CN114264174B - High-efficiency aluminum finned heat exchanger convenient to adjust and capable of saving energy - Google Patents

Abstract

The invention relates to the technical field of heat exchangers, in particular to a high-efficiency aluminum finned heat exchanger convenient to adjust and capable of saving energy, which comprises an installation frame and a finned heat exchanger arranged on the installation frame, wherein an inner groove is formed in the installation frame, an electric telescopic rod is installed in the inner groove, a supporting plate is fixedly installed at the upper end of the electric telescopic rod, installation columns are symmetrically welded at two ends of the installation frame, through grooves are formed in the installation columns, the finned heat exchanger is directly inserted between the installation columns from the upper end of the installation frame when the finned heat exchanger is installed, a connecting and fixing block is extruded into the through grooves under the action of the finned heat exchanger, and then when the finned heat exchanger moves downwards to the position where the inserting and fixing hole reaches the connecting and fixing block, the connecting and fixing block is inserted into the inserting and fixing hole under the action of a compression spring, so that the fixed installation of the finned heat exchanger is realized, and the installation of the finned heat exchanger is very convenient and rapid.

Description

High-efficiency aluminum finned heat exchanger convenient to adjust and capable of saving energy

Technical Field

The invention relates to the technical field of heat exchangers, in particular to a high-efficiency aluminum finned heat exchanger which is convenient to adjust and can save energy.

Background

The fin heat exchanger is relatively troublesome when being installed, and is fixed through a large number of screws, so that the fin heat exchanger is relatively troublesome to install, and the current fin heat exchanger is fixedly installed on the installation frame when being installed, so that the fin heat exchanger cannot be conveniently and quickly adjusted when the height of the installed fin heat exchanger needs to be adjusted in work, and the use efficiency of the fin heat exchanger is further influenced.

Therefore, we propose a conveniently adjustable energy-saving high-efficiency aluminum finned heat exchanger to solve the above disadvantages.

Disclosure of Invention

The invention aims to provide a high-efficiency aluminum fin heat exchanger which is convenient to adjust and can save energy, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a but energy-conserving high efficiency aluminium material finned heat exchanger is convenient for adjust, includes the mounting bracket and installs the finned heat exchanger on the mounting bracket, the inside groove has been seted up on the mounting bracket, the internally mounted of inside groove has electric telescopic handle, electric telescopic handle's upper end fixed mounting has the backup pad, the both ends symmetrical welding of mounting bracket has the erection column, logical groove has been seted up on the erection column, the inside symmetry integrated into one piece that leads to the groove is provided with the cooperation rail, the cooperation rail is close to the outside of erection column, a plurality of constant head tanks have been seted up at the back of erection column, grafting fixed orifices have been seted up to finned heat exchanger's both ends symmetry, and the lower terminal surface of finned heat exchanger contacts with the backup pad under operating condition, install heat exchanger fixing device on the erection column.

Preferably, the heat exchanger fixing device comprises a moving block, a connecting fixing block, a first hinged plate, a second hinged plate, a first locking plate and a second locking plate, wherein guide rail grooves are symmetrically formed in two sides of the moving block, and the guide rail grooves are sleeved on the matching rails.

Preferably, the moving block is inserted into the through groove, the lower end of the moving block is provided with a connecting through hole, the upper end of the moving block is welded with a first hinged frame, and the first hinged frame is located on the outer side of the mounting column.

Preferably, the upper end of the connecting fixing block is arranged to be an inclined plane, the connecting fixing block is positioned on the inner side of the mounting column, and the connecting fixing block is inserted into the inserting fixing hole in a working state.

Preferably, the rear end face of the connecting fixing block is welded with a connecting rod, the connecting rod is inserted into the through groove and inserted into the connecting through hole, the other end of the connecting rod is welded with a second hinged frame, the connecting rod is welded with a fixing block, the fixing block is located on the outer side of the mounting column, and a through hole is formed in the fixing block.

Preferably, the upper end of the first hinged plate is hinged to the first hinged frame, cylindrical rod holes are symmetrically formed in two sides of the first hinged plate, a cylindrical rod is inserted in each cylindrical rod hole and welded to the upper end of the second hinged plate, a screw is in threaded connection with the end of each cylindrical rod, a compression spring is sleeved on each cylindrical rod, and the lower end of the second hinged plate is hinged to the second hinged frame.

Preferably, the welding of the one end of first locking plate has the guide bar, and the welding of the other end has the pole of running through, run through the pole and pass the through hole on the fixed square of the one end on the mounting bracket, and run through and cup jointed reset spring on the pole, and the tip welding that runs through the pole has the limiting plate.

Preferably, the guiding hole has been seted up to the tip of second lockplate, the guide bar has been pegged graft in the guiding hole, the other end of second lockplate has also welded and has run through the pole, and runs through the pole on the second lockplate and pass the through hole on the fixed square of the other end on the mounting bracket, and also cup jointed reset spring and the tip that runs through the pole on the second lockplate on running through the pole has also welded the limiting plate.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality, and has the following advantages:

1. when the fin heat exchanger is installed, the fin heat exchanger is directly inserted between the installation columns from the upper end of the installation frame, so that the connection fixing block is extruded into the through groove under the action of the fin heat exchanger, and then when the fin heat exchanger moves downwards to the position where the insertion fixing hole reaches the connection fixing block, the connection fixing block is inserted into the insertion fixing hole under the action of the compression spring, so that the fixed installation of the fin heat exchanger is realized, and the installation of the fin heat exchanger is very convenient and rapid;

2. when the mounting height of the finned heat exchanger needs to be adjusted, the first locking plate and the second locking plate are pulled out of the positioning groove, and then the electric telescopic rod is started to adjust the mounting height of the finned heat exchanger, so that the finned heat exchanger is very convenient;

3. the finned heat exchanger is very convenient to mount and dismount, the mounting and dismounting efficiency is greatly improved, and the adjustment of the mounting height is convenient to adapt to more working requirements.

Drawings

FIG. 1 is an exploded schematic view of a fin heat exchanger assembly;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a schematic structural view of the mounting bracket;

FIG. 4 is a schematic structural diagram of a moving block;

FIG. 5 is a schematic structural diagram of the first hinge plate.

In the figure: 1. a mounting frame; 11. an inner tank; 12. mounting a column; 121. a through groove; 122. a mating rail; 123. positioning a groove; 2. a finned heat exchanger; 21. inserting and connecting the fixing holes; 3. a support plate; 4. an electric telescopic rod; 5. a moving block; 51. a guide rail groove; 52. a connecting through hole; 53. a first hinge frame; 6. connecting a fixed block; 61. a connecting rod; 62. a second hinge frame; 63. fixing the square block; 631. a through hole; 7. a first hinge plate; 71. a cylindrical rod bore; 8. a second hinge plate; 81. a cylindrical rod; 82. a compression spring; 9. a first locking plate; 91. a guide bar; 92. penetrating the rod; 93. a return spring; 94. a limiting plate; 10. a second locking plate; 101. and (4) a guide hole.

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.

Referring to fig. 1 to 5, the present invention provides a technical solution:

the utility model provides a but adjust energy-conserving high efficiency aluminium material finned heat exchanger convenient to, include mounting bracket 1 and install finned heat exchanger 2 on mounting bracket 1, the interior groove 11 has been seted up on mounting bracket 1, the internally mounted of interior groove 11 has electric telescopic handle 4, electric telescopic handle 4's upper end fixed mounting has backup pad 3, the both ends symmetrical welding of mounting bracket 1 has erection column 12, logical groove 121 has been seted up on erection column 12, the inside symmetry integrated into one piece that leads to groove 121 is provided with cooperation rail 122, cooperation rail 122 is close to the outside of erection column 12, a plurality of constant head tanks 123 have been seted up at the back of erection column 12, grafting fixed orifices 21 have been seted up to the both ends symmetry of finned heat exchanger 2, and under operating condition the lower terminal surface of finned heat exchanger 2 contacts with backup pad 3, install heat exchanger fixing device and heat exchanger fixing device on erection column 12 including movable block 5, connect fixed block 6, first articulated plate 7, second articulated plate 8, first locking plate 9 and second locking plate 10, guide rail groove 51 has been seted up to the bilateral symmetry of movable block 5, guide rail groove 51 cup joints on cooperation rail 122.

The moving block 5 is inserted in the through groove 121, a connecting through hole 52 is formed in the lower end of the moving block 5, a first hinged frame 53 is welded at the upper end of the moving block, the first hinged frame 53 is located on the outer side of the mounting column 12, the upper end of the connecting fixing block 6 is set to be an inclined plane, the connecting fixing block 6 is located on the inner side of the mounting column 12, a connecting rod 61 is inserted in the inserting fixing hole 21 and welded on the rear end face of the connecting fixing block 6 in the working state, the connecting rod 61 is inserted in the through groove 121 and inserted in the connecting through hole 52, a second hinged frame 62 is welded at the other end of the connecting rod 61, a fixing square 63 is welded on the connecting rod 61, the fixing square 63 is located on the outer side of the mounting column 12, a through hole 631 is formed in the fixing square 63, and the inclined plane on the connecting fixing block 6 faces vertically upwards.

The upper end of the first hinged plate 7 is hinged to the first hinged frame 53, cylindrical rod holes 71 are symmetrically formed in two sides of the first hinged plate 7, a cylindrical rod 81 is connected in the cylindrical rod holes 71 in a plugged mode, the cylindrical rod 81 is welded to the upper end of the second hinged plate 8, a screw is connected to the end portion of the cylindrical rod 81 in a threaded mode, a compression spring 82 is sleeved on the cylindrical rod 81, the lower end of the second hinged plate 8 is hinged to the second hinged frame 62, in addition, the compression spring 82 is always in a compression state, the compression spring 82 is located at the upper end of the first hinged plate 7, and two ends of the compression spring are respectively in contact with the upper end face of the first hinged plate 7 and a nut of the screw.

The one end welding of first locking plate 9 has guide bar 91, and the other end welding has through pole 92, through pole 92 passes through hole 631 on the fixed block 63 of the one end on the mounting bracket 1, and run through pole 92 and cup jointed reset spring 93, and the tip welding of running through pole 92 has limiting plate 94, guide hole 101 has been seted up to the tip of second locking plate 10 in addition, guide bar 91 has been pegged graft in guide hole 101, the other end of second locking plate 10 has also been welded and has been run through pole 92, and run through pole 92 on second locking plate 10 passes through the through hole 631 on the fixed block 63 of the other end on the mounting bracket 1, and run through pole 92 and also cup jointed reset spring 93 and the tip of running through pole 92 on second locking plate 10 has also welded limiting plate 94, first locking plate 9 and second locking plate 10 peg graft under operating condition in limiting plate 123, and first locking plate 9 and second locking plate 10 all with limiting plate 94 not in the same side of fixed block 63, in addition reset spring 93 contacts with limiting plate 94 and fixed block 63 respectively, and reset spring 93 is in compression state, and the pole 94 will be pegged graft after the limiting plate 92 passes through the limiting plate 94 again.

When carrying out the installation of finned heat exchanger 2, insert finned heat exchanger 2 between erection column 12 from the upper end of mounting bracket 1, when the lower terminal surface of finned heat exchanger 2 contacts with the inclined plane of being connected on the fixed block 6, receive the extrusion of finned heat exchanger 2 and make and connect fixed block 6 and retract to logical groove 121, when reaching the position of connecting fixed block 6 up to grafting fixed orifices 21, then connect fixed block 6 and launch the fixed of realizing finned heat exchanger 2 in grafting fixed orifices 21 under compression spring 82's effect, and the lower terminal surface of finned heat exchanger 2 contacts with backup pad 3 this moment, and the process of connecting fixed block 6 and removing does: when the finned heat exchanger 2 is extruded, the connecting rod 61 moves outwards, so that the first hinged plate 7 and the second hinged plate 8 can be driven to rotate, and the second hinged plate 8 can be moved in the direction away from the first hinged plate 7 at the same time, so that the compression spring 82 is further in a compression state, the movement of the second hinged plate 8 ensures that the connection fixing block 6 can be smoothly retracted into the through groove 121, when the insertion fixing hole 21 reaches the position of the connection fixing block 6, the compression spring 82 resets, so that the second hinged plate 8 moves in the direction close to the first hinged plate 7, and meanwhile, the connecting rod 61 moves in the reverse direction, so that the connection fixing block 6 is inserted into the insertion fixing hole 21, when the installation height of the finned heat exchanger 2 needs to be adjusted, the first locking plate 9 and the second locking plate 10 are pulled in the direction away from the positioning groove 123 to enable the first locking plate 9 and the second locking plate 10 to exit from the positioning groove 123, then the electric telescopic rod 4 can be started to drive the finned heat exchanger 2 to move upwards, so that the adjustment of the installation height is realized, and when the height adjustment is finished, the first locking plate 9 and the second locking plate 10 can release the heat exchanger, and then the connection fixing plate 2 can release the corresponding locking plate 9 and the heat exchanger can release the corresponding locking plate 2 to release the heat exchanger and release the corresponding locking plate 6, and release the locking plate 9 and release the heat exchanger can release the corresponding locking plate 2 to release the heat exchanger can release the heat exchanger.

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 (5)

1. The utility model provides a but high efficiency aluminium material finned heat exchanger convenient to adjust energy-conservation, includes mounting bracket (1) and installs finned heat exchanger (2) on mounting bracket (1), its characterized in that: the heat exchanger comprises a mounting frame (1), an inner groove (11) is formed in the mounting frame (1), an electric telescopic rod (4) is installed inside the inner groove (11), a support plate (3) is fixedly installed at the upper end of the electric telescopic rod (4), mounting columns (12) are symmetrically welded at two ends of the mounting frame (1), a through groove (121) is formed in the mounting columns (12), matching rails (122) are symmetrically and integrally formed in the through groove (121), the matching rails (122) are close to the outer sides of the mounting columns (12), a plurality of positioning grooves (123) are formed in the back faces of the mounting columns (12), inserting fixing holes (21) are symmetrically formed in two ends of a fin heat exchanger (2), the lower end face of the fin heat exchanger (2) is in contact with the support plate (3) in a working state, a heat exchanger fixing device is installed on the mounting columns (12), the heat exchanger fixing device comprises a moving block (5), a connecting fixing block (6), a first hinge plate (7), a second hinge plate (8), a first locking plate (9) and a second locking plate (10), a sleeve connecting groove (51) is formed in the inner side of the guide rail groove (6), and the mounting block (51) is connected with the mounting rail (6), and peg graft under operating condition in grafting fixed orifices (21), the upper end of first articulated plate (7) articulates on first articulated frame (53), the one end welding of first locking plate (9) has guide bar (91), and the other end welding has and runs through pole (92), run through hole (631) on fixed square (63) of the one end on pole (92) passes mounting bracket (1), and has cup jointed reset spring (93) on running through pole (92), and the tip welding that runs through pole (92) has limiting plate (94), guide hole (101) have been seted up to the tip of second locking plate (10), guide bar (91) have been pegged graft in guide hole (101), the other end welding of second locking plate (10) has also been run through pole (92).

2. The aluminum finned heat exchanger as claimed in claim 1, wherein the adjustable energy-saving high efficiency aluminum finned heat exchanger is characterized in that: the moving block (5) is inserted into the through groove (121), the lower end of the moving block (5) is provided with a connecting through hole (52), the upper end of the moving block is welded with a first hinge frame (53), and the first hinge frame (53) is located on the outer side of the mounting column (12).

3. The aluminum finned heat exchanger as claimed in claim 1, wherein the adjustable energy-saving high efficiency aluminum finned heat exchanger is characterized in that: the welding has connecting rod (61) on the rear end face of connecting fixed block (6), connecting rod (61) are pegged graft and are pegged graft in logical groove (121) and in connect the via hole (52), the other end welding of connecting rod (61) has the articulated frame of second (62), and the welding has fixed square (63) on connecting rod (61), through hole (631) have been seted up on fixed square (63) and the outside that fixed square (63) are in erection column (12).

4. The aluminum finned heat exchanger as claimed in claim 1, wherein the adjustable energy-saving high efficiency aluminum finned heat exchanger is characterized in that: cylindrical rod holes (71) are symmetrically formed in two sides of the first hinged plate (7), cylindrical rods (81) are connected in the cylindrical rod holes (71) in an inserted mode, the cylindrical rods (81) are welded at the upper end of the second hinged plate (8), a screw is connected to the end portion of each cylindrical rod (81) in a threaded mode, a compression spring (82) is sleeved on each cylindrical rod (81), and the lower end of the second hinged plate (8) is hinged to the second hinged frame (62).

5. The conveniently adjustable and energy efficient aluminum finned heat exchanger as claimed in claim 1, wherein: a penetrating rod (92) on the second locking plate (10) penetrates through a penetrating hole (631) in a fixing block (63) at the other end of the mounting frame (1), a return spring (93) is sleeved on the penetrating rod (92), and a limiting plate (94) is welded at the end part of the penetrating rod (92) on the second locking plate (10).

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