CN110285689A

CN110285689A - A kind of cooler with current by pass preventing cold and hot medium string leakage

Info

Publication number: CN110285689A
Application number: CN201910674846.6A
Authority: CN
Inventors: 凌光; 徐荣飞
Original assignee: HONGSHENG HEAT EXCHANGER MANUFACTURING Co Ltd
Current assignee: Wuxi Hongsheng heat exchange system Co., Ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2019-09-27

Abstract

The present invention relates to the coolers with current by pass that one kind can prevent cold and hot medium string leakage, including core, oil inlet end socket and fuel-displaced end socket is respectively set in the two sides of core, the water inlet end socket for offering out the water seal head out of water seal head and offering into water end socket is also respectively set in the side of core, core includes cover board arranged up and down, multilayer cold medium layer is set between cover board arranged up and down, thermal medium layer and aerial drainage interlayer, between cold medium layer and aerial drainage interlayer, partition is also set up between thermal medium layer and aerial drainage interlayer and between each aerial drainage interlayer and cover board, in in core, current by pass is also set up between each cold medium layer and thermal medium layer.The present invention by the way that aerial drainage interlayer and cold medium layer, thermal medium layer are alternately arranged so that partition when occurring damaged cold and hot medium will not crossfire, while when current by pass being set in cold medium layer, thermal medium layer avoiding same layer strip of paper used for sealing breakage, cold and hot medium crossfire.

Description

A kind of cooler with current by pass preventing cold and hot medium string leakage

Technical field

The present invention relates to cooler fields, more particularly to a kind of cooling with current by pass that can prevent cold and hot medium string leakage Device.

Background technique

Cooler is one kind of heat exchange equipment, is usually coolant with the mixture of water or water to cooling fluid To remove heat.Currently, conventional cooler only includes cold medium channel and hot media channel, and if occur damaged, cold and hot Jie String leakage mutually occurs for matter, causes main equipment to break down, can not be suitable for safety, the higher industry of reliability.

Summary of the invention

The applicant is directed to above-mentioned existing issue, has carried out Improvement, and cold and hot medium string leakage can be prevented by providing one kind Cooler with current by pass can avoid mutually string leakage between cold and hot medium, substantially increase and set by increasing aerial drainage interlayer Standby safety.

The technical solution adopted in the present invention is as follows:

A kind of cooler with current by pass preventing cold and hot medium string leakage, including core, the left and right of Yu Suoshu core Two sides are respectively set the oil inlet pipe for offering oil inlet end socket and offer the flowline of fuel-displaced end socket, the side of the core also The outlet pipe for offering out water seal head is respectively set and offers the water inlet pipe into water end socket, the core includes arranged up and down Multilayer cold medium layer, thermal medium layer and aerial drainage interlayer, cold Jie is arranged in cover board from top to bottom between cover board arranged up and down Partition is also set up between matter layer and aerial drainage interlayer, between thermal medium layer and aerial drainage interlayer and between each aerial drainage interlayer and cover board, In in the core, current by pass is also set up in the periphery of each cold medium layer and thermal medium layer.

Its further technical solution is:

The aerial drainage interlayer is arranged between adjacent cold medium layer and thermal medium layer, the cover board of top layer and cold Jie of top layer Between matter layer and between undermost cover board and undermost cold medium layer；

The specific structure of the cold medium layer is as follows:

By strip of paper used for sealing in a pair first, in second, strip of paper used for sealing is enclosed cold medium channel in strip of paper used for sealing and third, in cold Jie Cold medium layer heat exchange fin is set in matter channel；It is opened up on the cold medium channel a pair of for being connected to outlet pipe and water inlet pipe First opening；

In the third length of strip of paper used for sealing less than second in strip of paper used for sealing length；

The first outer strip of paper used for sealing is respectively provided on the outside of strip of paper used for sealing in each first, the outer wall of strip of paper used for sealing in the first outer strip of paper used for sealing and first Between form the first aerial drainage layer, the first aerial drainage layer heat exchange fin is set in the first aerial drainage layer；

The specific structure of the thermal medium layer is as follows:

It is made of strip of paper used for sealing in a pair the spaced apart 4th, forms hot media channel between strip of paper used for sealing in the adjacent 4th, it is described Hot media channel is connected to flowline and oil inlet pipe respectively；

The second outer strip of paper used for sealing, second covering are also set up on the outside of strip of paper used for sealing in the 4th at outlet pipe, water inlet pipe Article and the 4th in strip of paper used for sealing outer wall between form the second aerial drainage layer, the second aerial drainage layer heat exchange wing is set in the second aerial drainage layer Piece；

The specific structure of the aerial drainage interlayer is as follows:

Current by pass is constituted by strip of paper used for sealing enclosing in strip of paper used for sealing in strip of paper used for sealing in the 5th, the 6th and a pair the 7th, the strip of paper used for sealing in the 6th The two sides on surface open up the second opening respectively, and aerial drainage interlayer heat exchange fin is also set up in the current by pass.

Beneficial effects of the present invention are as follows:

The configuration of the present invention is simple, it is easy to use, by the way that aerial drainage interlayer and cold medium layer, thermal medium layer to be alternately arranged, make It obtains cold and hot medium when partition occurs damaged and is not easy crossfire, while current by pass is set in cold medium layer, thermal medium layer and is avoided together When layer strip of paper used for sealing breakage, cold and hot medium crossfire arranges that fin plays thermally conductive, drainage and improves in aerial drainage interlayer and current by pass The effect of structural strength, using the present invention can effectively avoid because string leakage caused by master-failure problem, be suitable for safety, can The industry high by property uses.

Detailed description of the invention

Fig. 1 is schematic perspective view of the invention.

Fig. 2 is main view of the invention.

Fig. 3 is schematic cross-sectional view of the present invention in the direction I-I.

Fig. 4 is the structural schematic diagram of cold medium layer in the present invention.

Fig. 5 is the structural schematic diagram of thermal medium layer in the present invention.

Fig. 6 is the structural schematic diagram of aerial drainage interlayer in the present invention.

Wherein: 1, outlet pipe；101, go out water seal head；2, water inlet pipe；201, water inlet end socket；3, flowline；301, go out oil sealing Head；4, oil inlet pipe；401, oil inlet end socket；5, core；501, cover board；502, partition；503, cold medium layer；5031, the first interior envelope Item；5032, the first aerial drainage layer；5033, strip of paper used for sealing in second；5034, cold medium layer heat exchange fin；5035, strip of paper used for sealing in third； 5036, the first opening；5037, the first aerial drainage layer heat exchange fin；5038, the first outer strip of paper used for sealing；504, thermal medium layer；5041, the 4th Interior strip of paper used for sealing；5042, the second outer strip of paper used for sealing；5043, the second aerial drainage layer；5044, the second aerial drainage layer heat exchange fin；5045, thermal medium layer Heat exchange fin；505, aerial drainage interlayer；5051, strip of paper used for sealing in the 5th；5052, aerial drainage interlayer heat exchange fin；5053, strip of paper used for sealing in the 6th； 5054, the second opening；5055, strip of paper used for sealing in the 7th.

Specific embodiment

Illustrate a specific embodiment of the invention below.

As shown in Figure 1 and Figure 2, a kind of cooler with current by pass preventing cold and hot medium string leakage includes core 5, in The left and right sides of core 5 is respectively set the oil inlet pipe 4 for offering oil inlet end socket 401 and offers the flowline of fuel-displaced end socket 301 3, it is also respectively set in the side of core 5 and offers out the outlet pipe 1 of water seal head 101 and offer the water inlet into water end socket 201 Pipe 2 is arranged between cover board 501 arranged up and down from top to bottom as shown in figure 3, core 5 includes cover board 501 arranged up and down Multilayer cold medium layer 503, thermal medium layer 504 and aerial drainage interlayer 505, between cold medium layer 503 and aerial drainage interlayer 505, thermal medium Partition 502 is also set up between layer 504 and aerial drainage interlayer 505 and between each aerial drainage interlayer 505 and cover board 501, in core 5, Current by pass is also set up in the periphery of each cold medium layer 503 and thermal medium layer 504.

As shown in figure 3, selecting for cold medium layer 503 to be designated as A layers for ease of description, thermal medium layer 504 is designated as B layers, lets out Stream interlayer 505 is designated as C layers.

As shown in figure 3, above-mentioned aerial drainage interlayer 505 is arranged between adjacent cold medium layer 503 and thermal medium layer 504, is most upper Between the cover board 501 and top layer's cold medium layer 503 of layer and in undermost cover board 501 and undermost cold medium layer 503 Between.

As shown in figure 4, the specific structure of cold medium layer 503 is as follows:

Cold medium is enclosed by strip of paper used for sealing 5035 in strip of paper used for sealing 5033 in strip of paper used for sealing 5031, second in a pair first and third to lead to Road, in setting cold medium layer heat exchange fin 5034 in cold medium channel；It is opened up on cold medium channel a pair of for being connected to water outlet First opening 5036 of pipe 1 and water inlet pipe 2.In third the length of strip of paper used for sealing 5035 less than second in strip of paper used for sealing 5033 length.Each The outside of strip of paper used for sealing 5031 is respectively provided with the first outer strip of paper used for sealing 5038 in first, the outer wall of strip of paper used for sealing 5031 in the first outer strip of paper used for sealing 5038 and first Between form the first aerial drainage layer 5032, the first aerial drainage layer heat exchange fin 5037 be set in the first aerial drainage layer 5032, above-mentioned first Aerial drainage layer 5032 is symmetrical centered on cold medium channel.

As shown in figure 5, the specific structure of thermal medium layer 504 is as follows:

It is made of strip of paper used for sealing 5041 in a pair the spaced apart 4th, forms thermal medium between strip of paper used for sealing 5041 in the adjacent 4th and lead to Road, hot media channel are connected to fuel-displaced end socket 3 and oil inlet end socket 4 respectively.In the 4th at water seal head 1 out, water inlet end socket 2 The outside of interior strip of paper used for sealing 5041 also sets up the second outer strip of paper used for sealing 5042, in the second outer strip of paper used for sealing 5042 and the 4th between the outer wall of strip of paper used for sealing 5041 The second aerial drainage layer 5043 is formed, second aerial drainage layer heat exchange fin 5044 is set in the second aerial drainage layer 5043.

The specific structure of aerial drainage interlayer 505 is as follows:

Current by pass is constituted by the enclosing of strip of paper used for sealing 5055 in strip of paper used for sealing 5053 in strip of paper used for sealing the 5051, the 6th in the 5th and a pair the 7th, The two sides on 5053 surface of strip of paper used for sealing open up the second opening 5054 respectively in the 6th, and the heat exchange of aerial drainage interlayer is also set up in current by pass Fin 5052.

Specific work process of the invention is as follows:

As shown in Figures 1 to 6, it in practical work process, is filled the water by water inlet end socket 201 into water inlet end socket 2, and By the oiling into oil inlet end socket 4 of oil inlet end socket 401, water is flowed into cold medium layer 503, and oil stream enters in thermal medium layer 504, thus Realize heat exchange.Assume that the partition of wherein one layer of cold medium layer 503 is damaged in heat transfer process, the medium after breakage enters next layer In the current by pass of aerial drainage interlayer 505, structural outer is flowed out to by the second opening 5054.If similarly 504 interval of thermal medium layer Plate rupture is also to be flowed out to outside structure into the current by pass of next layer of aerial drainage interlayer 505 by the second opening 5054 Portion.And in same layer channel, the channel of oil and water is separated by strip of paper used for sealing, it is assumed that in cold medium layer 503, the first outer strip of paper used for sealing 5038 is damaged, then oil medium flows out to structural outer by the first aerial drainage layer 5032.If similarly in thermal medium layer 504, second Outer strip of paper used for sealing 5042 is damaged, then aqueous medium flows out structural outer by the second aerial drainage layer 5043.

The configuration of the present invention is simple, it is easy to use, by the way that aerial drainage interlayer and cold medium layer, thermal medium layer to be alternately arranged, make It obtains cold and hot medium when partition occurs damaged and is not easy crossfire, while current by pass is set in cold medium layer, thermal medium layer and is avoided together When layer strip of paper used for sealing breakage, cold and hot medium crossfire arranges that fin plays thermally conductive, drainage and improves in aerial drainage interlayer and current by pass The effect of structural strength, using the present invention can effectively avoid because string leakage caused by master-failure problem, be suitable for safety, The high industry of reliability requirement uses.

Above description is explanation of the invention, is not intended to limit the invention, and limited range of the present invention is referring to right It is required that the present invention can make any type of modification without prejudice to basic structure of the invention.

Claims

1. one kind can prevent the cooler with current by pass of cold and hot medium string leakage, including core (5), Yu Suoshu core (5) The oil sealing out that the left and right sides is respectively set the oil inlet end socket (4) for offering oil inlet end socket (401) and offers fuel-displaced end socket (301) Head (3), the side of the core (5) be also respectively set offer out water seal head (101) go out water seal head (1) and offer into The water inlet end socket (2) of water seal head (201), it is characterised in that: the core (5) includes cover board arranged up and down (501), in upper and lower Multilayer cold medium layer (503), thermal medium layer (504) and aerial drainage interlayer are set from top to bottom between the cover board (501) of arrangement (505), between the cold medium layer (503) and aerial drainage interlayer (505), between thermal medium layer (504) and aerial drainage interlayer (505) with And also set up partition (502) between each aerial drainage interlayer (505) and cover board (501), in Yu Suoshu core (5), in each cold medium layer (503) and the periphery of thermal medium layer (504) also sets up current by pass.

2. the cooler with current by pass that one kind as described in claim 1 can prevent cold and hot medium string leakage, it is characterised in that: The aerial drainage interlayer (505) is arranged between adjacent cold medium layer (503) and thermal medium layer (504), the cover board (501) of top layer Between top layer's cold medium layer (503) and between undermost cover board (501) and undermost cold medium layer (503).

3. the cooler with current by pass that one kind as claimed in claim 2 can prevent cold and hot medium string leakage, it is characterised in that: The specific structure of the cold medium layer (503) is as follows:

By strip of paper used for sealing (5031) in a pair first, in second, to be enclosed cold medium logical for strip of paper used for sealing (5035) in strip of paper used for sealing (5033) and third Cold medium layer heat exchange fin (5034) are arranged in Yu Suoshu cold medium channel in road；A pair of of use is opened up on the cold medium channel In the first opening (5036) for being connected to out water seal head (1) and water inlet end socket (2).

4. the cooler with current by pass that one kind as claimed in claim 3 can prevent cold and hot medium string leakage, it is characterised in that: In the third length of strip of paper used for sealing (5035) less than second in strip of paper used for sealing (5033) length.

5. the cooler with current by pass that one kind as claimed in claim 4 can prevent cold and hot medium string leakage, it is characterised in that: The first outer strip of paper used for sealing (5038) is respectively provided in each first on the outside of strip of paper used for sealing (5031), in the first outer strip of paper used for sealing (5038) and first The first aerial drainage layer (5032) is formed between the outer wall of strip of paper used for sealing (5031), the first aerial drainage layer of setting changes in the first aerial drainage layer (5032) Hot fin (5037).

6. the cooler with current by pass that one kind as claimed in claim 2 can prevent cold and hot medium string leakage, it is characterised in that: The specific structure of the thermal medium layer (504) is as follows:

It is made of strip of paper used for sealing (5041) in a pair the spaced apart 4th, forms thermal medium between strip of paper used for sealing (5041) in the adjacent 4th and lead to Road, the hot media channel are connected to flowline (3) and oil inlet pipe (4) respectively.

7. the cooler with current by pass that one kind as claimed in claim 5 can prevent cold and hot medium string leakage, it is characterised in that: The second outer strip of paper used for sealing (5042), institute are also set up on the outside of strip of paper used for sealing (5041) in the 4th at outlet pipe (1), water inlet pipe (2) It states in the second outer strip of paper used for sealing (5042) and the 4th and forms the second aerial drainage layer (5043) between the outer wall of strip of paper used for sealing (5041), described second lets out Second aerial drainage layer heat exchange fin (5044) is set in fluid layer (5043).

8. the cooler with current by pass that one kind as described in claim 1 can prevent cold and hot medium string leakage, it is characterised in that: The specific structure of the aerial drainage interlayer (505) is as follows:

Constitutes aerial drainage by strip of paper used for sealing (5055) enclosing in strip of paper used for sealing (5053) in strip of paper used for sealing (5051) in the 5th, the 6th and a pair the 7th to lead to Road, the two sides on strip of paper used for sealing (5053) surface open up the second opening (5054) respectively in the 6th, also set up in the current by pass Aerial drainage interlayer heat exchange fin (5052).