CN210051024U - Energy-saving square heat exchanger - Google Patents

Abstract

The utility model discloses an energy-saving square heat exchanger, which comprises a fixed seat, wherein the fixed seat is connected with a damping mechanism through a clamping mechanism, the clamping mechanism is fixed through a first locking mechanism, a tube is arranged at the top of the damping mechanism, the tube is of a square structure, the energy-saving square heat exchanger has novel structure, durability and good energy-saving effect, the undesirable vibration on the tube is eliminated through the damping mechanism, the working stability of the energy exchanger is greatly improved, the damping seat and the fixed seat are assembled through the clamping mechanism, the installation is convenient, the construction efficiency is greatly improved, the water body is filtered and purified through a filtering device, the impurities in the water body are prevented from scaling on the inner wall of the tube to influence the heat exchange performance, the service life of the heat exchanger is prolonged, the mounting frame and the filtering box are assembled through a sliding mechanism, the installation and the disassembly are convenient, the filter screen is convenient to clean and convenient to maintain.

Description

Energy-saving square heat exchanger

Technical Field

The utility model relates to a heat exchanger technical field specifically is an energy-saving square heat exchanger.

Background

At present, the evaporimeter of being applied to in the air conditioning field on the market mainly comprises the tube, the refrigerant pipe in the tube, and the baffling board between tube inner wall and the refrigerant pipe, wherein, is equipped with water inlet and delivery port on the tube, is equipped with refrigerant admission mouth of pipe and refrigerant play mouth of pipe on the refrigerant pipe, and during the use, when the water pressure of pouring into in the tube was too big, the water rotation in the tube was too urgent and can't in time be discharged, had probably to break through the tube, influences the normal operating of heat exchanger.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a square heat exchanger of energy-saving, novel structure, durable lastingly, energy-conserving effectual, simple to operate, the shock resistance, it is convenient to maintain, long service life can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a square heat exchanger of energy-saving, includes the fixing base, the fixing base is connected with damper through latch mechanism, and latch mechanism fixes through first locking mechanism, the tube is installed at damper's top, and the tube is square structure, the internally mounted of tube has the refrigerant pipe, and the side of tube communicates respectively has outlet pipe and inlet tube, be fixed with the filter cartridge on the inlet tube, the filter cartridge is connected with filter equipment through slide mechanism, and filter equipment fixes through second locking mechanism and filter cartridge, and its novel structure is durable lastingly, and is energy-conserving effectual.

As the utility model discloses a preferred technical scheme, damper includes shock absorber support, and shock absorber support fixes in the bottom of tube, damper support's end fixing has the cushion socket, eliminates the bad vibrations that receive the tube through damper, has improved the job stabilization nature of this transducer greatly.

As a preferred technical scheme of the utility model, latch mechanism includes constant head tank and fastener, and the fastener is fixed in the bottom of shock mount, the constant head tank is seted up on the fixing base, and fastener and constant head tank joint are assembled shock mount and fixing base through latch mechanism, and its simple to operate has improved the efficiency of construction greatly.

As a preferred technical scheme of the utility model, first locking mechanism includes first locker and first lockhole, and first lockhole is seted up on the fastener, the side at the fixing base is installed to first locker, and first locker pegs graft with first lockhole, fixes fixing base and shock attenuation seat through first locking mechanism, has improved the firm nature of equipment greatly.

As the utility model discloses a preferred technical scheme, filter equipment includes the mounting bracket, and the top of mounting bracket is fixed with the handle, the filter screen is installed to the bottom of mounting bracket, filters the purification through filter equipment to the water, avoids the impurity in the water scale deposit on the tube inner wall and influences its heat transfer performance, has increased the life of this heat exchanger.

As a preferred technical scheme of the utility model, slide mechanism includes spout and slide rail, and the inboard at the filter cartridge is fixed to the slide rail, the spout is seted up on the mounting bracket, slide rail and spout sliding connection, assembles mounting bracket and filter cartridge through slide mechanism, and its installation is dismantled conveniently, is convenient for clean the filter screen, and it is convenient to maintain.

As a preferred technical scheme of the utility model, second locking mechanism includes second lockhole and second locker, and the second locker is installed on the mounting bracket, the second lockhole is seted up on the filter cartridge, and the second locker is pegged graft with the second lockhole, fixes mounting bracket and filter cartridge through second locking mechanism, and it is fixed firm, can avoid in the course of the work mounting bracket and filter cartridge to take place to separate, has guaranteed the rationality of design.

Compared with the prior art, the beneficial effects of the utility model are that: this energy-saving square heat exchanger, novel structure, it is durable lastingly, it is energy-conserving effectual, the bad vibrations that receive the tube through damper are eliminated, the job stabilization nature of this transducer has been improved greatly, assemble shock mount and fixing base through latch mechanism, the high-efficient heat exchanger is convenient for install, the efficiency of construction is greatly improved, filter purification is carried out to the water through filter equipment, avoid the impurity in the water scale deposit on the tube inner wall and influence its heat transfer performance, the life of this heat exchanger has been increased, assemble mounting bracket and filter cartridge through slide mechanism, its installation is dismantled conveniently, be convenient for clean the filter screen, it is convenient to maintain.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a sectional view of the structure of the present invention.

In the figure: the water-saving filter comprises a fixed seat 1, a water outlet pipe 2, a refrigerant pipe 3, a pipe shell 4, a first locking device 5, a first locking hole 6, a positioning groove 7, a fastening piece 8, a damping seat 9, a damping support 10, a second locking hole 11, a second locking device 12, a handle 13, a mounting rack 14, a filter screen 15, a sliding groove 16, a sliding rail 17, a water inlet pipe 18, a filter box 19, a first locking mechanism 20, a clamping mechanism 21, a damping mechanism 22, a second locking mechanism 23, a filtering device 24 and a sliding mechanism 25.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows: referring to fig. 1-3, the present invention provides a technical solution: an energy-saving square heat exchanger comprises a fixed seat 1, wherein the fixed seat 1 is connected with a damping mechanism 22 through a clamping mechanism 21, the clamping mechanism 21 is fixed through a first locking mechanism 20, a tube shell 4 is installed at the top of the damping mechanism 22, the tube shell 4 is of a square structure, a refrigerant tube 3 is installed inside the tube shell 4, the side surface of the tube shell 4 is respectively communicated with a water outlet tube 2 and a water inlet tube 18, a filter box 19 is fixed on the water inlet tube 18, the filter box 19 is connected with a filter device 24 through a sliding mechanism 25, the filter device 24 is fixed with the filter box 19 through a second locking mechanism 23, water flows into the tube shell 4 from the water inlet tube 2 and then exchanges heat with the refrigerant tube 3 in the tube shell 4, in the water flow process, the water flow rotationally flows on the inner side of the tube shell 4, four corner positions of the tube shell 4 of the square structure play a role in buffering water pressure, and the problem that the tube shell 4 is, in addition, the water rotational flow formed on four corners of the tube shell 4 can exchange heat with the refrigerant tube 3, thereby greatly improving the heat exchange efficiency of water and the refrigerant tube 3, reducing the energy loss, being beneficial to improving the energy-saving effect, and having novel structure and durability.

The shock absorption mechanism 22 comprises a shock absorption support 10, the shock absorption support 10 is fixed at the bottom of the tube shell 4, a shock absorption seat 9 is fixed at the end part of the shock absorption support 10, bad shock received by the tube shell 4 is eliminated through elastic deformation of the shock absorption support 10 and the shock absorption seat 9, and the working stability of the transducer is greatly improved.

Clamping mechanism 21 includes constant head tank 7 and fastener 8, and fastener 8 is fixed in the bottom of cushion socket 9, and constant head tank 7 is seted up on fixing base 1, and fastener 8 and constant head tank 7 joint are when installing, assemble fixing base 1 at work area through the screw earlier, then assemble cushion socket 9 and fixing base 1 through fastener 8 and constant head tank 7 joint, and its simple to operate has improved the efficiency of construction greatly.

First locking mechanical system 20 includes first locker 5 and first lockhole 6, and first lockhole 6 is seted up on fastener 8, and first locker 5 is installed in the side of fixing base 1, and first locker 5 pegs graft with first lockhole 6, pegs graft through first locker 5 and first lockhole 6 and fixes fixing base 1 and shock attenuation seat 9, has improved the firm nature of equipment greatly.

Filter equipment 24 includes mounting bracket 14, and the top of mounting bracket 14 is fixed with handle 13, and filter screen 15 is installed to the bottom of mounting bracket 14, and outlet pipe 2 filters the purification through filter screen 15 earlier to the water when intaking, avoids the impurity in the water scale deposit on tube 4 inner wall and influence its heat transfer performance, has increased the life of this heat exchanger.

Slide mechanism 25 includes spout 16 and slide rail 17, and slide rail 17 fixes the inboard at filter cartridge 19, and spout 16 is seted up on mounting bracket 14, and slide rail 17 and spout 16 sliding connection assemble mounting bracket 14 and filter cartridge 19 through slide rail 17 and spout 16 sliding connection, and its installation is dismantled conveniently, is convenient for clean filter screen 15, and it is convenient to maintain.

The second locking mechanism 23 comprises a second locking hole 11 and a second locking device 12, the second locking device 12 is installed on the mounting frame 14, the second locking hole 11 is formed in the filter box 19, the second locking device 12 is connected with the second locking hole 11 in an inserting mode, the mounting frame 14 and the filter box 19 are fixed through the second locking device 12 and the second locking hole 11 in an inserting mode, the fixing is firm, the mounting frame 14 and the filter box 19 can be prevented from being separated in the working process, and the reasonability of design is guaranteed.

Example two: referring to fig. 1-3, the present invention provides a technical solution: an energy-saving square heat exchanger comprises a fixed seat 1, wherein the fixed seat 1 is connected with a damping mechanism 22 through a clamping mechanism 21, the clamping mechanism 21 is fixed through a first locking mechanism 20, a tube shell 4 is installed at the top of the damping mechanism 22, the tube shell 4 is of a square structure, a refrigerant tube 3 is installed inside the tube shell 4, the side surface of the tube shell 4 is respectively communicated with a water outlet tube 2 and a water inlet tube 18, a filter box 19 is fixed on the water inlet tube 18, the filter box 19 is connected with a filter device 24 through a sliding mechanism 25, the filter device 24 is fixed with the filter box 19 through a second locking mechanism 23, water flows into the tube shell 4 from the water inlet tube 2 and then exchanges heat with the refrigerant tube 3 in the tube shell 4, in the water flow process, the water flow rotationally flows on the inner side of the tube shell 4, four corner positions of the tube shell 4 of the square structure play a role in buffering water pressure, and the problem that the tube shell 4 is, in addition, the water rotational flow formed on four corners of the tube shell 4 can exchange heat with the refrigerant tube 3, thereby greatly improving the heat exchange efficiency of water and the refrigerant tube 3, reducing the energy loss, being beneficial to improving the energy-saving effect, and having novel structure and durability.

The shock absorption mechanism 22 comprises a shock absorption support 10, the shock absorption support 10 is fixed at the bottom of the tube shell 4, a shock absorption seat 9 is fixed at the end part of the shock absorption support 10, bad shock received by the tube shell 4 is eliminated through elastic deformation of the shock absorption support 10 and the shock absorption seat 9, and the working stability of the transducer is greatly improved.

Clamping mechanism 21 includes constant head tank 7 and fastener 8, and fastener 8 is fixed in the bottom of cushion socket 9, and constant head tank 7 is seted up on fixing base 1, and fastener 8 and constant head tank 7 joint are when installing, assemble fixing base 1 at work area through the screw earlier, then assemble cushion socket 9 and fixing base 1 through fastener 8 and constant head tank 7 joint, and its simple to operate has improved the efficiency of construction greatly.

First locking mechanical system 20 includes first locker 5 and first lockhole 6, and first lockhole 6 is seted up on fastener 8, and first locker 5 is installed in the side of fixing base 1, and first locker 5 pegs graft with first lockhole 6, pegs graft through first locker 5 and first lockhole 6 and fixes fixing base 1 and shock attenuation seat 9, has improved the firm nature of equipment greatly.

Example three: referring to fig. 1-3, the present invention provides a technical solution: an energy-saving square heat exchanger comprises a fixed seat 1, wherein the fixed seat 1 is connected with a damping mechanism 22 through a clamping mechanism 21, the clamping mechanism 21 is fixed through a first locking mechanism 20, a tube shell 4 is installed at the top of the damping mechanism 22, the tube shell 4 is of a square structure, a refrigerant tube 3 is installed inside the tube shell 4, the side surface of the tube shell 4 is respectively communicated with a water outlet tube 2 and a water inlet tube 18, a filter box 19 is fixed on the water inlet tube 18, the filter box 19 is connected with a filter device 24 through a sliding mechanism 25, the filter device 24 is fixed with the filter box 19 through a second locking mechanism 23, water flows into the tube shell 4 from the water inlet tube 2 and then exchanges heat with the refrigerant tube 3 in the tube shell 4, in the water flow process, the water flow rotationally flows on the inner side of the tube shell 4, four corner positions of the tube shell 4 of the square structure play a role in buffering water pressure, and the problem that the tube shell 4 is, in addition, the water rotational flow formed on four corners of the tube shell 4 can exchange heat with the refrigerant tube 3, thereby greatly improving the heat exchange efficiency of water and the refrigerant tube 3, reducing the energy loss, being beneficial to improving the energy-saving effect, and having novel structure and durability.

Filter equipment 24 includes mounting bracket 14, and the top of mounting bracket 14 is fixed with handle 13, and filter screen 15 is installed to the bottom of mounting bracket 14, and outlet pipe 2 filters the purification through filter screen 15 earlier to the water when intaking, avoids the impurity in the water scale deposit on tube 4 inner wall and influence its heat transfer performance, has increased the life of this heat exchanger.

Slide mechanism 25 includes spout 16 and slide rail 17, and slide rail 17 fixes the inboard at filter cartridge 19, and spout 16 is seted up on mounting bracket 14, and slide rail 17 and spout 16 sliding connection assemble mounting bracket 14 and filter cartridge 19 through slide rail 17 and spout 16 sliding connection, and its installation is dismantled conveniently, is convenient for clean filter screen 15, and it is convenient to maintain.

The second locking mechanism 23 comprises a second locking hole 11 and a second locking device 12, the second locking device 12 is installed on the mounting frame 14, the second locking hole 11 is formed in the filter box 19, the second locking device 12 is connected with the second locking hole 11 in an inserting mode, the mounting frame 14 and the filter box 19 are fixed through the second locking device 12 and the second locking hole 11 in an inserting mode, the fixing is firm, the mounting frame 14 and the filter box 19 can be prevented from being separated in the working process, and the reasonability of design is guaranteed.

When in use: water flows into in the tube 4 from inlet tube 2, later with the refrigerant pipe 3 in tube 4 carry out the heat transfer, at the in-process of rivers, rivers are the inboard of rotatory flow at tube 4, wherein four corner positions of tube 4 of square structure have played the effect of buffering water pressure, effectively avoided the too big problem of breaing tube 4 of water pressure, in addition, the water whirl that forms on four angles of tube 4, also can carry out heat exchange with refrigerant pipe 3, the efficiency of water with the heat transfer of refrigerant pipe 3 has been improved greatly, the loss of energy has been reduced, be favorable to improving energy-conserving effect.

The undesired vibrations to which the cartridge 4 is subjected are eliminated by the elastic deformation of the shock-absorbing mount 10 and the shock-absorbing seat 9.

When installing, assemble fixing base 1 in work area through the screw earlier, then assemble shock attenuation seat 9 and fixing base 1 through fastener 8 and constant head tank 7 joint.

The fixed seat 1 and the shock absorption seat 9 are fixed by inserting the first locking device 5 and the first locking hole 6.

The water outlet pipe 2 firstly filters and purifies the water body through the filter screen 15 when water enters.

The mounting frame 14 and the filter cassette 19 are assembled by slidably connecting the slide rails 17 with the slide grooves 16.

The mounting frame 14 and the filter box 19 are fixed by inserting the second locking device 12 into the second locking hole 11.

The utility model discloses novel structure, it is durable lastingly, it is energy-conserving effectual, bad vibrations that receive pipe 4 through damper 22 are eliminated, the job stabilization nature of this transducer has been improved greatly, assemble shock mount 9 and fixing base 1 through latch mechanism 21, its simple to operate, the efficiency of construction is greatly improved, filter and purify the water through filter equipment 24, avoid the impurity in the water scale deposit on pipe 4 inner wall and influence its heat transfer performance, the life of this heat exchanger has been increased, assemble mounting bracket 14 and filter cartridge 19 through slide mechanism 25, its installation is dismantled conveniently, be convenient for clean filter screen 15, it is convenient to maintain.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a square heat exchanger of energy-saving, includes fixing base (1), its characterized in that: fixing base (1) is connected with damper (22) through latch mechanism (21), and latch mechanism (21) is fixed through first locking mechanism (20), tube (4) are installed at damper (22)'s top, and tube (4) are square structure, the internally mounted of tube (4) has refrigerant pipe (3), and the side of tube (4) communicates respectively has outlet pipe (2) and inlet tube (18), be fixed with filter cartridge (19) on inlet tube (18), filter cartridge (19) are connected with filter equipment (24) through slide mechanism (25), and filter equipment (24) are fixed through second locking mechanism (23) and filter cartridge (19).

2. An energy-saving square heat exchanger according to claim 1, characterized in that: the damping mechanism (22) comprises a damping support (10), the damping support (10) is fixed at the bottom of the pipe shell (4), and a damping seat (9) is fixed at the end part of the damping support (10).

3. An energy-saving square heat exchanger according to claim 1, characterized in that: clamping mechanism (21) include constant head tank (7) and fastener (8), and fastener (8) are fixed in the bottom of shock mount (9), constant head tank (7) are seted up on fixing base (1), fastener (8) and constant head tank (7) joint.

4. An energy-saving square heat exchanger according to claim 1, characterized in that: the first locking mechanism (20) comprises a first locking device (5) and a first locking hole (6), the first locking hole (6) is formed in the fastening piece (8), the first locking device (5) is installed on the side face of the fixing seat (1), and the first locking device (5) is connected with the first locking hole (6) in an inserting mode.

5. An energy-saving square heat exchanger according to claim 1, characterized in that: the filtering device (24) comprises a mounting frame (14), a handle (13) is fixed to the top of the mounting frame (14), and a filtering net (15) is installed at the bottom of the mounting frame (14).

6. An energy-saving square heat exchanger according to claim 1, characterized in that: slide mechanism (25) include spout (16) and slide rail (17), and the inboard at filter cartridge (19) is fixed in slide rail (17), spout (16) are seted up on mounting bracket (14), slide rail (17) and spout (16) sliding connection.

7. An energy-saving square heat exchanger according to claim 1, characterized in that: the second locking mechanism (23) comprises a second locking hole (11) and a second locking device (12), the second locking device (12) is installed on the installation frame (14), the second locking hole (11) is formed in the filter box (19), and the second locking device (12) is connected with the second locking hole (11) in an inserting mode.

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