CN219433871U - But quick split formula heat exchanger subassembly - Google Patents

Abstract

The utility model discloses a heat exchanger component capable of being quickly detached, which comprises a heat exchanger body and sealing locking covers arranged at the left end and the right end of the heat exchanger body; a first feeding pipe body is fixedly arranged on the left side of the top surface of the heat exchanger body, and a first discharging pipe body is fixedly arranged on the right side of the bottom surface of the heat exchanger body; further comprises: bearing brackets are fixedly arranged on the left side and the right side of the bottom surface of the heat exchanger body, and main quick-release flanges are fixedly arranged on the left end and the right end of the heat exchanger body; the inner ends of the sealing locking covers which are symmetrically arranged are fixedly provided with auxiliary quick-dismantling flanges. This but quick split formula heat exchanger subassembly can realize the independent dismantlement installation of heat exchange tube through the location in the inside body loading tray of sealed locking cover to install heat exchanger body and sealed locking cover through two quick detach flanges of mutual butt, and then realize removing the loaded down with trivial details connection of bolt from and promote the efficiency of split subassembly.

Description

But quick split formula heat exchanger subassembly

Technical Field

The utility model relates to the technical field of heat exchangers, in particular to a heat exchanger component capable of being rapidly disassembled.

Background

The heat exchanger is a device for transferring part of heat of hot fluid to cold fluid, wherein the tube-type heat exchanger is formed by enabling the fluid to enter from a connecting pipe of an end socket, flow in a heat exchange pipe and flow out from an outlet pipe at the other end of the end socket, and the tube-type heat exchanger is assembled through a plurality of groups of bolts;

the publication number CN215177117U discloses a groove aluminum type heat exchanger convenient to install, two mediums are respectively introduced into the inside and the outside of the heat exchange tube, so that energy of the two mediums can be converted, however, when the heat exchanger body needs to be moved, the disassembly part needs to be opened to disassemble the heat exchanger body, and then the support part is moved to a proper position, so that the heat exchanger body is re-installed on the disassembly part and fixed, and the effect of convenience in disassembly and assembly of the heat exchanger body is achieved;

however, the heat exchanger has the following problems in the actual use process: the supporting shoe through the outer end of installing can body is connected extension spring and connecting rod, reaches the effect of spacing installation through the connecting rod, but is heated and internal pressure increases because of heat exchanger subassembly working process, and then the inside subassembly of heat exchanger is difficult to play fixed effect through the connection of gag lever post, and inside heat exchange tube also needs the bolted connection operation through current means too complicated when changing the mediation simultaneously for the split operation is wasted time and energy.

We have therefore proposed a rapidly detachable heat exchanger assembly in order to solve the problems set out above.

Disclosure of Invention

The utility model aims to provide a quick-split type heat exchanger component, which is used for solving the problems that the prior art provides that the expansion spring is connected with the connecting rod through the supporting block at the outer end of the installation tank body, and the limiting installation effect is achieved through the connecting rod, but the heat and the internal pressure are increased in the working process of the heat exchanger component, so that the internal component of the heat exchanger is difficult to achieve the fixing effect through the connection of the limiting rod, and the internal heat exchange pipe is too complex to be connected through the bolts of the prior art when the internal heat exchange pipe is replaced and dredged, so that the splitting operation is time-consuming and labor-consuming.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a heat exchanger component capable of being quickly detached comprises a heat exchanger body and sealing locking covers arranged at the left end and the right end of the heat exchanger body;

a first feeding pipe body is fixedly arranged on the left side of the top surface of the heat exchanger body, and a first discharging pipe body is fixedly arranged on the right side of the bottom surface of the heat exchanger body;

further comprises:

bearing brackets are fixedly arranged on the left side and the right side of the bottom surface of the heat exchanger body, and main quick-release flanges are fixedly arranged on the left end and the right end of the heat exchanger body;

the inner ends of the sealing locking covers are fixedly provided with auxiliary quick-release flange plates, and the central positions of the inner parts of the sealing locking covers are fixedly provided with pipe body positioning plates.

Preferably, the whole heat exchanger body is provided with a cylindrical structure with two open ends, the left side and the right side of the inside of the heat exchanger body are fixedly provided with pipe body bearing plates, and heat exchange pipes for medium heat exchange are equidistantly arranged in the heat exchanger body.

Preferably, the left end and the right end of the heat exchange tube body which are installed at equal intervals are penetrated and arranged outside the heat exchanger body, the heat exchange tube body which is installed at equal intervals is penetrated and arranged inside the tube body bearing plate, and the heat exchange tube body which is installed at equal intervals is fixed and limited through the tube body bearing plates on the outer walls of the left side and the right side.

Preferably, the sealing locking covers which are symmetrically installed are all in a truncated cone-shaped structure with an open inner end, the upper end chalk and the lower end chalk of the right sealing locking cover are fixedly provided with a second feeding pipe body and a second discharging pipe body, the sealing locking covers on the left side and the right side are arranged in a transverse coaxial distribution manner with the heat exchanger body, and the heat exchanger body is sealed through the sealing locking covers on the left side and the right side.

Preferably, the inside equidistance fixed mounting of body positioning disk of symmetry installation has main location to take over, and the inside slip of equidistant installation main location to take over is provided with vice location to take over to the outer end of equidistant installation vice location to take over and the outer end of main location to take over are connected through first spacing spring each other.

Preferably, the inside slip of vice location to take over of equidistance installation is provided with sealed neck ring, and the inner wall of vice location to take over of equidistance installation and the outer end of sealed neck ring pass through second spacing spring interconnect to the inside sealed neck ring laminating of vice location to take over after the installation is connected in the outer end of heat exchange tube body, seals heat exchange tube body and vice location to take over through sealed neck ring.

Preferably, the inner end of the main quick-release flange plate and the inner end of the auxiliary quick-release flange plate are provided with pressure cross plates in a sliding manner at equal distances, the pressure cross plates installed at equal intervals are connected with the main quick-release flange plate and the auxiliary quick-release flange plate through reset springs, and the outer wall of the main quick-release flange plate and the outer wall of the auxiliary quick-release flange plate are respectively hinged with a main overturning locking buckle and an auxiliary overturning locking buckle at equal distances.

Preferably, the outer ends of the main overturning locking buckles and the outer ends of the auxiliary overturning locking buckles which are installed at equal intervals are respectively connected to the outer ends of the pressure transverse plates in a fitting mode, and the inner ends of the main overturning locking buckles and the inner ends of the auxiliary overturning locking buckles after overturning are respectively connected to the outer wall of the main quick-dismantling flange plate and the outer wall of the auxiliary quick-dismantling flange plate in a clamping mode.

Compared with the prior art, the utility model has the beneficial effects that: this but quick split formula heat exchanger subassembly can realize the independent dismantlement installation of heat exchange tube through the location in the inside body loading tray of sealed locking cover to install heat exchanger body and sealed locking cover through two quick detach flanges of mutual butt, and then realize removing the loaded down with trivial details connection of bolt from promoting the efficiency of split subassembly, its concrete content is as follows:

1. the auxiliary positioning butt joint pipe connected with the first limiting spring is sleeved at the end part of the heat exchange pipe body in a sliding mode, and the sealing collar connected with the second limiting spring is abutted with the end part of the heat exchange pipe body, so that heat loss in the heat exchange process is prevented, and meanwhile, when the independent heat exchange pipe body is disassembled, the auxiliary positioning butt joint pipe is only required to slide outwards, so that the auxiliary positioning butt joint pipe is separated from the heat exchange pipe body to be replaced;

2. the sealing locking cover is connected with the heat exchanger body through the main quick-release flange plate and the auxiliary quick-release flange plate, the pressure transverse plates which are mutually extruded move towards the outer end, the outer ends of the pressure transverse plates are contacted with the main overturning locking buckles hinged to the outer wall of the main quick-release flange plate and the auxiliary overturning locking buckles hinged to the outer wall of the auxiliary quick-release flange plate inwards overturn, and then the main overturning locking buckles are locked to the outer wall of the auxiliary quick-release flange plate through the main overturning locking buckles installed at equal intervals, and the auxiliary overturning locking buckles installed at equal intervals are locked to the outer wall of the main quick-release flange plate.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a three-dimensional side sectional structure of a heat exchanger body according to the present utility model;

FIG. 3 is a schematic diagram of a three-dimensional side cross-sectional structure of the seal lock cover of the present utility model;

FIG. 4 is a schematic perspective view of a main positioning butt joint pipe according to the present utility model;

FIG. 5 is a schematic diagram of a three-dimensional side cross-sectional structure of a secondary positioning butt joint pipe according to the present utility model;

FIG. 6 is a schematic diagram of a connection structure of a primary quick-release flange and a secondary quick-release flange according to the present utility model;

fig. 7 is a schematic perspective view of a main flip lock buckle according to the present utility model.

In the figure: 1. a heat exchanger body; 2. sealing the locking cover; 3. a first feed tube body; 4. the first discharging pipe body; 5. a load bearing bracket; 6. a main quick-release flange; 7. an auxiliary quick-release flange plate; 8. a tube positioning disk; 9. a tube body bearing plate; 10. a heat exchange tube body; 11. a second feed tube body; 12. the second discharging pipe body; 13. a main positioning butt joint pipe; 14. an auxiliary positioning butt joint pipe; 15. a first limit spring; 16. a second limit spring; 17. a pressure cross plate; 18. a return spring; 19. a main overturning locking buckle; 20. an auxiliary overturning locking buckle; 21. sealing the collar.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides the following technical solutions: a heat exchanger component capable of being quickly detached comprises a heat exchanger body 1 and sealing locking covers 2 arranged at the left end and the right end of the heat exchanger body 1; the left side of the top surface of the heat exchanger body 1 is fixedly provided with a first feeding pipe body 3, and the right side of the bottom surface of the heat exchanger body 1 is fixedly provided with a first discharging pipe body 4; the upper end and the lower end of the right sealing locking cover 2 are fixedly provided with a second feeding pipe body 11 and a second discharging pipe body 12; as shown in fig. 1-2, heat and fluid medium are respectively output through a first feeding pipe body 3 and a first discharging pipe body 4 which are arranged on the upper side and the lower side of the heat exchanger body 1, and a second feeding pipe body 11 and a second discharging pipe body 12 which are arranged on the upper side and the lower side of the sealing locking cover 2;

bearing brackets 5 are fixedly arranged on the left side and the right side of the bottom surface of the heat exchanger body 1, pipe body bearing plates 9 are fixedly arranged on the left side and the right side of the inside of the heat exchanger body 1, and heat exchange pipes 10 for medium heat exchange are equidistantly arranged in the heat exchanger body 1; as shown in fig. 2, the heat exchanger body 1 is supported by bearing brackets 5 on the left and right sides of the bottom surface so as to be installed in different required places for working, and tube bearing plates 9 on the left and right sides of the inside of the heat exchanger body 1 load heat exchange tubes 10;

the left end and the right end of the heat exchanger body 1 are fixedly provided with main quick-release flanges 6; the inner ends of the symmetrically-installed sealing locking covers 2 are fixedly provided with auxiliary quick-release flange plates 7, and the central positions of the inner parts of the symmetrically-installed sealing locking covers 2 are fixedly provided with pipe body positioning plates 8;

the inside of the symmetrically installed pipe body positioning disk 8 is fixedly provided with main positioning butt-joint pipes 13 at equal intervals, auxiliary positioning butt-joint pipes 14 are arranged in the inside of the main positioning butt-joint pipes 13 at equal intervals in a sliding penetrating manner, and the outer ends of the auxiliary positioning butt-joint pipes 14 and the outer ends of the main positioning butt-joint pipes 13 which are installed at equal intervals are connected with each other through first limiting springs 15; the inside of the equidistantly installed auxiliary positioning butt joint pipe 14 is provided with a sealing collar 21 in a sliding manner, and the inner wall of the equidistantly installed auxiliary positioning butt joint pipe 14 is connected with the outer end of the sealing collar 21 through a second limiting spring 16; as shown in fig. 3-5, the heat exchanger body 1 is supported by bearing brackets 5 on the left and right sides of the bottom surface so as to be installed in different required places for working, and tube bearing plates 9 on the left and right sides of the inside of the heat exchanger body 1 load heat exchange tubes 10;

the inner end of the main quick-release flange 6 and the inner end of the auxiliary quick-release flange 7 are provided with pressure transverse plates 17 in a sliding manner at equal distances, the pressure transverse plates 17 which are equidistantly arranged are connected with the main quick-release flange 6 and the auxiliary quick-release flange 7 through reset springs 18, and a main turnover locking buckle 19 and an auxiliary turnover locking buckle 20 are respectively hinged between the outer wall of the main quick-release flange 6 and the outer wall of the auxiliary quick-release flange 7 at equal distances; the outer ends of the main overturning locking buckles 19 and the auxiliary overturning locking buckles 20 which are equidistantly arranged are respectively connected with the outer ends of the pressure transverse plates 17 in a fitting way; as shown in fig. 1 and 6-7, after the pressure cross plates 17 connected with the inner return springs 18 are mutually pressed, the pressure cross plates 17 move to the outer ends, and then the outer ends of the pressure cross plates 17 are contacted with the main overturning locking buckles 19 hinged to the outer wall of the main quick-release flange 6 and the auxiliary overturning locking buckles 20 hinged to the outer wall of the auxiliary quick-release flange 7 to inwards overturn, so that the main quick-release flange 6 and the auxiliary quick-release flange 7 are connected and limited.

Working principle: before the quick detachable heat exchanger component is used, the whole condition of the device is required to be checked firstly, normal work can be confirmed, according to the conditions shown in fig. 1-7, a main positioning butt joint pipe 13 fixedly installed inside a pipe body positioning disc 8 limits the heat exchange pipe 10, an auxiliary positioning butt joint pipe 14 connected through a first limiting spring 15 inside the main positioning butt joint pipe 13 is used for sleeving the end part of the heat exchange pipe 10 in a sliding mode, and meanwhile, when the independent heat exchange pipe 10 is detached, the auxiliary positioning butt joint pipe 14 only needs to be slid outwards to separate from the heat exchange pipe 10 to be replaced, and the heat exchange pipe 10 can be detached and taken out to complete replacement work;

the sealing locking cover 2 is connected with the heat exchanger body 1 through the main quick-release flange 6 and the auxiliary quick-release flange 7, after the pressure transverse plate 17 connected with the inner side reset spring 18 is mutually extruded, the main overturning locking buckles 19 installed at equal intervals are clamped and locked on the outer wall of the auxiliary quick-release flange 7, the auxiliary overturning locking buckles 20 installed at equal intervals are clamped and locked on the outer wall of the main quick-release flange 6, and then quick-release can be realized, so that the complex inconvenience caused by bolt limiting is avoided.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A heat exchanger component capable of being quickly detached comprises a heat exchanger body (1) and sealing locking covers (2) arranged at the left end and the right end of the heat exchanger body (1);

a first feeding pipe body (3) is fixedly arranged on the left side of the top surface of the heat exchanger body (1), and a first discharging pipe body (4) is fixedly arranged on the right side of the bottom surface of the heat exchanger body (1);

characterized by further comprising:

bearing brackets (5) are fixedly arranged on the left side and the right side of the bottom surface of the heat exchanger body (1), and main quick-release flanges (6) are fixedly arranged on the left end and the right end of the heat exchanger body (1);

the inner ends of the sealing locking covers (2) which are symmetrically arranged are fixedly provided with auxiliary quick-release flange plates (7), and the central positions of the inner parts of the sealing locking covers (2) which are symmetrically arranged are fixedly provided with pipe body positioning plates (8).

2. A quick disconnect heat exchanger assembly as defined in claim 1 wherein: the whole heat exchanger body (1) is provided with a cylindrical structure with two open ends, the left side and the right side of the inside of the heat exchanger body (1) are fixedly provided with pipe body bearing plates (9), and the inside of the heat exchanger body (1) is provided with heat exchange pipe bodies (10) for medium heat exchange at equal intervals.

3. A quick disconnect heat exchanger assembly as defined in claim 2 wherein: the left end and the right end of the heat exchange tube body (10) which are installed at equal intervals are penetrated and arranged outside the heat exchanger body (1), the heat exchange tube body (10) which is installed at equal intervals is penetrated and arranged inside the tube body bearing disc (9), and the heat exchange tube body (10) which is installed at equal intervals is fixedly limited through the tube body bearing discs (9) on the outer walls of the left side and the right side.

4. A quick disconnect heat exchanger assembly as defined in claim 1 wherein: the sealing locking covers (2) which are symmetrically installed are arranged in a truncated cone-shaped structure with an open inner end, the upper end chalk and the lower end chalk of the right sealing locking cover (2) are fixedly provided with a second feeding pipe body (11) and a second discharging pipe body (12), and the sealing locking covers (2) on the left side and the right side are arranged in a transverse coaxial distribution mode with the heat exchanger body (1).

5. A quick disconnect heat exchanger assembly as defined in claim 1 wherein: the inside equidistance fixed mounting of body positioning disk (8) of symmetry installation has main location to take over (13), and the inside slip of main location to take over (13) of equidistance installation is provided with vice location to take over (14) to the outer end of vice location to take over (14) of equidistance installation is connected through first spacing spring (15) each other with the outer end of main location to take over (13).

6. A quick disconnect heat exchanger assembly as defined in claim 5 wherein: the inside slip of vice location butt joint pipe (14) of equidistance installation is provided with sealed neck ring (21), and the inner wall of vice location butt joint pipe (14) of equidistance installation and the outer end of sealed neck ring (21) are through second spacing spring (16) interconnect to the inside sealed neck ring (21) laminating of vice location butt joint pipe (14) is connected in the outer end of heat exchange tube body (10) after the installation.

7. A quick detachable heat exchanger assembly according to claim 4, wherein: the inner end of the main quick-release flange plate (6) and the inner end of the auxiliary quick-release flange plate (7) are provided with pressure transverse plates (17) in a sliding mode at equal distances, the pressure transverse plates (17) installed at equal distances are connected with the main quick-release flange plate (6) and the auxiliary quick-release flange plate (7) through reset springs (18), and main overturning locking buckles (19) and auxiliary overturning locking buckles (20) are hinged between the outer wall of the main quick-release flange plate (6) and the outer wall of the auxiliary quick-release flange plate (7) at equal distances respectively.

8. A quick disconnect heat exchanger assembly as defined in claim 7 wherein: the outer ends of the main overturning locking buckles (19) and the outer ends of the auxiliary overturning locking buckles (20) which are installed at equal intervals are respectively attached to the outer ends of the pressure transverse plates (17), and the inner ends of the main overturning locking buckles (19) and the inner ends of the auxiliary overturning locking buckles (20) which are overturned are respectively connected to the outer wall of the main quick-dismantling flange plate (6) and the outer wall of the auxiliary quick-dismantling flange plate (7) in a clamping mode.