CN219433854U - Vertical corrugated pipe heat exchanger - Google Patents

Abstract

The utility model discloses a vertical corrugated pipe heat exchanger, which comprises a heat exchanger shell, wherein an electric slide way is arranged on the inner wall of the heat exchanger shell, the electric slide way is connected with the heat exchanger shell through bolts, an electric slide block is arranged on the electric slide way, the electric slide block and the electric slide way are electrically connected, a connecting frame is arranged on the electric slide block, the connecting frame is connected with the electric slide block through bolts, a plurality of cleaning brush rings are arranged on the connecting frame, the cleaning brush rings are connected with the connecting frame through bolts, the position movement of the connecting frame can be realized through the electric slide way and the electric slide block which are electrically connected, and scale removal is carried out on a corrugated heat exchange pipe through the cleaning brush rings on the connecting frame, so that the problem that the existing heat exchanger is difficult to process scale coalesced on the wall of the heat exchange pipe can be solved to a certain extent, and the service life of the whole heat exchanger can be greatly prolonged.

Description

Vertical corrugated pipe heat exchanger

Technical Field

The utility model relates to the technical field of heat exchangers, in particular to a vertical corrugated pipe heat exchanger.

Background

In conventional heat exchangers, as in application number: 201720961474.1; the name is: a vertical corrugated pipe heat exchanger. The device comprises: the heat exchanger provided by the utility model has the advantages that the heat exchanger is smaller in occupied area by adopting a vertical design; the heat exchange element adopts a corrugated pipe, so that the working temperature range is further enlarged; the corrugated pipe is telescopic, is not easy to scale, and has a certain descaling effect in the telescopic process; meanwhile, the utility model has smaller volume and low manufacturing cost, and can bring greater economic benefit to enterprises.

However, in the heat exchanger, although the possibility of scaling of the heat exchange tube is reduced by arranging the vertical corrugated heat exchange tube, the problem of scaling on the surface of the corrugated tube cannot be solved when the heat exchanger is used, so that the phenomenon of damaging the heat exchange tube of the whole heat exchanger is extremely easy to occur after the heat exchanger is used for a long time; therefore, the existing requirements are not met, and a vertical corrugated pipe heat exchanger is proposed.

Disclosure of Invention

The utility model aims to provide a vertical corrugated pipe heat exchanger, which is used for solving the problem that the existing heat exchanger proposed in the background art is difficult to treat scale coalesced on the wall of a heat exchange pipe.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a vertical bellows heat exchanger, includes the heat exchanger shell, be provided with electric slide on the inner wall of heat exchanger shell, electric slide passes through bolted connection with the heat exchanger shell, be provided with electric slide on the electric slide, electric slide sets up to electric connection with electric slide, be provided with the link on the electric slide, the link passes through bolted connection with electric slide, be provided with the washing brush ring on the link, the washing brush ring is provided with a plurality ofly, the washing brush ring passes through bolted connection with the link, can realize carrying out the position removal to the link through electric slide and electric slide of electric connection to carry out the incrustation scale to the ripple heat exchange tube through a plurality of washing brush rings on the link, thereby can solve the problem that current heat exchanger is difficult to handle the incrustation scale that coalesces on the heat exchange tube pipe wall to a certain extent, and then can increase substantially whole heat exchanger's life.

Further, the front end of the heat exchanger shell is provided with a first liquid inlet pipe, the first liquid inlet pipe is connected with the heat exchanger shell through argon arc welding, the lower end of the first liquid inlet pipe is provided with a first liquid outlet pipe, the first liquid outlet pipe is connected with the heat exchanger shell through argon arc welding, and cold liquid can be fed into and discharged from the heat exchanger shell through the mutual cooperation of the first liquid inlet pipe and the first liquid outlet pipe.

Further, the upper end of the heat exchanger shell is provided with an upper sealing head, the upper sealing head is connected with the heat exchanger shell through bolts, a second liquid inlet pipe is arranged on the upper sealing head, the second liquid inlet pipe is connected with the upper sealing head through manual arc welding, and hot liquid can be fed into the corrugated heat exchange pipe through the second liquid inlet pipe.

Further, the lower end of the heat exchanger shell is provided with a lower end socket, the lower end socket is connected with the heat exchanger shell through bolts, the lower end socket is provided with a second liquid outlet pipe, the second liquid outlet pipe is connected with the lower end socket through manual arc welding, and the liquid after heat exchange can be discharged out of the corrugated heat exchange pipe through the arrangement of the second liquid outlet pipe.

Further, the inside of heat exchanger shell is provided with fixed tube sheet, fixed tube sheet is provided with two, fixed tube sheet passes through bolted connection with the heat exchanger shell, be provided with ripple heat exchange tube on the fixed tube sheet, ripple heat exchange tube is provided with a plurality of, ripple heat exchange tube passes through argon arc welding with fixed tube sheet and is connected, can realize the heat transfer treatment to the heat exchange liquid through the setting of ripple heat exchange tube.

Further, the inboard of ripple heat exchange tube is provided with the fixed fin, the fixed fin is provided with a plurality of, the fixed fin sets up to cross arrangement, be provided with the spacing groove on the fixed fin, the spacing groove sets up to triangular groove form, the spacing groove is provided with a plurality of, can reduce the scope of incrustation scale coalescence through the setting of fixed fin, also can improve the heat transfer performance of ripple heat exchange tube by a wide margin through a plurality of spacing grooves on the fixed fin at last to can improve the work efficiency of whole heat exchanger to a certain extent, and then can alleviate user's use pressure by a wide margin.

Further, the outside of ripple heat exchange tube is provided with first guide plate, first guide plate is provided with a plurality of, first guide plate passes through argon arc welding with ripple heat exchange tube and is connected, and adjacent two be provided with the second guide plate between the first guide plate, the second guide plate sets up to the opposite arrangement with first guide plate, can realize the water conservancy diversion processing of inside heat exchange fluid through the setting of first guide plate and second guide plate.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, through the arrangement of the electric slide way, the electric sliding block and the cleaning brush ring, a user can realize the position movement of the connecting frame through the electric slide way and the electric sliding block which are electrically connected when the heat exchanger is used, and the water scale of the corrugated heat exchange tube is removed through the cleaning brush rings on the connecting frame, so that the problem that the existing heat exchanger is difficult to treat the water scale which is coalesced on the wall of the heat exchange tube can be solved to a certain extent, and the service life of the whole heat exchanger can be greatly prolonged.

According to the utility model, the corrugated heat exchange tube, the fixing fins and the spacing grooves are arranged, so that when a user uses the heat exchanger, the possibility of scale generation can be reduced through the physical properties of the corrugated heat exchange tube, meanwhile, the range of scale coalescence can be reduced through the arrangement of the fixing fins, and finally, the heat exchange performance of the corrugated heat exchange tube can be greatly improved through the plurality of spacing grooves on the fixing fins, thereby improving the working efficiency of the whole heat exchanger to a certain extent, and further greatly relieving the use pressure of the user.

Drawings

FIG. 1 is a schematic view of a partial structure of the present utility model;

FIG. 2 is a schematic view of a connecting frame according to the present utility model;

FIG. 3 is a schematic diagram of the overall structure of the present utility model;

FIG. 4 is a schematic view of a corrugated heat exchange tube according to the present utility model;

in the figure: 1. a heat exchanger housing; 2. a first liquid inlet pipe; 3. a first liquid outlet pipe; 4. an upper end enclosure; 5. a second liquid inlet pipe; 6. a lower end enclosure; 7. a second liquid outlet pipe; 8. fixing the tube plate; 9. corrugated heat exchange tubes; 10. fixing fins; 11. a spacing groove; 12. a first deflector; 13. an electric slideway; 14. an electric slide block; 15. a connecting frame; 16. cleaning a brush ring; 17. and a second deflector.

Detailed Description

Referring to fig. 1-4, an embodiment of the present utility model is provided: the utility model provides a vertical corrugated tube heat exchanger, includes heat exchanger shell 1, be provided with electric slide 13 on the inner wall of heat exchanger shell 1, electric slide 13 passes through bolted connection with heat exchanger shell 1, be provided with electric slide 14 on the electric slide 13, electric slide 14 sets up to electric connection with electric slide 13, be provided with link 15 on the electric slide 14, link 15 passes through bolted connection with electric slide 14, be provided with on the link 15 and wash brush ring 16, wash brush ring 16 and be provided with a plurality of, wash brush ring 16 and link 15 pass through bolted connection, can realize carrying out the position movement to link 15 through electric slide 13 and electric slide 14 of electric connection to can be difficult to handle the problem of the incrustation scale of coalescence on the heat exchange tube pipe wall through a plurality of wash brush ring 16 on the link 15, and then can increase substantially whole heat exchanger's life, the outside of ripple heat exchange 9 is provided with first guide plate 12, first guide plate 12 is provided with through the second guide plate 12, the guide plate is arranged to the second guide plate 12 can be arranged to the second guide plate 17, and the guide plate is arranged to the second guide plate 12 is arranged to the second guide plate 17.

The front end of the heat exchanger shell 1 is provided with a first liquid inlet pipe 2, the first liquid inlet pipe 2 is connected with the heat exchanger shell 1 through argon arc welding, the lower end of the first liquid inlet pipe 2 is provided with a first liquid outlet pipe 3, the first liquid outlet pipe 3 is connected with the heat exchanger shell 1 through argon arc welding, cold liquid can be fed and discharged through the mutual matching of the first liquid inlet pipe 2 and the first liquid outlet pipe 3, the upper end of the heat exchanger shell 1 is provided with an upper sealing head 4, the upper sealing head 4 is connected with the heat exchanger shell 1 through bolts, the upper sealing head 4 is provided with a second liquid inlet pipe 5, the second liquid inlet pipe 5 is connected with the upper sealing head 4 through manual arc welding, hot liquid can be fed into the corrugated heat exchange pipe 9 through the second liquid inlet pipe 5, the lower end of the heat exchanger shell 1 is provided with a lower sealing head 6, the lower sealing head 6 is connected with the heat exchanger shell 1 through bolts, the lower sealing head 6 is provided with a second liquid outlet pipe 7, and the second liquid can be discharged through the second corrugated heat exchange pipe 7 through manual arc welding after the second sealing head 7 is connected with the lower sealing head 7.

In addition, the inboard of heat exchanger shell 1 is provided with fixed tube sheet 8, fixed tube sheet 8 is provided with two, fixed tube sheet 8 passes through bolted connection with heat exchanger shell 1, be provided with ripple heat exchange tube 9 on the fixed tube sheet 8, ripple heat exchange tube 9 is provided with a plurality of, ripple heat exchange tube 9 passes through argon arc welding with fixed tube sheet 8 and is connected, can realize the heat exchange treatment to the heat exchange liquid through the setting of ripple heat exchange tube 9, the inboard of ripple heat exchange tube 9 is provided with fixed fin 10, fixed fin 10 is provided with a plurality of, fixed fin 10 sets up to cross arrangement, be provided with spacing groove 11 on the fixed fin 10, spacing groove 11 sets up to the triangle groove form, spacing groove 11 is provided with a plurality of, can reduce the scope of incrustation scale coalescence through the setting of fixed fin 10, and finally also can improve the heat transfer performance of ripple heat exchange tube 9 by a wide margin through a plurality of spacing grooves 11 on the fixed fin 10 to improve the work efficiency of whole heat exchanger to a certain extent, and then can alleviate user's use pressure by a wide margin.

Working principle: when the vertical corrugated tube heat exchanger is used, heat exchange liquid is fed into the heat exchanger through the second liquid inlet tube 5 and the first liquid inlet tube 2, heat exchange treatment of the heat exchange liquid is achieved through the corrugated heat exchange tube 9, after a period of time, the heat exchange liquid is discharged through the second liquid outlet tube 7 and the first liquid outlet tube 3, a user can move the connecting frame 15 through the electric slide way 13 and the electric slide block 14 which are electrically connected in the process of using the vertical corrugated tube heat exchanger, scale removal is conducted on the corrugated heat exchange tube 9 through the cleaning brush rings 16 on the connecting frame 15, the problem that the existing heat exchanger is difficult to treat scale which is coalesced on the wall of the heat exchange tube is solved to a certain extent, the service life of the whole heat exchanger can be greatly prolonged, meanwhile, the possibility of scale production can be reduced through the physical properties of the corrugated heat exchange tube 9, the coalescent range is reduced through the arrangement of the fixing fins 10, finally, the heat exchange performance of the corrugated heat exchange tube 9 can be greatly improved through the plurality of spacing grooves 11 on the fixing fins 10, and the working efficiency of the whole heat exchanger can be greatly improved to a certain extent, and the pressure of the heat exchanger can be greatly relieved.

Claims (7)

1. The utility model provides a vertical bellows heat exchanger, includes heat exchanger shell (1), its characterized in that: be provided with electric slide (13) on the inner wall of heat exchanger shell (1), electric slide (13) pass through bolted connection with heat exchanger shell (1), be provided with electric slide (14) on electric slide (13), electric slide (14) set up to electric connection with electric slide (13), be provided with link (15) on electric slide (14), link (15) pass through bolted connection with electric slide (14), be provided with on link (15) and wash brush ring (16), wash brush ring (16) are provided with a plurality ofly, wash brush ring (16) and link (15) pass through bolted connection.

2. A vertical bellows heat exchanger according to claim 1, wherein: the front end of the heat exchanger shell (1) is provided with a first liquid inlet pipe (2), the first liquid inlet pipe (2) is connected with the heat exchanger shell (1) through argon arc welding, the lower end of the first liquid inlet pipe (2) is provided with a first liquid outlet pipe (3), and the first liquid outlet pipe (3) is connected with the heat exchanger shell (1) through argon arc welding.

3. A vertical bellows heat exchanger according to claim 1, wherein: the upper end of the heat exchanger shell (1) is provided with an upper sealing head (4), the upper sealing head (4) is connected with the heat exchanger shell (1) through bolts, a second liquid inlet pipe (5) is arranged on the upper sealing head (4), and the second liquid inlet pipe (5) is connected with the upper sealing head (4) through manual arc welding.

4. A vertical bellows heat exchanger according to claim 1, wherein: the lower end of the heat exchanger shell (1) is provided with a lower sealing head (6), the lower sealing head (6) is connected with the heat exchanger shell (1) through bolts, a second liquid outlet pipe (7) is arranged on the lower sealing head (6), and the second liquid outlet pipe (7) is connected with the lower sealing head (6) through manual arc welding.

5. A vertical bellows heat exchanger according to claim 1, wherein: the inside of heat exchanger shell (1) is provided with fixed tube sheet (8), fixed tube sheet (8) are provided with two, fixed tube sheet (8) pass through bolted connection with heat exchanger shell (1), be provided with ripple heat exchange tube (9) on fixed tube sheet (8), ripple heat exchange tube (9) are provided with a plurality of, ripple heat exchange tube (9) are connected through argon arc welding with fixed tube sheet (8).

6. A vertical bellows heat exchanger according to claim 5, wherein: the inner side of ripple heat exchange tube (9) is provided with fixed fin (10), fixed fin (10) are provided with a plurality of, fixed fin (10) set up to cross arrangement, be provided with spacing groove (11) on fixed fin (10), spacing groove (11) set up to triangular groove form, spacing groove (11) are provided with a plurality of.

7. A vertical bellows heat exchanger according to claim 5, wherein: the outside of ripple heat exchange tube (9) is provided with first guide plate (12), first guide plate (12) are provided with a plurality of, first guide plate (12) are connected through argon arc welding with ripple heat exchange tube (9), and adjacent two be provided with second guide plate (17) between first guide plate (12), second guide plate (17) are arranged for opposite direction with first guide plate (12).