CN216100348U - Cooling water tank for cable processing - Google Patents

Abstract

The application relates to the technical field of cable processing, in particular to a cooling water tank for cable processing. The key points of the technical scheme are as follows: comprises a frame, a fixed water tank, a sliding water tank and a driving component; the fixed water tank is fixedly connected to the rack; the sliding water tank is sleeved on the fixed water tank in a sliding mode, the end faces of the fixed water tank and the sliding water tank are provided with abdicating notches, and cables enter the sliding water tank through the abdicating notches and then penetrate out of the fixed water tank; the driving assembly comprises a rack, a gear and a driving piece, the rack is fixedly connected to the bottom surface of the sliding water tank, the gear is arranged on the driving piece, the rack is meshed with the gear, the driving assembly is arranged on the rack and connected with the gear, and the driving assembly controls the gear to rotate so as to control the sliding water tank to stretch and slide in the fixed water tank. This application has the function that promotes cooling trough's use convenience.

Description

Cooling water tank for cable processing

Technical Field

The application relates to the technical field of cable processing, in particular to a cooling water tank for cable processing.

Background

A cable is an electric energy or signal transmission device, generally made of one or more mutually insulated conductors and an outer insulating protective layer, and plays an indispensable role in modern life, such as a high-voltage wire, a charging wire, an earphone wire, and the like.

At present, the cable is mainly manufactured by three processes of drawing, stranding and coating, and the more complicated the model specification is, the higher the repeatability is. After the conductor in the cable is formed by drawing and stranding, an extruder coats a layer of insulating protective layer on the outer surface of the conductor, the temperature of the cable after extrusion is very high, and the cable can be finally shaped only by cooling. The cooling of cable is crucial one step in the production process, and the cooling effect is closely relevant with the design effect of cable to influence the quality of cable.

To the correlation technique among the above-mentioned, in order to fully cool down the cable that the extruder was extruded, often can set up the longer cooling trough of length, occupation space is great, is not convenient for carry on follow-up operations such as clearance after the cable cooling, therefore how to promote cooling trough's use convenience still remains to be studied.

SUMMERY OF THE UTILITY MODEL

In order to promote the use convenience of cooling trough, this application provides a cooling trough of cable processing.

The application provides a cooling trough of cable processing adopts following technical scheme: comprises a frame, a fixed water tank, a sliding water tank and a driving component; the fixed water tank is fixedly connected to the rack; the sliding water tank is sleeved on the fixed water tank in a sliding mode, abdicating notches are formed in the end faces of the fixed water tank and the sliding water tank, and cables enter the sliding water tank through the abdicating notches and then penetrate out of the fixed water tank; the driving assembly comprises a rack, a gear and a driving piece, the rack is fixedly connected to the bottom surface of the sliding water tank, the gear is arranged on the driving piece, the rack is meshed with the gear, the driving assembly is arranged on the rack and connected with the gear, and the driving assembly controls the gear to rotate, so that the sliding water tank is controlled to stretch and slide in the fixed water tank.

By adopting the technical scheme, when the extruder works to extrude the cables, the cooling water tank works synchronously, the abdicating notch is aligned to the extrusion port of the extruder, and then the driving assembly is rotated to enable the sliding water tank to slide to the position required by working towards the direction away from the fixed water tank, so that the cables of different types can penetrate through the cooling water tank to be cooled sufficiently, and the forming quality of the cables is improved; when the extruder stop work, after the cooling trough cooling, need to clear up work such as the position such as aircraft nose of extruder, rotate drive assembly this moment and make the slip basin shrink towards the direction slip of fixed basin to reduce the occupation of cooling trough to the space, make the staff have sufficient space and carry out work such as follow-up clearance, cooling trough slidable shrink saves storage space, has also made things convenient for the transportation of cooling trough.

Preferably, the driving member comprises a first rotating shaft and a first hand wheel; the first rotating shaft is rotatably connected to the rack, the first rotating shaft is adjacent to the rack, the gear is fixedly connected to the first rotating shaft, and the first hand wheel is fixedly connected to one end of the first rotating shaft.

Through adopting above-mentioned technical scheme, when the slip basin need be flexible on fixed basin, the staff rotates first hand wheel with the hand, and here, first hand wheel drives first pivot and rotates for first pivot drive gear rotates, and gear drive rack removes, so that the rack drives the slip basin and removes, thereby realizes the adjustable flexible function of slip basin.

Preferably, the driving assembly further comprises a limiting wheel, the limiting wheel is fixedly connected with the first rotating shaft, the limiting wheel is arranged on two sides of the sliding water tank respectively, and the limiting wheel is abutted to two opposite sides of the sliding water tank respectively.

Through adopting above-mentioned technical scheme, the flexible in-process of slip basin produces the skew easily, and then the condition that appears the cable and let a breach looks friction each other has increased the cracked risk of cable to influence the cooling shaping effect of cable, consequently setting up respectively in slip basin both sides and setting up spacing round, through spacing round and the both sides butt that the slip basin was carried on the back mutually, thereby fix a position the flexible direction of slip basin between two spacing rounds, promoted cooling water tank job stabilization nature.

Preferably, the driving piece includes second hand wheel, second pivot, third pivot, belt pulley and driving belt, the second pivot and the third pivot rotate respectively connect in the frame, the third pivot with the rack is adjacent, second hand wheel fixed mounting be in the one end of second pivot, the second pivot and respectively fixedly connected with in the third pivot the belt pulley, driving belt's both ends cladding respectively set up in second pivot and third pivot on the belt pulley, gear fixed connection in the third pivot.

By adopting the technical scheme, when a plurality of groups of cooling water tanks are arranged on the same installation carrier, because the space is limited, the installation position of the driving piece is limited, at the moment, the transmission distance of power can be prolonged by the transmission belt, the second hand wheel drives the second rotating shaft to rotate by rotating the second hand wheel, the second rotating shaft drives the belt pulley to rotate, the belt pulley drives the belt and the other belt pulley to rotate, and then the third rotating shaft is rotated, meanwhile, the third rotating shaft drives the gear to rotate, and the structure is reasonable.

Preferably, a limiting block is arranged at the end part of the rack in the length direction, the limiting block is abutted and limited with the gear, and the limiting block is used for plugging the end part of the rack.

Through adopting above-mentioned technical scheme, gear and rack intermeshing make the slip basin flexible on fixed basin, under the butt effect, the displacement stroke of rack obtains the restriction, and then makes the removal stroke of basin obtain the restriction, and the slip basin is difficult for the pine to take off outside fixed basin, and the stability when cooling trough uses obtains promoting.

Preferably, the adjustable bearing subassembly that is provided with of slip basin inner wall, the bearing subassembly includes connecting rod and bearing wheel, the one end of connecting rod with the slip basin links to each other, bearing wheel rotate connect in on the connecting rod, the top of bearing wheel is used for sliding the cooperation mutually with the cable.

Through adopting above-mentioned technical scheme, because cable length is longer, at the in-process of sliding through the cooling of slip basin cooling, rely on the extruder extrusion of cooling trough front end and the machine tractive of rear end, easily receive the weight effect tenesmus and the breach notch friction of stepping down, thereby increase the risk that the cable damaged, the pulling force of partial machine tractive has been offset in the cable tenesmus simultaneously, influence the cooling efficiency of cooling trough, consequently, set up the bearing subassembly in the slip basin, make the extruder of bearing wheel upper portion and cooling trough front end and the tractive machine of rear end keep same horizontal plane, the bearing wheel plays the bearing effect to the cable, here, the cable slides with bearing wheel top mutual butt, the cable steady removal of being convenient for.

Preferably, a backflow groove is formed in the wire inlet end of the sliding water tank, the backflow groove is communicated with the sliding water tank, a backflow pipeline is arranged at the bottom of the sliding water tank, one end of the backflow pipeline is communicated with the backflow groove, the other end of the backflow pipeline is communicated with the fixed water tank, and the fixed water tank is provided with a water return port.

Through adopting above-mentioned technical scheme, the slip basin top is equipped with water supply mechanism and supplies water to the slip basin, and consequently the water in the slip basin is mobile, sets up the backward flow groove and the bottom surface sets up the backflow pipeline at the inlet wire end of slip basin, and the water in the slip basin can flow into the backward flow groove, flows into the backward flow pipeline from this and gets into the return water mouth of fixed basin and discharge, realizes the circulation flow of rivers, is convenient for promote the cooling effect of basin internal cooling water.

Preferably, the sliding water tank is filled with foam cotton, the middle of the foam cotton is provided with a through hole for the cable to pass through, and the foam cotton is used for supporting the cable.

Through adopting above-mentioned technical scheme, the cable is running through the in-process that cooling tank carries out cooling, probably with cooling tank's cell wall friction, lead to cable scratch or fracture, influence the shaping effect of cable, therefore set up the flexible bearing cable of foam, play the guard action to the cable, and simultaneously, the foam can also carry out the separation to the water in the slip basin, the foam need flow through the foam and just can get into the backward flow groove, thereby make the cable on the foam fully contact with water, promote the cooling tank to the cooling effect of cable.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the extruder works to extrude the cables, the cooling water tank works synchronously, the abdicating notch is aligned to the extrusion port of the extruder, and then the driving assembly is rotated to enable the sliding water tank to slide to the position required by working in the direction away from the fixed water tank, so that the cables of different types can penetrate through the cooling water tank to perform sufficient cooling, and the forming quality of the cables is improved;

2. the two sides of the sliding water tank are respectively provided with the limiting wheels, and the limiting wheels are abutted against the two sides of the back of the sliding water tank, so that the telescopic direction of the sliding water tank is positioned between the two limiting wheels, and the working stability of the cooling water tank is improved;

3. when a plurality of groups of cooling water tanks are arranged on the same installation carrier, the space is limited, the installation position of the driving piece is limited, the transmission distance of the power of the transmission belt is prolonged, the second hand wheel drives the second rotating shaft to rotate by rotating the second hand wheel, the second rotating shaft drives the belt pulley to rotate, the belt pulley drives the belt and the other belt pulley to rotate, and then the third rotating shaft drives the gear to rotate, so that other groups of cooling water tanks are driven to shrink, and the actual transmission requirement is met.

Drawings

Fig. 1 is a schematic view of the overall structure of a cooling water tank in embodiment 1 of the present application.

Fig. 2 is a sectional view of a cooling water tank in embodiment 1 of the present application.

Fig. 3 is a sectional view of the cooling water tank a-a in example 1 of the present application.

Fig. 4 is a sectional view of a cooling water tank in embodiment 2 of the present application.

Description of reference numerals: 1. a frame; 11. a horizontal mounting surface; 12. a bearing seat; 2. fixing a water tank; 21. a sliding port; 22. a clamping block; 23. a abdication gap; 24. a water return port; 3. a sliding water tank; 31. a reflux tank; 32. a return line; 33. a holding assembly; 331. a supporting wheel; 332. a connecting rod; 3321. a first bent portion; 3322. a second bent portion; 34. an insertion block; 341. a groove; 35. a splint; 351. a gap; 36. foam cotton; 361. a through port; 4. a drive assembly; 41. a rack; 411. a limiting block; 42. a gear; 43. a drive member; 431. a first rotating shaft; 432. a first hand wheel; 433. a limiting wheel; 4331. a rotating part; 4332. an abutting portion; 434. a second rotating shaft; 435. a third rotating shaft; 436. a belt pulley; 437. a drive belt; 44. a slider; 441. a guide wheel.

Detailed Description

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

The embodiment of the application discloses cooling trough of cable processing.

Example 1:

referring to fig. 1, a cooling water tank for processing a cable includes a frame 1, a fixed water tank 2, a sliding water tank 3, and a driving assembly 4. The fixed water tank 2 is fixedly arranged on the frame 1, the sliding water tank 3 is sleeved on the fixed water tank 2 in a sliding manner, the driving component 4 is arranged on the frame 1, the driving component 4 is positioned at one end of the sliding water tank 3 far away from the fixed water tank 2, the driving component 4 is arranged adjacent to the sliding water tank 3 and is positioned below the sliding water tank 3, the sliding water tank 3 is connected with the driving component 4, the driving component 4 is used for driving the sliding water tank 3 to slide relative to the fixed water tank 2 in a telescopic manner, wherein, the sliding water tank 3 can contain cooling water, the cable workpiece needing to be cooled is inserted into the sliding water tank 3 and is penetrated out of the fixed water tank 2, in this process, the cooling water cools the cable, and when the position of the slide water tub 3 is adjusted, the distance between the extruder and the cooling water tank can be adjusted, the requirements of actual working conditions are met, and the flexibility of the cooling water tank in use is improved. Here, the following description is made in terms of an operation state when the cooling water tank normally operates.

Referring to fig. 1 and 2, a frame 1 is a work carrier for carrying or mounting a work machine, in this embodiment, the frame 1 is a workbench, a top of the frame 1 is a horizontal mounting surface 11, a fixed water tank 2 is a cuboid with a hollow interior, the fixed water tank 2 is arranged along a horizontal direction, and a top of the fixed water tank 2 is open; the welding of 2 bottoms in fixed basin has two supports, and the support passes through screw fixed mounting at horizontal installation face 11 to fix basin 2 at 1 top in the frame, the one end of fixed basin 2 is located horizontal installation face 11 tops, and the other end extends the frame 1 outside, and dismouting when the fixed basin 2 of the mode of screw connection was convenient for change or was maintained, in other embodiments, can also be through mode fixed connection such as welding between fixed basin 2 and the frame 1. The side wall of one end of the fixed water tank 2 above the frame 1 is provided with a sliding port 21 which is recessed from the top to the bottom, the sliding port 21 is U-shaped, the edge of the sliding port 21 of the fixed water tank 2 is in sliding fit with the sliding water tank 3, and the sliding port 21 is used for supporting the sliding water tank 3.

Wherein, the shape of slip basin 3 is similar with fixed basin 2, is inside hollow cuboid form equally, wherein, slip basin 3 sets up along the horizontal direction, and the open-top of slip basin 3, the one end of slip basin 3 is pegged graft to fixed basin 2 in via slip mouth 21, the other end orientation is kept away from one side extension of fixed basin 2 and is close to the extrusion mouth of extruder, the outer wall and the 21 looks adaptations of slip mouth of slip basin 3 and the butt that slides, slip basin 3 cup joints in fixed basin 2 this moment.

Cup joint slip basin 3 behind fixed basin 2, for the stability when promoting slip basin 3 and remove, fixed basin 2 is close to the top fixed mounting of the lateral wall of slip mouth 21 has joint piece 22, the bottom of joint piece 22 and the top looks butt of slip basin 3, so can restrict the top pine of slip basin 3 from fixed basin 2 and take off, stability when slip basin 3 slides obtains promoting.

Referring to fig. 3, one end of the fixed water tank 2 extending out of the rack 1 is horizontally provided with a yielding notch 23 in a penetrating manner, meanwhile, end faces of two ends of the sliding water tank 3 are respectively provided with a yielding notch 23 in a penetrating manner, the yielding notch 23 is in a U-shaped shape, and the yielding notch 23 and the top of the end face are in inclined plane transition. 3 tops in slip basin are provided with water supply mechanism, for example can be the water pipe at intercommunication water source and store the water tank etc. that has the cooling water, when the cable is extruded in extruder work, open water supply mechanism and supply water to slip basin 3, will be located slip basin 3 and keep away from the extrusion mouth that the breach 23 of stepping down of fixed basin 2 one end aimed at the extruder, the cable gets into slip basin 3 via stepping down breach 23 and carries out cooling, the cable runs through the breach 23 of stepping down of the 3 other ends in slip basin and the breach 23 of stepping down of fixed basin 2 immediately, and finally wear out outside fixed basin 2, realize the cooling.

Referring to fig. 2 and 3, in order to improve the cooling effect, the water in the sliding water tank 3 is circulated, wherein a backflow tank 31 is arranged on the outer end face of one end of the sliding water tank 3 away from the fixed water tank 2, the backflow tank 31 is integrally connected with the sliding water tank 3, the bottom of the backflow tank 31 extends to the lower part of the sliding water tank 3, so that the side wall of the backflow tank 31 is suspended, the backflow tank 31 is communicated with the inside of the sliding water tank 3 through a relief notch 23, the bottom of the sliding water tank 3 is fixedly connected with a backflow pipeline 32 along the length direction, one end of the backflow pipeline 32 is fixedly connected with the side wall of the backflow tank 31, an opening is arranged in the side wall of the backflow tank 31 in a penetrating manner, and one end of the backflow pipeline 32 is communicated with the opening on the side wall of the backflow tank 31; meanwhile, the other end of the return pipe 32 extends into the fixed water tank 2 and is communicated with the fixed water tank 2, and in addition, a return port 24 is penetratingly provided at the bottom of the fixed water tank 2 in a vertical direction, and the return port 24 may be communicated with a drainage pipe to discharge water.

Here, the rivers in the sliding water tank 3 can get into the backflow groove 31 from the breach of stepping down 23, flow into the backflow pipeline 32 by the backflow groove 31 afterwards, get into in the fixed basin 2 under the guide of backflow pipeline 32, flow into drainage pipe from the return water mouth 24 at last and discharge or recycle, realize the circulation flow of rivers, be convenient for promote the cooling effect of basin internal cooling water.

Referring to fig. 3, in the process of cooling and cooling the cable sliding through the sliding water tank 3, the length of the cable is long, and if the cable is extruded by an extruder at the front end of the cooling water tank and pulled by a machine at the rear end, the cable is easy to fall under the action of gravity and generate friction with the abdicating notch 23, so that the risk of cable damage is increased; simultaneously, the cable has offset the tractive pulling force of part machine because of the gravity tenesmus, has slowed down the speed that the cable slided through the cooling trough to influence the cooling efficiency of cooling trough, consequently slide 3 inner walls of water trough and adjustably set up bearing subassembly 33 and carry out the bearing to the cable, and have the effect that supplementary cable slided.

Specifically, the supporting assembly 33 includes a connecting rod 332 and a supporting wheel 331, the connecting rod 332 is in a circular bar shape, two ends of the connecting rod 332 are respectively bent into a first bent portion 3321 and a second bent portion 3322, an inner wall of one side of the sliding water tank 3 is welded with an insertion block 34, the insertion block 34 is in a cylindrical shape, a circular surface of the insertion block 34 away from the inner wall of the sliding water tank 3 is provided with a groove 341, an opening of the groove 341 is circular, the groove 341 is matched with the first bent portion 3321, the first bent portion 3321 is inserted into the groove 341, the insertion block 34 can be in threaded connection with a screw, the screw is used for abutting against the first bent portion 3321, and the connecting rod 332 is locked by rotating the screw; at this time, the second bending portion 3322 extends to the middle of the sliding water tank 3 and is horizontally arranged, the supporting wheel 331 is rotatably installed on the second bending portion 3322, the top of the supporting wheel 331 is used for sliding and abutting against the cable, so as to support the cable, and the top of the supporting wheel 331 and the pulling force directions of the extruder extrusion port at the front end of the cooling water tank and the pulling machine at the rear end of the cooling water tank are kept on the same horizontal plane.

Here, the number of the supporting members 33 may be provided in several groups, such as one group, two groups, or three groups, in this embodiment, the number of the supporting members 33 is two groups for illustration, and in other embodiments, the number of the supporting members 33 is suitable for the length of the sliding water tank 3, and is not limited herein. Two sets of bearing components 33 set up respectively and are close to the both ends of stepping down breach 23 at slip basin 3 for carry out bearing and supplementary slip through the cable of stepping down breach 23, thereby reduce the cable and produce the frictional contact because of the tenesmus with stepping down breach 23.

Further, in order to reduce the possibility of collision and friction between the cable and the abdicating notch 23, a clamping plate 35 with the shape and the size identical to those of the corresponding end face side wall is additionally arranged in the sliding water tank 3, the abdicating notch 23 is also arranged on the clamping plate 35, the clamping plate 35 is welded and fixed on the inner wall of the sliding water tank 3, a gap 351 is formed between the clamping plate 35 and the end side wall of the sliding water tank 3, the gap 351 is filled with foam 36, a through opening 361 for the cable to pass through is formed in the middle of the foam 36, the through opening 361 is communicated with the abdicating notch 23, the opening size of the through opening 361 is smaller than the abdicating notch 23, the foam 36 at the edge of the through opening 361 extends into the abdicating notch 23, if the cable deviates, the foam 36 flexibly supports the cable and protects the cable.

In order to drive the sliding water tank 3 to extend and contract on the fixed water tank 2, the driving assembly 4 includes a rack 41, a gear 42 and a driving member 43, the rack 41 is disposed along the length direction of the sliding water tank 3 and is fixedly connected to the bottom surface of the sliding water tank 3, the connection method may be welding, screw connection or the like, in this embodiment, the screw connection method is selected, and the rack 41 is adjacent to the return pipe 32. Meanwhile, two bearing seats 12 are fixed on the rack 1 through screws, the two bearing seats 12 are located on two sides of the sliding water tank 3, the two bearing seats 12 are opposite in position, the distance is larger than the width of the sliding water tank 3, the bearing seats 12 are used for driving a driving piece 43 to rotate and install, a gear 42 is arranged on the driving piece 43, and the sliding water tank 3 is driven to slide and stretch through mutual meshing of a rack 41 and the gear 42.

The driving member 43 comprises a first rotating shaft 431 and a first hand wheel 432, the first rotating shaft 431 is located below the rack 41, the first rotating shaft 431 is horizontally arranged, the first rotating shaft 431 is perpendicular to the rack 41, the first rotating shaft 431 penetrates through the opposite side surfaces of the two bearing blocks 12, two ends of the first rotating shaft 431 are respectively installed on the two bearing blocks 12, and the first rotating shaft 431 is rotatably installed; the gear 42 is fixedly connected to the first rotating shaft 431, and the gear 42 is located right below the rack 41, so that the rack 41 and the gear 42 are meshed with each other; the first handwheel 432 is fixedly connected to the end of the first rotating shaft 431 extending out of the bearing housing 12.

When the sliding water tank 3 needs to stretch out and draw back on the fixed water tank 2, a worker holds the handle to rotate the first hand wheel 432, the first hand wheel 432 drives the first rotating shaft 431 to rotate, the first rotating shaft 431 drives the gear 42 to rotate, the gear 42 drives the rack 41 to move, the rack 41 drives the sliding water tank 3 to move, and therefore the adjustable stretching function of the sliding water tank 3 is achieved.

Sliding water tank 3 produces the skew easily at flexible in-process, and then the condition that the cable rubs each other with the breach 23 of stepping down appears, has increased the cracked risk of cable, therefore driving piece 43 still includes spacing round 433, spacing round 433 and first pivot 431 fixed connection to, the quantity of spacing round 433 is provided with two, and two spacing rounds 433 set up the both sides at sliding water tank 3 respectively.

The limiting wheel 433 has a rotating portion 4331 and an abutting portion 4332, the rotating portion 4331 and the abutting portion 4332 are integrally formed, the rotating portion 4331 and the abutting portion 4332 are two concentric discs, and the radius of the rotating portion 4331 is smaller than that of the abutting portion 4332. The opposite circular surfaces of the two rotating parts 4331 are respectively positioned at two sides of the rack 41, and the side surfaces of the rotating parts 4331 in the circumferential direction are connected with the bottom surface of the sliding water tank 3 in a sliding manner; the one surface of the abutting portion 4332 in the central axis direction abuts against the side wall of the sliding water tank 3, and the two abutting portions 4332 abut against the two outer side walls of the sliding water tank 3, which are opposite to each other. The two limiting wheels 433 limit the bottom surface and the outer side wall of the sliding water tank 3, so that the sliding water tank 3 is limited to generate deflection, and the working stability of the cooling water tank is improved.

In order to fully cool the cable, the length of the sliding water tank 3 is set to be longer, if the sliding water tank 3 is driven to slide and stretch only by the driving assembly 4, the friction force between the sliding water tank 3 and the fixed water tank 2 is larger, and the moving process of the sliding water tank 3 is more laborious, so that the sliding part 44 is arranged on the rack 1, the sliding part 44 is adjacent to the fixed water tank 2 and is positioned below the sliding water tank 3, and the sliding part 44 is used for assisting the sliding of the sliding water tank 3.

Referring back to fig. 1, the sliding member 44 includes a connecting shaft and two guiding wheels 441, the connecting manner of the bearing seat 12, the connecting shaft and the guiding wheels 441 is consistent with that of the first rotating shaft 431 and the limiting wheel 433 of the driving assembly 4, the bearing seat 12 is fixedly mounted on the frame 1, two ends of the connecting shaft are respectively rotatably supported on the two bearing seats 12, the two guiding wheels 441 are respectively disposed on two sides of the sliding water tank 3, and the two guiding wheels 441 limit the bottom surface and the outer side wall of the sliding water tank 3. When drive assembly 4 drives slip basin 3 and slides, the guide wheel 441 that slip basin 3 drove on the slider 44 rotates, and the cooperation of sliding of guide wheel 441 and slip basin 3's bottom surface to drive the connecting axle and rotate, guide wheel 441 plays supplementary slip and butt effect to slip basin 3, makes the slip of slip basin 3 more smooth and easy.

In addition, two ends of the rack 41 are respectively provided with a limiting block 411, the limiting blocks 411 extend out of the rack 41 along the vertical direction to enable the bottoms of the limiting blocks 411 to be suspended, when the sliding water tank 3 is contracted towards the innermost end of the fixed water tank 2, the limiting blocks 411 are abutted with the gear 42 to limit the contraction process, and the possibility that the sliding water tank 3 collides with the fixed water tank 2 is reduced; when the sliding water tank 3 extends out of the fixed water tank 2 to the farthest distance, the other limit block 411 is abutted against the gear 42 to limit the extending process, so that the gear 42 is prevented from continuously rotating to continuously transmit one end of the sliding water tank 3, which is positioned in the fixed water tank 2, to the outside of the fixed water tank 2, and the sliding water tank 3 is not easy to loosen and release out of the fixed water tank 2. Under the butt effect of two stopper 411 and gear 42, the displacement stroke of slip basin 3 obtains the restriction, stability when having promoted the cooling trough and using.

The implementation principle of the embodiment 1 is as follows: when the extruder works to extrude cables, the cooling water tank works synchronously, the abdicating notch 23 is aligned to an extrusion port of the extruder, then the driving assembly 4 is rotated, the sliding water tank 3 slides to a position required by working towards a direction far away from the fixed water tank 2, so that cables of different types penetrate through the cooling water tank to be cooled sufficiently, and the forming quality of the cables is improved; when the extruder stop work, after the cooling trough cooling, need to clear up work such as the position such as aircraft nose of extruder, rotate drive assembly 4 this moment and make 3 slip contractions of the direction towards fixed basin 2 of slip basin to reduce the occupation of cooling trough to the space, make the staff have sufficient space and carry out work such as follow-up clearance, storage space is saved to the slidable contraction of cooling trough.

Example 2:

referring to fig. 4, in order to meet the requirement of cooling the cables extruded by the multiple extruders working simultaneously, the cooling water tanks are provided with multiple sets, such as two sets in the present embodiment, two sets of cooling water tanks are adjacent to each other in the horizontal direction, and the height of one set of cooling water tanks in the vertical direction is higher than that of the other set of cooling water tanks.

To meet the requirement of moving the sliding water tank 3 of a water tank with a higher height, the present embodiment is different from embodiment 1 in that the driving member 43 of the present embodiment includes a second hand wheel, a second rotating shaft 434, a third rotating shaft 435, a belt pulley 436 and a transmission belt 437.

The second rotating shaft 434 is rotatably connected to the frame 1, wherein the second rotating shaft 434 is rotatably mounted on the frame 1 through two bearing blocks 12, the two bearing blocks 12 are respectively located at the outer sides of the two cooling water tanks, and the second hand wheel is fixedly mounted at one end of the second rotating shaft 434 extending out of the bearing blocks 12, so that the second rotating shaft 434 can rotate by rotating the second hand wheel. In addition, the third rotation shaft 435 is disposed under the rack 41 of the sliding water tank 3, and the third rotation shaft 435 is adjacent to the sliding water tank 3, and the third rotation shaft 435 is rotatably installed under the sliding water tank 3 located higher through the bearing housing 12, the third rotation shaft 435 is perpendicular to the rack 41, and the gear 42 of the sliding water tank 3 is fixedly installed on the third rotation shaft 435.

In order to facilitate the transmission between the pulleys 436 and the transmission belt 437, the number of the pulleys 436 is two, two pulleys 436 are located on the same side of the frame 1 and the sliding water tank 3, the two pulleys 436 are respectively fixedly mounted on the second rotating shaft 434 and the third rotating shaft 435, and two ends of the transmission belt 437 are respectively wrapped on the two pulleys 436.

The implementation principle of the embodiment 2 is as follows: when a plurality of extruders work simultaneously and extrude the cable, the cable need cool down simultaneously, because frame 1 space is limited, the mounted position of driving piece 43 receives the restriction, at this moment, but add the transmission distance that drive belt 437 extension power, through rotating the second hand wheel, the second hand wheel drives second pivot 434 and rotates, second pivot 434 drives belt pulley 436 and rotates, belt pulley 436 drives another belt pulley 436 through drive belt 437 and rotates, and then make third pivot 435 rotate, and simultaneously, third pivot 435 drive gear 42 rotates, thereby the flexible of control slip basin 3 on fixed basin 2, this structure sets up rationally.

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: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a cooling trough of cable processing which characterized in that: comprises a frame (1), a fixed water tank (2), a sliding water tank (3) and a driving component (4);

the fixed water tank (2) is fixedly connected to the rack (1);

the sliding water tank (3) is sleeved on the fixed water tank (2) in a sliding mode, abdicating notches (23) are formed in the end faces of the fixed water tank (2) and the sliding water tank (3), and cables enter the sliding water tank (3) through the abdicating notches (23) and then penetrate out of the fixed water tank (2);

drive assembly (4) include rack (41), gear (42) and driving piece (43), rack (41) fixed connection in slip basin (3) bottom surface, gear (42) set up on driving piece (43), rack (41) with gear (42) intermeshing, drive assembly (4) are located frame (1) and with gear (42) link to each other, driving piece (43) control gear (42) rotate, so that slip basin (3) are in the slip of stretching out and drawing back slides in fixed basin (2).

2. The cooling water tank for processing the cable according to claim 1, wherein: the driving piece (43) comprises a first rotating shaft (431) and a first hand wheel (432); the first rotating shaft (431) is rotatably connected to the rack (1), the first rotating shaft (431) is adjacent to the rack (41), the gear (42) is fixedly connected to the first rotating shaft (431), and the first hand wheel (432) is fixedly connected to one end of the first rotating shaft (431).

3. The cooling water tank for processing the cable according to claim 2, wherein: the driving assembly (4) further comprises a limiting wheel (433), the limiting wheel (433) is fixedly connected with the first rotating shaft (431), the limiting wheel (433) is arranged on two sides of the sliding water tank (3) respectively, and the limiting wheel (433) is connected with two opposite sides of the sliding water tank (3) in an abutting mode respectively.

4. The cooling water tank for processing the cable according to claim 1, wherein: the driving piece (43) comprises a second hand wheel, a second rotating shaft (434), a third rotating shaft (435), a belt pulley (436) and a transmission belt (437), the second rotating shaft (434) and the third rotating shaft (435) are respectively and rotationally connected to the rack (1), the third rotating shaft (435) is adjacent to the rack (41), the second hand wheel is fixedly installed at one end of the second rotating shaft (434), the second rotating shaft (434) and the third rotating shaft (435) are respectively and fixedly connected with the belt pulley (436), two ends of the transmission belt (437) are respectively and wrapped and arranged on the belt pulley (436) of the second rotating shaft (434) and the third rotating shaft (435), and the gear (42) is fixedly connected to the third rotating shaft (435).

5. The cooling water tank for processing the cable according to claim 1, wherein: the end part of the rack (41) in the length direction is provided with a limiting block (411), the limiting block (411) is abutted and limited with the gear (42), and the limiting block (411) is used for blocking the end part of the rack (41).

6. The cooling water tank for processing the cable according to claim 1, wherein: the adjustable bearing subassembly (33) that is provided with of slip basin (3) inner wall, bearing subassembly (33) include connecting rod (332) and supporting wheel (331), the one end of connecting rod (332) with slip basin (3) link to each other, supporting wheel (331) rotate connect in on connecting rod (332), the top of supporting wheel (331) is used for sliding the cooperation mutually with the cable.

7. The cooling water tank for processing the cable according to claim 1, wherein: the inlet wire end of slip basin (3) is equipped with backward flow groove (31), backward flow groove (31) with slip basin (3) are linked together, the bottom of slip basin (3) is provided with backflow pipeline (32), the one end of backflow pipeline (32) communicate in backward flow groove (31), the other end of backflow pipeline (32) communicate in fixed basin (2), fixed basin (2) are equipped with return water mouth (24).

8. The cooling water tank for processing the cable according to claim 1, wherein: foam cotton (36) are filled in the sliding water tank (3), a through hole (361) for the cable to pass through is formed in the middle of the foam cotton (36), and the foam cotton (36) is used for supporting the cable.

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