CN201255594Y - High efficient heat exchange apparatus - Google Patents

Abstract

The utility model provides a high efficiency heat exchange device, comprises a fixing base, a water outlet pipe, a heat collection cover, a water inlet pipe and a heat distribution cover. A heat exchanger main body is movably connected between the heat collection cover and the heat distribution cover. One side at the lower end of the heat distribution cover is fixedly connected with a reduction gearbox. The input end of the reduction gearbox is connected with a belt pulley, and the output end is connected with an annular gear. The annular gear is arranged at the bottom of the heat distribution cover. The upper end of the heat distribution cover is connected with a blade, and the lower end is connected with a dust exhaust opening. The heat exchange device has simple structure and low production cost. The heat collection cover, and the heat distribution cover are movably connected with the heat exchanger main body. Therefore, the heat exchange device can be disconnected to be maintained, has high heat conductivity and long service life.

Description

High-efficiency heat exchanger

Affiliated technical field:

The utility model relates to a kind of heat-exchanger rig, particularly a kind of high-efficiency heat exchanger.

Background technology:

At present, China's industry and civilian air conditioner, freezer and boiler etc. generally will be used heat-exchanger rig, and common heat-exchanger rig generally all is welded into an overall structure that can not be split, in case seepage or obstruction appear in inside, the processing of just having to scrap, simultaneously because the heat pipe of most of heat-exchanger rigs all adopts thin and thin copper pipe usually, and be welded with a lot of sheet fin in its outside, therefore, cost is very high, be not suitable in high flue gas of dustiness and chemical gases, using, be difficult to repair in case take place to stop up.

Summary of the invention:

The purpose of this utility model is intended to overcome the deficiencies in the prior art part, provide a kind of have high thermal conductivity and can split maintain, cost is low high-efficiency heat exchanger.

The purpose of this utility model is achieved in that a kind of high-efficiency heat exchanger, by holder (1), outlet pipe (3), collector mat (4), oral siphon (5), divide heat cover (7) to form, it is characterized in that collector mat (4) and divide and to flexibly connect heat exchanger main body (6) between the heat cover (7), the fixedly connected reduction box of a side (11) that divides heat cover (7) lower end, reduction box (11) input connects belt pulley (12), output is connected with ring gear (16), ring gear (16) is positioned at the bottom of branch heat cover (7), its upper end connects blade (15), divides bottom, heat cover (7) lower end to connect dust-exhausting port (10).

An optimum implementation of the present utility model is: heat exchanger main body (6) is by fixedlying connected thermal-collecting tube (17) between last thermal-arrest plate (13) and the next part hot plate (14), last thermal-arrest plate (13) is connected shell (9) and forms with next part hot plate (14) outer end, blade (15) periphery is the resistant to elevated temperatures wire of brush shape, and it is with next part hot plate (14) lower surface and divide heat cover (7) inner surface to be abutted against mutually.

The utility model compared with prior art has the following advantages:

Owing to has adopted collector mat (4) and divided the version that flexibly connects heat exchanger main body (6) between the heat cover (7), thereby simple in structure, cost is low; Collector mat (4), branch heat cover (7) are connected to flexible connection with heat exchanger main body (6) simultaneously, thereby, can split and maintain, the thermal conductivity height, the life-span is long.

Description of drawings:

Figure: be the utility model concrete structure schematic diagram

1, holder 2, exhaust opening 3, outlet pipe 4, collector mat

5, oral siphon 6, heat exchanger main body 7, branch heat are covered 8, are advanced mouth

9, shell 10, dust-exhausting port 11, reduction box 12, belt pulley

13, go up thermal-arrest plate 14, next part hot plate 15, blade 16, ring gear

17, thermal-collecting tube

The specific embodiment:

Advancing mouth (8) makes with metallic plate, be cylinder type, its fixedly connected branch heat cover in upper end (7), ring gear (16) is arranged at the bottom in minute heat cover (7), the fixedly connected blade in upper end (15) of ring gear (16), blade (15) periphery is the resistant to elevated temperatures wire of brush shape, ring gear (16) is connected with reduction box (11) output, reduction box (11) input connects belt pulley (12), reduction box (11) is fixedly connected on branch heat cover (7) outer end, bottom, divide bottom, heat cover (7) lower end to connect dust-exhausting port (10), divide heat cover (7) upper end to flexibly connect heat exchanger main body (6) lower end, heat exchanger main body (6) is by fixedlying connected thermal-collecting tube (17) between last thermal-arrest plate (13) and the next part hot plate (14), last thermal-arrest plate (13) is connected shell (9) and forms with next part hot plate (14) outer end, connect outlet pipe (3) in shell (9) outer wall upper end, the lower end connects into water pipe (5), outlet pipe (3) and oral siphon (5) are positioned between thermal-arrest plate (13) and the next part hot plate (14), fixedly connected holder (1) in shell (9) and outlet pipe (a 3) side relative with oral siphon (5), holder (1) is positioned at shell (9) center, heat exchanger main body (6) upper end flexibly connects collector mat (4), collector mat (4) upper end fixedly connected exhaust opening (2).

During use, to advance mouth (8) is installed on the equipment that needs smoke evacuation, when fume emission, at first enter in the branch heat cover (7) by advancing mouth (8), enter the thermal-collecting tube (17) in the heat exchanger main body (6) again, at this moment, the most of heat in the flue gas is dispersed in the interior water of heat exchanger main body (6) by thermal-collecting tube (17), reached the purpose of cooling, the combustion gas of low temperature is discharged from exhaust opening (2) by collector mat (4); Contain some particulate matter in the flue gas, when passing through, particulate matter is deposited in the branch heat cover (7), need often clean with water, at this moment, belt pulley (12) is connected with electrical equipment, start electrical equipment, drive ring gear (16) by reduction box (11) and rotate, ring gear (16) drives blade (15) and rotates, by the resistant to elevated temperatures wire cleaning of blade (15) periphery brush shape, particulate matter is discharged by dust-exhausting port (10).

Claims (3)

1, a kind of high-efficiency heat exchanger, form by holder (1), outlet pipe (3), collector mat (4), oral siphon (5), branch heat cover (7), it is characterized in that described collector mat (4) and divide flexibly connecting heat exchanger main body (6) between the heat cover (7), the fixedly connected reduction box of a side (11) that divides heat cover (7) lower end, reduction box (11) input connects belt pulley (12), output is connected with ring gear (16), ring gear (16) is positioned at the bottom of branch heat cover (7), its upper end connects blade (15), divides bottom, heat cover (7) lower end to connect dust-exhausting port (10).

2, high-efficiency heat exchanger according to claim 1, it is characterized in that described heat exchanger main body (6) is by fixedlying connected thermal-collecting tube (17) between last thermal-arrest plate (13) and the next part hot plate (14), last thermal-arrest plate (13) is connected shell (9) and forms with next part hot plate (14) outer end.

3, high-efficiency heat exchanger according to claim 1 and 2 is characterized in that described blade (15) periphery is the resistant to elevated temperatures wire of brush shape, and it is abutted against mutually with the lower surface of next part hot plate (14) and the inner surface of branch heat cover (7).

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