CN111403124A - Cable rubber coating device - Google Patents

Abstract

A cable rubber coating device comprises a take-up roller main body, a guide roller and a cooling box, wherein the guide roller is arranged inside a rubber coating pool in a matching way, the cooling box is arranged at the inner side of the take-up roller main body in a matching way, and the adhesive rubber material at the outer end face of the guide roller can be scraped left and right through the layout and the matching arrangement of the take-up roller main body, the guide roller, a fixed rod, a guide groove, a gear wheel, a pinion and a scraper, so that the probability of derailment of the cable and the guide roller can be reduced, meanwhile, the movable track of the scraper can be limited by utilizing the layout and the matching arrangement of a rotating disc, a groove, the scraper, a sliding block and a tension spring of the scraper, the residual rubber material at the scraper can be scraped, and finally, the layout and the matching arrangement of the cooling box, the rotating roller, a transmission belt, a water guide groove, a second water guide plate, a groove, a stirring blade and, the cooling work of the cable is finished, and the cooling effect of the cable can be guaranteed to the maximum extent.

Description

Cable rubber coating device

Technical Field

The invention relates to the technical field of cable processing, in particular to a cable rubber coating device.

Background

Cable is a generic term for optical cables, electrical cables, and the like. The cable has many purposes, is mainly used for controlling installation, connecting equipment, transmitting power and other multiple functions, and is a common and indispensable object in daily life. Because the cable is electrified, the installation needs to be particularly careful, and the cable production and processing process has a process for carrying out encapsulation treatment on the cable.

Based on the above description, and a search was made for an application with the number: CN 201920918944.5's utility model patent, its be about a copper line rubber coating device for cable production, comprising a base plate, the top outer wall of bottom plate is equipped with the rubber coating case, and the top outer wall both ends of rubber coating case all are equipped with two limiting plates. Through the retrieval discovery, mainly be through setting up solid fixed ring, hydraulic stem and adjustable ring, when needs are to carrying out the copper line rubber coating of different thicknesses, through adjusting the hydraulic stem to drive the adjustable ring and remove on the connecting axle, and then adjust the interval between two adjustable rings, thereby make this guider can the copper line of different thicknesses carry out the processing operation.

After through retrieval and analysis, this copper line rubber coating device has following problem in the use, after the rubberizing of copper line finishes, can roll to the connecting axle of rubber coating case left side department, at this in-process, its partial sizing material can adhere to this connecting axle department, when the time overlength back, the sizing material of its adhesion just probably leads to copper line and connecting axle to take place the condition such as derail, the condensing box is when cooling the cable simultaneously, need consume the condition such as a large amount of electric energy, will increase its cost of opening like this, consequently, based on above problem, need a cable rubber coating device.

Technical problem to be solved

The invention aims to solve the problem that after a wire guide roller is used for a long time, adhesive sizing materials on the outer side of the wire guide roller can be scraped through a device of the wire guide roller, so that the probability of derailment of a cable and the wire guide roller is reduced, and meanwhile, the device can be used for cooling the cable without depending on external electric energy, so that the expenditure cost of the device is further saved.

(II) technical scheme

The invention provides a cable rubber coating device, which comprises a take-up roller main body, a guide roller and a cooling box, wherein the guide roller is matched and arranged inside a rubber coating pool, the cooling box is matched and arranged at the inner side of the take-up roller main body, the take-up roller main body also comprises a fixing frame, a rubber coating pool, a heat conducting plate and an electric heating rod, the fixing frame is matched and arranged at the front side end face and the rear side end face of the take-up roller main body, the guide rollers are matched and arranged with the fixing frame, the rubber coating pool is matched and arranged at the inner side of the take-up roller main body, the bottom end of the heat conducting plate is matched and arranged at the inner wall of the rubber coating pool;

the wire guiding roller also comprises a fixed rod, a wire guiding groove, a large gear, a small gear, a rotating disc, a groove, a sliding groove, a scraper, a sliding block and a tension spring, the fixed rod is fixedly arranged at the front end face and the rear end face of the wire guiding roller, the rotating roller is also fixedly provided with the fixed rod, the wire guiding groove is matched with the outer end face of the wire guiding roller, the large gear is matched with the left side of the inner part of the rubber coating pool, the large gear is fixedly arranged at the outer end face of the fixed rod, as shown in figures 1 and 2, the small gear is matched with the left side of the large gear, as shown in figures 1 and 2, the small gear is also fixedly provided with a fixed frame and the fixed rod, the rotating disc is rotatably arranged at the left side of the top end face of the rubber coating pool, the rotating disc is positioned at the left side of the wire guiding roller, as shown in figures 1 and 2, the scraper is movably arranged in the groove, the sliding blocks are fixedly arranged at the front end face and the rear end face of the scraper, as shown in fig. 7, the sliding blocks are slidably arranged in the sliding groove, the tension spring is fixedly arranged in the sliding groove, and one end of the tension spring is fixedly connected with the outer end face of the sliding block;

the cooling box also comprises a rotating roller, a transmission belt, a first water guide plate, a water guide groove, a second water guide plate, a groove, a stirring blade and a wire guide port, the rotating roller is rotatably arranged at the end surface of the inner side of the cooling box, as shown in enlarged view of fig. 1, the transmission belt is rotatably arranged at the front side end faces of the rotating roller, the first water guide plate and the second water guide plate, as enlarged in fig. 1, the first water deflector is rotatably disposed inside the cooling box, the water chute is embedded in the inner end surface of the first water deflector, the second water deflector is rotatably disposed at the bottom end inside the cooling box, and the second water guide plate is positioned at the bottom of the first water guide plate, as shown in an enlarged view in fig. 1, the open groove is penetratingly formed at the inner side end face and the outer side end face of the second water guide plate, the stirring blade is rotatably formed at the inner end face of the open groove, and the wire guide port is penetratingly formed at the left side and the right side of the inner wall of the cooling box, as shown in an enlarged view in fig. 1.

Preferably: the quantity of receiving the line roller main part is 2 and all sets up in the left side department and the right side department of package jiao chi and cooler bin, and 2 receive line roller main parts department still set up gear motor simultaneously in a supporting way to its gear motor all links to each other with external switch and wire.

Preferably: the quantity of wire roller is 3, all forms a complete set and sets up in the inside in package jiao chi, as shown in the enlargements of fig. 1 to 3 wire rollers, rolling disc all form a complete set with the junction in package jiao chi and are provided with mount, dead lever and pivot.

Preferably: the wire guide is wholly circular, and its inside is half circular structure, and the scraper is whole to be the setting of rectangle column structure, and its outside terminal surface then is the setting of arc column structure to its arc structure is supporting each other with the inner structure of wire guide, and the recess sets up for fan-shaped structure simultaneously, and the thickness of its scraper is less than the inside of recess slightly, and its scraper still supports with the junction of recess and is provided with dead lever and pivot.

Preferably: the overall shape of the sliding chute is a fan-shaped arrangement, the internal structure of the sliding chute is a rectangular arrangement, the sliding block is overall a rectangular arrangement, the sliding block is arranged inside the sliding chute in a sliding mode, and the width of the inner wall of the sliding chute is slightly larger than that of the sliding block.

Preferably: the joints of the rotating roller, the first water guide plate, the second water guide plate and the inner wall of the cooling box are all provided with a fixed rod, a rotating shaft and the like in a matching way, and meanwhile, the end face of the outer side of the fixed rod is also fixedly provided with a transmission gear which is matched with a transmission belt.

Preferably: the whole first water guide plate is arranged in an arc-shaped structure, the number of the first water guide plate is 2, the first water guide plate is rotatably arranged at the left side and the right side of the inside of the cooling box, and meanwhile, the end face of the inner side of the first water guide plate is also provided with a water guide groove in a semicircular structure in an embedded mode.

Preferably: the whole arc column structure setting that is of second water deflector, its quantity is 2, all rotates and sets up in the inside left side department and the inside right side department of cooler bin, and the medial extremity face department of its first water deflector still runs through simultaneously and is provided with the rectangle form fluting to its fluting is inside still to rotate the stirring vane who is provided with cross column structure, and stirring vane also forms a complete set with grooved junction and is provided with dead lever and pivot.

Preferably: the wire guide opening is integrally arranged in a ladder-shaped structure, as shown in an enlarged view of a cooling box 3 at the part of figure 1, the height of the wire guide opening is greater than the height of a water level line in the cooling box, and the height of a gap space between rollers of the wire guide opening is also lower than the height of the wire guide opening.

Has the advantages that:

1. the cable rubber coating device is provided with a take-up roller main body, a guide roller, a fixing rod, a guide groove, a large gear, a small gear, a rotating disc and a scraper, and can scrape adhesive rubber materials on the end face of the outer side of the guide roller left and right, so that the probability of derailment between a cable and the guide roller can be reduced.

2. The cable rubber coating device is provided with the rotating disc, the groove, the sliding groove, the scraper, the sliding block and the tension spring, can limit the moving track of the scraper, and can also clean and scrape residual rubber materials at the scraper.

3. The cable rubber coating device is provided with the cooling box, the rotating roller, the transmission belt, the first water guide plate, the water guide groove, the second water guide plate, the groove, the stirring blade and the wire guide port, can finish the cooling work of the cable without depending on external electric energy, and can ensure the cooling effect of the cable to the maximum extent.

Description of the drawings:

fig. 1 is a schematic front cross-sectional view of a cable adhesive covering device according to the present invention.

Fig. 2 is a schematic top view of the encapsulation tank according to the present invention.

Fig. 3 is a schematic side view of a first water deflector according to the present invention.

Fig. 4 is a schematic side view of a second water deflector according to the present invention.

Fig. 5 is a schematic side view of the cable adhesive covering device shown in fig. 2.

Fig. 6 is a schematic side view of the cable covering device shown in fig. 4 at B.

Fig. 7 is a partial side view of the cable covering device shown in fig. 5.

In FIGS. 1-7: 1-a take-up roller main body; 101-a fixed mount; 102-glue coating pool; 103-a thermally conductive plate; 104-an electrical heating rod; 2-a wire guide roller; 201-fixing rod; 202-a wire guide groove; 203-gearwheel; 204-pinion gear; 205-a rotating disc; 2051-grooves; 2052-sliding chute; 2053-scraper; 2054-sliding block; 2055-extension spring; 3-a cooling box; 301-rotating rollers; 302-a drive belt; 303-a first water deflector; 3031-a flume; 304-a second water deflector; 3041-grooving; 3042-stirring blades; 305-wire guide port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments, not all embodiments, of the present invention. 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 given herein.

As shown in figures 1 to 7: the invention provides a technical scheme, and a cable rubber coating device comprises a wire collecting roller main body 1, a wire guiding roller 2 and a cooling box 3, wherein the wire guiding roller 2 is arranged inside a rubber coating pool 102 in a matching manner, the cooling box 3 is arranged at the inner side of the wire collecting roller main body 1 in a matching manner, the wire collecting roller main body 1 further comprises a fixing frame 102, a rubber coating pool 102, a heat conducting plate 103 and an electric heating rod 104, the fixing frame 102 is arranged at the front side end face and the rear side end face of the wire collecting roller main body 1 in a matching manner, the wire guiding rollers 2 are respectively provided with the fixing frame 101 in a matching manner, the rubber coating pool 102 is arranged at the inner side of the wire collecting roller main body 1 in a matching manner, the heat conducting plate 103 is arranged at the bottom end of the inner wall of the rubber coating pool;

the wire guiding roller 2 further comprises a fixing rod 201, a wire guiding groove 202, a gearwheel 203, a pinion 204, a rotary disc 205, a groove 2051, a sliding groove 2052, a scraper 2053, a slider 2054 and a tension spring 2055, wherein the fixing rod 201 is fixedly arranged at the front side end face and the rear side end face of the wire guiding roller 2, the fixing rod 201 is also fixedly arranged on the rotary roller 301, the wire guiding groove 202 is arranged at the outer side end face of the wire guiding roller 2 in a matching manner, the gearwheel 203 is arranged at the left side inside the glue coating tank 102 in a matching manner, the gearwheel 203 is fixedly arranged at the outer side end face of the fixing rod 201, as shown in fig. 1 and 2, the pinion 204 is arranged at the left side of the gearwheel 203 in a matching manner, as shown in fig. 1 and 2, the pinion 204 is also fixedly arranged with the fixing frame 101 and the fixing rod 201, the rotary disc 205 is rotatably arranged at the left side of the top end face of the glue coating, a groove 2051 is embedded in the outer side end face of the rotating disc 205, a sliding groove 2051 is embedded in the inner wall end face of the groove 2051, a scraper 2053 is movably arranged in the groove 2051, a slider 2054 is fixedly arranged at the front side end face and the rear side end face of the scraper 2053, as shown in fig. 7, the slider 2054 is slidably arranged in the sliding groove 2052, a tension spring 2055 is fixedly arranged in the sliding groove 2052, and one end of the tension spring 2055 is fixedly connected with the outer side end face of the slider 2054;

the cooling box 3 further includes a rotating roller 301, a transmission belt 302, a first water guide plate 303, a water guide groove 3031, a second water guide plate 304, a slot 3041, a stirring blade 3042, and a wire guide port 305, wherein the rotating roller 301 is rotatably disposed at an inner end surface of the cooling box 3, as shown in an enlarged view in fig. 1, the transmission belt 302 is rotatably disposed at front end surfaces of the rotating roller 301, the first water guide plate 303, and the second water guide plate 304, as shown in an enlarged view in fig. 1, the first water guide plate 303 is rotatably disposed inside the cooling box 3, the water guide groove 3031 is embedded in an inner end surface of the first water guide plate 303, the second water guide plate 304 is rotatably disposed at an inner bottom end of the cooling box 3, and the second water guide plate 304 is disposed at a bottom of the first water guide plate 303, as shown in an enlarged view in fig. 1, the slot 3041 is penetratingly disposed at an inner end surface and an outer end surface of the second water guide plate 304, the stirring, the wire guide port 305 is penetratingly provided at the left side and the right side of the inner wall of the cooling box 3 as enlarged in fig. 1.

Wherein: receive line roller main part 1's quantity for 2 all supporting set up in the left side department and the right side department of package glue pond 102 and cooler bin 3, 2 receive line roller main part 1 department simultaneously still supporting set up gear motor to its gear motor all links to each other with external power switch and wire, through receiving line roller main part 1 and gear motor's supporting setting, can carry out package glue and winding operation to the cable that needs processing.

Wherein: the quantity of wire roller 2 is 3, all form a complete set and set up in the inside of rubber coating pond 102, as shown in the enlargements of fig. 1, and 3 wire rollers 2, the junction of rolling disc 205 and rubber coating pond 102 all forms a complete set and is provided with mount 101, dead lever 201 and pivot, through mount 1, the overall arrangement and the supporting setting of dead lever 201 and pivot, can make wire roller 2 and rolling disc 205 move, be convenient for like this carry out the rubber coating to the cable about, and can also scrape out the adhesion sizing material of wire roller 2 department, thereby avoid piling up and leading to the cable to take place to take off the condition such as groove with wire roller 2 because of the sizing material.

Wherein: the whole wire guide groove 202 is arranged in a circular shape, the inside of the wire guide groove is in a semicircular structure, the scraper 2053 is arranged in a rectangular structure, the outer side end face of the scraper 2053 is in an arc-shaped structure, the arc-shaped structure is matched with the inner structure of the wire guide groove 202, the groove 2051 is in a fan-shaped structure, the thickness of the scraper 2053 is slightly smaller than that of the groove 2051, a fixing rod 201 and a rotating shaft are also matched and arranged at the joint of the scraper 2053 and the groove 2051, through the shape and the layout of the wire guide groove 202 and the scraper 2053, one end of the scraper 2053 can extend into the wire guide groove 202 after the wire guide roller 2 moves, so that partial daub at the inner part of the wire guide groove 202 can be stably scraped, the conditions of the wire guide roller 2 such as groove separation and the like when guiding a cable of the wire guide roller are prevented, and the layout and the shape of the fixing rod 201, the rotating shaft and the groove 2051 are arranged, so that the scraper 205, therefore, the hot-melt adhesive adhered to the scraper 2053 can be impacted and vibrated conveniently, so that the neatness of the scraper 2053 is guaranteed, and the long-term use of the scraper 2053 is facilitated finally.

Wherein: the whole shape of spout 2052 is fan-shaped setting, and the inner structure of spout 2052 is rectangle-shaped setting, and slider 2054 wholly is rectangle-shaped structure setting, and this slip of slider 2054 sets up in the inside of spout 2052, and the inner wall width of spout 2052 is greater than the width of slider 2054 slightly simultaneously, through shape and overall arrangement setting between slider 2054 and spout 2052, when scraper 2053 contacts with the remaining sizing material of wire guide groove 202 department, its scraper 2053 can drive slider 2054 and slide inside spout 2052, be convenient for like this prescribe a limit to the movement track of scraper 2053, thereby avoid scraper 2053 to appear when the motion circumstances such as skew about, finally, can prevent that the circumstances such as friction from taking place for its scraper 2053 and the inner wall of wire guide groove 202.

Wherein: the roller 301, the first water guide plate 303, the junction of second water guide plate 304 and the cooling box 3 inner wall all forms a complete set and is provided with dead lever 201, pivot etc., the outside terminal surface department of its dead lever 201 still is fixed with drive gear simultaneously, and its drive gear is supporting each other with drive belt 302, through the supporting setting of dead lever 201 and pivot, can make roller 301, first water guide plate 303 and second water guide plate 304 can move in cooling box 3 inside, be convenient for cool off the cable after the rubber coating finishes like this, the cooling is handled, its drive gear and drive belt 302's setting simultaneously, can provide power for the rotation of first water guide plate 303 and second water guide plate 304 and support, thereby be convenient for its first water guide plate 303 and the use of second water guide plate 304.

Wherein: the whole first water deflector 303 is arranged in an arc-shaped structure, the number of the first water deflector 303 is 2, the first water deflector 303 is rotatably arranged at the left side and the right side of the inside of the cooling box 3, meanwhile, the end surface of the inner side of the first water deflector 303 is also provided with a water chute 3031 in a semicircular structure in an embedded manner, through the shape and the layout arrangement of the first water deflector 303 and the water chute 3031, after the first water deflector 303 rotates, cold water in the cooling box 3 can be contacted with the water chute 3031, when the cold water enters the inside of the water chute 3031, the flow direction of partial cold water can be changed, namely after the first water deflector 303 is punched in the water chute 3031 to move, partial cold water can flow upwards or downwards due to the interception of the water chute 3031, so that the water level line at the middle end of the inside of the cooling box 3 is higher than the water level lines at the two ends, the cooling effect on the cable can be improved, and simultaneously due to the effect of the water chute 3031, can introduce the inside bottom department of cooling tank 3 with the inside top of cooling tank 3 some warm water, can cool down and cooling process the warm water like this to realize the circulation of its cold water, finally, make the water of the inside top department of cooling tank 3 be in an ideal state.

Wherein: the second water deflectors 304 are integrally arranged in an arc-shaped structure, the number of the second water deflectors is 2, the second water deflectors are rotatably arranged at the left side and the right side inside the cooling box 3, meanwhile, the end surface of the inner side of the first water deflector 303 is also provided with a rectangular notch 3041 in a penetrating manner, the notch 3041 is also rotatably provided with a cross-shaped stirring blade 3042, the joint of the stirring blade 3042 and the notch 3041 is also provided with a fixed rod 201 and a rotating shaft in a matching manner, through the shape and layout arrangement of the first water deflector 304, the notch and the stirring blade 3042, when warm water is guided to the bottom end inside the cooling box 3 by the first water deflector 303, the warm water can be in contact with the stirring blade 3042 due to the rotation of the second water deflector 304, and after the warm water rotates through the stirring blade 3042, heat in the warm water can be uniformly and rapidly diffused to the periphery, so that the situation that the cooling effect of cables in a certain area is affected by the excessively high water temperature can be avoided, meanwhile, the fixing rod 201 and the rotating shaft are arranged to provide power support for the movement of the stirring blade 3042.

Wherein: the wire guide port 305 is integrally arranged in a trapezoidal structure, as shown in an enlarged view of the cooling box 3 at the position of fig. 1, the height of the wire guide port 305 is greater than the height of a water level line inside the cooling box 3, and the height of a gap space between the rollers 301 is also lower than the height of the wire guide port, so that the situation of leakage of water at the position inside the cooling box 3 and the like can be avoided through the layout arrangement between the wire guide port 305 and the rollers 301, and the cooling work of the cable can be stably carried out.

Wherein: the electric heating rod 104 is connected with an external power supply wire, and the power switch matched with the electric heating rod 104 is arranged through the external power supply wire, so that the electric heating rod 104 can be controlled to be opened and closed through the matching arrangement of the external power supply wire and the power switch, the hot melt adhesive in the rubber coating pool 102 can be conveniently heated, and finally, the rubber coating work can be conveniently carried out on the cable.

Wherein: the left side of the top end in the rubber coating tank 102 is provided with a bull gear 203 and a pinion gear 204 in a matching manner, and the outer end face of the bull gear 203 is meshed with the outer end face of the pinion gear 204, as shown in fig. 1 and fig. 2, through the meshing arrangement, when a cable slides from the guide roller 2, the fixing rod 201 and the bull gear 203 are driven to rotate, after the bull gear 203 rotates, the pinion gear 204 is driven to move in the inner direction, so that power support can be provided for the rotating disc 205, and the rotating disc 205 is convenient to drive the scraper 2053 to perform scraping operation.

The working principle is as follows:

firstly, an electric heating rod 104 is connected with an external power supply wire, a power switch matched with the electric heating rod 104 is arranged through the external power supply wire, then hot melt adhesive is poured into an encapsulation pool 103 for heating treatment, then cold water is poured into a cooling box 3, and encapsulation operation is started to be carried out on cables of the wires, after the wire guiding roller 2 is used for a long time, adhesive rubber materials at the outer side end face of the wire guiding roller 2 can be scraped left and right through the layout and matched arrangement of a wire collecting roller main body 1, the wire guiding roller 2, a fixing rod 201, a wire guiding groove 202, a large gear 203, a small gear 204, a rotating disc 205 and a scraper 2053, so that the probability of derailment of the cables and the wire guiding roller 2 can be reduced, due to the arrangement relationship among the wire guiding roller 2, the large gear 203, the small gear 204 and the rotating disc 205, after the wire collecting roller 2 drives the cables to carry out encapsulation operation, all the wire guiding rollers 2 in the encapsulation pool 102, thus, the bull gear 203 at the wire guiding roller 2 can be moved, after the bull gear 203 rotates, the pinion 204 can be driven to move, so that the rotating disc 205 and the scraper 2053 can be moved towards the inner side end face of the wire guiding roller 2, thereby cleaning the adhesive glue of the wire guiding groove 202 is completed, meanwhile, the scraper 2053 can be limited and vibrated by utilizing the layout and arrangement relationship of the rotating disc 205, the groove 2051, the sliding groove 2052, the scraper 2053, the slider 2054 and the tension spring 2055, because the scraper 2053, the slider 2054 and the sliding groove 2052 are connected, the scraper 2053 can only move at the limited track, thereby avoiding the friction and other conditions between the scraper 2053 and the inner wall of the wire guiding groove 202, and when the scraper 2053 is far away from the wire guiding groove 202, the scraper 2053 can reset and move due to the action of the tension spring 2055, thereby enabling the scraper 2053 to slightly impact the inner wall end face of the groove 1, in the process of impact, the rubber material at the scraper 2053 can be impacted and vibrated, so that the scraper 2053 can be conveniently used for a long time, finally, the cooling box 3, the rotary roller 301, the transmission belt 302, the first water guide plate 303, the water chute 3031, the second water guide plate 304, the notch 3041, the stirring blades 3042 and the wire guide port 305 are utilized to complete the cooling work of the cable without depending on external electric energy, and the cooling effect of the cable can be ensured to the maximum extent, because of the arrangement relationship of the rotary roller 301, the transmission belt 302, the first water guide plate 303, the second water guide plate 304, the water chute 3031, the stirring blades 3042 and the like, when the cable slides at the rotary roller 301, 2 rotary rollers 301 can move simultaneously, so that the transmission belt 302 can drive the first water guide plate 303 and the second water guide plate 304 to rotate, and after the first water guide plate 303 rotates, the cold water in the cooling box 3 will contact the water chute 3031, when the cold water enters the water chute 3031, the flow direction of part of the cold water will be changed, that is, when the first water deflector 303 perforates the water chute 3031 to move, part of the cold water will flow upwards or downwards due to the interception of the water chute 3031, and after the cold water moves upwards, the water line at the inner end of the cooling box 3 can be lifted, so as to improve the cooling effect of the cable thereof, similarly, when the warm water at the inner top end of the cooling box 3 can be led to the inner bottom end of the cooling box 3 due to the water chute 3031, because the second water deflector 304 is located at the inner bottom end of the cooling box 3, when the warm water is led to the inner bottom end of the cooling box 3 by the first water deflector 303, the warm water will contact the stirring blade 3042 thereof due to the rotation of the second water deflector 304, when the warm water is rotated by the stirring blade 3042, the heat in the warm water is uniformly and rapidly diffused to the surrounding, so that the situation that the cooling effect of the cable is affected due to the overhigh water temperature in a certain area can be avoided.

Finally, through this device, accomplished the cleaning work to 2 departments of wire roller sizing material to reduced the probability that cable and wire roller take place the derail, utilize its device simultaneously, can also accomplish the cooling work to the cable under the condition that does not rely on external electric power, and can also ensure the cooling effect to the cable.

Claims (9)

1. The utility model provides a cable rubber coating device, includes receives line roller main part (1), wire roller (2), cooler bin (3), wire roller (2) are supporting to be set up in the inside of rubber coating pond (102), cooler bin (3) are supporting to be set up in the inboard department of receiving line roller main part (1), its characterized in that: the wire take-up roller main body (1) further comprises a fixing frame (102), a rubber coating pool (102), a heat conducting plate (103) and an electric heating rod (104), wherein the fixing frame (102) is arranged at the front end face and the rear end face of the wire take-up roller main body (1) in a matched mode, the wire guide rollers (2) are provided with the fixing frame (101) in a matched mode, the rubber coating pool (102) is arranged at the inner side of the wire take-up roller main body (1) in a matched mode, the heat conducting plate (103) is arranged at the bottom end of the inner wall of the rubber coating pool (102) in a matched mode, and the electric heating rod (104) is fixedly arranged at the bottom end face of;

the guide roller (2) further comprises a fixing rod (201), a guide groove (202), a large gear (203), a small gear (204), a rotating disc (205), a groove (2051), a sliding groove (2052), a scraper (2053), a slider (2054) and a tension spring (2055), wherein the fixing rod (201) is fixedly arranged at the front side end face and the rear side end face of the guide roller (2), the rotating roller (301) is also fixedly provided with the fixing rod (201), the guide groove (202) is arranged at the outer side end face of the guide roller (2) in a matching manner, the large gear (203) is arranged at the left side of the interior of the rubber coating pool (102) in a matching manner, the large gear (203) is fixedly arranged at the outer side end face of the fixing rod (201), the small gear (204) is arranged at the left side of the large gear (203) in a matching manner, the small gear (204) is also fixedly provided with a fixing frame (101) and the fixing rod (201), the rotating disc (205) is rotatably, the rotating disc (205) is located at the left side of the wire guide roller (2), the groove (2051) is arranged at the outer side end face of the rotating disc (205) in an embedded mode, the sliding groove (2051) is arranged at the inner wall end face of the groove (2051) in an embedded mode, the scraper (2053) is movably arranged inside the groove (2051), the sliding block (2054) is fixedly arranged at the front side end face and the rear side end face of the scraper (2053), the sliding block (2054) is arranged inside the sliding groove (2052) in a sliding mode, the tension spring (2055) is fixedly arranged inside the sliding groove (2052), and one end of the tension spring (2055) is fixedly connected with the outer side end face of the sliding block (2054);

the cooling box (3) further comprises a rotating roller (301), a transmission belt (302), a first water guide plate (303), a water guide groove (3031), a second water guide plate (304), a slot (3041), a stirring blade (3042) and a wire guide port (305), wherein the rotating roller (301) is rotatably arranged at the inner side end face of the cooling box (3), the transmission belt (302) is rotatably arranged at the front side end faces of the rotating roller (301), the first water guide plate (303) and the second water guide plate (304), the first water guide plate (303) is rotatably arranged in the cooling box (3), the water guide groove (3031) is embedded in the inner side end face of the first water guide plate (303), the second water guide plate (304) is rotatably arranged at the inner bottom end of the cooling box (3), the second water guide plate (304) is arranged at the bottom of the first water guide plate (303), and the slot (3041) penetrates through the inner side end face and the outer side end face of the second water guide plate (304), the stirring blade (3042) is rotatably arranged at the inner end face of the slot (3041), and the wire guide port (305) is arranged at the left side and the right side of the inner wall of the cooling box (3) in a penetrating manner.

2. The cable glue-coating device of claim 1, wherein: the quantity of receiving line roller main part (1) is 2 and all sets up in left side department and right side department of package jiao chi (102) and cooler bin (3) for all supporting, 2 receive line roller main part (1) department simultaneously and still support and set up gear motor to its gear motor all links to each other with external switch and wire.

3. The cable glue-coating device of claim 1, wherein: the quantity of wire roller (2) is 3, all forms a complete set and sets up in the inside of rubber coating pond (102) to 3 wire rollers (2), rolling disc (205) all form a complete set with the junction in rubber coating pond (102) and are provided with mount (101), dead lever (201) and pivot.

4. The cable glue-coating device of claim 1, wherein: the wire guide groove (202) is integrally arranged in a circular shape, the interior of the wire guide groove is of a semicircular structure, the scraper (2053) is integrally arranged in a rectangular structure, the outer end face of the scraper is arranged in an arc-shaped structure, the arc-shaped structure is matched with the inner structure of the wire guide groove (202), the groove (2051) is arranged in a fan-shaped structure, the thickness of the scraper (2053) is slightly smaller than the interior of the groove (2051), and a fixing rod (201) and a rotating shaft are further arranged at the joint of the scraper (2053) and the groove (2051) in a matched mode.

5. The cable glue-coating device of claim 1, wherein: the overall shape of the sliding chute (2052) is a fan-shaped arrangement, the internal structure of the sliding chute (2052) is a rectangular arrangement, the slider (2054) is an overall rectangular structure, the slider (2054) is arranged inside the sliding chute (2052) in a sliding manner, and the width of the inner wall of the sliding chute (2052) is slightly larger than that of the slider (2054).

6. The cable glue-coating device of claim 1, wherein: the connecting parts of the rotating roller (301), the first water guide plate (303), the second water guide plate (304) and the inner wall of the cooling box (3) are provided with a fixing rod (201), a rotating shaft and the like in a matched mode, meanwhile, a transmission gear is fixedly arranged on the end face of the outer side of the fixing rod (201), and the transmission gear is matched with the transmission belt (302) in a matched mode.

7. The cable glue-coating device of claim 1, wherein: the whole first water guide plate (303) is arranged in an arc-shaped structure, the number of the first water guide plate is 2, the first water guide plate and the second water guide plate are rotatably arranged at the left side and the right side of the inside of the cooling box (3), and meanwhile, a water guide groove (3031) in a semicircular structure is embedded in the end face of the inner side of the first water guide plate (303).

8. The cable glue-coating device of claim 1, wherein: the whole second water guide plate (304) is arranged in an arc-shaped structure, the number of the second water guide plate is 2, the second water guide plate is rotatably arranged at the left side and the right side of the inside of the cooling box (3), meanwhile, a rectangular groove (3041) is further formed in the end face of the inner side of the first water guide plate (303) in a penetrating mode, a cross-shaped stirring blade (3042) is further rotatably arranged inside the groove (3041), and a fixing rod (201) and a rotating shaft are also arranged at the connecting position of the stirring blade (3042) and the groove (3041) in a matching mode.

9. The cable glue-coating device of claim 1, wherein: the wire guide port (305) is integrally arranged in a ladder-shaped structure, the height of the wire guide port (305) is greater than the height of the water level line in the cooling box (3), and the height of a gap space between the rotating rollers (301) is also lower than the height of the wire guide port.

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