CN118098709A

CN118098709A - Cable production equipment with cooling function

Info

Publication number: CN118098709A
Application number: CN202410518743.1A
Authority: CN
Inventors: 葛林优; 余绍能; 郑能军; 程真; 王跃
Original assignee: Sichuan Jinli Cable Group Co ltd
Current assignee: Sichuan Jinli Cable Group Co ltd
Priority date: 2024-04-28
Filing date: 2024-04-28
Publication date: 2024-05-28
Anticipated expiration: 2044-04-28

Abstract

The invention discloses cable production equipment with a cooling function, and relates to the technical field of cable production equipment. The device comprises a device main body, wherein an unreeling component is fixed on the left side of the top of the device main body, a reeling component is fixed on the right side of the top of the device main body, a cooling box is fixed in the middle of the top surface of the device main body, transmission rollers are rotatably arranged on the left side and the right side of the top of the cooling box, the device further comprises a cooling device, the cooling device comprises a U-shaped inclined plate, two guide rollers, a water pump and a U-shaped pipe, the U-shaped inclined plate is fixed in the cooling box, and the two guide rollers are respectively rotated on the left side and the right side of the inner wall of the U-shaped inclined plate. According to the cooling device, the water pump and the cooling box are matched to drive the U-shaped pipe to spray the cooling liquid into the U-shaped inclined plate, the cooling liquid flows downwards along the inclined surface of the U-shaped inclined plate, and the flowing cooling liquid can wash the cable, so that the cable is cooled.

Description

Cable production equipment with cooling function

Technical Field

The invention relates to the technical field of cable production equipment, in particular to cable production equipment with a cooling function.

Background

Along with the development of society and economy, the dependence of human beings on electricity is heavier and heavier, more and more electrical equipment are needed in life, and the electric power transmission cable is particularly important.

Patent publication number CN 210403335U's patent discloses a cable production facility with cooling function, including base and driving motor, the top of base is fixed with the cooler, the outside parcel of cooler has the soundproof cotton layer, the inside on soundproof cotton layer is run through there is the cooling bin, the right side of cooler is located the top of base and is fixed with the fan, the fan passes through air duct and cooling bin intercommunication, the top of cooler is provided with air purifier, air purifier's top is provided with the gas outlet, the top of base is fixed with the pond in the left side of cooler, and this patent structure scientific and reasonable, convenience safe in utilization has set up cooling bin, fan, water pump and pond, can carry out forced air cooling and water-cooling to the cable, air purifier can purify exhaust gas, provides safe operational environment, has set up the soundproof cotton layer, noise when can effectively reducing equipment operation, provides comfortable operational environment.

However, the current cable production equipment has the following problems: the cable production equipment uses the water cooling mode to cool the cable, the cooling effect is poor, the time of contact between cooling water and the cable is short, and therefore the cooling efficiency of the cooling water on the cable is reduced, and therefore, the cable production equipment with the cooling function is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides cable production equipment with a cooling function, which solves the problems that the cable is not good in cooling effect by using a water cooling mode in the cable production equipment provided by the background art, and the contact time of cooling water and the cable is short, so that the cooling efficiency of the cooling water on the cable is reduced.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the cable production equipment with the cooling function comprises an equipment main body, wherein an unreeling component is fixed on the left side of the top of the equipment main body, a reeling component is fixed on the right side of the top of the equipment main body, a cooling box is fixed in the middle of the top surface of the equipment main body, and transmission rollers are rotatably arranged on the left side and the right side of the top of the cooling box, and the cable production equipment further comprises a cooling device, a cold water device, a impurity removing device and a water removing device;

Wherein, cooling device includes U-shaped swash plate, two deflector rolls, water pump, U-shaped pipe, the inside at the cooling tank is fixed to the U-shaped swash plate, two the deflector rolls rotate respectively in the inner wall left side and the right side of U-shaped swash plate, the inner wall bottom at the cooling tank is fixed to the water pump, the play water end at the water pump is fixed to the U-shaped pipe, and the one end that the water pump was kept away from to the U-shaped pipe is located the right side top of U-shaped swash plate, the coolant liquid in the pump extraction cooling tank is transmitted to U-shaped pipe department and spouts in the U-shaped swash plate, the coolant liquid can flow downwards along the inclined plane of U-shaped swash plate, the coolant liquid of flow can wash away the cable to realize cooling to the cable, the inclined plane length of U-shaped swash plate has increased the contact time and the area of cable and coolant liquid simultaneously, thereby has improved the coolant liquid and has cooled effect to the cable.

According to the technical scheme, cooling device still includes two fixed plates, logical groove drum, a plurality of stirring leaf, two the fixed plate is fixed respectively in the inner wall left side and the right side of U-shaped swash plate, it installs between two fixed plates to lead to the groove drum rotation, it passes through belt pulley motor drive to lead to the groove drum, and the belt pulley motor passes through the frame plate to be fixed at the top of cooling box, a plurality of stirring leaf even equidistance is fixed in the inner wall department that leads to the groove drum, and simultaneously through the rotation of belt pulley motor drive logical groove drum, it stirs the coolant liquid in the U-shaped swash plate to drive stirring leaf, stirs the leaf and drives the coolant liquid and gushes out to the cable to make the coolant liquid can more even abundant with cable contact cooling.

According to the technical scheme, the cold water device comprises the electric reciprocating push rod, the U-shaped sliding plate and a plurality of partition boards, the electric reciprocating push rod is fixed on the right side of the cooling box, the telescopic end of the electric reciprocating push rod penetrates through the right side of the cooling box, the U-shaped sliding plate is slidably mounted inside the cooling box, the U-shaped sliding plate is fixed on the telescopic end of the electric reciprocating push rod, the plurality of partition boards are respectively fixed on the front side and the back side of the inner wall of the U-shaped sliding plate, the plurality of partition boards are arranged in a staggered mode, cooling liquid flowing out of the U-shaped sliding plate can fall to the left side of the U-shaped sliding plate, the partition boards can separate cooling liquid flowing down, therefore the problem that cooling liquid with heat cools cables is avoided, cooling liquid flows through the S-shaped channel, cooling liquid flowing to the water pump is guaranteed to be cooled, meanwhile the telescopic end of the electric reciprocating push rod pushes the U-shaped sliding plate to drive the partition boards to move, cooling liquid in the cooling box is stirred, and therefore self cooling effect of cooling liquid is promoted.

According to the technical scheme, the cold water device further comprises two lug rods, a contact supporting rod, a U-shaped frame and a turnover plate, wherein the two lug rods are respectively fixed on the front side and the back side of the inner wall of the cooling box, the U-shaped frame is fixed on the inner wall of the U-shaped sliding plate, the turnover plate is fixed at the bottom of the U-shaped frame through a spring, the contact supporting rod is fixed at the side edge of the turnover plate and penetrates through the U-shaped sliding plate, the lug is fixed at the bottom of the lug rod, the top of the contact supporting rod is located on the lug motion track of the lug rod, the contact supporting rod is driven to move when the U-shaped sliding plate moves, the lug of the lug rod drives the contact supporting rod to move downwards, the contact supporting rod drives the turnover plate to move downwards, and when the lug of the lug rod does not push the top of the contact supporting rod, the turnover plate moves upwards under the action of the spring force corresponding to the turnover plate, and the turnover plate reciprocates in such a way, and the turnover plate drives the cooling liquid to float up and down, so that the cooling effect of the cooling liquid is further improved.

According to the technical scheme, the impurity removing device comprises two swinging rods, a J-shaped elastic net, a shaft rod and a fixed column, wherein the shaft rod is rotatably arranged on the left side of the inner wall of the cooling box, the two swinging rods are respectively fixed on the front side and the back side of the outer wall of the shaft rod, a torsion spring is arranged between the swinging rods and the inner wall of the cooling box, the J-shaped elastic net is fixed at the top of the two swinging rods, the fixed column is fixed on the left side of the inner wall of the U-shaped sliding plate, the fixed column is in contact with the bottoms of the two swinging rods, cooling liquid flowing out of the U-shaped inclined plate falls on the J-shaped elastic net, and the J-shaped elastic net filters the cooling liquid, so that the problem that impurities on the outer surface of a cooling liquid carrying cable fall into the cooling liquid in the cooling box and pollute the cooling liquid is avoided; meanwhile, the U-shaped sliding plate drives the fixed column to push the swinging rod to swing, and the swinging rod drives the J-shaped elastic net to swing up and down, so that impurities on the J-shaped elastic net can be accumulated to one side of the J-shaped part of the J-shaped elastic net, and the problem that the J-shaped elastic net is easy to be blocked by the impurities is avoided.

According to the technical scheme, edulcoration device still includes bonding plate, half arc pole, the bonding plate passes through the spring to be fixed between two swinging arms, and leaves five centimetres of clearance between the top surface of bonding plate and the bottom of J-shaped elastic net, half arc pole is fixed in the bottom of bonding plate, the bottom of half arc pole is located the motion track of fixed column, and the fixed column promotes half arc pole simultaneously and drives the bonding plate and lean on to J-shaped elastic net, and J-shaped elastic net bottom surface one side is plugged up this moment, and the coolant liquid that the U-shaped swash plate flowed down can wash away J-shaped elastic net surface adhesion's impurity to J-shaped part of J-shaped elastic net to further avoided J-shaped elastic net by impurity jam's problem.

According to the technical scheme, water trap includes catchment box, leads to frid, two sponge pieces, catchment box is fixed on the right side of cooling tank, lead to the frid and fix the inner wall department at catchment box, two sponge pieces are fixed respectively at the top front and the back of leading to the frid, and the sponge piece cleans the coolant liquid on cable surface to avoided cable surface adhesion coolant liquid and taken out the cooling tank, lead to the problem that the coolant liquid loss increases.

According to the technical scheme, dewatering device still includes protruding pole wheel, clamp plate, conflict board, L shape frame, one-way suction nozzle, folding bag, one-way outlet duct, the outer wall department at the catchment box is fixed to L shape frame, folding bag is fixed at the inner wall top of L shape frame, the bottom at folding bag is fixed to the clamp plate, one-way suction nozzle is fixed at folding bag's top, one-way outlet duct is fixed in folding bag's bottom, and one-way outlet duct runs through the clamp plate, the left side at the clamp plate is fixed to the conflict board, the pivot outer wall department at the transmission roller on right side is fixed with a plurality of protruding pole in protruding pole wheel's outer wall department, the conflict board is located protruding pole motion trail of protruding pole wheel, and when the deflector roll on right side rotated, the deflector roll drives protruding pole wheel and rotates, and the protruding pole promotion conflict board drives the clamp plate and extrudees sponge piece, and the absorbing coolant liquid of sponge piece is by the extrusion inflow to the catchment box in, and the coolant liquid in the catchment box can flow into the cooler bin to realize the clamp plate, and simultaneously the air can be injected into the sponge piece through the one-way in the expansion sponge piece, can be sprayed out to the sponge piece in the sponge piece, and the sponge can be more expanded to the sponge piece in the hole, and the sponge can be sprayed out into the sponge piece.

The invention provides cable production equipment with a cooling function. The beneficial effects are as follows:

(1) According to the invention, through the arrangement of the cooling device, the water pump and the cooling box are matched to drive the U-shaped pipe to spray the cooling liquid into the U-shaped inclined plate, the cooling liquid flows downwards along the inclined surface of the U-shaped inclined plate, and the flowing cooling liquid can wash the cable, so that the cable is cooled, and meanwhile, the contact time and the contact area of the cable and the cooling liquid are increased due to the inclined surface length of the U-shaped inclined plate, so that the cooling effect of the cooling liquid on the cable is improved; simultaneously, the through groove drum drives the stirring blade to stir the cooling liquid in the U-shaped inclined plate, and the stirring blade drives the cooling liquid to flush the cable, so that the cooling liquid can be more uniformly and sufficiently cooled by contacting with the cable.

(2) According to the invention, through the arrangement of the cold water device, the cooling liquid flowing down is separated by the partition plates, so that the problem that the cooling liquid with heat cools the cable and the cooling effect of the cooling liquid is reduced is avoided, meanwhile, the plurality of partition plates form S-shaped channels for cooling liquid to flow, so that the cooling liquid flowing to the water pump can be cooled, and meanwhile, the electric reciprocating push rod and the U-shaped slide plate are matched to drive the partition plates to stir the cooling liquid in the cooling box, so that the self cooling and heat dissipation effects of the cooling liquid are promoted; meanwhile, the U-shaped sliding plate, the abutting rods and the lug rods are matched to enable the turning plate to drive the cooling liquid to float up and down, so that the cooling effect of the cooling liquid is further improved.

(3) According to the invention, through the arrangement of the impurity removing device, the J-shaped elastic net filters the cooling liquid flowing out of the U-shaped inclined plate, so that the problem that impurities on the outer surface of the cooling liquid carrying the cable fall into the cooling liquid in the cooling box and pollute the cooling liquid is avoided; meanwhile, the U-shaped sliding plate, the fixed column and the swinging rod are matched to drive the J-shaped elastic net to swing up and down, so that impurities on the J-shaped elastic net can be accumulated to one side of the J-shaped part of the J-shaped elastic net, and the problem that the J-shaped elastic net is easy to be blocked by the impurities is avoided; meanwhile, the fixing column, the swinging rod and the half arc rod are matched to drive the bonding plate to lean against the J-shaped elastic net, at the moment, one side of the bottom surface of the J-shaped elastic net is blocked, and the cooling liquid flowing down by the U-shaped inclined plate can wash impurities adhered to the surface of the J-shaped elastic net towards the J-shaped part of the J-shaped elastic net, so that the problem that the J-shaped elastic net is blocked by the impurities is further avoided.

(4) According to the invention, the cooling liquid on the surface of the cable is wiped by the sponge block through the arrangement of the water removing device, so that the problem of increased loss of the cooling liquid caused by adhesion of the cooling liquid on the surface of the cable and carrying out of the cooling box is avoided, the guide roller, the convex rod wheel and the abutting plate are matched to drive the pressing plate to extrude the sponge block, the cooling liquid absorbed by the sponge block is extruded to flow into the water collecting box, and the cooling liquid in the water collecting box flows into the cooling box, so that the cooling liquid is recovered; simultaneously, the pressing plate, the folding bag, the unidirectional air inlet nozzle, the convex rod wheel, the abutting plate and the sponge block are matched to enable the pressing plate to extrude the folding bag, air in the folding bag is sprayed out through the unidirectional air outlet pipe, gas sprayed out of the unidirectional air outlet pipe is injected into the sponge block, and the pore structure of the sponge block can be expanded by injecting gas into the sponge block, so that the sponge block can absorb more cooling water.

Drawings

FIG. 1 is a schematic diagram of the overall invention;

FIG. 2 is a schematic view in partial cross-section of the entirety of the present invention;

FIG. 3 is a schematic view of a cooling device of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic view of a cold water apparatus according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5B according to the present invention;

FIG. 7 is a schematic view of an impurity removing apparatus according to the present invention;

FIG. 8 is a schematic bottom view of the apparatus for removing impurities according to the present invention;

FIG. 9 is a schematic partial cross-sectional view of a water removal device of the present invention;

FIG. 10 is a schematic diagram of a partial structure of a water removal device according to the present invention.

In the figure: 1. an apparatus main body; 11. unreeling the assembly; 12. a winding assembly; 13. a cooling box; 14. a conveying roller; 2. a cooling device; 21. a U-shaped sloping plate; 22. a guide roller; 23. a water pump; 24. a U-shaped tube; 25. a fixing plate; 26. a grooved drum; 27. a poking blade; 3. a cold water device; 31. an electric reciprocating push rod; 32. a U-shaped slide plate; 33. a partition plate; 34. a bump bar; 35. a touch-up rod; 36. a U-shaped frame; 37. turning over the plate; 4. a impurity removing device; 41. a swinging rod; 42. a J-shaped elastic web; 43. a shaft lever; 44. fixing the column; 45. bonding plates; 46. a half arc rod; 5. a water removal device; 51. a water collecting box; 52. a grooved plate; 53. a sponge block; 54. a cam; 55. a pressing plate; 56. a contact plate; 57. an L-shaped frame; 58. a one-way air inlet nozzle; 59. folding the bag; 510. a one-way air outlet pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-6, one embodiment of the present invention is: the cable production equipment with the cooling function comprises an equipment main body 1, an unreeling component 11 is fixed on the left side of the top of the equipment main body 1, a reeling component 12 is fixed on the right side of the top of the equipment main body 1, a cooling box 13 is fixed in the middle of the top surface of the equipment main body 1, and transmission rollers 14 are rotatably arranged on the left side and the right side of the top of the cooling box 13, and further comprises a cooling device 2 and a cold water device 3;

The cooling device 2 comprises a U-shaped inclined plate 21, two guide rollers 22, a water pump 23 and a U-shaped pipe 24, the U-shaped inclined plate 21 is fixed in the cooling box 13, the two guide rollers 22 respectively rotate on the left side and the right side of the inner wall of the U-shaped inclined plate 21, the water pump 23 is fixed at the bottom of the inner wall of the cooling box 13, the U-shaped pipe 24 is fixed at the water outlet end of the water pump 23, the water pump 23 pumps cooling liquid in the cooling box 13 to be conveyed to the position of the U-shaped pipe 24 for spraying, one end of the U-shaped pipe 24 far away from the water pump 23 is located above the right side of the U-shaped inclined plate 21, the cooling liquid sprayed out of the position of the U-shaped pipe 24 flows into the U-shaped inclined plate 21, the cooling liquid flows downwards along the inclined surface of the U-shaped inclined plate 21, the flowing cooling liquid can wash the cable, and therefore the cable is cooled, meanwhile the contact time and the contact area of the cable and the area of the cooling liquid are increased, and the cooling liquid cooling effect of the cable is improved.

The cooling device 2 further comprises two fixing plates 25, a through groove drum 26 and a plurality of stirring blades 27, the two fixing plates 25 are respectively fixed on the left side and the right side of the inner wall of the U-shaped inclined plate 21, the through groove drum 26 is rotatably arranged between the two fixing plates 25, the through groove drum 26 is driven by a belt pulley motor, the belt pulley motor is fixed at the top of the cooling box 13 through a frame plate, the through groove drum 26 is driven to rotate by the belt pulley motor, the stirring blades 27 are uniformly and equidistantly fixed at the inner wall of the through groove drum 26, the stirring blades 27 are driven by the through groove drum 26 to stir cooling liquid in the U-shaped inclined plate 21, and the stirring blades 27 are driven by the cooling liquid to be sprayed to a cable, so that the cooling liquid can be cooled by being in contact with the cable more uniformly and sufficiently.

The cold water device 3 comprises an electric reciprocating push rod 31, a U-shaped sliding plate 32 and a plurality of partition plates 33, wherein the electric reciprocating push rod 31 is fixed on the right side of the cooling box 13, the telescopic end of the electric reciprocating push rod 31 penetrates through the right side of the cooling box 13, the U-shaped sliding plate 32 is slidably mounted in the cooling box 13, cooling liquid flowing out of the U-shaped inclined plate 21 can fall to the left side of the U-shaped sliding plate 32, the U-shaped sliding plate 32 is fixed at the telescopic end of the electric reciprocating push rod 31, the plurality of partition plates 33 are respectively fixed on the front surface and the back surface of the inner wall of the U-shaped sliding plate 32, the partition plates 33 can separate cooling liquid flowing down, so that the cooling liquid with heat is prevented from cooling a cable, the cooling effect of the cooling liquid is reduced, the plurality of partition plates 33 are arranged in a staggered mode, meanwhile, the plurality of partition plates 33 form an S-shaped channel for cooling liquid to flow, so that the cooling liquid flowing to the water pump 23 can be cooled, meanwhile, the telescopic end of the electric reciprocating push rod 31 pushes the U-shaped sliding plate 32 to reciprocate along the inside the cooling box 13, the U-shaped sliding plate 21 drives the partition plates 33 to move, and the partition plates 33 stir the cooling liquid in the cooling box 13, and the cooling liquid in the cooling box 13, so that the cooling effect is promoted.

The cold water device 3 further comprises two lug rods 34, a collision rod 35, a U-shaped frame 36 and a turnover plate 37, wherein the two lug rods 34 are respectively fixed on the front side and the back side of the inner wall of the cooling box 13, the U-shaped frame 36 is fixed on the inner wall of the U-shaped sliding plate 32, the turnover plate 37 is fixed at the bottom of the U-shaped frame 36 through a spring, the collision rod 35 is fixed at the side edge of the turnover plate 37, the collision rod 35 penetrates through the U-shaped sliding plate 32, meanwhile, the U-shaped sliding plate 32 can drive the contact rod 35 to move when moving, the bottom of the lug rod 34 is fixedly provided with a lug, the top of the collision rod 35 is located on the lug movement track of the lug rod 34, the lug of the lug rod 34 pushes the contact rod 35 to move, and the turnover plate 37 is pushed by the collision rod 35 to drive the cooling liquid to float up and down, so that the cooling effect of the cooling liquid is further improved.

When the cooling device is used, a produced cable roll is placed at the unreeling component 11, one end of a cable on the cable roll passes through the upper part of the transmission roller 14 and the lower part of the guide roller 22, then one end of the cable is connected to the reeling core of the reeling component 12, the reeling component 12 is started, the reeling component 12 drives the cable on the unreeling component 11 to be reeled to the reeling core of the reeling component 12, meanwhile, the water pump 23 is started, the water pump 23 pumps cooling liquid in the cooling box 13 to be transmitted to the U-shaped pipe 24 for spraying, the cooling liquid sprayed at the U-shaped pipe 24 flows into the U-shaped inclined plate 21, the cooling liquid flows downwards along the inclined plane of the U-shaped inclined plate 21, the flowing cooling liquid washes the cable, and therefore the cable is cooled, and meanwhile, the contact time and area of the cable and the cooling liquid are increased due to the inclined plane length of the U-shaped inclined plate 21, and the cooling liquid is cooled; simultaneously through the rotation of pulley motor drive logical groove drum 26, lead to groove drum 26 and drive the stirring leaf 27 and rotate, stir the cooling liquid in the leaf 27 to the U-shaped swash plate 21, stir the cooling liquid and surge to the cable 27 to make the cooling liquid can more even abundant with cable contact cooling.

Meanwhile, the cooling liquid flowing out of the U-shaped inclined plate 21 falls to the left side of the U-shaped sliding plate 32, the separation plates 33 can separate the cooling liquid flowing down, so that the problem that the cooling liquid with heat cools the cable and the cooling effect of the cooling liquid is reduced is avoided, meanwhile, the plurality of separation plates 33 form an S-shaped channel for cooling liquid to flow, so that the cooling liquid flowing to the water pump 23 can be cooled, meanwhile, the electric reciprocating push rod 31 is started, the telescopic end of the electric reciprocating push rod 31 pushes the U-shaped sliding plate 32 to reciprocate along the inside of the cooling box 13, the U-shaped inclined plate 21 drives the separation plates 33 to move, and the separation plates 33 stir the cooling liquid in the cooling box 13, so that the self cooling and heat dissipation effects of the cooling liquid are promoted; meanwhile, the U-shaped sliding plate 32 can drive the contact resisting rod 35 to move when moving, the lug of the lug rod 34 pushes the top of the contact resisting rod 35 to drive the contact resisting rod 35 to move downwards, the contact resisting rod 35 drives the turning plate 37 to move downwards, and when the lug of the lug rod 34 does not push the top of the contact resisting rod 35, the turning plate 37 resets upwards to move under the action of the corresponding spring force of the turning plate 37, and thus the turning plate 37 reciprocates to drive the cooling liquid to float up and down, so that the cooling effect of the cooling liquid is further improved.

Referring to fig. 1-10, in another embodiment of the present invention, the apparatus further includes a impurity removing device 4 and a water removing device 5;

The impurity removing device 4 comprises two swinging rods 41, a J-shaped elastic net 42, a shaft rod 43 and a fixed column 44, wherein the shaft rod 43 is rotatably arranged on the left side of the inner wall of the cooling box 13, the two swinging rods 41 are respectively fixed on the front side and the back side of the outer wall of the shaft rod 43, a torsion spring is arranged between the swinging rods 41 and the inner wall of the cooling box 13, the J-shaped elastic net 42 is fixed on the tops of the two swinging rods 41, cooling liquid flowing out of the U-shaped inclined plate 21 can fall on the J-shaped elastic net 42, the J-shaped elastic net 42 can filter the cooling liquid, therefore impurities on the outer surface of a cable carried by the cooling liquid can be prevented from falling into the cooling liquid in the cooling box 13, the problem that the impurities pollute the cooling liquid is solved, the fixed column 44 is fixed on the left side of the inner wall of the U-shaped sliding plate 32, meanwhile, the U-shaped sliding plate 32 drives the fixed column 44 to synchronously move when the U-shaped sliding plate 32 moves each time, the fixed column 44 contacts with the bottoms of the two swinging rods 41, the bottom surface of the swinging rods 41 is pushed by the fixed column 44 to drive the J-shaped elastic net 42 to swing up and shake, and impurities on the J-shaped elastic net 42 can easily fall down, and the J-shaped elastic net 42 can be prevented from being blocked by the problem of the J-shaped elastic net 42.

The impurity removing device 4 further comprises an attaching plate 45 and a half arc rod 46, the attaching plate 45 is fixed between the two swinging rods 41 through a spring, a five-centimeter gap is reserved between the top surface of the attaching plate 45 and the bottom of the J-shaped elastic net 42, the half arc rod 46 is fixed at the bottom of the attaching plate 45, the bottom of the half arc rod 46 is located on the moving track of the fixed column 44, meanwhile, the fixed column 44 pushes the half arc rod 46 to drive the attaching plate 45 to lean against the J-shaped elastic net 42, at the moment, one side of the bottom surface of the J-shaped elastic net 42 is blocked, and impurities adhered to the surface of the J-shaped elastic net 42 are flushed by cooling liquid flowing down the U-shaped inclined plate 21 to the J-shaped part of the J-shaped elastic net 42, so that the problem that the J-shaped elastic net 42 is blocked by impurities is further avoided.

The water removal device 5 comprises a water collection box 51, a through groove plate 52 and two sponge blocks 53, wherein the water collection box 51 is fixed on the right side of the cooling box 13, the through groove plate 52 is fixed on the inner wall of the water collection box 51, the two sponge blocks 53 are respectively fixed on the front surface and the back surface of the top of the through groove plate 52, and the sponge blocks 53 can wipe cooling liquid on the surface of a cable, so that the problem that the cooling liquid is adhered to the surface of the cable and brought out of the cooling box 13, and the loss of the cooling liquid is increased is avoided.

The water removing device 5 further comprises a convex rod wheel 54, a pressing plate 55, a collision plate 56, an L-shaped frame 57, a one-way air inlet nozzle 58, a folding bag 59 and a one-way air outlet pipe 510, wherein the L-shaped frame 57 is fixed on the outer wall of the water collecting box 51, the folding bag 59 is fixed on the top of the inner wall of the L-shaped frame 57, the pressing plate 55 is fixed on the bottom of the folding bag 59, the collision plate 56 is fixed on the left side of the pressing plate 55, the convex rod wheel 54 is fixed on the outer wall of a rotating shaft of the right transmission roller 14, the plurality of convex rods are fixed on the outer wall of the convex rod wheel 54, the collision plate 56 is positioned on the convex rod movement track of the convex rod wheel 54, when the guide roller 22 on the right rotates, the guide roller 22 drives the pressing plate 55 to squeeze the sponge block 53, cooling liquid absorbed by the sponge block 53 is squeezed and flows into the water collecting box 51, cooling liquid in the cooling box 51 can flow into the cooling box 13, the one-way air inlet nozzle 58 is fixed on the top of the bag 59, the one-way air inlet pipe 510 is fixed on the bottom of the folding bag 59, the bottom of the sponge block 59 is fixed on the air outlet pipe 55, and the sponge block 55 can be ejected out of the sponge block 53 through the air outlet pipe 55 when the sponge block 53 is folded, and the sponge block 53 can be ejected upwards, and the air can be ejected into the air hole 53 through the air outlet pipe 53 when the sponge block 53 is folded.

When the cooling device is used, the cooling liquid flowing out of the U-shaped inclined plate 21 falls on the J-shaped elastic net 42, and the J-shaped elastic net 42 filters the cooling liquid, so that the problem that impurities on the outer surface of a cable carried by the cooling liquid fall into the cooling liquid in the cooling box 13 and pollute the cooling liquid is avoided; meanwhile, when the U-shaped sliding plate 32 moves leftwards, the U-shaped sliding plate 32 drives the fixed column 44 to synchronously move, the fixed column 44 pushes the bottom surface of the swinging rod 41 to drive the swinging rod 41 to swing upwards, the swinging rod 41 drives the J-shaped elastic net 42 to swing upwards, when the U-shaped sliding plate 32 moves rightwards, the U-shaped sliding plate 32 does not drive the fixed column 44 to push the swinging rod 41, the swinging rod 41 resets under the action of the corresponding torsional spring elasticity, the swinging rod 41 drives the J-shaped elastic net 42 to swing downwards, and thus the J-shaped elastic net 42 swings upwards and downwards, so that impurities on the J-shaped elastic net 42 can be accumulated to one side of the J-shaped part of the J-shaped elastic net 42, and the problem that the J-shaped elastic net 42 is easy to be blocked by impurities is avoided; meanwhile, when the fixing column 44 pushes the bottom surface of the swinging rod 41, the fixing column 44 pushes the half arc rod 46 to drive the bonding plate 45 to lean against the J-shaped elastic net 42, at this time, one side of the bottom surface of the J-shaped elastic net 42 is blocked, and the cooling liquid flowing down from the U-shaped inclined plate 21 can wash impurities adhered to the surface of the J-shaped elastic net 42 towards the J-shaped part of the J-shaped elastic net 42, so that the problem that the J-shaped elastic net 42 is blocked by the impurities is further avoided.

Meanwhile, the cable transmitted out of the cooling box 13 passes through the sponge block 53, the sponge block 53 wipes the cooling liquid on the surface of the cable, so that the problem that the cooling liquid is adhered to the surface of the cable and brought out of the cooling box 13, and the loss of the cooling liquid is increased is avoided, when the guide roller 22 on the right side rotates, the guide roller 22 drives the convex rod wheel 54 to rotate, the convex rod of the convex rod wheel 54 pushes the abutting plate 56 to move downwards, the abutting plate 56 drives the pressing plate 55 to squeeze the sponge block 53, the cooling liquid absorbed by the sponge block 53 is squeezed to flow into the water collecting box 51, and the cooling liquid in the water collecting box 51 flows into the cooling box 13, so that the cooling liquid is recovered; meanwhile, when the pressing plate 55 moves downwards, the pressing plate 55 drives the bottom of the folding bag 59 to move downwards, the folding bag 59 is stretched, the folding bag 59 is inflated through the one-way air inlet nozzle 58, when the convex rod of the convex rod wheel 54 does not push the abutting plate 56, under the elastic force of the folding bag 59 and the sponge block 53, the pressing plate 55 resets and moves upwards, at the moment, the pressing plate 55 extrudes the folding bag 59, air in the folding bag 59 is sprayed out through the one-way air outlet pipe 510, the air sprayed out by the one-way air outlet pipe 510 is injected into the sponge block 53, and the pore structure of the sponge block 53 can be expanded by injecting air into the sponge block 53, so that the sponge block 53 can absorb more cooling water.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a cable production equipment with cooling function, includes equipment body (1), the top left side of equipment body (1) is fixed with unreels subassembly (11), the top right side of equipment body (1) is fixed with rolling subassembly (12), the top surface middle part of equipment body (1) is fixed with cooling tank (13), transmission roller (14) are all installed in the top left side and the right side rotation of cooling tank (13), its characterized in that: the device also comprises a cooling device (2), a cold water device (3), a impurity removing device (4) and a water removing device (5);

Wherein, cooling device (2) include U-shaped swash plate (21), two deflector rolls (22), water pump (23), U-shaped pipe (24), the inside at cooling tank (13) is fixed to U-shaped swash plate (21), two deflector rolls (22) rotate respectively in the inner wall left side and the right side of U-shaped swash plate (21), water pump (23) are fixed in the inner wall bottom of cooling tank (13), the play water end at water pump (23) is fixed to U-shaped pipe (24), and the one end that water pump (23) was kept away from to U-shaped pipe (24) is located the right side top of U-shaped swash plate (21).

2. The cable production apparatus with cooling function according to claim 1, wherein: the cooling device (2) further comprises two fixing plates (25), a through groove drum (26) and a plurality of stirring blades (27), wherein the two fixing plates (25) are respectively fixed on the left side and the right side of the inner wall of the U-shaped inclined plate (21), the through groove drum (26) is rotatably arranged between the two fixing plates (25), the through groove drum (26) is driven by a belt pulley motor, the belt pulley motor is fixed at the top of the cooling box (13) through a frame plate, and the stirring blades (27) are uniformly and equidistantly fixed at the inner wall of the through groove drum (26).

3. A cable production plant with cooling function according to claim 2, characterized in that: the cold water device (3) comprises an electric reciprocating push rod (31), a U-shaped sliding plate (32) and a plurality of partition plates (33), wherein the electric reciprocating push rod (31) is fixed on the right side of a cooling box (13), the telescopic end of the electric reciprocating push rod (31) penetrates through the right side of the cooling box (13), the U-shaped sliding plate (32) is slidably mounted in the cooling box (13), the U-shaped sliding plate (32) is fixed on the telescopic end of the electric reciprocating push rod (31), the partition plates (33) are respectively fixed on the front side and the back side of the inner wall of the U-shaped sliding plate (32), and the partition plates (33) are arranged in a staggered mode.

4. A cable production plant with cooling function according to claim 3, characterized in that: the cold water device (3) further comprises two lug rods (34), a collision rod (35), a U-shaped frame (36) and a turning plate (37), wherein the two lug rods (34) are respectively fixed on the front side and the back side of the inner wall of the cooling box (13), the U-shaped frame (36) is fixed on the inner wall of the U-shaped sliding plate (32), the turning plate (37) is fixed at the bottom of the U-shaped frame (36) through a spring, the collision rod (35) is fixed at the side of the turning plate (37), the collision rod (35) penetrates through the U-shaped sliding plate (32), the bottom of the lug rod (34) is fixedly provided with a lug, and the top of the collision rod (35) is located on the lug movement track of the lug rod (34).

5. The cable production facility with cooling function of claim 4 wherein: the impurity removing device (4) comprises two swinging rods (41), a J-shaped elastic net (42), a shaft rod (43) and fixing columns (44), wherein the shaft rod (43) is rotatably arranged on the left side of the inner wall of the cooling box (13), the two swinging rods (41) are respectively fixed on the front side and the back side of the outer wall of the shaft rod (43), torsion springs are arranged between the swinging rods (41) and the inner wall of the cooling box (13), the J-shaped elastic net (42) is fixed on the tops of the two swinging rods (41), the fixing columns (44) are fixed on the left side of the inner wall of the U-shaped sliding plate (32), and the fixing columns (44) are in contact with the bottoms of the two swinging rods (41).

6. The cable production apparatus with cooling function according to claim 5, wherein: the impurity removing device (4) further comprises a bonding plate (45) and a half arc rod (46), the bonding plate (45) is fixed between the two swinging rods (41) through a spring, a gap of five centimeters is reserved between the top surface of the bonding plate (45) and the bottom of the J-shaped elastic net (42), the half arc rod (46) is fixed at the bottom of the bonding plate (45), and the bottom of the half arc rod (46) is located on the motion track of the fixed column (44).

7. The cable production facility with cooling function of claim 6 wherein: the water removal device (5) comprises a water collection box (51), a through groove plate (52) and two sponge blocks (53), wherein the water collection box (51) is fixed on the right side of the cooling box (13), the through groove plate (52) is fixed on the inner wall of the water collection box (51), and the two sponge blocks (53) are respectively fixed on the front surface and the back surface of the top of the through groove plate (52).

8. The cable production facility with cooling function of claim 7, wherein: the water removal device (5) further comprises a convex rod wheel (54), a pressing plate (55), a collision plate (56), an L-shaped frame (57), a one-way air inlet nozzle (58), a folding bag (59) and a one-way air outlet pipe (510), wherein the L-shaped frame (57) is fixed at the outer wall of the water collection box (51), the folding bag (59) is fixed at the top of the inner wall of the L-shaped frame (57), the pressing plate (55) is fixed at the bottom of the folding bag (59), the one-way air inlet nozzle (58) is fixed at the top of the folding bag (59), the one-way air outlet pipe (510) is fixed at the bottom of the folding bag (59), the one-way air outlet pipe (510) penetrates through the pressing plate (55), the collision plate (56) is fixed at the left side of the pressing plate (55), the convex rod wheel (54) is fixed at the outer wall of a rotating shaft of a transmission roller (14) on the right side, and a plurality of convex rods are fixed at the outer wall of the convex rod wheel (54), and the collision plate (56) is located on the convex rod movement track of the convex rod wheel (54).