CN213748025U

CN213748025U - Copper brazing sheet type heat exchanger heat recovery structure

Info

Publication number: CN213748025U
Application number: CN202022300414.XU
Authority: CN
Inventors: 彭凤珍; 王道国
Original assignee: Foshan Guoxin Heat Exchanger Co ltd
Current assignee: Foshan Guoxin Heat Exchanger Co ltd
Priority date: 2020-10-16
Filing date: 2020-10-16
Publication date: 2021-07-20
Anticipated expiration: 2030-10-16

Abstract

The utility model provides a copper brazing sheet heat exchanger heat recovery structure, which comprises an outer shell, heat exchange box and a plurality of wave board, equidistance interval distribution about a plurality of wave boards are inside heat exchange box, wave board separates heat exchange box inside for a plurality of hot medium flow chamber and a plurality of cold medium flow chamber, a plurality of hot medium flow chamber and the crisscross setting in a plurality of cold medium flow chamber, heat exchange box inside the top and heat exchange box inside downside all set up to cold medium flow chamber, heat exchange box left end face is provided with hot medium shunt tubes and cold medium shunt tubes, the hot medium shunt tubes sets up at cold medium shunt tubes rear side, heat exchange box right-hand member face is provided with hot medium and assembles the pipe and the cold medium assembles the pipe, hot medium assembles the pipe setting and assembles the pipe rear side at the cold medium, compare with prior art, the utility model discloses following beneficial effect has: simple structure, convenient to use, the heat exchange is effectual, and work efficiency is high.

Description

Copper brazing sheet type heat exchanger heat recovery structure

Technical Field

The utility model relates to a copper borer plate heat exchanger heat recovery structure belongs to production facility technical field.

Background

The plate heat exchanger is a high-efficiency heat exchanger formed by stacking a series of metal sheets with certain corrugated shapes. Thin rectangular channels are formed between the various plates through which heat is exchanged. The plate heat exchanger is an ideal device for heat exchange of liquid-liquid and liquid-vapor. The heat exchanger has the characteristics of high heat exchange efficiency, small heat loss, compact and light structure, small occupied area, wide application, long service life and the like. Under the condition of the same pressure loss, the heat transfer coefficient of the heat exchanger is 3-5 times higher than that of the tubular heat exchanger, the occupied area of the heat exchanger is one third of that of the tubular heat exchanger, and the heat recovery rate can reach more than 90 percent. The plate type heat exchanger mainly comprises two types of frames (detachable type) and brazing type, and the plate type mainly comprises a herringbone corrugated plate, a horizontal straight corrugated plate and a tumor-shaped plate.

At present, the traditional plate heat exchanger for recovering high-temperature flue gas heat is complex in structure, the heat dissipation effect on a high-temperature medium cannot be optimal, and the working efficiency is poor. Therefore, the utility model provides a copper brazing sheet heat exchanger heat recovery structure, its simple structure, convenient to use, the heat exchange is effectual, and work efficiency is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a copper borer plate heat exchanger heat recovery structure, through increasing shell, heat exchange box and a plurality of wave board to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a copper brazing sheet formula heat exchanger heat recovery structure, includes shell, heat exchange box and a plurality of wave plate, and is a plurality of the equidistance interval distribution about the wave plate is inside heat exchange box, wave plate is the heat exchange box internal partitioning for the mobile chamber of a plurality of hot medium and the mobile chamber of a plurality of cold medium, and is a plurality of hot medium mobile chamber and the crisscross setting in the mobile chamber of a plurality of cold medium, heat exchange box inside top and the heat exchange box inside downside all set up to cold medium mobile chamber, heat exchange box left end face is provided with hot medium shunt tubes and cold medium shunt tubes, the hot medium shunt tubes sets up at cold medium shunt tubes rear side, heat exchange box right-hand member face is provided with hot medium and assembles the pipe and the cold medium and assembles the pipe, hot medium assembles the pipe setting and assembles the pipe rear side at the cold medium.

Furthermore, the left end and the right end of the corrugated plate are provided with clamping plates, and the corrugated plate is made of copper brazing materials.

Further, the heat medium shunt pipe is provided with a plurality of right ports, the right ports of the heat medium shunt pipe penetrate through the left wall of the heat exchange box from the left end face of the heat exchange box and extend to the left side of the inside of the heat medium flow cavity, the left end face of the heat medium shunt pipe is provided with a total heat medium input pipe, and the left port of the total heat medium input pipe penetrates through the shell and extends to the outside of the shell.

Furthermore, the cold medium shunt tubes are provided with a plurality of right ports, the right ports of the cold medium shunt tubes penetrate through the left wall of the heat exchange box from the left end face of the heat exchange box and extend to the left side of the inner part of the cold medium flowing cavity, the left end face of the cold medium shunt tubes is provided with a total cold medium input tube, and the left ports of the total cold medium input tube penetrate through the shell and extend to the outer part of the shell.

Further, the heat medium converging pipe is provided with a plurality of left ports, the left port of the heat medium converging pipe penetrates through the right wall of the heat exchange box from the right end face of the heat exchange box and extends to the right side of the inside of the heat medium flowing cavity, the right end face of the heat medium flow dividing pipe is provided with a total heat medium output pipe, and the right port of the total heat medium output pipe penetrates through the shell and extends to the outside of the shell.

Furthermore, the cold medium collecting pipe is provided with a plurality of left ports, the left port of the cold medium collecting pipe penetrates through the right wall of the heat exchange box from the right end face of the heat exchange box and extends to the right side of the inner part of the cold medium flowing cavity, the right end face of the cold medium flow dividing pipe is provided with a total cold medium output pipe, and the right port of the total cold medium output pipe penetrates through the shell and extends to the outer part of the shell.

The utility model has the advantages that: the utility model discloses a copper borer plate heat exchanger heat recovery structure, its simple structure, convenient to use, the heat exchange is effectual, and work efficiency is high, more is fit for being applied to production facility technical field.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic front view of a heat recovery structure of a copper brazing sheet heat exchanger according to the present invention;

fig. 2 is a schematic front sectional view of a heat recovery structure of a copper brazing sheet heat exchanger according to the present invention;

fig. 3 is a right side view of the heat recovery structure of the copper brazing sheet heat exchanger of the present invention;

in the figure: 1-total heat medium input pipe, 2-shell, 3-total heat medium output pipe, 4-heat medium shunt pipe, 5-cold medium shunt pipe, 6-heat exchange box, 7-wave plate, 8-clamping plate, 9-cold medium gathering pipe, 10-heat medium gathering pipe, 11-cold medium flowing cavity, 12-heat medium flowing cavity and 13-total cold medium output pipe.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a copper brazing sheet formula heat exchanger heat recovery structure, which comprises an outer shell 2, heat exchange box 6 and a plurality of wave board 7, equidistant interval distribution about a plurality of wave boards 7 is inside in heat exchange box 6, wave board 7 is the mobile chamber 11 of a plurality of hot medium for 6 internal partitioning in heat exchange box 12 and a plurality of cold medium, a plurality of hot medium flow chamber 12 and a plurality of cold medium flow chamber 11 crisscross setting, 6 inside the most downside of the most upside in heat exchange box and heat exchange box all set up to cold

medium flow chamber

11, 6 left end faces in heat exchange box are provided with hot medium shunt tubes 4 and cold medium shunt tubes 5, hot medium shunt tubes 4 set up in cold medium shunt tubes 5 rear side, 6 right-hand member faces in heat exchange box are provided with hot medium and assemble pipe 10 and cold medium and assemble pipe 9, hot medium assembles pipe 10 and sets up and assembles pipe 9 rear side at the cold medium.

The left end and the right end of the corrugated plate 7 are both provided with clamping plates 8, the corrugated plate 7 is made of copper brazing materials, the heat medium shunt pipe 4 is provided with a plurality of right ports, the right port of the heat medium shunt pipe 4 penetrates through the left wall of the heat exchange box 6 from the left end surface of the heat exchange box 6 and extends to the left side in the heat medium flowing cavity 12, the left end surface of the heat medium shunt pipe 4 is provided with a total heat medium input pipe 1, the left port of the total heat medium input pipe 1 penetrates through the shell 2 and extends to the outside of the shell 2, the cold medium shunt pipe 5 is provided with a plurality of right ports, the right port of the cold medium shunt pipe 5 penetrates through the left wall of the heat exchange box 6 from the left end surface of the heat exchange box 6 and extends to the left side in the cold medium flowing cavity 11, the left end surface of the cold medium shunt pipe 5 is provided with a total cold medium input pipe, the left port, the left end of the hot medium collecting pipe 10 penetrates through the right wall of the heat exchange box 6 from the right end face of the heat exchange box 6 and extends to the right side inside the hot medium flowing cavity 12, the right end face of the hot medium shunt pipe 4 is provided with a total hot medium output pipe 3, the right end port of the total hot medium output pipe 3 penetrates through the shell 2 and extends to the outside of the shell 2, the cold medium collecting pipe 9 is provided with a plurality of left end ports, the left end port of the cold medium collecting pipe 9 penetrates through the right wall of the heat exchange box 6 from the right end face of the heat exchange box 6 and extends to the right side inside the cold medium flowing cavity 11, the right end face of the cold medium shunt pipe 5 is provided with a total cold medium output pipe 13, and the right end port of.

As an embodiment of the present invention: the hot medium gets into hot medium shunt tubes 4 from total hot medium input tube 1, later get into hot medium flow chamber 12 insidely, cold medium gets into cold medium shunt tubes 5 from total cold medium input tube, later get into cold medium flow chamber 11 insidely, cold and hot medium carries out the heat exchange through wave board 7, wave board 7 adopts the copper brazing material to make, and heat-conduction effect is good, accelerate the heat exchange, the hot medium after being cooled assembles pipe 10 through hot medium and converges and flow out from total hot medium output tube 3 after, the cold medium after being heated assembles pipe 9 through cold medium and converges and flow out from total cold medium output tube 13, carry out recycle, the utility model discloses simple structure, convenient to use, heat exchange effect is good, and work efficiency is high.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a copper brazing sheet formula heat exchanger heat recovery structure, includes shell, heat exchange box and a plurality of wave board, its characterized in that: a plurality of wave plate equidistance interval distribution about heat exchange box is inside, wave plate is for heat exchange box internal partitioning for a plurality of hot medium flow chamber and a plurality of cold medium flow chamber, and is a plurality of hot medium flow chamber and the crisscross setting in a plurality of cold medium flow chamber, heat exchange box inside the top and heat exchange box inside downside all set up to cold medium flow chamber, heat exchange box left end face is provided with hot medium shunt tubes and cold medium shunt tubes, the hot medium shunt tubes sets up at cold medium shunt tubes rear side, heat exchange box right-hand member face is provided with hot medium and assembles the pipe with the cold medium and assembles the pipe, hot medium assembles the pipe setting and assembles the pipe rear side at the cold medium.

2. The heat recovery structure of a copper brazing sheet type heat exchanger according to claim 1, wherein: the corrugated plate is characterized in that clamping plates are arranged at the left end and the right end of the corrugated plate, and the corrugated plate is made of copper brazing materials.

3. The heat recovery structure of a copper brazing sheet type heat exchanger according to claim 1, wherein: the heat medium shunt pipe is provided with a plurality of right ports, the right port of the heat medium shunt pipe penetrates through the left wall of the heat exchange box from the left end face of the heat exchange box and extends to the left side of the inner part of the heat medium flow cavity, the left end face of the heat medium shunt pipe is provided with a total heat medium input pipe, and the left port of the total heat medium input pipe penetrates through the shell and extends to the outer part of the shell.

4. The heat recovery structure of a copper brazing sheet type heat exchanger according to claim 1, wherein: the cold medium shunt tubes are provided with a plurality of right ports, the right ports of the cold medium shunt tubes penetrate through the left wall of the heat exchange box from the left end face of the heat exchange box and extend to the left side of the inner portion of the cold medium flow cavity, the left end face of the cold medium shunt tubes is provided with a total cold medium input tube, and the left ports of the total cold medium input tube penetrate through the shell and extend to the outer portion of the shell.

5. The heat recovery structure of a copper brazing sheet type heat exchanger according to claim 1, wherein: the heat medium collecting pipe is provided with a plurality of left ports, the left port of the heat medium collecting pipe penetrates through the right wall of the heat exchange box from the right end face of the heat exchange box and extends to the right side of the inner part of the heat medium flowing cavity, the right end face of the heat medium flow dividing pipe is provided with a total heat medium output pipe, and the right port of the total heat medium output pipe penetrates through the shell and extends to the outer part of the shell.

6. The heat recovery structure of a copper brazing sheet type heat exchanger according to claim 1, wherein: the cold medium collecting pipe is provided with a plurality of left ports, the left port of the cold medium collecting pipe penetrates through the right wall of the heat exchange box from the right end face of the heat exchange box and extends to the right side of the inner part of the cold medium flowing cavity, the right end face of the cold medium flow dividing pipe is provided with a total cold medium output pipe, and the right port of the total cold medium output pipe penetrates through the shell and extends to the outer part of the shell.