CN208736015U - The air-cooler that six sides of round tube triangular fin one are arranged symmetrically - Google Patents

Abstract

The utility model discloses the air-cooler that a kind of six sides of round tube triangular fin one are arranged symmetrically, at least one heat exchange module including frame and setting in the frame, each heat exchange module includes the heat exchanger tube of the cold-formed integral structure of multiple single entirety being made of respectively the fin that tube body and edge that inside is circular cross-section are equilateral triangle, the equilateral triangle edge alignment of each heat exchanger tube fin is fitted and connected, and the line of centres of six heat exchanger tubes forms regular hexagon；It is linked together by bridge piece by S-shaped tendency between adjacent heat exchange tubes, a heat exchanger tube positioned at one end is connect with liquid supply pipe, and another heat exchanger tube positioned at the other end is connect with collector tube；The utility model draws processing round tube triangular fin integral structure using cold extrusion, and heat exchanger tube is hexagonal arrangement, eliminates thermal contact resistance between fin and round tube, more preferable enhancing heat-transfer effect, the cleaning of defrosting water thoroughly, reduces heat transfer temperature difference, improves the thermal performance of refrigeration system.

Description

The air-cooler that six sides of round tube triangular fin one are arranged symmetrically

Technical field

The utility model relates to freezing and refrigeration refrigeration technology fields, and in particular to a kind of six sides of round tube triangular fin one The air-cooler being arranged symmetrically.

Background technique

In freezing and refrigeration field, the cold interior air-cooler of indirect-cooling refrigerating system low-temperature freezer, the interior flowing of heat exchanger tube is to carry Cryogen liquid, absorbs the heat in cold, and temperature is increased, do not undergone phase transition.Usually nest plate pipe heat exchanger, piece and pipe are point Body structure reduces thermal contact resistance using tube expansion, but still is difficult to avoid that the presence of thermal contact resistance, and heat transfer coefficient is caused to reduce, and conducts heat The temperature difference increases, while being easy frosting, and the cleaning of defrosting water is not thorough.

Utility model content

The utility model is place in order to overcome the shortcomings in the prior art, provides a kind of round tube triangular fin one six While the air-cooler being arranged symmetrically, energy saving to improve the performance of the refrigeration system of fridge-freezer, environment is protected.

The technical scheme adopted by the utility model to solve the technical problem is as follows:

The air-cooler that a kind of six sides of round tube triangular fin one are arranged symmetrically, including frame and setting are in the frame At least one heat exchange module, it is respectively the tube body of circular cross-section by inside that each heat exchange module, which includes multiple, and edge is The heat exchanger tube of the cold-formed integral structure of the single entirety of the fin composition of equilateral triangle, positive the three of each heat exchanger tube fin Angled edge alignment is fitted and connected, and the line of centres of six heat exchanger tubes forms regular hexagon；Pass through connecting bending between adjacent heat exchange tubes Pipe links together by S-shaped tendency, and the other end positioned at a heat exchanger tube of one end is connect with liquid supply pipe, positioned at the another of the other end The other end of a piece heat exchanger tube is connect with collector tube.

The liquid supply pipe and collector tube one end block, the other end opens wide, and open respectively on the liquid supply pipe and collector tube side wall Equipped with the aperture being correspondingly connected with the tube body being connect.

The entrance of the liquid supply pipe is connect with refrigerating medium loop exit, and the outlet of the collector tube enters with what refrigerating medium recycled Mouth connection.

The frame is welded to form rectangular-shaped framework by four end plates, and the both ends of the tube body are each passed through the correspondence of frame The end plate of side, the bridge piece, collector tube and liquid supply pipe are located at the outside of the frame.

The air-cooler that six sides of the utility model round tube triangular fin one are arranged symmetrically, draws processing circle using cold extrusion Pipe triangular fin integral structure, heat exchanger tube are hexagonal arrangement, and fin and round tube do not have thermal contact resistance, preferably enhancing heat transfer Effect, the cleaning of defrosting water thoroughly, reduce heat transfer temperature difference, improve the thermal performance of refrigeration system, and structure is simple, energy saving, protect Retaining ring border.

Detailed description of the invention

Fig. 1 is the schematic diagram for the air-cooler that six sides of the utility model round tube triangular fin one are arranged symmetrically；

Fig. 2 is the A-A cross-sectional view of Fig. 1.

Specific embodiment

The utility model is described in detail below in conjunction with the drawings and specific embodiments.

As shown in Figure 1 to Figure 2, the air-cooler that six sides of round tube triangular fin one are arranged symmetrically, comprising: the first heat exchanger tube 1, the second heat exchanger tube 2, third heat exchanger tube 3, the 4th heat exchanger tube 4, the 5th heat exchanger tube 5, the 6th heat exchanger tube 6, the 7th heat exchanger tube 7, Eight heat exchanger tubes 8, the 9th heat exchanger tube 9, the tenth heat exchanger tube 10, the 11st heat exchanger tube 11, liquid supply pipe 12, the second bend pipe the 13, the 4th are curved Pipe 14, the 6th bend pipe 15, the 8th bend pipe 16, the tenth bend pipe 17, the first bend pipe 18, third bend pipe 19, the 5th bend pipe the 20, the 7th are curved Pipe 21, the 9th bend pipe 22, collector tube 23, frame 24.

First heat exchanger tube 1, the second heat exchanger tube 2, third heat exchanger tube 3, the 4th heat exchanger tube 4, the 5th heat exchanger tube the 5, the 6th Heat exchanger tube 6, the 7th heat exchanger tube 7, the 8th heat exchanger tube 8, the 9th heat exchanger tube 9, the tenth heat exchanger tube 10, the 11st heat exchanger tube 11 respectively by Inside is the first tube body 1-1 of circular cross-section, the second tube body 2-1, third tube body 3-1, the 4th tube body 4-1, the 5th tube body 5-1, 6th tube body 6-1, the 7th tube body 7-1, the 8th tube body 8-1, the 9th tube body 9-1, the tenth tube body 10-1, the 11st tube body 11-1 and Edge is the first fin 1-2 of equilateral triangle, the second fin 2-2, third fin 3-2, the 4th fin 4-2, the 5th fin 5-2, 6th fin 6-2, the 7th fin 7-2, the 8th fin 8-2, the 9th fin 9-2, the tenth fin 10-2, the 11st fin 11-2 group At the cold-formed integral structure of single entirety, equilateral triangle and the edge alignment of each heat exchanger tube fin is fitted and connected, The line of centres of six heat exchanger tubes forms regular hexagon.

The frame 24 is welded to form by end plate up and down, and the tube body right end of the first heat exchanger tube 1 passes through 24 right end of frame The correspondence aperture of plate and collector tube 23 weld, and the tube body left end of the first heat exchanger tube 1 and the tube body left end of the second heat exchanger tube 2 are worn respectively The correspondence aperture for crossing 24 left side plate of frame is welded to connect with the both ends of the tenth bend pipe 17；The tube body right end of second heat exchanger tube 2 and The tube body right end of three heat exchanger tubes 3 is each passed through the correspondence aperture of 24 right end plate of frame, is welded to connect with the both ends of the 9th bend pipe 22； The tube body left end of third heat exchanger tube 3 is each passed through the corresponding aperture of 24 left side plate of frame with the tube body left end of the 4th heat exchanger tube 4, with The both ends of 8th bend pipe 16 are welded to connect；The tube body right end and the tube body right end of the 5th heat exchanger tube 5 of 4th heat exchanger tube 4 are each passed through The correspondence aperture of 24 right end plate of frame is welded to connect with the both ends of the 7th bend pipe 21；The tube body left end and the 6th of 5th heat exchanger tube 5 The tube body left end of heat exchanger tube 6 is each passed through the correspondence aperture of 24 left side plate of frame, is welded to connect with the both ends of the 6th bend pipe 15；The The tube body right end of six heat exchanger tubes 6 is each passed through the corresponding aperture of 24 right end plate of frame with the tube body right end of the 7th heat exchanger tube 7, with The both ends of five bend pipes 20 are welded to connect；The tube body left end of 7th heat exchanger tube 7 and the tube body left end of the 8th heat exchanger tube 8 are each passed through frame The correspondence aperture of 24 left side plate of frame is welded to connect with the both ends of the 4th bend pipe 14；The tube body right end of 8th heat exchanger tube 8 is changed with the 9th The tube body right end of heat pipe 9 is each passed through the correspondence aperture of 24 right end plate of frame, is welded to connect with the both ends of third bend pipe 19；9th The tube body left end of heat exchanger tube 9 is each passed through the corresponding aperture of 24 left side plate of frame with the tube body left end of the tenth heat exchanger tube 10, with The both ends of two bend pipes 13 are welded to connect；The tube body right end and the tube body right end of the 11st heat exchanger tube 11 of tenth heat exchanger tube 10 are worn respectively The correspondence aperture for crossing 24 right end plate of frame is welded to connect with the both ends of the first bend pipe 18；The tube body left end of 11st heat exchanger tube 11 Aperture welding corresponding with liquid supply pipe 12.

The liquid supply pipe 12 is blocked with 23 one end of collector tube, the other end opens wide, side wall opens up and each heat exchange tube body respectively Corresponding aperture；The entrance of liquid supply pipe 12 is connect with refrigerating medium loop exit, and the outlet of collector tube 23 enters with what refrigerating medium recycled Mouth connection.

It should be noted that in the utility model, first heat exchanger tube 1, the second heat exchanger tube 2, third heat exchanger tube 3, Four heat exchanger tubes 4, the 5th heat exchanger tube 5, the 6th heat exchanger tube 6, the 7th heat exchanger tube 7, the 8th heat exchanger tube 8, the 9th heat exchanger tube the 9, the tenth change Heat pipe 10, the quantity of the 11st heat exchanger tube 11 and size are designed according to refrigerating capacity, in present case, the heat exchanger tube of one group of heat exchange module It is 11 groups, or multiple groups, it can be with one or more groups of heat exchange modules in frame.

The ipsilateral penumbra of the end plate up and down of the frame 24 can weld the frame (not shown) of fan motor.

As shown in Figs. 1-2, system run when, the cryogen of refrigerating medium loop exit, by liquid supply pipe 12 successively into Enter in each heat exchanger tube and bend pipe, flow process absorbs the heat in cold, and the raised refrigerating medium of temperature is returned through collector tube 23 and carried Refrigerant cycle.

The above is only the preferred embodiment of the utility model, it is noted that for the general of the art For logical technical staff, without departing from the principle of this utility model, several improvements and modifications can also be made, these change It also should be regarded as the protection scope of the utility model into retouching.

Claims (4)

1. the air-cooler that a kind of six sides of round tube triangular fin one are arranged symmetrically, characterized in that including frame and be arranged in institute At least one heat exchange module in frame is stated, each heat exchange module includes multiple respectively by the internal tube body for circular cross-section The heat exchanger tube of cold-formed integral structure, each heat exchange tube fin with the single entirety for the fin composition that edge is equilateral triangle The equilateral triangle edge alignment of piece is fitted and connected, and the line of centres of six heat exchanger tubes forms regular hexagon；Lead between adjacent heat exchange tubes It crosses bridge piece to link together by S-shaped tendency, the other end positioned at a heat exchanger tube of one end is connect with liquid supply pipe, is located at another The other end of another heat exchanger tube of one end is connect with collector tube.

2. the air-cooler that six sides of round tube triangular fin one according to claim 1 are arranged symmetrically, characterized in that described Liquid supply pipe and collector tube one end block, the other end opens wide, and offer and are connect respectively on the liquid supply pipe and collector tube side wall The aperture that is correspondingly connected with of tube body.

3. the air-cooler that six sides of round tube triangular fin one according to claim 1 are arranged symmetrically, characterized in that described The entrance of liquid supply pipe is connect with refrigerating medium loop exit, and the outlet of the collector tube is connect with the entrance that refrigerating medium recycles.

4. the air-cooler that six sides of round tube triangular fin one according to claim 1 are arranged symmetrically, characterized in that described Frame is welded to form rectangular-shaped framework by four end plates, and the both ends of the tube body are each passed through the end plate of the corresponding side surface of frame, The bridge piece, collector tube and liquid supply pipe are located at the outside of the frame.