CN215523480U - Energy-saving skirting line heating equipment - Google Patents

Abstract

The utility model provides energy-saving skirting line heating equipment which comprises a main radiator, wherein a radiator main pipe, a water inlet pipe and a water return pipe are arranged in the main radiator, the water inlet pipe is connected with the radiator main pipe through a water supply tee joint, the water return pipe is connected with the radiator main pipe through a water return tee joint, side sealing plates are arranged on two sides of the main radiator, a fan mounting port is formed in one side of the main radiator, a cross flow fan is arranged in the fan mounting port, an external air inlet is formed in one side of the main radiator, an internal air outlet and an internal air inlet are formed in the other side of the main radiator, an external air outlet is formed in the top of the main radiator, a flow distribution plate body is arranged inside the main radiator, a filter plate body is arranged on one side of the main radiator, and a back plate body is arranged on the other side of the main radiator. This skirting line heating equipment increases convection heating on radiant heating's basis, is not afraid of furniture furnishings and shelters from, improves heating power greatly, and can realize quick installation, improves the efficiency of construction.

Description

Energy-saving skirting line heating equipment

Technical Field

The utility model belongs to the technical field of skirting line heating, and particularly relates to energy-saving skirting line heating equipment.

Background

The heating means that the proper temperature is obtained in the building through the design of the building and the cold-proof heating device. At present, the mode of heating through warm up or radiator is mostly in northern area, and these two kinds of heating equipment can not compromise simultaneously: the appearance is attractive; the overhaul is convenient; heating immediately after opening; the room temperature in different areas is balanced; rapid heating of room temperature, etc. The pipeline of the floor heating system is aged more quickly, the floor is deformed, cracked and loosened due to the expansion with heat and contraction with cold effects along with the growth of years, the construction quantity is large, the pipeline is easy to age and leak with time, the overhauling difficulty is high, the cost is high, the heating speed is low, the temperature can be heated to the body feeling comfortable temperature usually within 8-12 hours, the heating is slow, the temperature can not be randomly switched, the energy consumption is high, under the large background that the energy conservation and emission reduction and the aesthetic requirement are higher and higher, the heating function is integrated on the skirting line in European and American countries and China, and the novel heat dissipation mode is developed in recent years in succession.

The existing skirting line heating equipment can be heated by electricity or circulating hot water. But current skirting line heating power is low, lose the heat-sinking capability after being sheltered from by the house furnishings, can't heat the room temperature to comparatively comfortable temperature, and current skirting line heating installation degree of difficulty is big, the installer is long, can't adopt the standard original paper to link the installation, need processing steps such as on-the-spot intercepting tapping, lead to the efficiency of construction to seriously descend, because lack standardization easy water leakage, thickness is thick (3.5-6cm) and influences the house furnishings, adopt a large amount of copper processing to cause the cost too high, can only adjust the heat-sinking power through the temperature, cause heating power to hang down excessively, heating energy consumption has been increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides energy-saving skirting line heating equipment, which aims to solve the technical problems that in the prior art, common skirting line heating equipment cannot heat the room temperature to a comfortable temperature, installation difficulty is high, installation work time is long, processing steps such as on-site cutting and tapping are needed, water leakage is easy due to lack of standardization, heat dissipation power can be adjusted only through water temperature, and heating effect is low and energy consumption is high.

The utility model relates to an energy-saving skirting line heating device, which is achieved by the following specific technical means:

an energy-saving skirting line heating device comprises a main radiator, wherein one side of the main radiator is provided with a wall surface mounting port, a radiator main pipe, a water inlet pipe and a water return pipe are arranged in the main radiator, the water inlet pipe is connected with the radiator main pipe through a water supply tee joint, the water return pipe is connected with the radiator main pipe through a water return tee joint, two sides of the main radiator are respectively provided with a side sealing plate, one side of the main radiator is provided with a fan mounting port, a cross flow fan is arranged in the fan mounting port, one side of the main radiator is provided with an external air inlet, the other side of the main radiator is provided with an internal air outlet and an internal air inlet, the top of the main radiator is provided with an external air outlet, a splitter plate body and a plurality of groups of radiating fins are arranged in the main radiator, one side of the main radiator is provided with a filter plate body, and a back plate body is arranged on the other side of the main radiator.

Furthermore, three groups of mounting holes are formed in the side sealing plates, one group of mounting holes is matched with the main pipe of the radiator, two ends of the water supply tee joint penetrate through two groups of mounting holes in one group of the side sealing plates, two ends of the water return tee joint penetrate through two groups of mounting holes in the other group of the side sealing plates, one end of the water inlet pipe penetrates through one group of mounting holes in one group of the side sealing plates, and one end of the water return pipe penetrates through one group of mounting holes in the other group of the side sealing plates.

Furthermore, a fan fixing plate is arranged on one side of the cross flow fan, the fan fixing plate is connected with one side of the main radiator through a bolt, and the cross flow fan is arranged between the fan fixing plate and the main radiator.

Furthermore, a splitter plate guide rail is arranged in the main radiator, a first mounting clamp frame is arranged on one side of the splitter plate body, and the splitter plate body is clamped on the splitter plate guide rail through the first mounting clamp frame and connected with the main radiator.

Furthermore, one side of the main radiator is provided with a filter guide rail, the two sides of the filter body are provided with second installation clamping frames, and the filter body is clamped on the filter guide rail through the second installation clamping frames and connected with the main radiator.

Furthermore, a back plate guide rail is arranged on one side of the main radiator, two groups of third clamping frames are arranged on one side of the back plate body, and the back plate body is clamped on the back plate guide rail through the two groups of third clamping frames and connected with the main radiator.

Furthermore, the bottom of the inner side of the main radiator is provided with two groups of first pipe seat clamping frames, two groups of first pipe seat clamping frames are internally provided with first water pipe seats, two ends of the water inlet pipe are respectively arranged in the two groups of first water pipe seats in a penetrating mode, the top of the inner side of the main radiator is provided with two groups of second pipe seat clamping frames, two groups of second pipe seat clamping frames are internally provided with second water pipe seats in a penetrating mode, and two ends of the water return pipe are respectively arranged in the two groups of second water pipe seats in a penetrating mode.

Furthermore, the water inlet pipe, the water return pipe, the water supply tee joint and the water return tee joint are all made of stainless steel materials.

Furthermore, the main radiator is an integral section formed by extrusion molding of aluminum alloy, and the back plate body, the splitter plate body and the filter plate body are made of aluminum materials or galvanized plates or extrusion molding materials.

Compared with the prior art, the utility model has the following beneficial effects:

1. the skirting line heating equipment is integrally formed by adopting sectional materials, an air flow channel is formed in the sectional materials through secondary processing of aluminum alloy sectional materials, hot water with the temperature of 65-80 ℃ enters a water channel, the hot water enters a water supply three-way flow to a main pipe of a radiator from a water inlet pipe and then enters a water return three-way flow to a water return pipe, so that the whole main radiator is heated, the main radiator radiates the room temperature to the outside through the outer surface, meanwhile, a convection heating process is started, air is filtered by a filter plate body and then enters the main radiator through an external air inlet to start heating, the air enters an internal air outlet through a flow distribution plate body under the action of a cross flow fan, the air is heated by the main pipe of the radiator, the heated air is contacted with radiating fins through the internal air inlet to be heated again, then flows out from the external air outlet to be dispersed to the indoor for heating, and the skirting line heating equipment is not afraid of furniture shielding, the heating power is greatly improved, and the heating power can be improved from the original 120 watts/meter to 1070 watts/meter at the room temperature of 20 ℃ and the water temperature of 75 ℃. The heating quantity is 3-10 times of that of the existing skirting line heating equipment, and the room temperature can be adjusted at will, so that the energy consumption is saved.

2. This skirting line heating equipment mainly comprises alternate structure, the flow distribution plate body inserts the flow distribution plate guide rail, the backplate body inserts the backplate guide rail, the filter guide rail is inserted to the filter body, cross flow fan then directly puts into fan installing port rethread fan fixed plate and fixes, the side seal board is installed in main radiator both sides, advance water piping connection radiator and be responsible for one end, return water piping connection radiator is responsible for the other end, thickness 3.1 centimetres can be made to this skirting line heating equipment, length 2.5 meters, 2 meters, 1.5 meters or 0.5 meters's standard size, adopt different length skirting line heating equipment scene matching combination to be mountable according to wall length. The on-site processing steps such as on-site cutting, tapping and the like are not needed, so that the skirting line heating equipment is installed quickly, and the construction efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of an energy-saving skirting line heating device according to the present invention after being assembled.

Fig. 2 is a schematic structural view of the energy-saving skirting line heating equipment after being disassembled.

Fig. 3 is a side view of a flow divider in an energy-saving skirting line heating device according to the present invention.

Fig. 4 is a schematic axial side structure view of a flow divider in the energy-saving skirting line heating device of the present invention.

FIG. 5 is a schematic axial view of a filter plate in an energy-saving skirting line heating device according to the present invention.

Fig. 6 is a schematic structural view of a main radiator in the energy-saving skirting line heating equipment of the present invention.

Fig. 7 is a schematic view of the internal structure of an energy-saving skirting line heating device according to the present invention.

Fig. 8 is a side view of a main radiator in an energy-saving skirting line heating apparatus of the present invention.

Fig. 9 is a rear view of an assembled energy-saving skirting line heating apparatus of the present invention.

Fig. 10 is a rear view of a main radiator in an energy-saving skirting line heating apparatus of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

101. a main heat radiator; 102. a radiator main tube; 103. an external air inlet; 104. an internal air outlet; 105. an internal air inlet; 106. an external air outlet; 107. a fan mounting port; 108. a cross flow fan; 109. a heat dissipating fin; 110. a wall surface mounting port; 201. a filter plate guide rail; 202. a filter plate body; 203. a second mounting bracket; 301. a diverter plate guide rail; 302. a diverter plate body; 303. a first mounting bracket; 401. a back plate guide rail; 402. a back plate body; 403. a third clamping frame; 501. a first tube seat clamping frame; 502. a first water pipe seat; 503. a water inlet pipe; 504. a water supply tee joint; 601. a second tube seat clamping frame; 602. a second water pipe seat; 603. a water return pipe; 604. a water return tee joint; 701. a side sealing plate; 702. mounting holes; 801. fan fixed plate.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the technical solutions of the present invention, but should not be construed to limit the scope of the present invention.

The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 10:

the utility model provides an energy-saving skirting line heating device, which comprises a main radiator 101, wherein one side of the main radiator 101 is provided with a wall surface mounting port 110, a radiator main pipe 102, a water inlet pipe 503 and a water return pipe 603 are arranged in the main radiator 101, the water inlet pipe 503 is connected with the radiator main pipe 102 through a water supply tee 504, the water return pipe 603 is connected with the radiator main pipe 102 through a water return tee 604, two sides of the main radiator 101 are respectively provided with a side sealing plate 701, one side of the main radiator 101 is provided with a fan mounting port 107, a cross flow fan 108 is arranged in the fan mounting port 107, one side of the main radiator 101 is provided with an external air inlet 103, the other side of the main radiator 101 is provided with an internal air outlet 104 and an internal air inlet 105, the top of the main radiator 101 is provided with an external air outlet 106, a splitter plate body 302 and a plurality of groups of radiating fins 109 are arranged in the main radiator 101, one side of the main radiator 101 is provided with a filter plate body 202, and the other side of the main radiator 101 is provided with a back plate body 402.

The main radiator 101 can be installed on the wall surface through the wall surface installation port 110, the installation mode adopts a hanging and buckling mode, the radiator main pipe 102 in the heating equipment, the water inlet pipe 503 and the water return pipe 603 are matched with the water supply tee joint 504 and the water return tee joint 604 to form an S-shaped water channel, hot water flows in from the water inlet pipe 503, flows into the radiator main pipe 102 through the water supply tee joint 504 and then flows out from the water return pipe 603 through the water return tee joint 604, so that the main radiator 101 generates heat, primary heating is carried out on cold air, the two sides of the main radiator 101 are provided with the side sealing plates 701 to prevent dust from entering the main radiator 101, meanwhile, the heating equipment is convenient to install, the main radiator 101 is provided with the fan installation port 107 for installing the cross flow fan 108, the cross flow fan 108 operates to suck air from the external air inlet 103, the filter plate body 202 filters the air, and prevents external impurities from entering, the air is separated from the air outlet and the internal air outlet 104 of the cross flow fan 108 by the flow plate body 302, so that the air can directionally flow fan 108 can avoid cross flow The air is sufficiently contacted with the radiator main pipe 102 to be heated, is further heated by the radiating fins 109, and is slowly discharged from the external air outlet 106, thereby further heating the indoor space.

As shown in fig. 1 and 2, three sets of mounting holes 702 are formed in the side sealing plates 701, wherein one set of mounting holes 702 is matched with the main pipe 102 of the radiator, two ends of the water supply tee 504 are inserted into two sets of mounting holes 702 of one set of side sealing plates 701, two ends of the water return tee 604 are inserted into two sets of mounting holes 702 of the other set of side sealing plates 701, one end of the water inlet pipe 503 is inserted into one set of mounting holes 702 of one set of side sealing plates 701, and one end of the water return pipe 603 is inserted into one set of mounting holes 702 of the other set of side sealing plates 701.

The side seal plate 701 is provided with the mounting hole 702 for providing mounting space for the water supply tee joint 504 and the water return tee joint 604, the water inlet pipe 503 and the water return pipe 603 are fixedly mounted, the position of the water inlet pipe 503 and the position of the water return pipe 603 are prevented from being deviated in the using process, the heat dissipation capacity is prevented from being influenced by the heat and the cold series flow caused by the direct contact of the water inlet pipe 503 and the water return pipe 603 and the main radiator 101, and the stability and the mounting flexibility of the heating equipment are effectively improved.

As shown in fig. 2 and 9, a blower fixing plate 801 is provided at one side of the crossflow blower 108, the blower fixing plate 801 is connected to one side of the main radiator 101 by bolts, and the crossflow blower 108 is provided between the blower fixing plate 801 and the main radiator 101. Crossflow fan 108 is fixed through fan fixing plate 801, so that the installation is more stable and efficient, and the crossflow fan 108 is convenient to disassemble, thereby improving the construction efficiency.

As shown in fig. 2 and 8, a splitter plate guide rail 301 is disposed inside the main radiator 101, a first mounting bracket 303 is disposed on one side of the splitter plate body 302, and the splitter plate body 302 is mounted on the splitter plate guide rail 301 through the first mounting bracket 303 and connected to the main radiator 101. One side of main radiator 101 is provided with filter guide rail 201, and the both sides of filter body 202 all are provided with second installation card frame 203, and filter body 202 is established on filter guide rail 201 through second installation card frame 203 card and is connected with main radiator 101. One side of main radiator 101 is provided with backplate guide rail 401, and one side of backplate body 402 is provided with two sets of third card framves 403, and backplate body 402 is established on backplate guide rail 401 through two sets of third card framves 403 card and is connected with main radiator 101.

Set up flow distribution plate guide rail 301 and be used for installing flow distribution plate body 302, flow distribution plate body 302 alternates to and installs on flow distribution plate guide rail 301, and it can be known with backplate body 402 that filter body 202 is the same installs through the form of alternating the installation with the same reason for flow distribution plate body 302, filter body 202 and backplate body 402 installation dismantlement that can be quick, and need not to use other instrument at the in-process of installation, improved the efficiency of installation.

As shown in fig. 7 and 8, two sets of first tube holder clamping frames 501 are arranged at the bottom of the inner side of the main radiator 101, first water tube holders 502 are clamped in the two sets of first tube holder clamping frames 501, two ends of a water inlet tube 503 are respectively inserted into the two sets of first water tube holders 502, two sets of second tube holder clamping frames 601 are arranged at the top of the inner side of the main radiator 101, second water tube holders 602 are respectively clamped in the two sets of second tube holder clamping frames 601, and two ends of a water return tube 603 are respectively inserted into the two sets of second water tube holders 602.

Set up first tube socket card frame 501 and second tube socket card frame 601 and be used for installing first water tube socket 502 and second water tube socket 602 respectively, first water tube socket 502 and second water tube socket 602 are installed through the form of interlude equally, the installation is high-efficient swift, set up first water tube socket 502 and be used for installing inlet pipe 503, set up second water tube socket 602 and be used for installing wet return 603, the stability of this heating equipment to the pipeline installation has been improved, prevent that the pipeline from producing the skew and leading to the pipeline to take place to damage, make inlet pipe 503 and wet return 603 and main radiator 101 form effective isolation and avoid the heat loss.

The water inlet pipe 503, the water return pipe 603, the water supply tee 504 and the water return tee 604 are all universal pipe fittings in the market. The main radiator 101 is an aluminum alloy extruded integral section. The back plate body 402, the splitter plate body 302, and the filter plate body 202 may be made of aluminum or galvanized sheet. The water inlet pipe 503 and the water return pipe 603 can both adopt common pipes in the market (for example, both stainless steel pipes and aluminum plastic pipes can be used), and the water supply tee 504 and the water return tee 604 can be formed by combining common connectors in the market, so that the problem that skirting line fittings are difficult to match is avoided. In addition, in some embodiments, the water inlet pipe 503, the water return pipe 603, the water supply tee 504 and the water return tee 604 may also adopt specialized pipe joints customized to further enhance the operation stability; the main radiator 101 passes through aluminum alloy extrusion, and the thermal diffusivity is better, and the energy waste reduces, and the backplate body 402, flow distribution plate body 302 and the filter body 202 practicality of aluminium material are stronger also can use the galvanized sheet further reduce cost.

The specific use mode and function of the embodiment are as follows:

the skirting line heating equipment adopts section bars which are integrally formed, an air flow channel is formed inside the section bars through secondary processing of aluminum alloy section bars, hot water with the temperature of 65-80 ℃ enters a water channel, the hot water enters a water supply tee joint 504 from a water inlet pipe 503 and flows to a radiator main pipe 102, and then flows to a water return pipe 603 from a water return tee joint 604, so that the main radiator 101 is heated, the main radiator 101 radiates to the outside through the outer surface to heat the room temperature, meanwhile, a convection heating process is started, cold air is filtered by a filter plate body 202 and then enters the inside of the main radiator 101 through an external air inlet 103 to start heating, enters an internal air outlet 104 through a flow distribution plate body 302 under the action of a cross flow fan 108, and then heats the air through the radiator 102, the heated air is contacted with a radiating fin 109 through an internal air inlet 105 and further heated, and then flows out from an external air outlet 106 and is dispersed to the indoor main pipe for heating, the skirting line heating equipment is not afraid of furniture shielding, greatly improves the heating power, and can improve the heating power from 120W/m of the existing skirting line heating equipment to 1070W/m at the room temperature of 20 ℃ and the water temperature of 75 ℃. The heating quantity is 3-10 times of that of the existing skirting line heating equipment, and the skirting line heating equipment can be temporarily closed when no person exists indoors and can be temporarily opened to rapidly raise the room temperature when heating is needed, so that the energy consumption is further saved.

This skirting line heating equipment mainly comprises the structure of alternating, flow distribution plate body 302 inserts flow distribution plate guide rail 301, backplate body 402 inserts backplate guide rail 401, filter plate body 202 inserts filter guide rail 201, cross flow fan 108 then directly puts into fan installing port 107 and installs, side seal board 701 is installed in main radiator 101 both sides, inlet tube 503 connects the radiator through water supply tee bend 504 and is responsible for 102 one end, wet return 603 connects the radiator through return tee bend 604 and is responsible for 102 other end, this skirting line heating equipment can make thickness 3.1 centimetres, length 2.5 meters, 2 meters, the standard size of 1.5 meters or 0.5 meters, adopt the on-the-spot matching combination of different length skirting line heating equipment to install promptly according to wall length. The on-site processing steps such as on-site intercepting, tapping and the like are not needed, so that the skirting line heating equipment is safely and quickly installed, and the construction efficiency is improved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (9)

1. Energy-saving skirting line heating equipment, its characterized in that: the heat exchanger comprises a main radiator (101), wherein a wall surface mounting opening (110) is formed in one side of the main radiator (101), a radiator main pipe (102), a water inlet pipe (503) and a water return pipe (603) are arranged in the main radiator (101), the water inlet pipe (503) is connected with the radiator main pipe (102) through a water supply tee joint (504), the water return pipe (603) is connected with the radiator main pipe (102) through a water return tee joint (604), side sealing plates (701) are arranged on two sides of the main radiator (101), a fan mounting opening (107) is formed in one side of the main radiator (101), a cross flow fan (108) is arranged in the fan mounting opening (107), an external air inlet (103) is formed in one side of the main radiator (101), an internal air outlet (104) and an internal air inlet (105) are formed in the other side of the main radiator (101), the air-cooling type heat radiator is characterized in that an external air outlet (106) is formed in the top of the main heat radiator (101), a flow distribution plate body (302) and a plurality of groups of heat radiation fins (109) are arranged inside the main heat radiator (101), a filter plate body (202) is arranged on one side of the main heat radiator (101), and a back plate body (402) is arranged on the other side of the main heat radiator (101).

2. The energy-saving skirting line heating equipment of claim 1 wherein: the side sealing plates (701) are provided with three groups of mounting holes (702), one group of mounting holes (702) is matched with the main pipe (102) of the radiator, two ends of the water supply tee joint (504) penetrate through two groups of mounting holes (702) of one group of side sealing plates (701), two ends of the water return tee joint (604) penetrate through two groups of mounting holes (702) of the other group of side sealing plates (701), one end of the water inlet pipe (503) penetrates through one group of mounting holes (702) of one group of side sealing plates (701), and one end of the water return pipe (603) penetrates through one group of mounting holes (702) of the other group of side sealing plates (701).

3. The energy-saving skirting line heating equipment of claim 1 wherein: a fan fixing plate (801) is arranged on one side of the crossflow fan (108), the fan fixing plate (801) is connected with one side of the main radiator (101) through a bolt, and the crossflow fan (108) is arranged between the fan fixing plate (801) and the main radiator (101).

4. The energy-saving skirting line heating equipment of claim 1 wherein: inside flow distribution plate guide rail (301) that is provided with of main radiator (101), one side of flow distribution plate body (302) is provided with first installation card frame (303), flow distribution plate body (302) pass through first installation card frame (303) card is established on flow distribution plate guide rail (301) with main radiator (101) are connected.

5. The energy-saving skirting line heating equipment of claim 1 wherein: one side of main radiator (101) is provided with filter guide rail (201), the both sides of filter body (202) all are provided with second installation card frame (203), filter body (202) pass through second installation card frame (203) card is established on filter guide rail (201) with main radiator (101) are connected.

6. The energy-saving skirting line heating equipment of claim 1 wherein: a backboard guide rail (401) is arranged on one side of the main radiator (101), two groups of third clamping frames (403) are arranged on one side of the backboard body (402), and the backboard body (402) is clamped on the backboard guide rail (401) through the two groups of third clamping frames (403) and is connected with the main radiator (101).

7. The energy-saving skirting line heating equipment of claim 1 wherein: the inside bottom of main radiator (101) is provided with two sets of first tube socket card frame (501), and is two sets of all block in first tube socket card frame (501) and be equipped with first water pipe seat (502), the both ends of inlet tube (503) are worn to establish two sets of respectively in first water pipe seat (502), the inboard top of main radiator (101) is provided with two sets of second tube socket card frame (601), and is two sets of all block in second tube socket card frame (601) and be equipped with second water pipe seat (602), wear to establish two sets respectively at the both ends of wet return (603) in second water pipe seat (602).

8. The energy-saving skirting line heating equipment of claim 7 wherein: the water inlet pipe (503), the water return pipe (603), the water supply tee joint (504) and the water return tee joint (604) are all made of stainless steel.

9. The energy-saving skirting line heating equipment of claim 1 wherein: the main radiator (101) is an integral section formed by extrusion molding of aluminum alloy, and the back plate body (402), the flow distribution plate body (302) and the filter plate body (202) are made of aluminum materials or galvanized plates or extrusion molding materials.

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