CN112097550A

CN112097550A - Plate heat exchanger for intelligent integrated heat exchanger unit

Info

Publication number: CN112097550A
Application number: CN202010760641.2A
Authority: CN
Inventors: 余小兵
Original assignee: Hefei Senyin Technology Co ltd
Current assignee: Hefei Senyin Technology Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-12-18

Abstract

The invention discloses a plate heat exchanger for an intelligent integrated heat exchanger unit, and relates to the technical field of heat exchange mechanisms. The plate heat exchanger comprises a front pressing plate and a rear pressing plate, wherein a plurality of front mounting holes are formed in the peripheral side of the front pressing plate, and a plurality of rear mounting holes are formed in the peripheral side of the rear pressing plate; a heat exchange plate group is arranged between the front pressing plate and the rear pressing plate, and bolts are fixedly arranged in the front mounting hole and the rear mounting hole which correspond to each other; a liquid inlet group and a liquid outlet group are arranged on one side surface of the front pressing plate, and a pressing plate bulge is arranged on the other side surface of the front pressing plate opposite to the front pressing plate; the liquid inlet combination liquid outlet group of the front pressing plate is communicated with the pipe body group arranged on the first plate and the second plate. The heat exchange mechanism is formed by the front pressing plate, the rear pressing plate and the plate sheet groups, and heat exchange is completed by refrigerant or water flowing through a cavity formed by different plate sheets; in addition, a bulge and a ring groove are arranged to be matched to complete the sealing between two adjacent plates.

Description

Plate heat exchanger for intelligent integrated heat exchanger unit

Technical Field

The invention belongs to the technical field of heat exchange mechanisms, and particularly relates to a plate heat exchanger for an intelligent integrated heat exchange unit.

Background

The heat exchanger unit consists of heat exchanger, temperature control valve group, circulating pump of draining valve group, electric control cabinet, pedestal, pipeline, valve, instrument, etc. and may have expansion tank, water treating apparatus, water pump, frequency varying control, temperature control valve, remote communication control, etc. installed to constitute one complete heat exchange station. The heat exchanger unit has the advantages of standardized and modularized design, complete configuration, convenient installation, high efficiency and energy conservation. The heat exchanger unit has the advantages of compact structure, reliable operation, simple and visual operation and the like, and is a preferred high-efficiency energy-saving product. The product is suitable for sanitary hot water in houses, institutions, factories and mines, hospitals, hotels, schools and other occasions. The integral heat exchanger unit can be used for water-water exchange and steam-water exchange.

However, most of the existing heat exchange units are not detachable or inconvenient to detach, so that internal elements are not easy to clean and replace, the heat exchange efficiency is reduced due to the fact that the equipment is old, the existing rubber sealing elements are easy to age in a high-temperature environment, and the sealing performance is poor.

Disclosure of Invention

The invention aims to provide a plate heat exchanger for an intelligent integrated heat exchanger unit, which is characterized in that a heat exchange mechanism is formed by a front pressing plate, a rear pressing plate and a plate group, and heat exchange is completed by a refrigerant or water flowing through a cavity formed by different plates; in addition, the bulges and the ring grooves are arranged to be matched to complete the sealing between two adjacent plates, so that the problems that the existing rubber sealing element is easy to age in a high-temperature environment and poor in sealing performance are solved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a plate heat exchanger for an intelligent integrated heat exchanger unit, which comprises a front pressing plate and a rear pressing plate, wherein the front pressing plate is provided with a front pressing plate and a rear pressing plate; a plurality of front mounting holes are formed in the periphery of the front compression plate, and a plurality of rear mounting holes are formed in the periphery of the rear compression plate; a heat exchange plate group is arranged between the front pressing plate and the rear pressing plate, and bolts are fixedly arranged in the front mounting hole and the rear mounting hole which correspond to each other at the same time; a liquid inlet group and a liquid outlet group are arranged on one side surface of the front pressing plate, and a pressing plate bulge is arranged on the other side surface of the front pressing plate; the heat exchange plate group comprises a first plate, a second plate and a bottom plate, wherein one side surface of the first plate is provided with a first plate ring groove, and the other side surface of the first plate opposite to the first plate is provided with a first plate bulge; a second plate ring groove is formed in one side surface of the second plate, and a second plate protrusion is formed in the other opposite side surface of the second plate; a bottom plate ring groove is formed in one side surface of the bottom plate; a first plate sheet annular groove of the first plate sheet is matched and installed with a compression plate bulge of the front compression plate; the first plate piece and the second plate piece are distributed at intervals, a protrusion of the first plate piece is matched and installed with a second plate piece ring groove of the adjacent second plate piece, and meanwhile, a protrusion of the second plate piece is matched and installed with a first plate piece ring groove of the adjacent first plate piece; the back surface of the last sheet I is provided with a bottom plate in a matching way, and a projection of the sheet I is arranged in a matching way with a circular groove of the bottom plate; and the front pressing plate liquid inlet combined liquid outlet group is communicated with the pipe body group arranged on the first plate and the second plate.

Furthermore, the front mounting holes and the rear mounting holes are arranged in a one-to-one correspondence manner.

Furthermore, the liquid inlet of the front compression plate comprises a water inlet and a refrigerant inlet, and the liquid outlet of the front compression plate comprises a refrigerant outlet and a water outlet; the inner port of the water inlet, the inner port of the refrigerant outlet and the inner port of the water outlet are respectively provided with a step hole of a pressure plate; the water inlet and the water outlet are distributed in a diagonal line, and the refrigerant inlet and the refrigerant outlet are distributed in a diagonal line.

Further, the pipe body group that the slab I was equipped with includes two water pipe body one and two refrigerant body one, open on the water pipe body one with lead to the slotted hole one of groove intercommunication, two water pipe body one and two refrigerant body one all are diagonal distribution.

Further, the pipe body group that slab two was equipped with includes two refrigerant body two and two water body two, open on the refrigerant body two slotted hole two with lead to groove two intercommunication, two refrigerant body two and two water body two all are diagonal distribution.

Further, the body group that the bottom plate was equipped with includes two bottom plate refrigerant bodys and two bottom plate body of intaking, it has the bottom plate slotted hole 403 with the logical groove intercommunication of bottom plate to open on the bottom plate refrigerant body, two bottom plate refrigerant bodys and two bottom plate body of intaking all are diagonal distribution.

Furthermore, a first guide block, a second guide block and a bottom plate guide block are respectively arranged on two opposite side surfaces of the first plate, the second plate and the bottom plate; the first guide block, the second guide block and the bottom plate guide block can be clamped outside the bolt.

The invention has the following beneficial effects:

the heat exchange mechanism is formed by the front pressing plate, the rear pressing plate and the plate sheet groups, and heat exchange is completed by refrigerant or water flowing through a cavity formed by different plate sheets; in addition, the bulges and the annular grooves are arranged to be matched to complete the sealing between two adjacent plates, so that the problems of easy aging and poor sealing property of the conventional rubber sealing element in a high-temperature environment are solved.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall explosive structure of the present invention;

FIG. 2 is a front side view of the front hold-down plate of the present invention;

FIG. 3 is a rear side view of the front compacting plate according to the present invention;

FIG. 4 is a front side view of the panel of the present invention;

FIG. 5 is a rear side view of the panel of the present invention;

FIG. 6 is a schematic front side view of a second plate according to the present invention;

FIG. 7 is a rear side view of a second plate according to the present invention;

FIG. 8 is a schematic view of the bottom plate structure of the present invention;

FIG. 9 is a schematic diagram of a rear platen structure according to the present invention;

FIG. 10 is a schematic view of the overall connection structure of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-front hold-down plate, 101-front mounting hole, 102-water inlet, 103-refrigerant inlet, 104-refrigerant outlet, 105-water outlet, 106-hold-down plate protrusion, 107-hold-down plate step hole, 2-plate one, 201-through groove one, 202-water pipe one, 203-groove one, 204-refrigerant pipe one, 205-plate one ring groove, 206-guide block one, 207-plate one protrusion, 208-plate one step hole, 3-plate two, 301-through groove two, 302-refrigerant pipe two, 303-groove two, 304-water pipe two, 305-plate two ring groove, 306-guide block two, 307-plate two protrusion, 308-plate two step hole, 4-bottom plate, 401-bottom plate through groove, 402-bottom plate refrigerant pipe body, 403-bottom plate slotted hole, 404-bottom plate water inlet pipe body, 405-bottom plate annular groove, 406-bottom plate guide block, 5-rear pressing plate, 501-rear mounting hole, 6-bolt, 7-liquid inlet pipe, 8-valve body, 9-circulating water pump, 10-electric cabinet, 11-dirt separator, 12-liquid outlet pipe, 13-water replenishing pump and A-plate heat exchanger.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be considered as limiting the present invention.

Referring to fig. 1 to 10, the present invention is an intelligent integrated heat exchanger unit, including a plate heat exchanger a, a water supply mechanism and a control mechanism, wherein the water supply mechanism is connected to the heat exchanger a through a water pipe, and the control mechanism is electrically connected to the water supply mechanism; the heat exchanger A comprises a front pressing plate 1 and a rear pressing plate 5, a water supply mechanism arranged in the heat exchanger A comprises a valve body 8, a circulating water pump 9, a dirt separator 11 and a water replenishing pump 13, the circulating water pump 9 is respectively communicated with a water inlet 102 and a water outlet 105 of the front pressing plate 1 through a liquid inlet pipe 7 and a liquid outlet pipe 12, the water filtered by the dirt separator 11 is replenished to the circulating water pump 9 through the water replenishing pump 13, and the liquid inlet pipe 7 is provided with the valve body 8 for regulating and controlling the flow; a liquid outlet and a liquid inlet of the cooling liquid circulating pump are respectively communicated with a refrigerant inlet 103 and a refrigerant outlet 104; in addition, the control mechanism is an electric cabinet 10, a control switch is arranged on the electric cabinet 10 and respectively controls the working states of the circulating water pump 9, the water replenishing pump 13 and the cooling liquid circulating pump, and meanwhile, a valve body is arranged on a connecting pipeline, so that the pressure conditions in different pipe bodies can be conveniently observed;

the plate heat exchanger comprises a front pressing plate 1 and a rear pressing plate 5, wherein a plurality of front mounting holes 101 are formed in the periphery of the front pressing plate 1, and a plurality of rear mounting holes 501 are formed in the periphery of the rear pressing plate 5; the front mounting holes 101 and the rear mounting holes 501 are arranged in a one-to-one correspondence manner, so that the front pressing plate 1 and the rear pressing plate 5 can be tightly mounted conveniently, heat exchange plate groups are mounted between the front pressing plate 1 and the rear pressing plate 5, meanwhile, bolts are fixedly mounted in the front mounting holes 101 and the rear mounting holes 501 which correspond to each other, and sealing fixation among different parts is achieved through the mounted bolts;

a liquid inlet group and a liquid outlet group are arranged on one side surface of the front pressing plate 1, and a pressing plate bulge 106 is arranged on the other side surface of the front pressing plate 1; the liquid inlet of the front compression plate 1 comprises a water inlet 102 and a refrigerant inlet 103, and the liquid outlet of the front compression plate 1 comprises a refrigerant outlet 104 and a water outlet 105; the inner port of the water inlet 102, the inner port of the refrigerant inlet 103, the inner port of the refrigerant outlet 104 and the inner port of the water outlet 105 are all provided with a pressure plate step hole 107; the water inlet 102 and the water outlet 105 are distributed in a diagonal line, and the refrigerant inlet 103 and the refrigerant outlet 104 are distributed in a diagonal line; different gates correspond to different water supply pipelines;

the heat exchange plate group comprises a plate I2, a plate II 3 and a bottom plate 4, wherein one side surface of the plate I2 is provided with a plate I ring groove 205, and the other side surface of the plate I2 opposite to the plate I is provided with a plate I protrusion 207; a second plate ring groove 305 is formed in one side surface of the second plate 3, and a second plate bulge 307 is formed in the opposite side surface of the second plate 3; a bottom plate ring groove 405 is arranged on one side surface of the bottom plate 4;

the tube body group arranged on the first plate 2 comprises two first water tube bodies 202 and two first refrigerant tube bodies 204, a first slot hole 203 communicated with the first through groove 201 is formed in the first water tube body 202, and the two first water tube bodies 202 and the two first refrigerant tube bodies 204 are distributed diagonally; the inner ports of the first water pipe body 202 and the first refrigerant pipe body 204 are both provided with a plate piece first step hole 208, and meanwhile, the first water pipe body 202 and the first refrigerant pipe body 204 are both provided with a protruding mechanism, so that the first water pipe body 202 and the first refrigerant pipe body 204 can be conveniently and hermetically mounted with the step holes;

the pipe body group arranged on the second plate 3 comprises two refrigerant pipe bodies II 302 and two water pipe bodies II 304, the refrigerant pipe bodies II 302 are provided with slotted holes II 303 communicated with the through grooves II 301, and the two refrigerant pipe bodies II 302 and the two water pipe bodies II 304 are distributed in a diagonal manner; the second refrigerant pipe body 302 and the second water pipe body 304 are both provided with a second plate stepped hole 308; meanwhile, the second refrigerant pipe body 302 and the second water pipe body 304 are both protruding mechanisms, so that the refrigerant pipe body and the second water pipe body are conveniently installed in a sealing mode through the stepped holes;

the tube body group arranged on the bottom plate 4 comprises two bottom plate refrigerant tube bodies 402 and two bottom plate water inlet tube bodies 404, the bottom plate refrigerant tube bodies 402 are provided with bottom plate slot holes 403 communicated with the bottom plate through grooves, and the two bottom plate refrigerant tube bodies 402 and the two bottom plate water inlet tube bodies 404 are distributed diagonally; the inboard ports of the sole plate refrigerant tube body 402 and the sole plate water inlet tube body 404 are both closed;

a first plate ring groove 205 of the first plate I2 is matched with the pressing plate bulge 106 of the front pressing plate 1 for installation; the arranged plate I2 and the plate II 3 are distributed at intervals, a plate I bulge 207 of the plate I2 is matched and installed with a plate II ring groove 305 of the adjacent plate II 3, and a plate II bulge 307 of the plate II 3 is matched and installed with a plate I ring groove 205 of the adjacent plate I2; the back surface of the last plate I2 is provided with a bottom plate 4 in a matching way, and a plate I bulge 207 of the plate I2 is arranged in a matching way with a bottom plate ring groove 405 of the bottom plate 4; the liquid inlet combined liquid outlet group of the front pressing plate 1 is communicated with the pipe body group arranged on the first plate piece 2 and the second plate piece 3.

Two opposite side surfaces of the first plate 2, the second plate 3 and the bottom plate 4 are respectively provided with a first guide block 206, a second guide block 306 and a bottom plate guide block 406; the first guide block 206, the second guide block 306 and the bottom plate guide block 406 can be clamped on the outer side of the bolt 6.

The heat exchange unit consists of a front pressing plate 1, a first plate 2, a second plate 3, a bottom plate 4, a rear pressing plate 5 and a bolt 6, wherein the plates are sealed by matching of a bulge and a ring groove to separate two cold/hot fluid channels, and cold/hot heat exchange media respectively flow through the channels and exchange heat with the separated plates so as to reach the temperature required by a user. The four corners of each plate are provided with holes, the plate is assembled into a plate bundle to form a fluid distribution pipe and a fluid collection pipe, and after heat exchange of cold/heat media, the cold/heat media flows back from the respective collection pipes and is recycled.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A plate heat exchanger for an intelligent integrated heat exchanger unit comprises a front compression plate (1) and a rear compression plate (5); the method is characterized in that:

a plurality of front mounting holes (101) are formed in the peripheral side of the front compression plate (1), and a plurality of rear mounting holes (501) are formed in the peripheral side of the rear compression plate (5);

a heat exchange fin group is arranged between the front pressing plate (1) and the rear pressing plate (5), and bolts are fixedly arranged in the front mounting hole (101) and the rear mounting hole (501) which correspond to each other;

a liquid inlet group and a liquid outlet group are arranged on one side surface of the front pressing plate (1), and a pressing plate bulge (106) is arranged on the other opposite side surface of the front pressing plate (1);

the heat exchange plate group comprises a plate I (2), a plate II (3) and a bottom plate (4), wherein a plate I ring groove (205) is formed in one side face of the plate I (2), and a plate I protrusion (207) is formed in the other opposite side face of the plate I (2); a second plate ring groove (305) is formed in one side surface of the second plate (3), and a second plate protrusion (307) is formed in the other opposite side surface of the second plate (3); a bottom plate ring groove (405) is formed in one side face of the bottom plate (4);

a first plate sheet annular groove (205) of the first plate sheet (2) is matched and installed with a pressing plate bulge (106) of the front pressing plate (1);

the first plate (2) and the second plate (3) are arranged at intervals, a first plate bulge (207) of the first plate (2) is matched and mounted with a second plate ring groove (305) of the adjacent second plate (3), and a second plate bulge (307) of the second plate (3) is matched and mounted with a first plate ring groove (205) of the adjacent first plate (2);

the back of the last plate I (2) is provided with a bottom plate (4) in a matching way, and a plate I bulge (207) of the plate I (2) is arranged in a matching way with a bottom plate ring groove (405) of the bottom plate (4);

and the liquid inlet combined liquid outlet group of the front pressing plate (1) is communicated with the pipe body group arranged on the plate I (2) and the plate II (3).

2. A plate heat exchanger for an intelligent integrated heat exchanger unit according to claim 1, wherein the front mounting holes (101) are provided in one-to-one correspondence with the rear mounting holes (501).

3. A plate heat exchanger for an intelligent integrated heat exchanger unit according to claim 1, wherein the liquid inlet of the front compacting plate (1) comprises a water inlet (102), a refrigerant inlet (103);

the liquid outlet of the front pressing plate (1) comprises a refrigerant outlet (104) and a water outlet (105); the inner port of the water inlet (102), the inner port of the refrigerant inlet (103), the inner port of the refrigerant outlet (104) and the inner port of the water outlet (105) are provided with pressure plate step holes (107);

the water inlet (102) and the water outlet (105) are distributed in a diagonal manner, and the refrigerant inlet (103) and the refrigerant outlet (104) are distributed in a diagonal manner.

4. A plate heat exchanger for an intelligent integrated heat exchanger unit according to claim 1, wherein the plate I (2) is provided with a pipe group comprising two water pipe I (202) and two refrigerant pipe I (204), the water pipe I (202) is provided with a slot I (203) communicated with the through slot I (201), and the two water pipe I (202) and the two refrigerant pipe I (204) are distributed diagonally.

5. The plate heat exchanger for the intelligent integrated heat exchanger unit as recited in claim 1, wherein the plate II (3) is provided with a pipe group comprising two refrigerant pipe bodies II (302) and two water pipe bodies II (304), the refrigerant pipe bodies II (302) are provided with slot holes II (303) communicated with the slot grooves II (301), and the two refrigerant pipe bodies II (302) and the two water pipe bodies II (304) are distributed diagonally.

6. A plate heat exchanger for an intelligent integrated heat exchanger unit according to claim 1, wherein the base plate (4) is provided with a tube group comprising two base plate refrigerant tubes (402) and two base plate water inlet tubes (404), the base plate refrigerant tubes (402) are provided with base plate slots (403) communicated with the base plate through grooves, and the two base plate refrigerant tubes (402) and the two base plate water inlet tubes (404) are distributed diagonally.

7. A plate heat exchanger for an intelligent integrated heat exchanger unit according to claim 1, wherein the first plate (2), the second plate (3) and the bottom plate (4) are provided with a first guide block (206), a second guide block (306) and a bottom plate guide block (406) on two opposite sides respectively;

the first guide block (206), the second guide block (306) and the bottom plate guide block (406) can be clamped on the outer side of the bolt (6).