CN203249531U - Heat exchange tube - Google Patents

Abstract

The utility model discloses a heat exchange tube which comprises a copper heat exchange body, a liquid inlet and a liquid outlet, wherein the liquid inlet and the liquid outlet are placed in the two ends of the heat exchange tube body. The two sides of the heat exchange tube body are respectively provided with at least one auxiliary side tube, the distance L between adjacent auxiliary side tubes on the same side of the heat exchange tube body is 4-10cm, the auxiliary side tubes on the two sides of the heat exchange tube body are arrayed in a staggered mode, and the angle alpha between the auxiliary side tubes and the heat exchange tube body is 45-60 degrees. The heat exchange tube has the advantages that the auxiliary side tubes are arranged on the heat exchange tube body, the heat exchange area in actual work is enlarged, the auxiliary side tubes on the two sides of the heat exchange tube body are arranged in the staggered mode, a turbulent flow phenomenon is guaranteed to not happen to target gas contacted with the heat exchange tube, dead angles of heat exchange are avoided, the heat exchange area is guaranteed, and meanwhile heat exchange efficiency is improved.

Description

Heat exchanger tube

Technical field

The utility model relates to a kind of heat exchanger tube, especially is applied to the heat exchanger tube of gas converting heat.

Background technology

Heat exchanger is a kind of vitals in the industrial production, the primary structure of heat exchanger is exactly heat exchanger tube, in real work, in heat exchanger tube, pass into coolant media, realize the purpose of heat exchange by the coolant media in the heat exchanger tube and the heat exchange between the destination media, gas heat exchanger commonly used mainly is pass into object gas in heat exchanger after, carry out heat exchange by the coolant media in object gas and the heat exchanger tube, reach the purpose that makes the gas cooling, but the heat exchanger tube of gas heat exchanger commonly used generally is the spirality light pipe at present, increase heat exchange area with this, object gas is after entering heat exchanger, relying on blower fan to make between object gas and the heat exchanger tube fully contacts, reach the heat exchange purpose, although general spiral light pipe can increase heat exchange area, but object gas is easily at the inner turbulent flow that forms of heat exchanger, in actual heat transfer process, form easily a plurality of heat exchanging corner, cause portion gas not have just from heat exchanger, to discharge after sufficiently cooled, out object gas reduced the heat exchange efficiency of heat exchanger, so that can't reach set chilling temperature from heat exchanger.

The utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, provides a kind of heat exchange area large, the heat exchanger heat exchanger tube of good cooling results.

For achieving the above object, the technical solution of the utility model is:

Heat exchanger tube, the inlet and the liquid outlet that comprise copper heat exchanger tube main body and heat exchanger tube main body two ends, each is provided with an auxiliary other pipe at least the both sides of described heat exchanger tube main body, distance L between the adjacent auxiliary other pipe on the heat exchanger tube main body homonymy is 4～10cm, the auxiliary other pipe that is positioned at heat exchanger tube main body both sides is staggered to be arranged, and the angle a between described auxiliary other pipe and the heat exchanger main body is 45 °～60 °.

As the further setting of such scheme, the distance between the adjacent auxiliary other pipe of heat exchanger tube main body homonymy is 7cm.

As the further setting of such scheme, the angle between described auxiliary other pipe and the heat exchanger tube main body is 60 °.

As the further setting of such scheme, described heat exchanger tube main body is one-body molded with auxiliary other pipe.

The beneficial effects of the utility model are: be provided with auxiliary other pipe in the heat exchanger tube main body, increased the heat exchange area in real work, be positioned at being crisscross arranged of auxiliary other pipe of heat exchanger tube main body both sides, guaranteed that the object gas that contacts with heat exchanger tube turbulent phenomenon can not occur, cause heat exchanging corner, when guaranteeing heat exchange area, promoted heat exchange efficiency.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Among the figure: heat exchanger tube main body 1, inlet 11, liquid outlet 12, auxiliary other pipe 2.

The specific embodiment

Below in conjunction with accompanying drawing, and in conjunction with the embodiments, the utility model is described further.

Embodiment:

As shown in Figure 1, heat exchanger tube, the inlet 11 and the liquid outlet 12 that comprise copper heat exchanger tube main body 1 and heat exchanger tube main body 1 two ends, each is provided with an auxiliary other pipe 2 at least the both sides of described heat exchanger tube main body 1, distance L between the adjacent auxiliary other pipe 2 on heat exchanger tube main body 1 homonymy is 4～10cm, the auxiliary other pipe 2 that is positioned at heat exchanger tube main body 1 both sides is staggered to be arranged, and the angle a between described auxiliary other pipe 2 and the heat exchanger main body 1 is 45 °～60 °.

Described heat exchanger tube main body 1 is one-body molded with auxiliary side pipe 2.

Operation principle of the present utility model is: pass into coolant media in the inlet 11 on the heat exchanger main body 1, coolant media is circulated in heat exchanger main body 1, after object gas enters heat exchanger, under the fan action on the outer cover of heat exchanger along A to contacting with heat exchanger tube main body 1, realize heat exchange, setting by auxiliary other pipe 2, increased the contact area of object gas and heat exchanger tube main body 1, the auxiliary other pipe 2 that is crisscross arranged can guarantee that object gas turbulent flow can not occur under the effect of blower fan, reduced heat exchanging corner, promoted heat exchange efficiency, distance between the adjacent auxiliary other pipe 2 at heat exchanger tube main body 1 homonymy is 7cm, when the angle between auxiliary other pipe 2 and the heat exchanger main body 1 was 60 °, heat transfer effect was best.

Claims (4)

1. heat exchanger tube, the inlet (11) and the liquid outlet (12) that comprise copper heat exchanger tube main body (1) and heat exchanger tube main body (1) two ends, it is characterized in that: each is provided with an auxiliary other pipe (2) at least the both sides of described heat exchanger tube main body (1), the distance L that is positioned between the adjacent auxiliary other pipe (2) on heat exchanger tube main body (1) homonymy is 4～10cm, the auxiliary other pipe (2) that is positioned at heat exchanger tube main body (1) both sides is staggered to be arranged, and the angle a between described auxiliary other pipe (2) and the heat exchanger main body (1) is 45 °～60 °.

2. heat exchanger tube as claimed in claim 1 is characterized in that: the distance that is positioned between the adjacent auxiliary other pipe (2) of heat exchanger tube main body (1) homonymy is 7cm.

3. heat exchanger tube as claimed in claim 1 or 2 is characterized in that: the angle between described auxiliary other pipe (2) and the heat exchanger tube main body (1) is 60 °.

4. heat exchanger tube as claimed in claim 1 is characterized in that: described heat exchanger tube main body (1) is one-body molded with auxiliary other pipe (2).

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