CN105423783A - Plate-fin heat exchanger integrated with by-pass pipe - Google Patents

Abstract

The invention discloses a plate-fin heat exchanger integrated with a by-pass pipe and belongs to the field of structural design of heat exchangers. The plate-fin heat exchanger integrated with the by-pass pipe comprises a heat exchange body used for conducting heat exchange on liquid. The heat exchange body comprises the by-pass pipe and a plate-fin heat exchange body, and the by-pass pipe and the plate-fin heat exchange body are arranged in an up-down structure. The end faces of the two sides of the heat exchange body are packaged with end sockets respectively. A partition plate is arranged in one end socket which is divided by the partition plate into a by-pass pipe end socket body communicated with the by-pass pipe and a plate-fin end socket body communicated with the plate-fin heat exchange body; the by-pass pipe end socket body is provided with a liquid inlet, and the plate-fin end socket body is provided with a liquid outlet. According to the plate-fin heat exchanger using the structural design and integrated with the by-pass pipe, the problem that operation efficiency of a whole system is affected since the flowing speed of a plate-fin heat exchanger in the prior art is low is solved, and therefore not only is the heat exchange effect guaranteed, but also the flowing speed is increased; furthermore, the application range of the plate-fin heat exchanger integrated with the by-pass pipe is widened.

Description

The plate-fin heat exchanger of integrated bypass pipe

Technical field

The present invention relates to the field of structural design of heat exchanger, particularly relate to a kind of plate-fin heat exchanger of integrated bypass pipe.

Background technology

Heat exchanger is otherwise known as heat exchanger, that is: the equipment of exchange heat can be carried out, it realizes the energy-saving equipment that between material, heat transmits between a kind of two kinds in different temperatures or two or more fluid, heat can be made to pass to the lower fluid of temperature by higher fluid, fluid temperature (F.T.) is made to reach flow process set quota, to meet the needs of process conditions, it is also one of capital equipment improving energy utilization rate simultaneously.

Data show Chinese cooler industrial market scale in 2010 at about 50,000,000,000 yuan, mainly concentrate on the fields such as oil, chemical industry, metallurgy, electric power, boats and ships, central heating, refrigeration air-conditioner, machinery, food, pharmacy.Wherein, petrochemical industry remains the maximum market of cooler industry, and its market scale is 15,000,000,000 yuan.

The advantages such as plate-fin heat exchanger has compact conformation, light and handy, heat transfer efficiency is high, strong adaptability, but its technique is comparatively complicated, and flow rate of liquid is slower for other heat exchangers.

In prior art, when adopting plate-fin heat exchanger to use as the oil heat exchanger in air compressor machine, oil enters in plate-fin heat exchanger by import, pass in and out two flow processs, complete heat transfer process, but, the flow velocity of oil is slower, the running of oil in air compressor machine can be affected, thus both can affect the operating efficiency of air compressor machine, the life-span of air compressor machine can be affected again.

Summary of the invention

For above-mentioned Problems existing, the invention provides a kind of plate-fin heat exchanger of integrated bypass pipe, to overcome the problem that plate-fin heat exchanger flow velocity of the prior art causes affecting whole system running efficiency more slowly, thus both ensure that heat transfer effect turn improved flow velocity, and then expand the range of application of plate-fin heat exchanger of this integrated bypass pipe.

To achieve these goals, the technical scheme that the present invention takes is:

A kind of plate-fin heat exchanger of integrated bypass pipe, wherein, comprise: for carrying out the heat exchange body of heat exchange to liquid, described heat exchange body comprises bypass pipe and plate fin heat-exchanging body, described bypass pipe and described plate fin heat-exchanging body are upper and lower vibrational power flow, and described heat exchange body both sides end face is packaged with end socket respectively;

Wherein, a dividing plate is provided with in an end socket, by described dividing plate, this end socket is separated into the bypass pipe end socket be connected with described bypass pipe and the plate-fin end socket be connected with described plate fin heat-exchanging body, described bypass pipe end socket is provided with liquid-inlet, and described plate-fin end socket is provided with liquid outlet.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, described bypass pipe inside is provided with many pipelines for working fluid.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, described bypass pipe inside is provided with two pipelines for working fluid.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, described bypass pipe is positioned at the top of described plate fin heat-exchanging body and is adjacently fixedly installed.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, the length of described bypass pipe is identical with thickness with the length of described plate fin heat-exchanging body with width, and the height of described bypass pipe is 1/20 ~ 1/18 of the height of described plate fin heat-exchanging body.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, the height of described bypass pipe is 1/19 of the height of described plate fin heat-exchanging body.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, described plate-fin end socket is provided with the tap hole for tapping.

The plate-fin heat exchanger of above-mentioned integrated bypass pipe, wherein, described tap hole is arranged on the described plate-fin end socket of the top of described liquid outlet.

Technique scheme tool has the following advantages or beneficial effect:

The plate-fin heat exchanger of integrated bypass pipe provided by the invention comprises: for carrying out the heat exchange body of heat exchange to liquid, heat exchange body comprises bypass pipe and plate fin heat-exchanging body, bypass pipe and plate fin heat-exchanging body are upper and lower vibrational power flow, heat exchange body both sides end face is packaged with end socket respectively, a dividing plate is provided with in one of them end socket, by dividing plate, this end socket is separated into the bypass pipe end socket be connected with bypass pipe and the plate-fin end socket be connected with plate fin heat-exchanging body, bypass pipe end socket is provided with liquid-inlet, and plate-fin end socket is provided with liquid outlet; The plate-fin heat exchanger of the integrated bypass pipe of this structural design overcomes the problem that plate-fin heat exchanger flow velocity of the prior art causes affecting whole system running efficiency more slowly, thus both ensure that heat transfer effect turn improved flow velocity, and then expand the range of application of plate-fin heat exchanger of this integrated bypass pipe.

Accompanying drawing explanation

By reading the detailed description done non-limiting example with reference to the following drawings, the present invention and feature, profile and advantage will become more apparent.Mark identical in whole accompanying drawing indicates identical part.Deliberately proportionally do not draw accompanying drawing, focus on purport of the present invention is shown.

Fig. 1 is the front view of the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides;

Fig. 2 is the left view of the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides.

Detailed description of the invention

Below in conjunction with accompanying drawing and specific embodiment, the present invention is further illustrated, but not as limiting to the invention.

Embodiment 1:

Fig. 1 is the front view of the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides; Fig. 2 is the left view of the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides; As shown in the figure, the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides comprises: for carrying out the heat exchange body 01 of heat exchange to liquid, heat exchange body 01 comprises bypass pipe 101 and plate fin heat-exchanging body 102, bypass pipe 101 and plate fin heat-exchanging body 102 are in upper and lower vibrational power flow, bypass pipe 101 is positioned at the top of plate fin heat-exchanging body 102 and is adjacently fixedly installed, and heat exchange body 01 both sides end face is packaged with right end socket 103 and left end socket 104 respectively; A dividing plate 105 is provided with in right end socket 103 wherein, by dividing plate 105, this right end socket 103 is separated into the bypass pipe end socket 1031 be connected with bypass pipe 101 and the plate-fin end socket 1032 be connected with plate fin heat-exchanging body 102, bypass pipe end socket 1031 is provided with liquid-inlet 106, and plate-fin end socket 1032 is provided with liquid outlet 107; The plate-fin heat exchanger of the integrated bypass pipe of this structural design overcomes the problem that plate-fin heat exchanger flow velocity of the prior art causes affecting whole system running efficiency more slowly, thus both ensure that heat transfer effect turn improved flow velocity, and then expand the range of application of plate-fin heat exchanger of this integrated bypass pipe.

In the plate-fin heat exchanger of the integrated bypass pipe provided in the embodiment of the present invention 1, bypass pipe 101 inside is provided with two pipelines 1011 (the sectional view part see in Fig. 1) for working fluid; Be designed with two pipelines, both facilitated the flowing of liquid, certain flow strength can be born again, in the middle of bypass pipe, be used for this bypass pipe interior separation to become the demarcation strip of two pipelines to play the effect strengthening inner holding capacity.

In the plate-fin heat exchanger of the integrated bypass pipe provided in the embodiment of the present invention 1, the length of bypass pipe 101 is identical with thickness with the length of plate fin heat-exchanging body 102 with width, the height of bypass pipe 101 is 1/20 ~ 1/18 of the height of plate fin heat-exchanging body 102, as 1/20,1/19,1/18 etc., the aspect ratio of the bypass pipe within the scope of this and plate fin heat-exchanging body, can ensure smooth flow and the heat transfer effect of liquid.

In the plate-fin heat exchanger of the integrated bypass pipe provided in the embodiment of the present invention 1, the height of bypass pipe 101 is 1/19 of the height of plate fin heat-exchanging body 102, this aspect ratio is best height ratio, ensure that the smooth flow of liquid, in turn ensure that heat transfer effect, thus improve the operating efficiency of whole system.

In the plate-fin heat exchanger of the integrated bypass pipe provided in the embodiment of the present invention 1, plate-fin end socket 1032 is provided with the tap hole 108 for tapping, and be arranged on the plate-fin end socket 1032 of the top of liquid outlet 107, tap hole is set, facilitate the work of being discharged by the liquid in the plate-fin heat exchanger of this integrated bypass pipe, and be arranged on the top of liquid outlet, ensure that plate-fin heat exchanger at this integrated bypass pipe is when normally working, the liquid pressure value that tap hole bears is less, avoid the generation that liquid goes out tap hole plug screw phenomenon greatly, ensure that the quality of the plate-fin heat exchanger of this overall integrated bypass pipe.

When the plate-fin heat exchanger of the integrated bypass pipe using the embodiment of the present invention 1 to provide, liquid flows to the bypass pipe end socket of right end socket from liquid-inlet, then flow directly in bypass pipe, under the impetus of pressure, liquid flows into left end socket, then slowly flow in plate fin heat-exchanging body, heat transferring medium carries out heat exchange with liquid in plate fin heat-exchanging body, liquid after heat exchange enters in the plate-fin end socket of right end socket, the liquid after heat exchange is flowed out by liquid outlet, liquid-circulating after heat exchange, in system, provides the running of other equipment in system; In this course of work, owing to employing bypass pipe, and only have a flow process through plate fin heat-exchanging body, thus make flow rate of liquid very fast, meanwhile, although only have a flow process through plate fin heat-exchanging body, but this plate fin heat-exchanging body heat exchange area is identical with the heat exchange area of plate-fin heat exchanger of the prior art, therefore, do not affect heat transfer effect, ensure that heat transfer effect can reach the requirement of prior art.

In sum, the plate-fin heat exchanger of the integrated bypass pipe that the embodiment of the present invention 1 provides comprises: for carrying out the heat exchange body of heat exchange to liquid, heat exchange body comprises bypass pipe and plate fin heat-exchanging body, bypass pipe and plate fin heat-exchanging body are upper and lower vibrational power flow, heat exchange body both sides end face is packaged with end socket respectively, a dividing plate is provided with in one of them end socket, by dividing plate, this end socket is separated into the bypass pipe end socket be connected with bypass pipe and the plate-fin end socket be connected with plate fin heat-exchanging body, bypass pipe end socket is provided with liquid-inlet, plate-fin end socket is provided with liquid outlet, the plate-fin heat exchanger of the integrated bypass pipe of this structural design overcomes the problem that plate-fin heat exchanger flow velocity of the prior art causes affecting whole system running efficiency more slowly, thus both ensure that heat transfer effect turn improved flow velocity, and then expand the range of application of plate-fin heat exchanger of this integrated bypass pipe.

It should be appreciated by those skilled in the art that those skilled in the art can realize described change case in conjunction with prior art and above-described embodiment, do not repeat them here.Such change case does not affect flesh and blood of the present invention, does not repeat them here.

Above preferred embodiment of the present invention is described.It is to be appreciated that the present invention is not limited to above-mentioned particular implementation, the equipment wherein do not described in detail to the greatest extent and structure are construed as to be implemented with the common mode in this area; Any those of ordinary skill in the art, make many possible variations and modification not departing from technical solution of the present invention, or be revised as the Equivalent embodiments of equivalent variations, this does not affect flesh and blood of the present invention.Therefore, every content not departing from technical solution of the present invention, according to technical spirit of the present invention to any simple modification made for any of the above embodiments, equivalent variations and modification, all still belongs in the scope of technical solution of the present invention protection.

Claims (8)

1. the plate-fin heat exchanger of an integrated bypass pipe, it is characterized in that, comprise: for carrying out the heat exchange body of heat exchange to liquid, described heat exchange body comprises bypass pipe and plate fin heat-exchanging body, described bypass pipe and described plate fin heat-exchanging body are upper and lower vibrational power flow, and described heat exchange body both sides end face is packaged with end socket respectively;

Wherein, a dividing plate is provided with in an end socket, by described dividing plate, this end socket is separated into the bypass pipe end socket be connected with described bypass pipe and the plate-fin end socket be connected with described plate fin heat-exchanging body, described bypass pipe end socket is provided with liquid-inlet, and described plate-fin end socket is provided with liquid outlet.

2. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 1, is characterized in that, described bypass pipe inside is provided with many pipelines for working fluid.

3. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 1 or 2, is characterized in that, described bypass pipe inside is provided with two pipelines for working fluid.

4. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 1, is characterized in that, described bypass pipe is positioned at the top of described plate fin heat-exchanging body and is adjacently fixedly installed.

5. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 1, it is characterized in that, the length of described bypass pipe is identical with thickness with the length of described plate fin heat-exchanging body with width, and the height of described bypass pipe is 1/20 ~ 1/18 of the height of described plate fin heat-exchanging body.

6. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 5, it is characterized in that, the height of described bypass pipe is 1/19 of the height of described plate fin heat-exchanging body.

7. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 1, it is characterized in that, described plate-fin end socket is provided with the tap hole for tapping.

8. the plate-fin heat exchanger of integrated bypass pipe as claimed in claim 7, it is characterized in that, described tap hole is arranged on the described plate-fin end socket of the top of described liquid outlet.