CN111299237B - Cable production equipment - Google Patents

Abstract

The invention discloses a cable production device, which has the technical scheme that: including first frame, still include: the pay-off roller is used for providing wire cores and is rotationally connected to the first rack; a first tension adjustment assembly disposed on the first frame; the second rack is provided with a heating box for preheating the wire core; the deviation rectifying and adjusting assembly and the second tension adjusting assembly are arranged on the second rack; the wire core relay transmission device is used for taking up and paying off the wire core in real time; the wire core cleaning device is arranged behind the wire core relay transmission device and used for cleaning the surface of the wire core; the wire core ink coating device is arranged behind the wire core cleaning device and is used for coating ink on the surface of the wire core; this equipment can accomplish the process such as opening a book, tensioning, washing, scribble the china ink of sinle silk.

Description

Cable production equipment

Technical Field

The invention relates to the field of cables, in particular to cable production equipment.

Background

Cable is a generic term for optical cables, electrical cables, and the like. The cable has many uses, and is mainly used for controlling installation, connecting equipment, transmitting power and the like.

Referring to the prior Chinese patent with publication number CN108147220A, the cable production device comprises a wire coil, a chuck manipulator, a rotary film feeding mechanism, a film coil wheel and a cable feeding arm, wherein the wire coil is provided with 4 through holes; the chuck manipulator comprises a manipulator left arm, a manipulator right arm, a first rotating gear, a second rotating gear, a first air cylinder and a second air cylinder, wherein the first rotating gear and the second rotating gear are meshed with each other; the chuck manipulator is connected with a second cylinder and a rotary cylinder, the second cylinder drives the chuck manipulator to translate back and forth, and the rotary cylinder drives the chuck manipulator to rotate left and right, so that rotary disc feeding is realized; the central rotating shaft of the rotary film feeding mechanism disc is driven by the cylinder, so that the integral up-and-down lifting and rotating motion of the mechanism is realized, and the film clamping mechanical arm is driven to realize rotary film feeding.

The cable production device can realize the integration of cable feeding, coiling, film feeding and packaging. However, the above-mentioned cable production apparatus has some disadvantages, such as: 1. the processes of paying off, tension adjustment, cleaning, ink coating and the like cannot be realized; 2. because the speed of the wire core at each station is different in the transmission process, the wire stacking phenomenon is easily caused, and production accidents can be caused.

Disclosure of Invention

In view of the problems mentioned in the background, it is an object of the present invention to provide a cable production apparatus to solve the problems mentioned in the background.

The technical purpose of the invention is realized by the following technical scheme:

a cable production facility, includes first frame, still includes:

the pay-off roller is used for providing wire cores and is rotationally connected to the first rack;

a first tension adjustment assembly disposed on the first frame;

the second rack is provided with a heating box for preheating the wire core;

the deviation rectifying and adjusting assembly and the second tension adjusting assembly are arranged on the second rack;

the wire core relay transmission device is used for receiving and releasing the wire core in real time;

the wire core cleaning device is arranged behind the wire core relay transmission device and used for cleaning the surface of the wire core;

the wire core ink coating device is arranged behind the wire core cleaning device and is used for coating ink on the surface of the wire core;

the first tension adjusting assembly comprises a first servo motor, a first fixing rod, a humanoid supporting plate and three first tension rollers, the first servo motor is fixed on the first rack, the first fixing rod is fixed at the end part of a motor shaft of the first servo motor, the humanoid supporting plate is fixed at the end part of the first fixing rod, and the three first tension rollers are respectively and rotatably connected to the humanoid supporting plate;

the deviation rectifying adjusting assembly comprises a second fixing rod, an L-shaped plate, two horizontal deviation rectifying rollers and two vertical deviation rectifying rollers, the second fixing rod is installed on the second rack, the L-shaped plate is fixed at the top end of the second fixing rod, and the two horizontal deviation rectifying rollers and the two vertical deviation rectifying rollers are respectively connected to the second rack in a rotating mode;

the second tensioning force adjusting assembly comprises two second tensioning rollers, a first mounting plate, a first locking bolt, a third tensioning roller and a fourth tensioning roller, the two second tensioning rollers are respectively and rotatably connected to the second rack, the first mounting plate is fixed on the second rack through the first locking bolt, and the third tensioning roller and the fourth tensioning roller are respectively and rotatably connected to the second rack;

the cable core relay transmission device comprises a fixed box, a glass blocking cover is fixedly arranged on one side of the fixed box, a support frame is fixed above the fixed box, a first containing roller and a first bearing roller are connected on the support frame in a rotating mode, a travelling crane is connected on the support frame in a sliding mode, a second containing roller is connected on the travelling crane in a rotating mode, a third containing roller and a fourth containing roller are connected in the fixed box in a rotating mode, a plurality of coiling grooves are formed in the first containing roller, the second containing roller, the third containing roller and the fourth containing roller respectively, a second servo motor and a third servo motor are fixedly arranged outside the fixed box, the second servo motor drives the third containing roller to rotate, the third servo motor drives the fourth containing roller to rotate, a lead perforation is formed in the top of the fixed box, a lead outlet is formed in one side of the fixed box, a first bearing plate and a second bearing plate are further fixedly installed on the top of the fixed box, a first pressure roller is rotatably connected to the first bearing plate, a second pressure roller is rotatably connected to the second bearing plate, a wire core is wound into a multi-strand infinity shape between the first containing roller and the second containing roller, and then the wire core bypasses the first bearing roller, passes through the first pressure roller and the second pressure roller, enters the fixed box from the lead perforation and leaves the fixed box from the lead perforation through the third containing roller and the fourth containing roller;

a fourth servo motor is fixed on the travelling crane and drives the travelling crane to be connected to the supporting frame in a sliding manner through a turbine worm transmission mechanism;

a limiting chain is fixed on the travelling crane, one end of the limiting chain is fixed at the bottom of the travelling crane, and the other end of the limiting chain is fixed on the support frame;

a kidney-shaped groove is formed in the second bearing plate, a support rod penetrates through the kidney-shaped groove, a locking sleeve is connected to the outer portion of the support rod through threads, a spring washer is sleeved on the outer portion of the support rod and located between the locking sleeve and the second bearing plate, a third bearing plate is fixed to the end portion of the support rod, a third pressing roller is rotatably connected to the third bearing plate, and a fourth pressing roller is rotatably connected to the third bearing plate;

the sinle silk belt cleaning device includes the pond, be fixed with the division board in the pond, the division board will first cavity and second cavity are split into in the pond, be provided with the heater in the first cavity, the pond is in the top of first cavity is fixed with the fender lid, first cavity internal rotation is connected with two first retaining rollers, first cavity is two rotate between the first retaining roller and be connected with compression roller and lower compression roller, first notch has been seted up on the division board, first notch internal fixation has first holder, the second notch that supplies the sinle silk to pass is seted up to the pond tip, the second cavity internal fixation has the second holder, the intercommunication is fixed with inlet tube and drain pipe on the pond, the inlet tube with first cavity intercommunication each other, communicate each other between inlet tube and the water supply person in charge, be provided with first valve on the inlet tube, the drain pipe with the second cavity intercommunication each other, the drain pipe tip is dismantled and be connected with the processing section of thick bamboo, processing section of thick bamboo internal fixation has first cotton layer and second cotton layer, be provided with the active carbon cloth layer between the second cotton layer, the bottom of processing section of thick bamboo is responsible for the pipe, the discharge pipe is connected with the drainage pipe.

By adopting the technical scheme, when the cable production equipment is used for producing the cable, the cable cores can be firstly discharged from the pay-off roller rotating on the first rack, the stability of the cable entering the cable core relay transmission device can be ensured by utilizing the first tension adjusting assembly, the second tension adjusting assembly and the deviation correcting adjusting assembly, the cable cores can enter the cable core cleaning device for cleaning after passing through the cable core relay transmission device, and then enter the cable core inking device for inking, so that the equipment can finish the processes of uncoiling, tensioning, cleaning, inking and the like of the cable cores; in addition, the wire core relay transmission device in the cable production equipment can be used for compensating the problems of wire stacking and the like caused by overlong wire core production lines, and can avoid production accidents as much as possible; when a first servo motor in the first tensioning force adjusting assembly is started, the first servo motor can drive the first fixing rod to rotate, so that the human-shaped supporting plate is driven to adjust the angle, the three first tensioning rollers can be driven to adjust the angle, and the tensioning force in the wire core can be conveniently adjusted; the two horizontal deviation correcting rollers and the two vertical deviation correcting rollers on the L-shaped plate at the end part of the second fixing rod can ensure the stability of the wire cores during operation and can correct the deviation of the wire cores which have certain torsion deviation; the wire core transmitted to the second rack can be tensioned by the second tensioning roller, the third tensioning roller and the fourth tensioning roller which rotate on the first mounting plate; when the wire cores pass through the wire core relay transmission device, the wire cores are wound into a multi-strand infinity shape between a first storage roller and a second storage roller, then the wire cores pass through a first bearing roller and a first pressing roller and a second pressing roller to enter a fixed box from a lead perforation, and the wire cores pass through a third storage roller and a fourth storage roller to leave the fixed box from the lead perforation; when the fourth servo motor is started, the traveling crane can be driven to slide on the supporting frame by using the worm gear transmission mechanism, so that the operation is reliable and convenient; the limiting chain of the traveling crane upper bolt can limit the moving position of the traveling crane; the wire core entering the fixing box can be tensioned by utilizing the third pressing roller and the fourth pressing roller on the third bearing plate, the support rod is inserted into the kidney-shaped groove in the second bearing plate, then the locking sleeve is screwed, the support rod can be conveniently fixed, and the position of the support rod can be adjusted; after the sinle silk entered into the pond, can enter into the first cavity in the pond earlier, be responsible for through supplying water and the inlet tube can be to the drainage in the first cavity, water in the first cavity can be heated by the heater, water in the first cavity can flow in to the second cavity from the first notch on the division board, rivers can pass through the drain pipe, a treatment section of thick bamboo, the outflow is responsible for to delivery pipe and drainage, wherein handle first cotton layer in the section of thick bamboo, second cotton layer and active carbon can filter the water of emission, utilize first retaining roller in addition, go up the compression roller, the compression roller down, first retaining frame and second are held the frame and can be guaranteed the sinle silk and are covered by water when the pond completely, and can guarantee the stability of sinle silk.

The preferred, the drain pipe end fixing has first ring collar, it is fixed with the second collar to handle a section of thick bamboo top, first ring collar with the common threaded connection in outside of second collar has the screw ring cover, first ring collar with first annular has been seted up jointly to the one side that the second collar is close to each other, be provided with O shape circle in the first annular, the bottom mounting who handles a section of thick bamboo has first ring flange, the delivery pipe top is fixed with the second ring flange, first ring flange with through a plurality of second locking bolt connection between the second ring flange, first ring flange with the second ring flange has seted up the second ring groove jointly in the one side that is close to each other, be provided with ring type seal in the second ring groove.

Through adopting above-mentioned technical scheme, can realize dismantling and fixing between drain pipe and the treatment section of thick bamboo when screwing up the outside screw ring cover of first collar and second collar, wherein the O shape circle in the first ring inslot can seal the connection of drain pipe and treatment section of thick bamboo, can realize handling when screwing up the second locking bolt on first ring flange and the second ring flange and be connected between a section of thick bamboo and the delivery pipe, the ring packing circle in the second ring inslot can seal the connection between a treatment section of thick bamboo and the delivery pipe.

In summary, the invention mainly has the following beneficial effects:

when the cable production equipment is used for producing cables, the cable cores can be discharged from a pay-off roller rotating on a first rack, the stability of the cables entering a cable core relay transmission device can be guaranteed by utilizing a first tension adjusting assembly, a second tension adjusting assembly and a deviation rectifying adjusting assembly, the cable cores can enter a cable core cleaning device for cleaning after passing through the cable core relay transmission device, and then enter a cable core ink coating device for ink coating, so that the equipment can finish the processes of uncoiling, tensioning, cleaning, ink coating and the like of the cable cores; in addition, this sinle silk relay transmission device among cable production facility can be used for compensating because the sinle silk production line overlength causes piles line scheduling problem, can avoid the emergence of production accident as far as.

Drawings

FIG. 1 is a schematic structural view of a cable production facility;

FIG. 2 is a schematic diagram showing a first tensioning assembly;

FIG. 3 is a schematic view showing the structure of the deviation correcting adjustment assembly and the second tension adjustment assembly;

fig. 4 is a schematic structural diagram for showing a core relay transmission device;

FIG. 5 is a schematic view for showing a structure at a fixing box;

FIG. 6 is an enlarged view taken at A in FIG. 5;

FIG. 7 is a schematic view showing the structure of a wire core cleaning device;

FIG. 8 is a second schematic view for showing the structure of the core cleaning device;

FIG. 9 is a sectional view showing the structure of a core cleaning apparatus;

FIG. 10 is an enlarged view at B in FIG. 9;

FIG. 11 is an enlarged view at C of FIG. 9;

fig. 12 is a schematic structural diagram for showing a wire core inking device.

Reference numerals: 1. a first frame; 10. a pay-off roller; 11. a first tension adjustment assembly; 12. a second frame; 13. a heating box; 14. a deviation rectifying and adjusting component; 15. a second tension adjustment assembly; 2. a wire core relay transmission device; 3. a wire core cleaning device; 4. a wire core inking device; 111. a first servo motor; 112. a first fixing lever; 113. a human-shaped support plate; 114. a first tension roller; 141. a second fixing bar; 142. an L-shaped plate; 143. a horizontal deviation rectifying roller; 144. a vertical deviation rectifying roller; 151. a second tension roller; 152. a first mounting plate; 153. a first locking bolt; 154. a third tension roller; 155. a fourth tension roller; 21. a fixed box; 210. a glass shield; 22. a support frame; 221. a first receiving roller; 222. a first carrier roller; 23. driving a vehicle; 231. a second receiving roller; 211. a third receiving roller; 212. a fourth receiving roller; 213. a second servo motor; 214. a third servo motor; 215. perforating a lead; 216. a lead outlet; 217. a first support plate; 218. a second support plate; 2171. a first pinch roller; 2181. a second pressure roller; 232. a fourth servo motor; 233. a limiting chain; 2182. a kidney-shaped groove; 2183. a support bar; 2184. a locking sleeve; 2185. a spring washer; 2186. a third support plate; 2187. a third pressure roller; 2188. a fourth pinch roller; 31. a pool; 310. a partition plate; 311. a first chamber; 312. a second chamber; 32. a heater; 33. a blocking cover; 3111. a first holding roller; 3112. an upper compression roller; 3113. a lower press roll; 3101. a first notch; 3102. a first holder; 3121. a second notch; 3122. a second holder; 34. a water inlet pipe; 35. a drain pipe; 341. a main water supply pipe; 342. a first valve; 36. a treatment cylinder; 361. a first cotton cloth layer; 362. a second cotton cloth layer; 363. activated carbon; 37. a discharge pipe; 370. a main drainage pipe; 351. a first collar; 364. a second collar; 3511. a threaded ring sleeve; 3512. a first ring groove; 3513. an O-shaped ring; 365. a first flange plate; 371. a second flange plate; 3651. a second locking bolt; 3652. a second ring groove; 3653. an annular seal ring; 41. an ink tank; 42. an inking roller; 43. a fifth servo motor; 46. and a resisting roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, a cable production apparatus includes a first frame 1, and further includes:

the paying-off roller 10 is used for providing wire cores, and the paying-off roller 10 is rotatably connected to the first rack 1;

a first tension adjusting assembly 11 disposed on the first frame 1;

the second rack 12 is provided with a heating box 13 for preheating the wire cores;

a deviation rectifying and adjusting assembly 14 and a second tension adjusting assembly 15 which are arranged on the second frame 12;

a wire core relay transmission device 2 for real-time winding and unwinding of the wire core;

a wire core cleaning device 3 arranged behind the wire core relay transmission device 2 and used for cleaning the surface of the wire core;

and a wire core ink coating device 4 which is arranged behind the wire core cleaning device 3 and is used for coating ink on the surface of the wire core.

Referring to fig. 1, when the cable production equipment performs cable production, a cable core is firstly discharged from a pay-off roller 10 rotating on a first rack 1, the stability of the cable when entering a cable core relay transmission device 2 can be ensured by using a first tension adjusting assembly 11, a second tension adjusting assembly 15 and a deviation rectifying adjusting assembly 14, the cable core can enter a cable core cleaning device 3 for cleaning after passing through the cable core relay transmission device 2, and then enters a cable core inking device 4 for inking, so that the equipment can complete the processes of uncoiling, tensioning, cleaning, inking and the like of the cable core; in addition, the core relay transmission device 2 in the cable production equipment can be used for compensating the problems of wire stacking and the like caused by overlong core production lines, and can avoid production accidents as much as possible.

Referring to fig. 2, the first tensioning force adjusting assembly 11 includes a first servo motor 111, a first fixing rod 112, a humanoid supporting plate 113 and three first tensioning rollers 114, wherein the first servo motor 111 is fixed on the first frame 1, the first fixing rod 112 is fixed at a motor shaft end of the first servo motor 111, the humanoid supporting plate 113 is fixed at an end of the first fixing rod 112, the three first tensioning rollers 114 are respectively rotatably connected to the humanoid supporting plate 113, when the first servo motor 111 in the first tensioning force adjusting assembly 11 is started, the first fixing rod 112 can be driven to rotate, so as to drive the humanoid supporting plate 113 to adjust an angle, so as to drive the three first tensioning rollers 114 to adjust an angle, so as to conveniently adjust a tensioning force inside the core.

Referring to fig. 3, the deviation rectification adjusting assembly 14 includes a second fixing rod 141, an L-shaped plate 142, two horizontal deviation rectification rollers 143 and two vertical deviation rectification rollers 144, the second fixing rod 141 is installed on the second frame 12, the L-shaped plate 142 is fixed on the top end of the second fixing rod 141, the two horizontal deviation rectification rollers 143 and the two vertical deviation rectification rollers 144 are respectively rotatably connected to the second frame 12, the two horizontal deviation rectification rollers 143 and the two vertical deviation rectification rollers 144 on the L-shaped plate 142 at the end of the second fixing rod 141 can ensure the stability of the wire cores during operation, and can rectify the wire cores having a certain deviation.

Referring to fig. 3, the second tension adjusting assembly 15 includes two second tension rollers 151, a first mounting plate 152, a first locking bolt 153, a third tension roller 154 and a fourth tension roller 155, the two second tension rollers 151 are respectively rotatably connected to the second frame 12, the first mounting plate 152 is fixed to the second frame 12 by the first locking bolt 153, the third tension roller 154 and the fourth tension roller 155 are respectively rotatably connected to the second frame 12, and the wire cores transferred to the second frame 12 can be tensioned by the second tension roller 151 and the third tension roller 154 and the fourth tension roller 155 which rotate on the first mounting plate 152.

Referring to fig. 4, 5 and 6, the core relay transport device 2 includes a fixing box 21, a glass shield 210 is fixedly installed on one side of the fixing box 21, a support frame 22 is fixedly installed above the fixing box 21, a first receiving roller 221 and a first supporting roller 222 are rotatably connected to the support frame 22, a traveling crane 23 is slidably connected to the support frame 22, a second receiving roller 231 is rotatably connected to the traveling crane 23, a third receiving roller 211 and a fourth receiving roller 212 are rotatably connected to the fixing box 21, a plurality of winding grooves are respectively formed in the first receiving roller 221, the second receiving roller 231, the third receiving roller 211 and the fourth receiving roller 212, a second servo motor 213 and a third servo motor 214 are fixedly installed outside the fixing box 21, the second servo motor 213 drives the third receiving roller 211 to rotate, the third servomotor 214 drives the fourth receiving roller 212 to rotate, a lead through hole 215 is formed in the top of the fixed box 21, a lead outlet 216 is formed in one side of the fixed box 21, a first support plate 217 and a second support plate 218 are further mounted and fixed to the top of the fixed box 21, a first pinch roller 2171 is rotatably connected to the first support plate 217, a second pinch roller 2181 is rotatably connected to the second support plate 218, the wire core is wound into a multi-strand infinity shape between the first receiving roller 221 and the second receiving roller 231, then enters the fixed box 21 from the lead through hole 215 by bypassing the first support roller 222 and passing through the first pinch roller 2171 and the second pinch roller 2181, and leaves the fixed box 21 from the lead through hole 215 by passing through the third receiving roller 211 and the fourth receiving roller 212.

Referring to fig. 4, 5 and 6, when the wire core passes through the wire core relay conveying device 2, the wire core is wound into a multi-strand ∞ shape between the first storage roller 221 and the second storage roller 231, then passes around the first bearing roller 222, passes through the first pressing roller 2171 and the second pressing roller 2181, enters the fixing box 21 from the wire perforation 215, passes through the third storage roller 211 and the fourth storage roller 212, and leaves the fixing box 21 from the wire perforation 215, because the position of the second storage roller 231 can slide along with the sliding of the travelling crane 23 on the support frame 22, the multi-strand ∞ shape tightness between the first storage roller 221 and the second storage roller 231 can be brought along, and thus the travelling crane 23 can be started to bring the second storage roller 231 away when the wire core is stacked.

Referring to fig. 4, 5 and 6, a fourth servo motor 232 is fixed on the traveling crane 23, the fourth servo motor 232 drives the traveling crane 23 to slide on the supporting frame 22 through the turbine worm transmission mechanism, and when the fourth servo motor 232 is started, the traveling crane 23 can be driven to slide on the supporting frame 22 through the turbine worm transmission mechanism, which is reliable and convenient.

Referring to fig. 4, 5 and 6, a limiting chain 233 is fixed on the travelling crane 23, one end of the limiting chain 233 is fixed at the bottom of the travelling crane 23, the other end of the limiting chain 233 is fixed on the support frame 22, and the limiting chain 233 tied on the travelling crane 23 can limit the position of the travelling crane 23 in movement.

Referring to fig. 4, 5 and 6, a waist-shaped groove 2182 is formed in the second support plate 218, a support rod 2183 penetrates through the waist-shaped groove 2182, a locking sleeve 2184 is in threaded connection with the outside of the support rod 2183, a spring washer 2185 is sleeved on the outside of the support rod 2183, the spring washer 2185 is located between the locking sleeve 2184 and the second support plate 218, a third support plate 2186 is fixed at the end of the support rod 2183, a third pressure roller 2187 is rotatably connected to the third support plate 2186, and a fourth pressure roller 2188 is rotatably connected to the third support plate 2186, the third pressure roller 2187 and the fourth pressure roller 2188 on the third support plate 2186 can tension the wire cores entering the fixing box 21, and the support rod 2183 can be conveniently fixed to the support rod 2183 by screwing the locking sleeve 2184 after being inserted into the waist-shaped groove 2182 in the second support plate 218, and the position of the support rod 2183 can be adjusted.

Referring to fig. 7, 8, 9, 10 and 11, the core cleaning device 3 includes a water tank 31, a partition plate 310 is fixed in the water tank 31, the partition plate 310 divides the water tank 31 into a first chamber 311 and a second chamber 312, a heater 32 is arranged in the first chamber 311, a baffle cover 33 is fixed above the first chamber 311 of the water tank 31, two first holding rollers 3111 are rotatably connected in the first chamber 311, the first chamber 311 is rotatably connected between the two first holding rollers 3111 with an upper pressure roller 3112 and a lower pressure roller 3113, a first notch 3101 is formed in the partition plate 310, a first holding frame 3102 is fixed in the first notch 3101, a second notch 3121 for the core to pass through is formed in the end of the water tank 31, a second holding frame 312 is fixed in the second chamber 312, a water inlet pipe 34 and a water drain pipe 35 are fixedly connected in the water tank 31, the water inlet pipe 34 is communicated with the first chamber 311, the water inlet pipe 34 is communicated with a water supply main pipe, a first valve 342 is arranged on the water inlet pipe 34, the second chamber 312 is communicated with the second chamber 31235, a water discharge pipe 31135 is connected with a second drainage pipe 311363, a cotton cloth layer 362 is connected with a second drainage pipe 362, a cotton treatment pipe 362 is detachably connected between the cotton treatment pipe 36 and a cotton treatment pipe 362 and a second drainage pipe 362 is connected with a cotton treatment pipe 362, and a cotton treatment pipe 362, a cotton treatment pipe 362 is connected with a cotton treatment pipe.

Referring to fig. 7, 8, 9, 10 and 11, after the wire core enters the water tank 31, the wire core first enters the first chamber 311 in the water tank 31, water can be drained into the first chamber 311 through the water supply main pipe and the water inlet pipe 34, the water in the first chamber 311 is heated by the heater 32, the water in the first chamber 311 flows into the second chamber 312 from the first notch 3101 on the partition plate 310, and the water flows out through the drain pipe 35, the treatment cylinder 36, the drain pipe 37 and the water drainage main pipe 370, wherein the first cotton layer 361, the second cotton layer 362 and the activated carbon 363 in the treatment cylinder 36 can filter the drained water, and the first holding roller 3111, the upper press roller 3112, the lower press roller 3113, the first holding frame 3102 and the second holding frame can ensure that the wire core is completely covered by the water when passing through the water tank 31, and can ensure the stability of the wire core.

Referring to fig. 9 and 11, a first collar 351 is fixed at an end of the drain pipe 35, a second collar 364 is fixed at a top of the treatment cylinder 36, a threaded collar 3511 is connected to the outer portions of the first collar 351 and the second collar 364 through a common thread, a first ring groove 3512 is formed at a side where the first collar 351 and the second collar 364 are close to each other, an O-ring 3513 is arranged in the first ring groove 3512, a first flange 365 is fixed at a bottom end of the treatment cylinder 36, a second flange 371 is fixed at a top of the drain pipe 37, the first flange 365 and the second flange 371 are connected through a plurality of second locking bolts 3651, a second ring groove 3652 is formed at a side where the first flange 365 and the second flange 371 are close to each other, and a ring-shaped sealing ring 3653 is arranged in the second ring groove 3652.

Referring to fig. 9 and 11, the drain pipe 35 and the treatment cylinder 36 can be disassembled and fixed by tightening the threaded collar 3511 on the outer side of the first collar 351 and the second collar 364, the O-ring 3513 in the first annular groove 3512 can seal the connection between the drain pipe 35 and the treatment cylinder 36, the treatment cylinder 36 and the discharge pipe 37 can be connected by tightening the second locking bolts 3651 on the first flange 365 and the second flange 371, and the annular sealing ring 3653 in the second annular groove 3652 can seal the connection between the treatment cylinder 36 and the discharge pipe 37.

Referring to fig. 12, the core inking device 4 includes an ink tank 41, an inking roller 42, a fifth servomotor 43, a resist roller 46; the ink groove 41 is used for placing ink, the inking roller 42 is driven by the fifth servo motor 43, the inking roller 42 can adsorb the ink when passing through the ink groove 41, the resisting roller 46 is used for keeping the position of the wire core, and the wire core passes through the position between the resisting roller 46 and the inking roller 42 to be inked.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (2)

1. A cable production facility, includes first frame (1), its characterized in that: further comprising:

the paying-off roller (10) is used for providing wire cores, and the paying-off roller (10) is rotatably connected to the first rack (1);

a first tension adjusting assembly (11) disposed on the first frame (1);

the wire core preheating device comprises a second rack (12), wherein a heating box (13) used for preheating wire cores is arranged on the second rack (12);

a deviation rectifying adjusting component (14) and a second tension adjusting component (15) which are arranged on the second frame (12);

a wire core relay transmission device (2) for real-time winding and unwinding of the wire core;

the wire core cleaning device (3) is arranged behind the wire core relay transmission device (2) and is used for cleaning the surface of the wire core;

the wire core ink coating device (4) is arranged behind the wire core cleaning device (3) and is used for coating ink on the surface of the wire core;

the first tension adjusting assembly (11) comprises a first servo motor (111), a first fixing rod (112), a humanoid supporting plate (113) and three first tension rollers (114), the first servo motor (111) is fixed on the first frame (1), the first fixing rod (112) is fixed at the end part of a motor shaft of the first servo motor (111), the humanoid supporting plate (113) is fixed at the end part of the first fixing rod (112), and the three first tension rollers (114) are respectively connected to the humanoid supporting plate (113) in a rotating mode;

the deviation rectifying and adjusting assembly (14) comprises a second fixing rod (141), an L-shaped plate (142), two horizontal deviation rectifying rollers (143) and two vertical deviation rectifying rollers (144), the second fixing rod (141) is installed on the second rack (12), the L-shaped plate (142) is fixed at the top end of the second fixing rod (141), and the two horizontal deviation rectifying rollers (143) and the two vertical deviation rectifying rollers (144) are respectively and rotatably connected to the second rack (12);

the second tension adjusting assembly (15) comprises two second tension rollers (151), a first mounting plate (152), a first locking bolt (153), a third tension roller (154) and a fourth tension roller (155), the two second tension rollers (151) are respectively and rotatably connected to the second rack (12), the first mounting plate (152) is fixed on the second rack (12) through the first locking bolt (153), and the third tension roller (154) and the fourth tension roller (155) are respectively and rotatably connected to the second rack (12);

the wire core relay transmission device (2) comprises a fixed box (21), a glass shield (210) is fixedly arranged on one side of the fixed box (21), a support frame (22) is fixedly arranged above the fixed box (21), a first containing roller (221) and a first bearing roller (222) are rotatably connected onto the support frame (22), a travelling crane (23) is further connected onto the support frame (22) in a sliding manner, a second containing roller (231) is rotatably connected onto the travelling crane (23), a third containing roller (211) and a fourth containing roller (212) are rotatably connected onto the fixed box (21), a second servo motor (213) and a third servo motor (214) are fixedly arranged outside the fixed box (21), the second containing roller (221), the second containing roller (231), the third containing roller (211) and the fourth containing roller (212) are respectively provided with a plurality of coiling grooves, the second servo motor (213) and the third servo motor (214) are fixedly arranged on the fixed box (21), the second servo motor (213) drives the third containing roller (211) to rotate, the third servo motor (214) drives the fourth containing roller (212), a lead (216) is fixedly arranged on one side of the fixed box (21), and a lead outlet (215) of the fixed box (21) is formed in the fixed box, and a second bearing plate (218) is formed on one side of the fixed box (217) is provided with a lead supporting plate (21), a first pinch roller (2171) is rotatably connected to the first support plate (217), a second pinch roller (2181) is rotatably connected to the second support plate (218), and a wire core is wound into a multi-strand ∞ shape between the first take-in roller (221) and the second take-in roller (231), then bypasses the first support roller (222) and passes through the first pinch roller (2171) and the second pinch roller (2181) to enter the fixed box (21) from the lead through-hole (215), and passes through the third take-in roller (211) and the fourth take-in roller (212) to exit the fixed box (21) from the lead through-hole (215);

a fourth servo motor (232) is fixed on the travelling crane (23), and the fourth servo motor (232) drives the travelling crane (23) to be connected to the support frame (22) in a sliding manner through a turbine worm transmission mechanism;

a limiting chain (233) is fixed on the travelling crane (23), one end of the limiting chain (233) is fixed at the bottom of the travelling crane (23), and the other end of the limiting chain (233) is fixed on the support frame (22);

a waist-shaped groove (2182) is formed in the second bearing plate (218), a supporting rod (2183) penetrates through the waist-shaped groove (2182), a locking sleeve (2184) is connected to the outer thread of the supporting rod (2183), a spring washer (2185) is sleeved outside the supporting rod (2183), the spring washer (2185) is located between the locking sleeve (2184) and the second bearing plate (218), a third bearing plate (2186) is fixed to the end portion of the supporting rod (2183), a third pressing roller (2187) is connected to the third bearing plate (2186) in a rotating mode, and a fourth pressing roller (2188) is connected to the third bearing plate (2186) in a rotating mode;

the core cleaning device (3) comprises a water tank (31), a partition plate (310) is fixed in the water tank (31), the partition plate (310) divides the water tank (31) into a first cavity (311) and a second cavity (312), a heater (32) is arranged in the first cavity (311), the water tank (31) is fixed with a baffle cover (33) above the first cavity (311), two first holding rollers (3111) are rotationally connected in the first cavity (311), two first cavities (311) are rotatably connected between the first holding rollers (3111) and are provided with an upper compression roller (3112) and a lower compression roller (3113), a first notch (3101) is formed in the partition plate (310), a first retaining frame (3102) is fixed in the first notch (3101), a second notch (3121) through which the core passes is formed in the end of the water tank (31), a second notch (3122) is formed in the second cavity (312), a water inlet pipe (34) and a water outlet pipe (35) are fixedly connected in the water tank (31), the first cavity (311) and a water outlet pipe (342) and a water inlet pipe (34) and a drain pipe (34) and a water outlet pipe (342) and a water outlet pipe (34) are communicated with the first cavity (312), the utility model discloses a sewage treatment device, including drain pipe (35), processing section of thick bamboo (36) is connected with in the dismantlement of drain pipe (35) tip, it has first cotton layer (361) and second cotton layer (362) to handle a section of thick bamboo (36) internal fixation, first cotton layer (361) with be provided with active carbon (363) between second cotton layer (362), the bottom of handling section of thick bamboo (36) is dismantled and is connected with discharge pipe (37), communicate each other between discharge pipe (37) and the drainage person in charge (370).

2. A cable production apparatus according to claim 1, wherein: the end of the drainage pipe (35) is fixed with a first collar (351), the top of the treatment cylinder (36) is fixed with a second collar (364), the outer parts of the first collar (351) and the second collar (364) are connected with a threaded ring sleeve (3511) in a threaded manner, the first collar (351) and the second collar (364) are provided with a first ring groove (3512) on the surfaces close to each other, an O-shaped ring (3513) is arranged in the first ring groove (3512), the bottom end of the treatment cylinder (36) is fixed with a first flange plate (365), the top of the discharge pipe (37) is fixed with a second flange plate (371), the first flange plate (365) and the second flange plate (371) are connected through a plurality of second locking bolts (3651), the first flange plate (365) and the second flange plate (371) are provided with a second ring groove (3652) on the surfaces close to each other, and an annular sealing ring (3653) is arranged in the second ring groove (3652).

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