CN117219372A - Cooling device with even cooling function for cable production - Google Patents

Abstract

The invention discloses a cooling device with a uniform cooling function for cable production, and relates to the technical field of cable processing. Including the support shell, the support shell rotates and is provided with first fixed shell, elastic sleeve is installed to first fixed shell, first fixed shell rigid coupling has the first fixed plate that circumference equidistance was distributed, first fixed plate slides and is provided with the slip shell, the support shell rigid coupling has the stock solution shell, the stock solution shell has inlayed first pipe, first fixed shell intercommunication has the second fixed pipe that circumference equidistance was distributed, second fixed pipe intercommunication has first solid fixed ring, first solid fixed ring rotates and is provided with the rotation shell that communicates with first pipe, first fixed shell is equipped with regulation fixture and flow control mechanism. According to the invention, the cable is positioned in the middle of the liquid through the first fixing shell, so that the protective sleeve is convenient to cool uniformly, the applicability of the device is improved by adjusting the clamping mechanism, and the flow rate of the liquid in the first fixing shell is changed through the flow adjusting mechanism, so that the temperature of the protective sleeve in the circumferential direction is ensured to be consistent.

Description

Cooling device with even cooling function for cable production

Technical Field

The invention relates to the technical field of cable processing, in particular to a cooling device with a uniform cooling function for cable production.

Background

The cable is made by twisting a plurality of wires, and then wrapping an insulating protective sleeve on the outer side of the twisted wires, and the protective sleeve of the existing cable is generally made of polyvinyl chloride and other materials.

In the manufacturing process of the cable, the extruder extrudes the protective sleeve and is sleeved on the outer side of the combined cable, then the cable wrapped with the protective sleeve is placed in the water tank for cooling, and the protective sleeve of the water cooling shaping cable in the water tank is processed and manufactured to finish the cable, wherein in the process of cooling the cable protective sleeve by water in the water tank, the circumferential water content of the cable protective sleeve is different, so that the circumferential heat absorption efficiency of the water to the cable protective sleeve is different, the circumferential temperature change of the protective sleeve is uneven, and even if the circumferential shrinkage change of the protective sleeve is inconsistent, the protective sleeve is easy to crack, and the product quality of the cable is affected.

Therefore, there is a need to develop a cooling device with a uniform cooling function for cable production.

Disclosure of Invention

In order to overcome the problems, the invention provides a cooling device with a uniform cooling function for cable production.

The technical scheme of the invention is as follows: the utility model provides a cable manufacture is with cooling device who has even cooling function, including the supporting shell, the supporting shell rigid coupling has control terminal, the inside of supporting shell is provided with first fixed shell through the backup pad rotation, first fixed shell is equipped with the circular hole of symmetric distribution, detachable elastic sleeve is installed to first fixed shell, the rigid coupling has the first fixed plate of circumference equidistance distribution in the first fixed shell, first fixed plate slip is provided with the sliding shell, sliding shell and first fixed shell sliding fit, the supporting shell has the stock solution shell through the connecting rod rigid coupling, be equipped with cooling unit in the stock solution shell, the stock solution shell is through first fixed pipe and supporting shell intercommunication, the lower part of stock solution shell has inlayed first pipe, the suction pump is installed to first pipe, one side intercommunication that first fixed shell is close to the elastic sleeve has the second fixed pipe of circumference equidistance distribution, second fixed pipe rigid coupling and intercommunication have first solid fixed ring, first solid fixed ring rotates and is provided with the rotation shell, rotation shell and first pipe rigid coupling and intercommunication, first fixed plate is equipped with adjustment mechanism and flow control mechanism, adjustment mechanism is used for sliding shell laminating different specifications cable, adjustment mechanism has the stock solution flow control unit, the equal flow control unit is used for adjusting the first fixed speed of flow control unit with the suction pump.

More preferably, the side of the sliding shell away from the adjacent first fixing plate is provided with uniformly distributed balls for reducing friction between the sliding shell and the cable.

More preferably, the adjusting and clamping mechanism comprises first sliding frames distributed at equal intervals in the circumferential direction, the first sliding frames distributed at equal intervals in the circumferential direction are all arranged on one side of a first fixed shell in a sliding mode, the first sliding frames are fixedly connected with adjacent sliding shells, a first tension spring is installed between the first sliding frames and the first fixed shells, a second fixed ring is arranged on the side wall of the first fixed shell in a limiting sliding mode, an annular limiting groove is formed in the second fixed ring, the cross section of the annular limiting groove in the second fixed ring is triangular, an electric push rod is fixedly connected to the side wall of the supporting shell through a connecting block, the electric push rod is electrically connected with a control terminal, a fixed block is fixedly connected to the telescopic end of the electric push rod, a groove is formed in the fixed block, and the groove of the fixed block is in sliding fit with the second fixed ring.

More preferably, the flow regulating mechanism comprises second fixed shells distributed at equal intervals in the circumferential direction, the second fixed shells distributed at equal intervals in the circumferential direction are embedded in the side wall of the first fixed shell, the second fixed shells distributed at equal intervals in the circumferential direction are distributed alternately with the first fixed plates distributed at equal intervals in the circumferential direction, the second fixed shells are provided with second sliding frames in a sliding mode, the second sliding frames and the second fixed shells are matched to form cavities, air exists in the cavities, one side, close to the second fixed shells, of each second fixed pipe is fixedly connected with a fixed frame, sliding plates are arranged on the fixed frames in a sliding mode, sliding grooves matched with the adjacent sliding plates in a sliding mode are formed in the second fixed pipes, the second fixed plates are fixedly connected with second fixed plates distributed symmetrically, and the second fixed plates are provided with the sliding grooves matched with the adjacent second sliding frames in a sliding mode.

More preferably, the device further comprises a diversion mechanism for uniformly rotating the first fixing shell, the diversion mechanism is arranged on the supporting shell and comprises a driving motor, the driving motor is fixedly connected to the side wall of the supporting shell through a support, the driving motor is electrically connected with the control terminal, the side wall of the supporting shell is rotatably provided with a first rotating shaft through a supporting block, the first rotating shaft is fixedly connected with an output shaft of the driving motor, the first rotating shaft is fixedly connected with a first sprocket, one side of the first fixing shell, which is far away from the elastic sleeve, is fixedly connected with a second sprocket, the side wall of the supporting shell is provided with a through hole, a chain is wound between the first sprocket and the second sprocket, the chain penetrates through the through hole of the supporting shell, and the first fixing shell is provided with an agitating component for mixing liquid in the first fixing shell.

More preferably, the stirring assembly comprises second rotating shafts distributed at equal intervals in the circumferential direction, the second rotating shafts distributed at equal intervals in the circumferential direction are all rotationally arranged on the first fixing shell, one ends of the second rotating shafts close to the second fixing rings penetrate through the first fixing shell and are rotationally connected with the first fixing shell, the second rotating shafts are located between adjacent first fixing plates, the second rotating shafts are fixedly connected with third fixing plates which are uniformly distributed, one ends of the second rotating shafts located outside the first fixing shell are fixedly connected with first straight gears, the first fixing shell is fixedly connected with gear rings through connecting rods, and the gear rings are meshed with the first straight gears.

More preferably, the third fixing plate is provided obliquely for guiding the rotation of the liquid.

More preferably, the spraying mechanism for pre-cooling the cable protective sleeve is further arranged on the supporting shell, the spraying mechanism comprises a first fixing frame fixedly connected to the supporting shell, the first fixing frame is close to a second fixing ring, the first fixing frame is provided with a rotating pipe through a connecting block in a rotating mode, the rotating pipe is provided with spray heads which are uniformly distributed, the lower portion of the liquid storage shell is embedded with a second guide pipe, the second guide pipe is provided with a water suction pump which is electrically connected with a control terminal, the second guide pipe is rotationally connected with the rotating pipe, a rotary table is fixedly connected with the first guide shaft, the rotary table is provided with a convex column, the supporting shell is provided with a third sliding frame in a limiting sliding mode through a supporting plate, the third sliding frame is provided with a sliding groove matched with the convex column on the rotary table, a rack is fixedly connected to the third sliding frame, and the rotating pipe is fixedly connected with a second spur gear which is meshed with the rack.

More preferably, still including the dewatering mechanism that is used for clearing up the drop of water on the cable protective sheath, dewatering mechanism sets up in the supporting shell, and dewatering mechanism is including the second mount, and the second mount rigid coupling is in the supporting shell, and the second mount slides and is provided with the sliding frame of symmetric distribution, and the sliding frame rotates and is provided with the live-rollers, and the lateral wall of live-rollers sets up to the material that absorbs water, installs the second extension spring between the sliding frame of symmetric distribution, and the sliding frame rigid coupling has rather than last live-rollers contact complex gag lever post.

More preferably, the diameters of the two ends of the rotating roller on the sliding frame are larger than the diameter of the middle part of the rotating roller on the sliding frame, so that the contact area between the rotating roller on the sliding frame and the cable is increased.

The beneficial effects are that: according to the invention, the cable is positioned in the middle of the liquid through the first fixed shell and the first fixed plates and the sliding shells which are circumferentially and equidistantly distributed, so that the cable protective sleeve is conveniently and uniformly cooled, the sliding shells are attached to the side walls of cables with different specifications through adjusting the position of the sliding shells by the electric push rod in the clamping mechanism, the applicability of the device is improved, the flow cross section of the second fixed tube is adjusted through the sliding plates in the flow adjusting mechanism, the flow rate of the liquid in the first fixed shell is changed, the cooling rate of the cable protective sleeve is changed, so that the temperature of the protective sleeve in the circumferential direction is ensured to be consistent, the first fixed shell is driven to rotate through the driving motor in the flow guiding mechanism, so that the contact between the liquid and the protective sleeve is more complete and comprehensive, the liquid is stirred by the third fixed plate in the stirring assembly in a matching way, the circumferential direction of the protective sleeve is further ensured to be evenly cooled, the liquid is sprayed onto the cable in a swinging way through the rotating tube in the spraying mechanism, the liquid is enabled to be temporarily contacted with the cable, the pre-cooling shaping of the protective sleeve is finished, the protective sleeve is prevented from being abnormally deformed in the subsequent moving process by contact with other parts, and the protective sleeve is conveniently stored for a long time after the protective sleeve is cleaned by the rotating roller of the sliding frame in the water removing mechanism.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a cross-sectional view of a part at a support shell of the present invention.

Fig. 3 is a cross-sectional view of the components of the first stationary housing, the rotating housing of the present invention.

Fig. 4 is a schematic perspective view of an adjusting and clamping mechanism according to the present invention.

Fig. 5 is a top view of the components of the first housing of the present invention.

Fig. 6 is a cross-sectional view of the flow regulating mechanism of the present invention.

FIG. 7 is a cross-sectional view of the deflector mechanism of the present invention.

Fig. 8 is a schematic cross-sectional perspective view of the spray mechanism of the present invention.

Fig. 9 is a schematic perspective view of a dewatering mechanism according to the present invention.

Marked in the figure as: the device comprises a 1-supporting shell, a 101-control terminal, a 102-first fixed shell, a 103-elastic sleeve, a 104-first fixed plate, a 105-sliding shell, a 106-liquid storage shell, a 1061-first fixed tube, a 107-first guide tube, a 108-second fixed tube, a 109-first fixed ring, a 110-rotating shell, a 2-first sliding frame, a 201-first tension spring, a 202-second fixed ring, a 203-electric push rod, a 204-fixed block, a 3-second fixed shell, a 301-second sliding frame, a 302-fixed frame, a 303-sliding plate, a 304-second fixed plate, a 4-driving motor, a 401-first rotating shaft, a 402-first sprocket, a 403-second sprocket, a 404-chain, a 5-second rotating shaft, a 501-third fixed plate, a 502-first straight gear, a 503-ring gear, a 6-first fixed frame, a 601-rotating tube, a 602-second guide tube, a 603-rotating disc, a 604-third sliding frame, a 605-rack, a 606-second straight gear, a 7-second frame, a 701-second sliding frame, a 703-tension spring, a 703-second sliding frame, a 703-second tension spring and a 703-limiting rod.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Example 1: the cooling device with uniform cooling function for cable production is shown with reference to figures 1-4, and comprises a supporting shell 1, wherein the right part of the upper side surface of the supporting shell 1 is fixedly connected with a control terminal 101, the inner bottom surface of the supporting shell 1 is rotatably provided with a first fixing shell 102 through a supporting plate, the left side and the right side of the first fixing shell 102 are respectively provided with a circular hole, the left side wall of the first fixing shell 102 is provided with a detachable elastic sleeve 103, the inner wall of the first fixing shell 102 is fixedly connected with four first fixing plates 104 distributed circumferentially at equal intervals, each first fixing plate 104 is slidably provided with a sliding shell 105 which is slidably matched with the first fixing shell 102, the inner side surfaces of the four sliding shells 105 are respectively provided with a plurality of balls which are uniformly distributed, the balls of the sliding shells 105 are used for reducing friction force between the balls and a cable, the bottom surface of the supporting shell 1 is fixedly connected with a liquid storage shell 106 through a connecting rod, the cooling unit is arranged in the liquid storage shell 106, the upper part of the liquid storage shell 106 is communicated with the lower part of the supporting shell 1 through a first fixing pipe 1061, a first guide pipe 107 is embedded in the lower part of the liquid storage shell 106, a water pump is arranged on the first guide pipe 107, the first guide pipe 107 is fixedly connected with the side wall of the supporting shell 1 through a connecting plate, four second fixing pipes 108 which are circumferentially and equidistantly distributed are communicated with the left side of the first fixing shell 102, the four second fixing pipes 108 are staggered with four first fixing plates 104, the outer ends of the four second fixing pipes 108 are fixedly connected and communicated with a first fixing ring 109, the first fixing ring 109 is rotationally provided with a rotating shell 110, the upper side of the rotating shell 110 is fixedly connected and communicated with the upper end of the first guide pipe 107, the right part of the first fixing shell 102 is provided with an adjusting and clamping mechanism for the sliding shell 105 to be attached to cables with different specifications, the applicability of the device is improved, meanwhile, the four sliding shells 105 are contacted with the protective jackets of the cables, and then four first fixing plates 104 and the first fixing shell 102 are matched to form four chambers, wherein the volumes of the four chambers are consistent, so that water distributed on the circumference of the cable protecting sleeve is the same, water flowing in the first fixing shell 102 uniformly cools the circumference of the protecting sleeve, a flow regulating mechanism for regulating the water flowing rate in the first fixing shell 102 is arranged at the left part of the first fixing shell 102, and a cooling unit, a water suction pump of the first guide tube 107 and a regulating clamping mechanism are electrically connected with the control terminal 101.

Referring to fig. 4 and 5, the adjusting and clamping mechanism comprises four first sliding frames 2 distributed at equal intervals in the circumferential direction, the four first sliding frames 2 are all arranged on the right part of the first fixed shell 102 in a sliding manner, the first sliding frames 2 are fixedly connected with the adjacent sliding shells 105, a first tension spring 201 is installed between the first sliding frames 2 and the first fixed shell 102, the first tension spring 201 is sleeved on the adjacent first sliding frames 2, a second fixed ring 202 is arranged on the right part of the outer side wall of the first fixed shell 102 in a limiting sliding manner, an annular limiting groove is formed in the right side face of the second fixed ring 202, the cross section of the annular limiting groove on the second fixed ring 202 is triangular, an electric push rod 203 electrically connected with the control terminal 101 is fixedly connected to the rear part of the inner side wall of the supporting shell 1 through a connecting block, a fixed block 204 is fixedly connected to the telescopic end of the electric push rod 203, a groove in sliding fit with the second fixed ring 202 is formed in the fixed block 204, and the four sliding shells 105 are centrally attached to cables of different specifications through the electric push rod 203, so that the applicability of the device is improved.

Referring to fig. 4 and 6, the flow adjusting mechanism includes four second fixing shells 3 distributed circumferentially and equidistantly, the four second fixing shells 3 are all embedded in the left portion of the first fixing shell 102, the second fixing shells 3 are located on the right side of the adjacent second fixing tubes 108, a second sliding frame 301 is slidably disposed in the second fixing shells 3, the second sliding frame 301 and the second fixing shells 3 are matched to form a cavity, gas is stored in the cavity, a fixing frame 302 is fixedly connected to the right side wall of the second fixing tube 108, a sliding plate 303 is slidably disposed in the fixing frame 302, the second fixing tubes 108 are provided with sliding grooves, the sliding plate 303 slides in the sliding grooves of the adjacent second fixing tubes 108, the sliding plate 303 is fixedly connected with symmetrically distributed second fixing plates 304, the left sides of the sliding grooves are far away from the first fixing shells 102, the right sides of the sliding grooves are close to the first fixing shells 102, and the sliding grooves of the second fixing plates 304 are slidably matched with the adjacent second sliding frames 301.

In the cable production and processing process, an operator pulls the cable sleeved with the protective sleeve into the first fixing shell 102 through the existing winding device, meanwhile, the cable penetrates through the elastic sleeve 103, the elastic sleeve 103 deforms and clings to the protective sleeve of the cable, and at the moment, the moving direction of the cable is from right to left.

In the moving process of the cable, an operator starts the cooling unit in the liquid storage shell 106, the water suction pump of the first conduit 107 and the electric push rod 203 through the control terminal 101, wherein the water suction pump of the first conduit 107 works, so that water in the liquid storage shell 106 enters between the first fixed ring 109 and the rotating shell 110 through the first conduit 107, then water enters the first fixed shell 102 through the four second fixed pipes 108, and then water cools the protective sleeve of the cable, meanwhile, because the elastic sleeve 103 is tightly attached to the protective sleeve of the cable, water cannot flow out from the left end of the first fixed shell 102 at the moment, water moves rightward and flows out from the circular hole at the right end of the first fixed shell 102 (and in the flowing process, the amount of water flowing into the first fixed shell 102 is always larger than that of water flowing out from the circular hole at the right end of the first fixed shell 102, so that the water fills the first fixed shell 102), the flowing water falls onto the supporting shell 1, then the water reenters the liquid storage shell 106 through the first fixed pipe 1061, and the flowing water cools the protective sleeve of the cable.

The cooling unit work in the stock solution shell 106 carries out cooling to water in the stock solution shell 106, guarantee to get into the water in the first fixed shell 102 and keep low temperature, because the flow direction of water in the first fixed shell 102 is from left to right, and the direction of movement of cable is from right to left, the flow direction of water is opposite with the direction of movement of cable, make the water after the heat absorption break away from in time with the contact of cable, improve the cooling effect of water to the cable protective sheath, simultaneously water absorbs the heat on the cable protective sheath gradually in the flow process, the temperature of water slightly is higher than the temperature of water on its left part in the right part of first fixed shell 102, make the water slightly higher in temperature absorb the heat on the cable protective sheath slightly earlier, cool down gradually on the cable protective sheath promptly, avoid the protective sheath to lead to the fact the cable protective sheath fracture because of the cooling is too fast.

The electric push rod 203 works, the electric push rod 203 drives the fixed block 204 to move leftwards, the fixed block 204 moves leftwards to enable the upper groove of the fixed block to extrude the second fixed ring 202 to move leftwards, the second fixed ring 202 moves leftwards to enable the annular limiting groove of the upper fixed ring to weaken extrusion of the four first sliding frames 2, then the four first sliding frames 2 are driven by the tensile force of the four first tension springs 201 to be close to each other until balls of the sliding frames 105 contact with the side wall of the cable protective sleeve (the sliding frames 105 are not in sealing contact with the cable protective sleeve), the amount of gaps between the sliding frames 105 and the cable protective sleeve is small, water mainly flows out through the right end of the first fixed shell 102), the control terminal 101 stops the electric push rod 203, in the process, the four groups of first fixed plates 104 and the sliding frames 105 are matched with the cable again to divide the chambers of the first fixed shell 102 into four parts, water in the four chambers is kept equal, the contact area between the water and the cable protective sleeve is kept consistent, namely, the water carries out uniformity on heat on the cable protective sleeve, and when carrying out cooling operation on cables with different specifications, operators can correspondingly adjust the electric push rod 203 through the control terminal 101.

In the process that water flows in four chambers, heat is absorbed by water to the protective sleeve at corresponding positions, heat in the water is transferred to the protective sleeve through the second fixing shell 3, when the temperature on the cable protective sleeve changes, the heat in the water is changed on the water absorbing protective sleeve, namely, the temperature in the second fixing shell 3 is changed, the volume of gas in the second fixing shell 3 is correspondingly changed along with the change of the temperature, when the temperature of a part of the area on the cable protective sleeve is increased, the temperature of the water in the chamber at the position is increased, thereby expanding the volume of the gas in the second fixing shell 3 in the chamber, expanding the gas to extrude adjacent second sliding frames 301 to move upwards, the second sliding frames 301 move upwards to extrude the chute of the adjacent second fixing plates 304, the second fixing plates 304 are extruded to drive the adjacent sliding plates 303 to move rightwards, the sliding plates 303 move rightwards to reduce the shielding of the second fixing pipes 108 connected with the chamber, the flowing cross section of the second fixing pipes 108 is enabled to be large, even if the flowing rate of the water in the chamber is increased, the cooling rate of the high temperature in the area is accelerated, the cable protective sleeve is enabled to uniformly cool the cable protective sleeve, the temperature in the four chambers is enabled to be matched with the cable protective sleeve, and then the temperature of the cable is enabled to be reduced to be uniform, the temperature of the cable is enabled to be uniform, and the temperature of the cable is not to be uniform, and the temperature of the terminal is enabled to be contracted to be uniform, and the terminal processing device can be prevented from being contracted upwards, and the terminal processing device can be finished is prevented.

Example 2: on the basis of embodiment 1, refer to fig. 5 and 7, the device further comprises a flow guiding mechanism, the flow guiding mechanism is arranged on the supporting shell 1, the flow guiding mechanism is used for enabling the first fixing shell 102 to rotate at a constant speed, the flow guiding mechanism comprises a driving motor 4 electrically connected with the control terminal 101, the driving motor 4 is fixedly connected to the left portion of the front side wall of the supporting shell 1 through a support, a first rotating shaft 401 is rotatably arranged on the front side wall of the supporting shell 1 through a supporting block, the first rotating shaft 401 is fixedly connected with an output shaft of the driving motor 4, a first chain wheel 402 is fixedly connected to the first rotating shaft 401, a second chain wheel 403 is fixedly connected to the right portion of the first fixing shell 102, a through hole is formed in the side wall of the supporting shell 1, a chain 404 is wound between the first chain wheel 402 and the second chain wheel 403, the chain 404 penetrates through the through hole of the supporting shell 1, the first fixing shell 102 is provided with an agitating component for mixing liquid in the first fixing shell 102, and the driving motor 4 drives the first fixing shell 102 to rotate through connected parts, so that the contact positions of water and a protective sleeve are changed, and heat on the protective sleeve is fully absorbed by water.

Referring to fig. 3 and 7, the stirring assembly includes four second rotating shafts 5 circumferentially equidistantly distributed, the four second rotating shafts 5 are all rotatably disposed at the right portion of the first fixing shell 102, and the right ends of the second rotating shafts 5 penetrate through the first fixing shell 102 and are rotatably connected with the first fixing shell 102, the second rotating shafts 5 are located between two adjacent first fixing plates 104, four groups of third fixing plates 501 uniformly distributed are fixedly connected at the left portion of the second rotating shafts 5, each group of third fixing plates 501 is provided with two, the third fixing plates 501 are obliquely arranged and used for guiding water to rotate, a first straight gear 502 is fixedly connected at the right end of the second rotating shaft 5, a gear ring 503 meshed with the four first straight gears 502 is fixedly connected with the first fixing shell 102 through a connecting rod, in the rotation process of the first fixing shell 102, the second rotating shafts 5 drive the adjacent third fixing plates 501 to rotate through the gear ring 503 and the first straight gear 502, and the temperature of water in a cavity is kept consistent in the circumferential direction through rotation of the third fixing plates 501.

In the process of protecting the water flowing cooling cable, an operator starts the driving motor 4 to work through the control terminal 101 at the same time, the driving motor 4 drives the first rotating shaft 401 and the first sprocket 402 to rotate, the first sprocket 402 drives the first fixed shell 102 to slowly rotate through the chain 404 and the second sprocket 403, the first fixed shell 102 rotates to enable the area of the four-chamber cooling cable protecting jacket to change, even if the water flowing in the four chambers cools the cable protecting jacket, the contact between the water and the cable protecting jacket is more sufficient and comprehensive, the water is further guaranteed to evenly cool the protecting rubber sleeve of the cable, and meanwhile, the temperature on the periphery of the cable is guaranteed to be consistent.

In the rotation process of the first fixing shell 102, the first fixing shell 102 drives the four second rotating shafts 5 to rotate together with the parts connected with the four second rotating shafts 5, and as the four first straight gears 502 are meshed with the gear rings 503, the four second rotating shafts 5 and the four second rotating shafts 5 synchronously rotate in the rotation process of the first fixing shell 102, the second rotating shafts 5 drive the adjacent third fixing plates 501 to rotate, the third fixing plates 501 rotate and stir water in the corresponding cavities, so that the water is kept uniform and uniform in the longitudinal direction, the heat absorption efficiency of the water in the cavities on the protective sleeve is improved, the uniformity of the heat absorption of the water in the cavities is further ensured, the quality of finished products is improved, the operation is repeated, and after the cable is processed, an operator closes the device through the control terminal 101.

Example 3: on the basis of the embodiment 2, referring to fig. 1 and 8, the device further comprises a spraying mechanism, the spraying mechanism is arranged on the supporting shell 1, the spraying mechanism is used for pre-cooling a protective sleeve of the cable, the spraying mechanism comprises a first fixing frame 6, the first fixing frame 6 is fixedly connected to the right part of the upper side surface of the supporting shell 1, the lower surface of the first fixing frame 6 is rotatably provided with a rotary pipe 601 through a connecting block, the lower part of the rotary pipe 601 is provided with evenly distributed spray heads, the lower part of the liquid storage shell 106 is embedded with a second guide pipe 602, the second guide pipe 602 is provided with a water suction pump, the water suction pump of the second guide pipe 602 is electrically connected with the control terminal 101, the second guide pipe 602 is rotatably connected with the left part of the rotary pipe 601, the right-hand member of first pivot 401 is fixed firmly carousel 603, the eccentric department of carousel 603 left surface is equipped with the projection, support shell 1 is provided with third carriage 604 through the spacing slip of backup pad, third carriage 604 is equipped with the spout, the spout of third carriage 604 and the spacing cooperation of projection on carousel 603, the rear end of third carriage 604 has fixedly connected with rack 605, the right-hand member rigid coupling of swivelling tube 601 has second spur gear 606, second spur gear 606 meshes with rack 605, spout water to the lateral wall of cable protective sheath through second pipe 602 swing, the water of spraying is short-lived with the protective sheath contact afterwards, accomplish the precooling design to the protective sheath, avoid protecting the sheath and take place deformation because of wearing and tearing in the follow-up transportation.

Before the cable enters the first fixed shell 102, the cable passes through the first fixed frame 6, in the process, an operator starts the driving motor 4 and the water suction pump on the second guide pipe 602 through the control terminal 101 to work, cold water in the liquid storage shell 106 enters the rotating pipe 601 through the second guide pipe 602, then the cold water is sprayed downwards through a spray nozzle of the rotating pipe 601, the sprayed water falls on a protective sleeve of the cable, then the cold water flows along the side wall of the protective sleeve, and then the water falls into the supporting shell 1 from the protective sleeve.

In the process of spraying water on the spray head on the rotating pipe 601, the driving motor 4 drives the turntable 603 to rotate through the first rotating shaft 401, the turntable 603 rotates to enable the upper protruding column of the turntable to extrude the sliding groove of the third sliding frame 604, the third sliding frame 604 is extruded to drive the rack 605 to reciprocate back and forth, and the rack 605 moves to enable the rotating pipe 601 to reciprocate through the second straight gear 606, so that sprayed water is prevented from impacting one part of the cable protection sleeve for a long time.

In the reciprocating type swing spraying water process of the rotating pipe 601, water is in contact with the protective sleeve for preliminary cooling and shaping of the protective sleeve of the cable, abnormal deformation of the protective sleeve caused by contact with other parts in the subsequent moving process is avoided, protection of the protective sleeve on the cable is affected, the operation is repeated, and after the cable is processed, an operator closes the device through the control terminal 101.

Example 4: on the basis of embodiment 3, refer to fig. 1 and 9, still include dewatering mechanism, dewatering mechanism sets up in supporting shell 1, dewatering mechanism is used for clearing up the drop on the cable protective sheath, dewatering mechanism is including second mount 7, second mount 7 rigid coupling is in the left part of supporting shell 1 upside, second mount 7 slides and is provided with two sliding frame 701 of front and back symmetric distribution, the right part of two sliding frame 701 is all rotated and is provided with the rotor, the diameter of rotor on the sliding frame 701 diminishes from both ends to the middle part gradually, be used for increasing the area of contact of rotor on the sliding frame 701 with the cable, and the distance between two rotor is less than the distance between two sliding frame 701, the lateral wall of rotor sets up to the sponge cover, install second extension spring 702 between two sliding frame 701, second extension spring 702 cover is on second mount 7, sliding frame 701 rigid coupling has the gag lever post-cooling cable passes two rotor, the sponge cover on the rotor absorbs the drop on the protective sheath, the cable long-term storage of being convenient for after the rolling.

After the cable is cooled and shaped, the cable passes through between the rotating rollers on the two sliding frames 701, under the action of the tension force of the second tension spring 702, the rotating rollers on the two sliding frames 701 are clung to the protective sleeve of the cable, meanwhile, as the diameters of the two ends of the rotating rollers are larger than the diameters of the two ends of the rotating rollers, the side walls of the rotating rollers are provided with sponge sleeves, the two rotating rollers rotate and enable the sponge sleeves to absorb water drops on the surface of the cable in the process that the cable passes through the two rotating rollers, meanwhile, the limiting rod 703 contacts and extrudes the sponge sleeves on the adjacent rotating rollers, so that water seals in the sponge sleeves are extruded by the adjacent limiting rods 703, and the dried rear sponge sleeves rotate again to contact with the side walls of the cable protective sleeve and absorb the water drops on the cable protective sleeve, so that the cable protective sleeve is kept dry, and the cable is convenient for long-term storage after being wound.

The above description of embodiments of the invention has been presented with reference to the drawings and is not intended to limit the scope of the claims. Any modifications, equivalent substitutions and improvements made by those skilled in the art without departing from the scope and spirit of the present invention shall fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a cooling device with even cooling function for cable manufacture, a serial communication port, including supporting shell (1), supporting shell (1) rigid coupling has control terminal (101), the inside of supporting shell (1) is provided with first fixed shell (102) through the backup pad rotation, first fixed shell (102) are equipped with symmetrical distribution's circular hole, first fixed shell (102) are installed detachable elastic sleeve (103), first fixed plate (104) of circumference equidistance distribution are fixedly connected in first fixed shell (102), first fixed plate (104) sliding is provided with sliding shell (105), sliding shell (105) and first fixed shell (102) sliding fit, supporting shell (1) are equipped with stock solution shell (106) through the connecting rod rigid coupling, be equipped with cooling unit in stock solution shell (106), stock solution shell (106) are equipped with first pipe (107) through first fixed pipe (1061) intercommunication, first pipe (107) are installed to first pipe (107), first fixed shell (102) are close to one side of elastic sleeve (103) circumference intercommunication first fixed plate (104) first fixed plate (108), first fixed ring (109) circumference intercommunication and rotation fixed ring (110) intercommunication fixed ring (109) and equidistant fixed ring (110) rotation are fixedly connected, the first fixed shell (102) is provided with an adjusting clamping mechanism and a flow adjusting mechanism, the adjusting clamping mechanism is used for enabling the sliding shell (105) to be attached to cables of different specifications, the flow adjusting mechanism is used for adjusting the flow rate of liquid in the first fixed shell (102), and the cooling unit, the water suction pump of the first guide tube (107) and the adjusting clamping mechanism are electrically connected with the control terminal (101).

2. A cooling device with a uniform cooling function for cable production according to claim 1, characterized in that the side of the sliding shell (105) remote from the adjacent first fixing plate (104) is provided with uniformly distributed balls for reducing friction with the cable.

3. The cooling device with uniform cooling function for cable production according to claim 1, wherein the adjusting and clamping mechanism comprises first sliding frames (2) distributed at equal intervals in the circumferential direction, the first sliding frames (2) distributed at equal intervals in the circumferential direction are all arranged on one side of a first fixed shell (102) in a sliding mode, the first sliding frames (2) are fixedly connected with adjacent sliding shells (105), a first tension spring (201) is installed between the first sliding frames (2) and the first fixed shell (102), a second fixed ring (202) is arranged on the side wall of the first fixed shell (102) in a limiting sliding mode, an annular limiting groove is formed in the second fixed ring (202), the cross section of the annular limiting groove on the second fixed ring (202) is triangular, an electric push rod (203) is fixedly connected with the side wall of the supporting shell (1) through a connecting block, a fixed block (204) is fixedly connected with the telescopic end of the electric push rod (203), a groove is formed in the fixed block (204), and the groove of the fixed block (204) is in sliding fit with the second fixed ring (202).

4. The cooling device with the uniform cooling function for the cable production according to claim 1, wherein the flow regulating mechanism comprises second fixing shells (3) distributed at equal intervals in the circumferential direction, the second fixing shells (3) distributed at equal intervals in the circumferential direction are embedded in the side walls of the first fixing shells (102), the second fixing shells (3) distributed at equal intervals in the circumferential direction are distributed with the first fixing plates (104) distributed at equal intervals in the circumferential direction in a staggered mode, the second fixing shells (3) are slidably provided with second sliding frames (301), the second sliding frames (301) are matched with the second fixing shells (3) to form cavities, gas exists in the cavities, a fixing frame (302) is fixedly connected to one side, close to the second fixing shells (3), of each second fixing tube (108) is slidably provided with a sliding plate (303), the sliding plates (303) are fixedly connected with symmetrically distributed second fixing plates (304), and the second fixing plates (304) are slidably matched with the adjacent second sliding frames (301).

5. The cooling device with uniform cooling function for cable production according to claim 1, further comprising a diversion mechanism for uniformly rotating the first fixing shell (102), the diversion mechanism is arranged on the supporting shell (1), the diversion mechanism comprises a driving motor (4), the driving motor (4) is fixedly connected to the side wall of the supporting shell (1) through a support, the driving motor (4) is electrically connected with the control terminal (101), a first rotating shaft (401) is rotatably arranged on the side wall of the supporting shell (1) through a supporting block, the first rotating shaft (401) is fixedly connected with an output shaft of the driving motor (4), a first sprocket (402) is fixedly connected to the first rotating shaft (401), a second sprocket (403) is fixedly connected to one side, far away from the elastic sleeve (103), of the first fixing shell (102), a through hole is formed in the side wall of the supporting shell (1), a chain (404) is arranged between the first sprocket (402) and the second sprocket (403), the chain (404) penetrates through the through hole of the supporting shell (1), and the first fixing shell (102) is provided with an agitating assembly for mixing liquid therein.

6. The cooling device with the uniform cooling function for the cable production according to claim 5, wherein the stirring assembly comprises second rotating shafts (5) distributed at equal intervals in the circumferential direction, the second rotating shafts (5) distributed at equal intervals in the circumferential direction are all rotationally arranged on the first fixed shell (102), one ends, close to the second fixed rings (202), of the second rotating shafts (5) penetrate through the first fixed shell (102) and are rotationally connected with the first fixed shell, the second rotating shafts (5) are located between adjacent first fixed plates (104), third fixed plates (501) distributed uniformly are fixedly connected to the second rotating shafts (5), first straight gears (502) are fixedly connected to one ends, located outside the first fixed shell (102), of the second rotating shafts (5), gear rings (503) are fixedly connected with the first straight gears (502) through connecting rods, and the gear rings (503) are meshed with the first straight gears (502).

7. A cooling device with a uniform cooling function for cable production according to claim 6, characterized in that the third fixing plate (501) is arranged obliquely for guiding the liquid to rotate.

8. The cooling device with uniform cooling function for cable production according to claim 1, further comprising a spraying mechanism for pre-cooling the cable protective sleeve, wherein the spraying mechanism is arranged on the supporting shell (1), the spraying mechanism comprises a first fixing frame (6), the first fixing frame (6) is fixedly connected with the supporting shell (1), the first fixing frame (6) is close to a second fixing ring (202), the first fixing frame (6) is rotatably provided with a rotating pipe (601) through a connecting block, the rotating pipe (601) is provided with uniformly distributed spray heads, the lower part of the liquid storage shell (106) is embedded with a second guide pipe (602), the second guide pipe (602) is provided with a water suction pump electrically connected with the control terminal (101), the second guide pipe (602) is rotatably connected with the rotating pipe (601), the first rotating shaft (401) is fixedly connected with a rotary table (603), the rotary table (603) is provided with a convex column, the supporting shell (1) is provided with a third sliding frame (604) in a limiting sliding manner through a supporting plate, the third sliding frame (604) is provided with a sliding chute matched with the convex column on the rotary table (603), the third sliding frame (604) is fixedly connected with the rotating pipe (601) and is fixedly connected with a gear (605).

9. The cooling device with the uniform cooling function for the cable production according to claim 1, further comprising a water removing mechanism for cleaning water drops on the cable protective sleeve, wherein the water removing mechanism is arranged on the supporting shell (1), the water removing mechanism comprises a second fixing frame (7), the second fixing frame (7) is fixedly connected with the supporting shell (1), the second fixing frame (7) is slidably provided with symmetrically distributed sliding frames (701), the sliding frames (701) are rotatably provided with rotating rollers, the side walls of the rotating rollers are made of water absorbing materials, second tension springs (702) are arranged between the symmetrically distributed sliding frames (701), and limiting rods (703) matched with the rotating rollers on the sliding frames are fixedly connected with the sliding frames (701).

10. The cooling device with the uniform cooling function for the cable production according to claim 9, wherein the diameters of both ends of the rotating roller on the sliding frame (701) are larger than the diameter of the middle part thereof, so as to increase the contact area between the rotating roller on the sliding frame (701) and the cable.