CN216592878U - Heat exchanger with quick assembly disassembly structure - Google Patents

Abstract

The utility model discloses a heat exchanger with a quick-dismounting structure, comprising: the heat exchanger comprises a heat exchanger main body mechanism and a first metal impact-resistant cover baffle plate arranged on the upper end face of the heat exchanger main body mechanism; the second metal impact-resistant cover blocking plate is arranged on the lower end face of the heat exchanger main body mechanism and is fixedly connected with the lower opening of the heat exchanger main body mechanism; the first ninety degrees folded sheet, it sets up the preceding terminal surface of the resistant lid shielding plate of assaulting of first metal, the first ninety degrees folded sheet rotates through the rotatory axis body of first restoring to the throne and is connected with the preceding terminal surface of the resistant lid shielding plate of assaulting of first metal. It has realized the device when dismantling, can reach the effect of disassembling completely fast to the effectual in-process of having avoided current heat exchanger device to use, at every turn during overhaul of the equipments, clearance, the operation on dismantling is very loaded down with trivial details, convenient problem inadequately.

Description

Heat exchanger with quick assembly disassembly structure

Technical Field

The utility model relates to the technical field of heat exchangers, in particular to a heat exchanger with a quick-dismounting structure.

Background

Heat exchangers, also known as heat exchangers or heat exchange devices, are devices for transferring heat from a hot fluid to a cold fluid to meet specified process requirements, and are an industrial application of convective and conductive heat transfer. Heat exchangers can be classified in different ways. According to the operation process, the heat-storage type heat-pump water heater can be divided into three categories of dividing wall type, mixing type and heat-storage type or regenerative type; the surface can be classified into a compact type and a non-compact type according to the degree of compactness of the surface. The stainless steel heat exchanger is made of stainless steel materials, has good oxidation resistance, is safe and sanitary, and can be widely applied to the fields of food, medicine, heating, domestic water, air conditioner backwater and the like. The eddy current hot film heat exchanger adopts a stainless steel heat exchanger of the latest eddy current hot film heat transfer technology, and the heat transfer effect is improved by changing the motion state of fluid. The stainless steel heat exchanger is made of stainless steel materials, has good oxidation resistance, is safe and sanitary, and can be widely applied to the fields of food, medicine, heating, domestic water, air conditioner backwater and the like.

The existing heat exchanger device has the problems that the operation of disassembly is very complicated and is not convenient enough when equipment is overhauled and cleaned every time in the using process.

We have therefore proposed a heat exchanger having a quick-release structure so as to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

The utility model also aims to provide the heat exchanger with the quick disassembly and assembly structure, so that the device can quickly achieve the effect of complete disassembly when being disassembled, thereby effectively avoiding the problems that the prior heat exchanger device is very complicated in disassembly operation and not convenient enough when equipment is overhauled and cleaned every time in the using process.

In order to achieve the above objects and other objects, the present invention adopts the following technical solutions:

a heat exchanger with a quick-disconnect structure, comprising:

the heat exchanger comprises a heat exchanger main body mechanism and a first metal impact-resistant cover shielding plate arranged on the upper end surface of the heat exchanger main body mechanism;

the second metal impact-resistant cover shielding plate is arranged on the lower end face of the heat exchanger main body mechanism and is fixedly connected with the lower opening of the heat exchanger main body mechanism;

the first ninety-degree folding plate is arranged on the front end face of the first metal impact-resistant cover shielding plate and is in rotary connection with the front end face of the first metal impact-resistant cover shielding plate through a first reset rotary shaft body;

the fourth ninety-degree folding plate is arranged on the rear end face of the first metal impact-resistant cover shielding plate and is in rotary connection with the rear end face of the first metal impact-resistant cover shielding plate through a second reset rotary shaft body;

the second ninety-degree folding plate is arranged on the front end face of the second metal impact-resistant cover shielding plate and is in rotary connection with the front end face of the second metal impact-resistant cover shielding plate through a fourth reset rotary shaft body;

and the third ninety-degree folding plate is arranged on the rear end face of the second metal impact-resistant cover shielding plate and is rotatably connected with the rear end face of the second metal impact-resistant cover shielding plate through a third reset rotary shaft body.

Preferably, the other end of the heat exchanger main body mechanism is provided with two outlet ports, and the two outlet ports are fixedly connected with the other end of the heat exchanger main body mechanism.

Preferably, the first metal is able to bear or endure to strike the closing cap shielding plate up end and all is provided with the fixed connection member, and fixed connection member is provided with two, two the fixed connection member all passes through second installation hex bolts and the resistant impact closing cap shielding plate up end threaded connection of first metal, and second installation hex bolts is provided with six, two the inboard inside of fixed connection member all is provided with the second preformed hole groove, and the second preformed hole groove is provided with six, six the inside at the second preformed hole groove is all installed to second installation hex bolts.

Preferably, the inside of heat exchanger main part mechanism is provided with interior cavity, the inside of interior cavity is provided with radiating fin, and radiating fin is provided with a plurality of, a plurality of radiating fin's inside all is provided with connects pipeline, and connects pipeline and be provided with two.

Preferably, the inner walls of the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate are all provided with a plurality of buffer rubber gaskets, and the buffer rubber gaskets are in hot-melt connection with the inner walls of the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate.

Preferably, the inside of ninety degree folded sheet of second and ninety degree folded sheet of fourth all is provided with first reservation hole groove, and first reservation hole groove is provided with a plurality of, ninety degree folded sheet of second and ninety degree folded sheet of fourth all through first installation hex bolts and first ninety degree folded sheet and the threaded connection of the nineteenth ten degree folded sheet of third, and first installation hex bolts is provided with a plurality of, a plurality of first installation hex bolts all installs the inside at first reservation hole groove.

The utility model at least comprises the following beneficial effects:

1. according to the utility model, through the arrangement of the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate, the fourth ninety-degree folding plate, the first reset rotating shaft arranged between the first ninety-degree folding plate and the first metal impact-resistant cover shielding plate, the second reset rotating shaft arranged between the fourth ninety-degree folding plate and the first metal impact-resistant cover shielding plate, the third reset rotating shaft arranged between the third ninety-degree folding plate and the second metal impact-resistant cover shielding plate, and the fourth reset rotating shaft arranged between the second ninety-degree folding plate and the second metal impact-resistant cover shielding plate, when the device needs to be disassembled for maintenance and cleaning, the device can be disassembled only by disassembling an external first installation hexagon bolt, and through the first reset rotating shaft, the second metal impact-resistant cover shielding plate and the first installation hexagon bolt, The rotatory axis body that resets of second rotatory axis body, third rotatory axis body that resets and the rotatory axis body that resets of fourth reset and carry out quick fifty percent discount with the board and dismantle, avoid heat exchanger device at the in-process that uses, during overhaul of the equipments, clearance at every turn, the operation on dismantling is very loaded down with trivial details, convenient problem inadequately.

2. Through the component placing box body, the components such as the processor and the like which are important to the device can be effectively placed in the component placing box body, so that the influence of the components on the operation of other objects in the heat exchanger during the operation is reduced to the maximum extent, and the components are guaranteed to play the best state and function.

Drawings

FIG. 1 is a schematic structural view of a heat exchanger with a quick-release structure according to the present invention;

FIG. 2 is a schematic view of the interior of a heat exchanger with a quick-release structure according to the present invention;

fig. 3 is a schematic view of a partial structure of a heat dissipation fin provided by the present invention.

Detailed Description

The present invention is described in detail below with reference to the attached drawings so that those skilled in the art can implement the utility model by referring to the description.

As shown in fig. 1 to 3, a heat exchanger having a quick-release structure includes:

the heat exchanger comprises a heat exchanger main body mechanism 1 and a first metal impact-resistant cover shielding plate 2 arranged on the upper end surface of the heat exchanger main body mechanism 1; the second metal impact-resistant cover shielding plate 10 is arranged on the lower end face of the heat exchanger main body mechanism 1 and is fixedly connected with the lower opening of the heat exchanger main body mechanism 1; the first ninety-degree folding plate 3 is arranged on the front end face of the first metal impact-resistant cover shielding plate 2, and the first ninety-degree folding plate 3 is rotatably connected with the front end face of the first metal impact-resistant cover shielding plate 2 through a first reset rotating shaft body 20; a fourth ninety-degree folding plate 12 disposed on the rear end surface of the first metal impact-resistant cover shielding plate 2, wherein the fourth ninety-degree folding plate 12 is rotatably connected to the rear end surface of the first metal impact-resistant cover shielding plate 2 through a second reset rotary shaft 21; the second ninety-degree folding plate 9 is arranged on the front end face of the second metal impact-resistant cover shielding plate 10, and the second ninety-degree folding plate 9 is rotatably connected with the front end face of the second metal impact-resistant cover shielding plate 10 through a fourth reset rotating shaft body 23; and a third ninety-degree folding plate 11 disposed on the rear end surface of the second metal impact-resistant cover shielding plate 10, wherein the third ninety-degree folding plate 11 is rotatably connected to the rear end surface of the second metal impact-resistant cover shielding plate 10 through a third reset rotary shaft 22.

In the above scheme, when the device is disassembled, overhauled and cleaned, only the first external mounting hexagon bolt is required to be disassembled, and after the disassembly, the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate which are arranged can be rapidly disassembled in a folded manner.

In a preferable scheme, one end of the heat exchanger main body mechanism 1 is provided with two inlet ports 18, two inlet ports 18 are fixedly connected with one end of the heat exchanger main body mechanism 1, the front end face of the second ninety-degree folding plate 9 is provided with the component placing box body 6, and the component placing box body 6 is fixedly connected with the front end face of the second ninety-degree folding plate 9.

In the above scheme, the element placing box body can effectively and safely place elements such as a processor and the like, and the influence of other objects on the element placing box body is avoided.

In a preferable scheme, the other end of the heat exchanger main body mechanism 1 is provided with two outlet ports 19, and both the outlet ports 19 are fixedly connected with the other end of the heat exchanger main body mechanism 1.

In the scheme, the two inlet ports and the two second ninety-degree folding plates are arranged, so that the device can keep the internal gas to be efficiently circulated when in operation.

In an optimal scheme, both sides of the upper end face of the first metal impact-resistant sealing cover baffle plate 2 are provided with two fixed connection rod pieces 7, the two fixed connection rod pieces 7 are in threaded connection with the upper end face of the first metal impact-resistant sealing cover baffle plate 2 through second mounting hexagonal bolts 17, the second mounting hexagonal bolts 17 are provided with six and two second reserved hole grooves 8 are formed in the inner side of the fixed connection rod pieces 7, the second reserved hole grooves 8 are provided with six, and the second mounting hexagonal bolts 17 are installed in the second reserved hole grooves 8.

In the scheme, the arrangement of the fixed connecting rod piece can effectively fix the outside through the fixed connecting rod piece, so that the whole heat exchanger main body mechanism is firmly fixed.

In a preferred scheme, the inside of heat exchanger main body mechanism 1 is provided with interior cavity 13, the inside of interior cavity 13 is provided with radiating fin 15, and radiating fin 15 is provided with a plurality of, a plurality of radiating fin 15's inside all is provided with connects pipeline 16, and connects pipeline 16 and be provided with two.

In the scheme, the arrangement of the radiating fins can discharge heat generated by the operation in the device to the maximum extent.

In a preferable scheme, the inner walls of the first metal impact-resistant cover shielding plate 2, the second metal impact-resistant cover shielding plate 10, the first ninety-degree folding plate 3, the second ninety-degree folding plate 9, the third ninety-degree folding plate 11 and the fourth ninety-degree folding plate 12 are all provided with a plurality of buffer rubber gaskets 14, and the plurality of buffer rubber gaskets 14 are all in hot-melt connection with the inner walls of the first metal impact-resistant cover shielding plate 2, the second metal impact-resistant cover shielding plate 10, the first ninety-degree folding plate 3, the second ninety-degree folding plate 9, the third ninety-degree folding plate 11 and the fourth ninety-degree folding plate 12.

In the above scheme, the arrangement of the buffer rubber gasket can effectively reduce the rigid touch between the plates when the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate are folded and reset.

In a preferred scheme, the inside of the second ninety-degree folding plate 9 and the fourth ninety-degree folding plate 12 is provided with a first reserved hole slot 4, the first reserved hole slot 4 is provided with a plurality of holes, the second ninety-degree folding plate 9 and the fourth ninety-degree folding plate 12 are in threaded connection with the first ninety-degree folding plate 3 and the third ninety-degree folding plate 11 through a first mounting hexagonal bolt 5, the first mounting hexagonal bolt 5 is provided with a plurality of holes, and the first mounting hexagonal bolt 5 is installed inside the first reserved hole slot 4.

In the scheme, the arrangement of the first mounting hexagon bolt enables the operation to be convenient and fast during connection and mounting. While embodiments of the utility model have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the utility model pertains, and further modifications may readily be made by those skilled in the art, it being understood that the utility model is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (6)

1. A heat exchanger having a quick-disconnect structure, comprising:

the heat exchanger comprises a heat exchanger main body mechanism and a first metal impact-resistant cover shielding plate arranged on the upper end surface of the heat exchanger main body mechanism;

the second metal impact-resistant cover shielding plate is arranged on the lower end face of the heat exchanger main body mechanism and is fixedly connected with the lower opening of the heat exchanger main body mechanism;

the first ninety-degree folding plate is arranged on the front end face of the first metal impact-resistant cover shielding plate and is in rotary connection with the front end face of the first metal impact-resistant cover shielding plate through a first reset rotary shaft body;

the fourth ninety-degree folding plate is arranged on the rear end face of the first metal impact-resistant cover shielding plate and is in rotary connection with the rear end face of the first metal impact-resistant cover shielding plate through a second reset rotary shaft body;

the second ninety-degree folding plate is arranged on the front end face of the second metal impact-resistant cover shielding plate and is in rotary connection with the front end face of the second metal impact-resistant cover shielding plate through a fourth reset rotary shaft body;

and the third ninety-degree folding plate is arranged on the rear end face of the second metal impact-resistant cover shielding plate and is rotatably connected with the rear end face of the second metal impact-resistant cover shielding plate through a third reset rotary shaft body.

2. The heat exchanger with a quick-release structure as claimed in claim 1, wherein the other end of the heat exchanger main body mechanism is provided with two outlet ports, and both of the outlet ports are fixedly connected with the other end of the heat exchanger main body mechanism.

3. The heat exchanger with a quick-release structure as claimed in claim 1, wherein two fixed connection members are provided on both sides of the upper end surface of the first metal impact-resistant cover shielding plate, two fixed connection members are provided, two fixed connection members are in threaded connection with the upper end surface of the first metal impact-resistant cover shielding plate through second mounting hexagonal bolts, six second mounting hexagonal bolts are provided, two second preformed holes are provided in the inner sides of the fixed connection members, six second mounting hexagonal bolts are provided, and six second mounting hexagonal bolts are mounted in the second preformed holes.

4. The heat exchanger with the quick assembly disassembly structure as claimed in claim 1, wherein the inside of the main body mechanism of the heat exchanger is provided with an inner cavity, the inside of the inner cavity is provided with a plurality of heat dissipation fins, the inside of each of the plurality of heat dissipation fins is provided with a connecting conveying pipe, and the number of the connecting conveying pipes is two.

5. The heat exchanger with a quick-release structure as claimed in claim 1, wherein the inner walls of the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate are provided with cushion rubber gaskets, and the cushion rubber gaskets are provided with a plurality of cushion rubber gaskets, and the plurality of cushion rubber gaskets are thermally fused with the inner walls of the first metal impact-resistant cover shielding plate, the second metal impact-resistant cover shielding plate, the first ninety-degree folding plate, the second ninety-degree folding plate, the third ninety-degree folding plate and the fourth ninety-degree folding plate.

6. The heat exchanger with a quick-release structure as claimed in claim 1, wherein the second ninety-degree folding plate and the fourth ninety-degree folding plate are each provided with a first preformed hole slot therein, and the first preformed hole slot is provided with a plurality of ones, the second ninety-degree folding plate and the fourth ninety-degree folding plate are each in threaded connection with the first ninety-degree folding plate and the third ninety-degree folding plate through a first mounting hexagonal bolt, and the first mounting hexagonal bolt is provided with a plurality of ones, and the plurality of first mounting hexagonal bolts are each mounted inside the first preformed hole slot.

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