CN218676579U - Water-cooling cyclic utilization mechanism of cable preparation - Google Patents

Abstract

The application discloses water-cooling cyclic utilization mechanism of cable preparation belongs to cable preparation technical field, including water-cooling box and circulation case, circulation case fixed mounting is on a lateral wall of water-cooling box, along being close to water-cooling box direction fixed mounting in proper order on two inside walls of circulation case have first guide plate, second guide plate and third guide plate, first guide plate, second guide plate and third guide plate are ladder descending formula and distribute, set up the drainage hole that the multiunit level link up on the lateral wall that water-cooling box and circulation case link to each other, fixed mounting has the water conservancy diversion platform on the interior diapire of water-cooling box, set up the drainage groove that the level link up on the lateral wall that water-cooling box and circulation case link to each other, fixed mounting has the circulating pump on the lateral wall that the circulation case is far away from the water-cooling box. The cooling circulation of water tank and circulation incasement water can be realized to this application, has not only reduced the cost of frequently changing the cooling water, and can keep water cooling efficiency.

Description

Water-cooling cyclic utilization mechanism of cable preparation

Technical Field

The application relates to the technical field of cable preparation, more specifically relates to a water-cooling cyclic utilization mechanism of cable preparation.

Background

The cable is made of one or more mutually insulated conductors and an outer insulating protective layer and is used for transmitting power or information from one place to a wire at another place; the cable needs to go through steps such as extrusion insulating layer in the manufacturing process, and the insulating layer of cable is usually realized through the extruding machine, and the cable after the extrusion molding needs to cool down the shaping, and the cooling process is usually carried out in the cooling trough, soaks the cable after the extrusion molding in cold district water or passes from the cooling water tank, and then makes the insulating layer of cable cool down the shaping fast.

In view of the above-mentioned related art, the applicant believes that the cable continuously exchanges heat with the cooling water in the water bath while passing through the cooling water bath, resulting in an increase in water temperature, a decrease in cooling efficiency, and a waste due to frequent replacement of the water.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present application provides a water-cooling cyclic utilization mechanism for cable preparation, which adopts the following technical scheme:

the utility model provides a water-cooling cyclic utilization mechanism of cable preparation, includes water-cooling box and circulation case, all set up the threading groove that the level link up on the relative both sides wall of water-cooling box, circulation case fixed mounting is on a lateral wall of water-cooling box, along being close to water-cooling box direction fixed mounting in proper order on two inside walls of circulation case have first guide plate, second guide plate and third guide plate, and first guide plate, second guide plate and third guide plate are the distribution of ladder fall formula, all through the baffle fixed connection of vertical distribution between first guide plate and second guide plate, second guide plate and the third guide plate, set up the drainage hole that the multiunit level link up on the lateral wall that water-cooling box and circulation case link to each other, and multiunit drainage hole all is located the top of third guide plate, fixed mounting has the water conservancy diversion platform on the interior diapire of water-cooling box, and the top of water conservancy diversion platform is the slope setting towards circulation case direction, set up the drainage groove that the level link up on the lateral wall that water-cooling box and circulation case link to each other, and the lower of drainage groove is located the upper side of the lower end of water-cooling box, the fixed mounting has the circulation case that the circulating pump and the circulating pump that the circulating pipe run through the circulating pump that the fixed mounting has run through to the circulation case that the circulating pump that the inner bottom extends to the circulating pipe that the circulating pump extends to the circulating pump that the circulating pump is located the circulating pipe.

Further, the guiding gutters that a plurality of is array distribution are all seted up along being close to the water-cooling tank direction at the top of first guide plate and second guide plate, and the guiding gutters on first guide plate and the second guide plate are interval dislocation distribution, the top of third guide plate is along being on a parallel with guiding gutter direction fixed mounting has a plurality of projections that are array distribution, and the cross-section semicircular structure of projection.

Furthermore, a plurality of groups of vertically communicated air holes are formed in the tops of the first guide plate and the second guide plate, and the plurality of groups of air holes and the guide grooves are distributed in a staggered mode at intervals.

Further, the top fixed mounting of circulation case has ventilative rack, the last fixed mounting of ventilative rack has two fans that the structure is the same, and two fans correspond first guide plate, second guide plate respectively and distribute.

Further, the water-cooling box is on a parallel with two inside walls of guiding gutter interval fixed mounting have the same first cross axle of multiunit structure, and the quantity of each first cross axle of group is two, each group all rotate on the first cross axle and install the wire wheel that the multiunit corresponds the distribution, and the circumference wheel wall of wire wheel is the fretwork setting.

Furthermore, two second cross axles that interval distribution was installed in the rotation on two inside walls of circulation case perpendicular to guiding gutter, two all rotate on the second cross axle and install a plurality of interval distribution's thick liquid wheel board, and the paddle of thick liquid wheel board is scraper bowl column structure.

To sum up, the application comprises the following beneficial technical effects:

(1) The cooling circulation system has the advantages that under the action of the water cooling tank, the circulation tank, the first guide plate, the second guide plate, the third guide plate and the circulation pump, the water cooling tank and the water body in the circulation tank are cooled and recycled, so that the cost of frequently replacing cooling water is reduced, the water cooling efficiency can be maintained, and the practicability is improved;

(2) Under the action of the circulating tank, the circulating pump and the paddle wheel plate, when the circulating pump pumps water to flow, the water acts on the paddles of the paddle wheel plate to drive the paddle wheel plate to rotate, and the heat dissipation efficiency of the water is further improved;

(3) This application is under the effect of ventilative rack and fan, and ventilative rack plays certain dustproof effect, starts the fan, and the air initiative in the circulation box is outwards taken out and is sent, and the cooperation bleeder vent can accelerate the radiating efficiency of circulation incasement water.

Drawings

FIG. 1 is a schematic structural view of a water-cooling recycling mechanism for cable preparation;

FIG. 2 is a schematic cross-sectional view of a first perspective of the present application;

FIG. 3 is a schematic cross-sectional view of a second perspective of the present application;

fig. 4 is a schematic view of an installation structure of the wire guide wheel of the present application.

The reference numbers in the figures illustrate:

1. a water cooling tank; 2. a circulation box; 3. a threading slot; 4. a first baffle; 5. a second baffle; 6. a third baffle; 7. a partition plate; 8. a drainage hole; 9. a flow guide table; 10. a drainage groove; 11. a circulation pump; 12. an introducing pipe; 13. a delivery pipe; 14. a diversion trench; 15. a convex column; 16. air holes are formed; 17. a breathable net frame; 18. a fan; 19. a first cross axis; 20. a wire guide wheel; 21. a second transverse axis; 22. a paddle wheel plate.

Detailed Description

The technical solution in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application; it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments, and all other embodiments obtained by those of ordinary skill in the art without any inventive work based on the embodiments in the present application belong to the protection scope of the present application.

In the description of the present application, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The present application is described in further detail below with reference to figures 1-4.

Referring to fig. 1-4, a water-cooling recycling mechanism for cable preparation includes a water-cooling tank 1 and a circulation tank 2, the circulation tank 2 is fixedly installed on a side wall of the water-cooling tank 1, a first guide plate 4, a second guide plate 5 and a third guide plate 6 are sequentially and fixedly installed on two inner side walls of the circulation tank 2 along a direction close to the water-cooling tank 1, the first guide plate 4, the second guide plate 5 and the third guide plate 6 are distributed in a step-down manner, and the first guide plate 4 and the second guide plate 5, and the second guide plate 5 and the third guide plate 6 are fixedly connected through a partition plate 7 which is vertically distributed.

Fixed mounting has water conservancy diversion platform 9 on the interior diapire of water-cooling tank 1, and the top of water conservancy diversion platform 9 is the slope setting towards circulation case 2 direction, set up the drainage groove 10 that the level link up on the lateral wall that water-cooling tank 1 links to each other with circulation case 2, and drainage groove 10 is located the lower end top of water conservancy diversion platform 9, make the water in water-cooling tank 1 have the trend of natural flow to circulation case 2, fixed mounting has circulating pump 11 on the lateral wall that circulation case 2 keeps away from water-cooling tank 1, the input fixed mounting of circulating pump 11 has induction pipe 12, and induction pipe 12 runs through the interior diapire department that extends to circulation case 2, the output fixed mounting of circulating pump 11 has contact tube 13, and contact tube 13 runs through the inside that extends to circulation case 2 and is located the top of first guide plate 4, drive through circulating pump 11, take out the water of circulation case 2 bottom to the top of first guide plate 4, second guide plate 5 and third guide plate 6 natural flow, carry out heat dissipation, set up the drainage hole 8 that the multiunit level link up on the lateral wall that water-up on the water-cooling tank 1 links to each other side, and the cooling water cooling tank is realized not only that the cooling water frequently, the cooling water efficiency has reduced the cooling water of multiunit 8.

The top of first guide plate 4 and second guide plate 5 has all offered a plurality of guiding gutter 14 that is the array distribution along being close to 1 direction of water-cooling box, and guiding gutter 14 on first guide plate 4 and the second guide plate 5 is interval dislocation distribution, have branch water conservancy diversion effect to the water, increase the heat exchange area of water and air, improve the radiating efficiency, a plurality of vertical logical bleeder vent 16 of lining up of group have all been offered at the top of first guide plate 4 and second guide plate 5, and multiunit bleeder vent 16 is interval dislocation distribution with guiding gutter 14, bleeder vent 16 communicates the inside cavity of circulation case 2, can realize inside water and outside heat exchange, the top of third guide plate 6 is along being on a parallel with guiding gutter 14 direction fixed mounting has a plurality of protruding columns 15 that are the array distribution, and the cross-section of protruding column 15 is the semicircular structure, protruding column 15 can cushion the water potential that flows to third guide plate 6, the top fixed mounting of circulation case 2 has ventilative rack 17, play certain dustproof effect, the last fixed mounting of ventilative rack 17 has two fans 18 that the same structure, and two fans 18 correspond first guide plate 4 respectively, second guide plate 5, the inside and outside circulation case 18 of circulation case can the cooling water, the cooperation of the radiator of the air of the starting, the radiator 2, the radiator is accelerated.

The two opposite side walls of the water cooling tank 1 are respectively provided with a horizontally through threading groove 3, a plurality of groups of first transverse shafts 19 with the same structure are fixedly arranged on the two inner side walls of the water cooling tank 1 parallel to the diversion trench 14 at intervals, the number of each group of the first transverse shafts 19 is two, a plurality of groups of correspondingly distributed wire guide wheels 20 are rotatably arranged on each group of the first transverse shafts 19, an extruded cable insulation jacket passes through the wheel shaft interval of the wire guide wheels 20 and the two threading grooves 3 to exchange heat with cooling water to finish cooling forming, and the circumferential wheel wall of each wire guide wheel 20 is hollowed out, so that the heat exchange efficiency of the cable insulation jacket and the cooling water is improved; two second cross axles 21 that two interval distribution were installed in the rotation on two inside walls of circulation case 2 perpendicular to guiding gutter 14, all rotate on two second cross axles 21 and install a plurality of interval distribution's thick liquid wheel board 22, and the paddle of thick liquid wheel board 22 is scraper bowl column structure, when circulating pump 11 pumped water body flows, the water acts on the paddle of thick liquid wheel board 22, drives thick liquid wheel board 22 and rotates, and then the stirring water body is tumbled, is favorable to further improving the radiating efficiency of water.

The implementation principle of the embodiment of the application is as follows: the extruded cable insulation jacket passes through the wheel shaft interval of the wire guide wheel 20 and the two threading grooves 3 to exchange heat with cooling water to finish cooling forming; the water in the water cooling box 1 has a trend of flowing to the circulation box 2 naturally through the drainage groove 10, the circulation pump 11 is started, the water at the bottom of the circulation box 2 is pumped to the position above the first guide plate 4, the water flows along the first guide plate 4, the second guide plate 5 and the third guide plate 6 naturally, natural heat dissipation is carried out, the guide groove 14 has a branch flow guiding effect on the water, the heat exchange area of the water and air is increased, the heat dissipation efficiency is improved, the fan 18 is started, the air in the circulation box 2 is pumped outwards actively, the heat dissipation efficiency of the water in the circulation box 2 can be accelerated by matching with the air holes 16, when the circulation pump 11 pumps the water to flow, the water acts on the blades of the paddle wheel plates 22 to drive the paddle wheel plates 22 to rotate, the water is stirred to tumble, the heat dissipation efficiency of the water is further improved, the water after heat dissipation flows into the water cooling box through the drainage holes 8, cooling and recycling of cooling water is realized, the cost of frequent cooling water replacement is reduced, and the water cooling efficiency can be kept.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (6)

1. The utility model provides a water-cooling cyclic utilization mechanism of cable preparation, includes water-cooling case (1) and circulation case (2), its characterized in that: all set up threading groove (3) that have the level to link up on the relative both sides wall of water-cooling case (1), circulation case (2) fixed mounting is on the lateral wall of water-cooling case (1), along being close to water-cooling case (1) direction fixed mounting in proper order on two inside walls of circulation case (2) have first guide plate (4), second guide plate (5) and third guide plate (6), and all through vertical distribution's baffle (7) fixed connection between first guide plate (4), second guide plate (5) and third guide plate (6), set up drainage hole (8) that the multiunit level link up on the lateral wall that water-cooling case (1) and circulation case (2) link to each other, and multiunit level link up drainage hole (8) all are located the top of third guide plate (6), fixed mounting has water conservancy diversion platform (9) on the interior diapire of water-cooling case (1), and the top that water-diversion platform (9) was linked up towards circulation case (2) and set up water-cooling case (2) and the circulation case lateral wall (10) and set up the lower water-cooling case lateral wall (10) and set up the side of circulation case (10), and set up the water-cooling case (10) and set up the circulation case (10) and set up the side wall of circulation case (10) and set up the water-cooling case (10) and keep away from the water-cooling case (10) and set up the circulation case (10) and keep away from the water-cooling case (2) and set up the side wall that the circulation case (10) and set up the water-cooling case (2) and set up the water-cooling case (10) and put up the water-cooling case (1) and set up the circulation hole (10) and put up the side wall, and put up the water-cooling case (10) and set up the circulation ) The utility model discloses a circulation case, the input fixed mounting of circulating pump (11) has induction pipe (12), and induction pipe (12) run through the interior diapire department that extends to circulation case (2), the output fixed mounting of circulating pump (11) has contact tube (13), and contact tube (13) run through the top that extends to the inside of circulation case (2) and is located first guide plate (4).

2. The water-cooled recycling mechanism for cable preparation according to claim 1, characterized in that: the top of first guide plate (4) and second guide plate (5) is all along being close to water-cooling tank (1) direction and seted up guiding gutter (14) that a plurality of is array distribution, and guiding gutter (14) on first guide plate (4) and the second guide plate (5) are interval dislocation distribution, the top of third guide plate (6) is along being on a parallel with guiding gutter (14) direction fixed mounting has a plurality of projections (15) that are array distribution, and the cross-section of projection (15) is semicircular structure.

3. The water-cooling recycling mechanism for cable preparation according to claim 2, characterized in that: a plurality of groups of vertically communicated air holes (16) are formed in the tops of the first guide plate (4) and the second guide plate (5), and the air holes (16) and the guide grooves (14) are distributed at intervals in a staggered mode.

4. The water-cooled recycling mechanism for cable preparation according to claim 3, wherein: the top fixed mounting of circulation case (2) has ventilative rack (17), the last fixed mounting of ventilative rack (17) has two fans (18) that the structure is the same, and just two fans (18) correspond first guide plate (4), second guide plate (5) respectively and distribute.

5. The water-cooled recycling mechanism for cable preparation according to claim 1, characterized in that: the water cooling tank (1) is parallel to two inside walls of the diversion trench (14) and is fixedly provided with a plurality of groups of first transverse shafts (19) with the same structure at intervals, the number of each group of the first transverse shafts (19) is two, each group of the first transverse shafts (19) is rotatably provided with a plurality of groups of guide wheels (20) which are correspondingly distributed, and the circumferential wheel wall of each guide wheel (20) is hollowed.

6. The water-cooled recycling mechanism for cable preparation according to claim 1, characterized in that: two inside walls of the circulation box (2) perpendicular to the diversion trench (14) are rotatably provided with two second transverse shafts (21) which are distributed at intervals, two second transverse shafts (21) are respectively rotatably provided with a plurality of pulp wheel plates (22) which are distributed at intervals, and blades of the pulp wheel plates (22) are of bucket-shaped structures.

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