CN103776278A - Integrated core of overlong double-row circular copper pipe fins - Google Patents

Abstract

The invention discloses an integrated core of overlong double-row circular copper pipe fins. The integrated core comprises a core body, and the core body is formed in the manner that cooling fins are arranged on a cooling pipe in a penetrating mode. At least two water inlet chambers and at least two water outlet chambers are welded to the cooling pipe, and water inlets and water outlets are correspondingly arranged on the water inlet chambers and the water outlet chambers respectively. In order to guarantee the cooling efficiency, all the cooling fins are provided with blind windows. Adverse wind is blocked by the blind windows when penetrating in gaps of the cooling fins, the adverse wind can form turbulence and fully pass around the cooling fins to take away heat of the cooling pipes, so cold and heat exchange is formed. The cooling pipe is circular and has the advantages of being good in strength and stability, easy to transport and the like.

Description

The double round copper pipe fin of overlength monoblock type core body

 

Technical field:

The present invention relates to the double round copper pipe fin of overlength monoblock type core body, be specially adapted to use on industrial water tank.

Background technology:

Heat radiation on industrial water tank is to realize by core body radiating tube, and conventional core body radiating tube is aluminium matter flat tube now, easily causes seepage in the time that hydraulic pressure in pipe is too large, radiating tube distortion, and even booster, makes troubles to user.

Summary of the invention:

Task of the present invention is that a kind of radiating efficiency of proposition is high, and rigidity intensity is large, the double round copper pipe fin of the overlength monoblock type core body of good stability.

Task of the present invention completes like this, the double round copper pipe fin of overlength monoblock type core body, it comprises core body, it is characterized in that: described core body is to form by being installed with fin on radiating tube, on described radiating tube, be at least welded with 2 above intake chamber and water-supplying chamber, in intake chamber and water-supplying chamber respectively to having water inlet and delivery port.On the water inlet of described radiating tube, being welded with intake chamber is connected with radiating tube; On the delivery port of radiating tube, be welded with water-supplying chamber be connected with radiating tube form a water-flow circuit, another water-flow circuit is by being welded with another intake chamber on another water inlet, and another delivery port in another water-supplying chamber of welding from the other end of radiating tube forms.

The present invention has following effect: in order to guarantee radiating efficiency, be all covered with shutter, on every fin in the time that head-on wind penetrates fin gap, be subject to stopping of shutter, make head-on wind form turbulent flow, use is walked around fully fin the heat of radiating tube is taken away, and forms cold and hot exchange.The advantages such as what radiating tube adopted is pipe, has intensity and good stability, easy transportation.

Accompanying drawing explanation:

Fig. 1 is the structural representation of core body of the present invention; Fig. 2 is the top view of Fig. 1; Fig. 3 is Figure 1A place structure enlarged drawing; Fig. 4 is the structure enlarged drawing at Figure 1B place.

The specific embodiment:

The technical program is that in solution core body radiating tube, water pressure is larger excessively, the problem that conventional aluminium matter flat tube cannot meet the demands.The specific embodiment is as follows, the long 7800mm of core body, wide 2400mm, the formation of core body is to pass through the tightly close interlock of mechanical expanding by radiating tube 7 and fin 11, in order to prevent that core body from producing distortion due to long, support core body therefore be fixed with multiple gripper shoes 8 on core body, described radiating tube adopts round copper pipe to make, on it, be installed with fin, distance between every of fin is fixed, in order to strengthen radiating effect: be pressed with shutter by pelleter on fin, be welded with intake chamber 4 on the water inlet 1 of radiating tube and be connected with radiating tube 7; On the delivery port 2 of radiating tube, be welded with water-supplying chamber 5 be connected with radiating tube form a water-flow circuit (as shown in Figure 3), another water-flow circuit is that another delivery port 9 in another water-supplying chamber 10 of welding from the other end of radiating tube forms (seeing shown in Fig. 3, Fig. 4) by being welded with another intake chamber 6 on another water inlet 3.When high-temperature water needs radiating and cooling, enter intake chamber 4 and another intake chamber 6 from water inlet 1 and another water inlet 3 respectively through pipeline,, flow out through delivery port 2 and another delivery port 9 by water-supplying chamber 5 and another water-supplying chamber 10 through radiating tube 7.

Obviously, the advantage of the technical program is high-temperature water after double round copper pipe circulation, has improved radiating efficiency, then core body through lengthening, has solved that in radiating tube, to cross water pressure large, the problem that radiating tube is yielding.

Claims (2)

1. the double round copper pipe fin of overlength monoblock type core body, it comprises core body, it is characterized in that: described core body is to form by being installed with fin on radiating tube, on described radiating tube, be at least welded with 2 above intake chamber and water-supplying chamber, in intake chamber and water-supplying chamber respectively to having water inlet and delivery port.

2. the double round copper pipe fin of overlength according to claim 1 monoblock type core body, is characterized in that: on the water inlet of described radiating tube, be welded with intake chamber and be connected with radiating tube; On the delivery port of radiating tube, be welded with water-supplying chamber be connected with radiating tube form a water-flow circuit, another water-flow circuit is by being welded with another intake chamber on another water inlet, and another delivery port in another water-supplying chamber of welding from the other end of radiating tube forms.

Images