parallel, the power of a single heating pipe 107 is reduced, and the service life of the heating pipe 107 is prolonged; under the condition of equal power of the warmer, a plurality of heating pipes 107 are connected in parallel, so that the load current of internal components is reduced, and the service life of the whole warmer is prolonged; compared with a square radiator, the curved-surface radiation plate 101 has the advantages of increased heat storage volume, increased heat storage capacity and prolonged heat dissipation time.

In this embodiment, specifically: the top left side of mounting panel 201 is equipped with first screw 202, the top right side of mounting panel 201 is equipped with second screw 203, the bottom of first screw 202 runs through in the top left side of mounting panel 201 and extends to curved surface radiant panel 101's inner chamber left side top, the bottom of second screw 203 runs through in the top right side of mounting panel 201 and extends to curved surface radiant panel 101's inner chamber right side top, mounting panel 201, backplate 111, heat preservation 110 and curved surface radiant panel 101 are connected, it is fixed mutually with mounting panel 201, backplate 111, heat preservation 110 and curved surface radiant panel 101 through first screw 202 and second screw 203.

In this embodiment, specifically: insulating rubber pad 104 is arranged on the left side of the outer wall of curved surface radiant panel 101, electric wire 103 is arranged on the left side of insulating rubber pad 104, the right side of electric wire 103 runs through the left side of the outer wall of insulating rubber pad 104 and extends to the inner cavity of curved surface radiant panel 101, the output end of electric wire 103 is electrically connected with the input end of heating pipe 107, electric wire 103 is used for electrifying, and electric current makes heating pipe 107 heat up through electric wire 103.

In this embodiment, specifically: the left side wall of the inner cavity of the curved surface radiant plate 101 is uniformly distributed with a first pipe seat 108, the first pipe seat 108 is inserted with the left side of the heating pipe 107, the right side wall of the inner cavity of the curved surface radiant plate 101 is uniformly distributed with a second pipe seat 109, the second pipe seat 109 is inserted with the right side of the heating pipe 107, and the heating pipe 107 is electrified by being inserted with the first pipe seat 108 and the second pipe seat 109.

In this embodiment, specifically: the left side wall of the mounting plate 201 is provided with a first angle iron 204, the bottom of the inner surface of the first angle iron 204 is provided with a third screw 205, one side of the third screw 205 penetrates through the bottom of the inner surface of the first angle iron 204 and extends to the left side wall of the mounting plate 201, the top of the inner surface of the first angle iron 204 is provided with a fourth screw 206, one side of the fourth screw 206 penetrates through the top of the inner surface of the first angle iron 204, the right side wall of the mounting plate 201 is provided with a second angle iron 208, the bottom of the inner surface of the second angle iron 208 is provided with a fifth screw 209, one side of the fifth screw 209 penetrates through the bottom of the inner surface of the second angle iron 208 and extends to the right side wall of the mounting plate 201, the top of the inner surface of the second angle iron 208 is provided with a sixth screw 210, one side of the sixth screw 210 penetrates through the top of the inner surface of the second angle iron 208, and the first angle iron.

In this embodiment, specifically: a first rubber pad 207 is arranged between the first angle iron 204 and the left side wall of the mounting plate 201, a second rubber pad 211 is arranged between the second angle iron 208 and the right side wall of the mounting plate 201, and the first rubber pad 207 and the second rubber pad 211 are used for reducing friction of the mounting plate 201.

The heat-conducting body 105 is used for conducting heat, the graphene coating 106 is used for enhancing the heat conduction effect of the heat conductor 105, the heat-radiating fins 102 are used for radiating the curved-surface radiation plate 101, the curved-surface radiation plate 101 adopts a one-step extrusion molding process, the curved-surface radiation plate 101, the heat conductor 105 and the heat-radiating fins 102 are integrally molded, and the heat conduction efficiency is remarkably increased; the surface of the curved-surface radiation plate 101 adopts a curved surface, the radiation fins 102 are added, the surface radiation area is increased, the curved surface radiates radially, the radiation angle and area are increased, the heating pipes 107 adopt a plurality of pipes which are connected in parallel, the power of a single heating pipe 107 is reduced, and the service life of the heating pipe 107 is prolonged; under the condition of equal power of the warmer, a plurality of heating pipes 107 are connected in parallel, so that the load current of internal components is reduced, and the service life of the whole warmer is prolonged; compared with a square radiator, the curved-surface radiation plate 101 has the advantages of increased heat storage volume, increased heat storage capacity and prolonged heat dissipation time.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Multi-tube curved surface high-temperature radiation plate for graphene rapid thermal coating comprises a shell assembly (1) and an installation assembly (2), and is characterized in that: the shell assembly (1) comprises a curved radiation plate (101), radiating fins (102), electric wires (103), insulating rubber pads (104), a heat conductor (105), a graphene coating (106), a heating pipe (107), a first pipe seat (108), a second pipe seat (109), a heat insulation layer (110) and a back plate (111), the mounting assembly (2) comprises a mounting plate (201), a first screw (202), a second screw (203), first angle iron (204), a third screw (205), a fourth screw (206), a first rubber pad (207), second angle iron (208), a fifth screw (209), a sixth screw (210) and a second rubber pad (211), the back plate (111) is welded at the bottom of the mounting plate (201), the heat insulation layer (110) is arranged at the bottom of the back plate (111), the curved radiation plate (101) is arranged at the bottom of the heat insulation layer (110), and the radiating fins (102) are uniformly distributed at the bottom of the outer wall of the curved radiation plate (101), the heating device is characterized in that heat conductors (105) are arranged on the left side and the right side of the outer wall of the curved-surface radiation plate (101), a graphene coating (106) is arranged on the outer surface layer of each heat conductor (105), and heating pipes (107) are uniformly distributed in the inner cavity of the curved-surface radiation plate (101).

2. The graphene rapid thermal coating multi-tube curved high-temperature radiation plate according to claim 1, characterized in that: the top left side of mounting panel (201) is equipped with first screw (202), the top right side of mounting panel (201) is equipped with second screw (203), the bottom of first screw (202) runs through in the top left side of mounting panel (201) and extends to the inner chamber left side top of curved surface radiant panel (101), the bottom of second screw (203) runs through in the top right side of mounting panel (201) and extends to the inner chamber right side top of curved surface radiant panel (101).

3. The graphene rapid thermal coating multi-tube curved high-temperature radiation plate according to claim 1, characterized in that: the utility model discloses a heating pipe, including curved surface radiant panel (101), the outer wall left side of curved surface radiant panel (101) is equipped with insulating rubber pad (104), the left side of insulating rubber pad (104) is equipped with electric wire (103), the right side of electric wire (103) runs through in the outer wall left side of insulating rubber pad (104) and extends to the inner chamber of curved surface radiant panel (101), the output of electric wire (103) and the input electric connection of heating pipe (107).

4. The graphene rapid thermal coating multi-tube curved high-temperature radiation plate according to claim 1, characterized in that: the heating pipe is characterized in that a first pipe seat (108) is uniformly distributed on the left side wall of the inner cavity of the curved surface radiation plate (101), the first pipe seat (108) is connected with the left side of the heating pipe (107) in an inserting mode, a second pipe seat (109) is uniformly distributed on the right side wall of the inner cavity of the curved surface radiation plate (101), and the second pipe seat (109) is connected with the right side of the heating pipe (107) in an inserting mode.

5. The graphene rapid thermal coating multi-tube curved high-temperature radiation plate according to claim 1, characterized in that: the left side wall of mounting panel (201) is equipped with first angle bar (204), the internal surface bottom of first angle bar (204) is equipped with third screw (205), one side of third screw (205) runs through in the internal surface bottom of first angle bar (204) and extends to the left side wall of mounting panel (201), the internal surface top of first angle bar (204) is equipped with fourth screw (206), one side of fourth screw (206) runs through in the internal surface top of first angle bar (204), the right side wall of mounting panel (201) is equipped with second angle bar (208), the internal surface bottom of second angle bar (208) is equipped with fifth screw (209), one side of fifth screw (209) runs through in the internal surface bottom of second angle bar (208) and extends to the right side wall of mounting panel (201), the internal surface top of second angle bar (208) is equipped with sixth screw (210), one side of the sixth screw (210) penetrates through the top of the inner surface of the second angle iron (208).

6. The graphene rapid thermal coating multi-tube curved high-temperature radiation plate according to claim 1, characterized in that: be equipped with first rubber pad (207) between the left side wall of first angle bar (204) and mounting panel (201), be equipped with second rubber pad (211) between the right side wall of second angle bar (208) and mounting panel (201).

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