CN210292067U - Aluminum plate radiator - Google Patents

Abstract

The utility model is suitable for the technical field of radiators, and provides an aluminum plate radiator, which comprises two groups of vertical pipe components, wherein each group of vertical pipe components comprises a plurality of vertical pipes, and each vertical pipe is provided with a radiating tooth; the upper end of each vertical pipe assembly is communicated with an upper transverse pipe, and the lower end of each vertical pipe assembly is communicated with a lower transverse pipe; the two upper transverse pipes are communicated through one bridge pipe, the two lower transverse pipes are communicated through the other bridge pipe, and each bridge pipe is communicated with a water connector. Therefore, the utility model discloses can adjust the specification of radiator according to the winter heating needs in different areas, radiator occupation space is little, is difficult for smoking the wall, saves heat energy simultaneously.

Description

Aluminum plate radiator

Technical Field

The utility model relates to a radiator technical field especially relates to an aluminum plate radiator.

Background

The radiator is heating equipment, is mainly used in cold northern areas in winter, has the function of keeping warm, and mainly comprises a steel pipe type radiator, a steel plate type radiator, an aluminum plate type radiator and a copper-aluminum composite radiator in the prior art.

The steel pipe type radiator has good aesthetic property, the most radiator is adopted, but the heat radiation performance is poor, the heating requirement of northern cold regions cannot be met, and the energy waste is serious; meanwhile, the steel pipe type radiator occupies a large space.

The heat dissipation effect of the steel plate type radiator belongs to the middle-upper level, but the steel plate type radiator can only bear the pressure of about 2MPa, and the pressure of municipal centralized heat supply is generally 5-8 MPa, so that the steel plate type radiator cannot meet the pressure-bearing requirements of the municipal centralized heat supply and natural gas heat supply; and the steel plate type radiator is automatically formed by a steel belt, and the size of the water pipe is fixed and cannot be flexibly arranged according to actual conditions.

The copper-aluminum composite radiator is characterized in that a copper pipe is additionally arranged inside an aluminum pipe, and the aluminum pipe radiates heat to the external space after the copper pipe transfers the heat of hot water inside the aluminum pipe to the aluminum pipe; although the heat conductivity coefficient of the copper pipe is higher, the secondary heat conduction causes waste of heat energy, so that the heat dissipation effect of the copper-aluminum composite radiator is reduced; in addition, the copper-aluminum composite radiator in the prior art is generally a round tube, and the radiating effect is relatively low.

The heat dissipation effect of the aluminum plate type radiator is superior to that of a steel radiator, but the aluminum plate type radiator in the prior art is monolithic, occupies a large space and is easy to smoke a wall.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

To the aforesaid defect, an object of the utility model is to provide an aluminum plate radiator, its specification that can adjust the radiator according to the winter heating needs in different areas, radiator occupation space is little, is difficult for smoking the wall, saves heat energy simultaneously.

In order to achieve the above object, the present invention provides an aluminum plate radiator, which comprises two sets of vertical pipe assemblies, wherein each set of vertical pipe assembly comprises a plurality of vertical pipes, and each vertical pipe is provided with a heat dissipation tooth; the upper end of each vertical pipe assembly is communicated with an upper transverse pipe, and the lower end of each vertical pipe assembly is communicated with a lower transverse pipe; the two upper transverse pipes are communicated through one bridge pipe, the two lower transverse pipes are communicated through the other bridge pipe, and each bridge pipe is communicated with a water connector.

According to the utility model discloses an aluminum plate radiator, it is two sets of constitute hot gas path between the standpipe subassembly, the heat dissipation tooth all set up in the standpipe is close to hot gas path's one side.

According to the utility model discloses an aluminum plate radiator, the shape of heat dissipation tooth is including straight profile of tooth, T shape, dot shape, right angle shape, P shape and crooked type.

According to the utility model discloses an aluminum plate radiator, adjacent two connect through the connecting plate between the standpipe.

According to the utility model discloses an aluminum plate radiator, the radiator go up violently manage the higher authority with all be equipped with the heat exchanger that looses below violently managing down, the heat exchanger that looses includes that two sides and two sides press from both sides the upper cover of establishing.

According to the utility model discloses an aluminum plate radiator, the higher authority of upper cover is equipped with a plurality of louvre.

According to the utility model discloses an aluminum plate radiator, the standpipe is square pipe, just the cross section of square pipe is the square, the right angle of square is the fillet.

According to the utility model discloses an aluminum plate radiator, go up violently manage and violently manage also being side's pipe down, just the cross section of side's pipe is the rectangle, the right angle of rectangle is the fillet.

According to the utility model discloses an aluminum plate radiator, two go up to communicate two between the violently pipe the bridge pipe, two also communicate two between the violently pipe down the bridge pipe.

According to the utility model discloses an aluminum plate radiator, the cross section of bridge pipe is circular, just the wall thickness of bridge pipe is greater than the standpipe, go up the wall thickness that the transverse pipe was violently managed down.

The utility model aims to provide an aluminum plate radiator, which comprises two groups of vertical pipe components, wherein each group of vertical pipe component comprises a plurality of vertical pipes, two adjacent vertical pipes are connected through a connecting plate, and each vertical pipe is provided with a radiating tooth; the upper surface of each group of vertical pipe components is communicated with an upper transverse pipe, and the lower surface of each group of vertical pipe components is communicated with a lower transverse pipe; all communicate the bridge pipe between two upper horizontal pipes and between two lower horizontal pipes, wherein two arbitrary bridge pipes are as the inlet tube, and remaining two are as the outlet pipe, and in the use, the radiating effect of radiator is good, and is small, can set up the specification of radiator according to actual conditions is nimble. To sum up, the beneficial effects of the utility model are that: the specification of the radiator can be adjusted according to the winter heating requirements of different areas, the radiator occupies a small space, is not easy to smoke walls, has a better energy-saving effect, and can meet the pressure-bearing requirements of municipal central heating and natural gas heating.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a standpipe assembly of the present invention;

FIG. 3 is a schematic structural view of an embodiment of a heat dissipation tooth;

FIG. 4 is a schematic structural view of an embodiment of a heat dissipation tooth;

FIG. 5 is a schematic structural view of an embodiment of a heat dissipation tooth;

FIG. 6 is a schematic structural view of an embodiment of a heat dissipation tooth;

FIG. 7 is a schematic structural view of an embodiment of a heat dissipation tooth;

FIG. 8 is a schematic view of the A-direction structure of FIG. 1;

fig. 9 is a schematic structural view of the heat dissipation cover of the present invention;

FIG. 10 is a schematic view of the C-direction structure of FIG. 9;

FIG. 11 is a schematic view of the structure of part B of FIG. 10;

in the figure: 1-vertical tube, 2-upper horizontal tube, 21-lower horizontal tube; 3-bridge pipe, 4-water joint, 5-radiating tooth, 6-upper cover, 61-side edge, 62-round hole, 63-first long hole and 64-second long hole.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the utility model provides an aluminum plate radiator, which comprises two groups of vertical pipe assemblies, each group of vertical pipe assembly comprises a plurality of vertical pipes 1, two adjacent vertical pipes 1 are connected through a connecting plate 7, and each vertical pipe 1 is provided with a radiating tooth 5; the upper end of each group of vertical pipe components is communicated with the upper horizontal pipe 2, and the lower end of each group of vertical pipe components is communicated with the lower horizontal pipe 21; the two upper transverse pipes 2 are communicated through one bridge pipe 3, the two lower transverse pipes 21 are communicated through the other bridge pipe 3, and each bridge pipe 3 is communicated with the water connector 4.

Referring to fig. 2, the vertical pipe 1 is a square pipe, the cross section of the square pipe is square, the side length of the square is 1.8-2.5 cm, and the right angles of the square are all round corners, so that the compression resistance of the vertical pipe 1 is improved; the wall thickness of the vertical pipe 1 is 1.8-2.3 mm. The utility model discloses in, the width of connecting plate 7 is 1 ~ 2cm, and thickness is 1.8 ~ 2.3mm, and of course, technical personnel in the field can set up the connecting plate 7 of other dimensions according to actual need.

Referring to fig. 1, a hot gas channel is formed between two sets of vertical pipe assemblies, and the heat dissipation teeth 5 are disposed on one side of the vertical pipe 1 close to the hot gas channel. The heat dissipation teeth 5 are used for improving the heat dissipation effect of the whole heat sink, referring to fig. 2-7, the heat dissipation teeth 5 can be in the shape of straight tooth, T-shaped, dot-shaped, right-angled, P-shaped, bent, etc., in the utility model, the heat dissipation teeth 5 are in the shape of straight tooth, and three heat dissipation teeth 5 are arranged on each vertical pipe 1, the length of each heat dissipation tooth 5 is 1-1.3 cm, and the thickness is 0.8-1.2 mm; in order to improve the heat dissipation effect, a person skilled in the art can set the heat dissipation teeth 5 to any other desired shape, and determine the number of heat dissipation teeth 5 provided on each vertical pipe 1 and the length and thickness of each heat dissipation tooth 5 according to the shape.

The upper transverse pipe 2 and the lower transverse pipe 21 are both square pipes, the cross section of each square pipe is rectangular, the height of each rectangle is 4-6 cm, the width of each rectangle is 1.8-3 cm, and the right angle of each rectangle is a round angle, so that the compression resistance of the upper transverse pipe 2 and the lower transverse pipe 21 is improved; the wall thickness of the upper transverse pipe 2 and the wall thickness of the lower transverse pipe 21 are both 1.8-2.3 mm.

Two bridge pipes 3 are communicated between the two upper transverse pipes 2, and two bridge pipes 3 are also communicated between the two lower transverse pipes 21; in the utility model, any two bridge pipes 3 can be selected as water inlet pipes, and the remaining two bridge pipes can be selected as water outlet pipes; the arrangement of the two water inlet pipes and the two water outlet pipes can accelerate the water flow speed and improve the heat dissipation effect of the heat radiator; in the utility model, the cross section of the bridge pipe 3 is circular, and the inner diameter of the circular is 3.5-3.7 cm; because the bridge pipe 3 is main water inlet or delivery port, consequently, as an optimal scheme, the wall thickness of bridge pipe 3 is greater than standpipe 1, goes up horizontal pipe 2 and violently manages 21 wall thickness down, makes bridge pipe 3 have better crushing resistance, the utility model discloses in, bridge pipe 3's wall thickness 2 ~ 3 mm.

Referring to fig. 8 and 9, the radiator all is equipped with the heat exchanger that looses on the upper horizontal pipe 2 and under the horizontal pipe 21, and the heat exchanger that looses includes that two sides 61 and two sides 61 press from both sides the upper cover 6 of establishing, refers to fig. 10 and 11, is equipped with a plurality of louvre on covering 6, the utility model discloses in, the louvre includes a plurality of round hole 62, first rectangular hole 63 and second rectangular hole 64, just the utility model discloses in, the distribution mode of louvre includes two kinds, one kind is two round holes 62 and presss from both sides and establishes a second rectangular hole 64, and another kind is two first rectangular holes 63 and presss from both sides and establishes a round hole 62, two kinds of mode staggered arrangement.

The utility model discloses in, standpipe 1, last horizontal pipe 2 and lower horizontal pipe 21 all set up to square pipe, and the volume of water of square pipe is less than the pipe, and the temperature is certain in the radiator, under the certain condition of heat radiating area, uses the square pipe that the volume of water is few to play energy-conserving effect.

The utility model discloses in, the material of radiator is 6063 aluminum alloy. The inventor is through many times of experiments demonstration, the utility model discloses an aluminum plate radiator's pressure-bearing is 8MPa, can satisfy the pressure-bearing requirement of municipal administration central heating, natural gas heat supply.

The utility model discloses according to the winter heating needs in different areas, can set up the standpipe 1 of different specifications, go up horizontal pipe 2 and violently manage 21 down to satisfy heating and thermal demand. The utility model discloses a two sets of standpipe subassemblies, compare in prior art's monolithic formula, occupation space is little, simultaneously, constitute hot gas channel between two sets of standpipe subassemblies, and standpipe 1 is close to one side of hot gas channel and is equipped with heat dissipation tooth 5, make steam mainly release from hot gas channel, because gush on the steam, external cold air enters into hot gas channel from the bottom, it is ejecting upwards in the heat exchanger that looses steam from the top, convection current about forming, the thermal circulation that the radiator is close to wall body one side has been reduced, alleviate the degree that the wall was smoked to the radiator.

In addition, compared with a copper-aluminum composite radiator, the aluminum plate radiator of the utility model has the advantages of primary heat conduction and good heat dissipation effect; compare in steel radiator, aluminium matter coefficient of heat dissipation is superior to steel coefficient of heat dissipation, consequently, the utility model discloses an aluminum plate radiator radiating effect is good. Because the utility model discloses an aluminum plate radiator radiating effect is good, under the certain condition of indoor space, indoor certain temperature that reaches, the utility model discloses a required temperature of aluminum plate radiator is low, consequently, the required day hot gas of boiling water or the volume of other heat supply energy reduce to reach the effect of the energy can be saved. The inventor is through many times of experiments to prove, the utility model discloses an aluminum plate radiator compares in the radiator among other prior art, can save the energy about thirty percent.

In summary, the aluminum plate radiator of the utility model comprises two sets of vertical pipe components, each set of vertical pipe component comprises a plurality of vertical pipes, two adjacent vertical pipes are connected through a connecting plate, and each vertical pipe is provided with a heat dissipation tooth; the upper surface of each group of vertical pipe components is communicated with an upper transverse pipe, and the lower surface of each group of vertical pipe components is communicated with a lower transverse pipe; all communicate the bridge pipe between two upper horizontal pipes and between two lower horizontal pipes, wherein two arbitrary bridge pipes are as the inlet tube, and remaining two are as the outlet pipe, and in the use, the radiating effect of radiator is good, and is small, can set up the specification of radiator according to actual conditions is nimble. To sum up, the beneficial effects of the utility model are that: the specification of the radiator can be adjusted according to the winter heating requirements of different areas, the radiator occupies a small space, is not easy to smoke walls, has a better energy-saving effect, and can meet the pressure-bearing requirements of municipal central heating and natural gas heating.

Naturally, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and it is intended that all such changes and modifications be considered as within the scope of the appended claims.

Claims (10)

1. An aluminum plate radiator is characterized by comprising two groups of vertical pipe assemblies, wherein each group of vertical pipe assembly comprises a plurality of vertical pipes, and each vertical pipe is provided with radiating teeth; the upper end of each vertical pipe assembly is communicated with an upper transverse pipe, and the lower end of each vertical pipe assembly is communicated with a lower transverse pipe; the two upper transverse pipes are communicated through one bridge pipe, the two lower transverse pipes are communicated through the other bridge pipe, and each bridge pipe is communicated with a water connector.

2. The aluminum plate heat sink of claim 1, wherein a hot gas channel is formed between two sets of said vertical tube assemblies, and said heat dissipation teeth are disposed on a side of said vertical tube adjacent to said hot gas channel.

3. The aluminum panel heat sink of claim 2, wherein the shape of the heat dissipating teeth includes straight teeth, T-shapes, dots, right-angled shapes, P-shapes, and curved shapes.

4. The aluminum plate radiator of claim 1, wherein adjacent two of said risers are connected by a web.

5. The aluminum plate radiator of claim 1, wherein a radiator shroud is provided above the upper cross tube and below the lower cross tube of the radiator, and the radiator shroud comprises two sides and an upper cover sandwiched between the two sides.

6. The aluminum plate radiator of claim 5, wherein said upper cover has a plurality of heat dissipating holes formed therein.

7. The aluminum panel heat sink of claim 1, wherein the standpipe is a square tube, and the cross section of the square tube is square, and the right angles of the square are rounded corners.

8. The aluminum plate radiator of claim 1, wherein the upper and lower cross tubes are also square tubes, and the cross section of the square tubes is rectangular, and the right angles of the rectangular are rounded corners.

9. The aluminum panel heat sink of claim 1, wherein two of said bridge tubes are in communication between two of said upper cross tubes and two of said bridge tubes are in communication between two of said lower cross tubes.

10. The aluminum panel heat sink of claim 1, wherein the bridge tube is circular in cross section and has a wall thickness greater than a wall thickness of the vertical tube, the upper cross tube and the lower cross tube.

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