CN118116670B - Ceramic flexible fire-resistant cable processing equipment - Google Patents

Abstract

The invention discloses ceramic flexible fireproof cable processing equipment, and relates to the technical field of ceramic cable processing. Including bottom plate, water-cooling mechanism, unloading mechanism, rabbling mechanism and wiping mechanism, water-cooling mechanism and wiping mechanism are equal fixed mounting at the upper surface of bottom plate, and wiping mechanism is located the right side of water-cooling mechanism, unloading mechanism fixed mounting is in the top of water-cooling mechanism, the rabbling mechanism sets up in the inside of water-cooling mechanism, when the cable passes from the water-cooling mechanism, can reduce its surface temperature, and unloading mechanism can make the temperature in the water-cooling mechanism remain in low temperature state throughout, avoid long-time work to lead to the water temperature in the water-cooling mechanism to rise, thereby reduce the cooling effect of cable, and can accelerate the flow velocity of water in the water-cooling mechanism through the rabbling mechanism, make the temperature keep even, and the cable after the cooling is accomplished will be wiped the water droplet on surface by wiping mechanism, make the cable can quick drying.

Description

Ceramic flexible fire-resistant cable processing equipment

Technical Field

The invention belongs to the technical field of ceramic cable processing, and particularly relates to ceramic flexible fireproof cable processing equipment.

Background

Ceramic flexible fire resistant cables are typically referred to as ceramic materials used in cables to enhance their fire resistance and insulation properties, and such cables are typically used in applications where high temperature and fire conditions are required, such as building interiors, tunnels, and other environments where fire safety is a concern.

When the ceramic flexible fireproof cable is manufactured, a layer of sheath is coated on the surface of a conductor of the cable by using an extruder, the surface temperature of the sheath after coating is higher, the sheath is required to be cooled to be reinforced and molded, the cable is usually penetrated through circulating water flow, the cable is subjected to water cooling operation, the length of the cable is generally longer, the cable is required to continuously penetrate through the water, the temperature of the water flow is gradually increased, the cooling effect on the cable is reduced, the cable after cooling is required to be air-dried and then to be wound, and the air-drying efficiency of the cable can be affected due to more water on the surface of the cable after water cooling.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides ceramic flexible fireproof cable processing equipment which is used for overcoming the problems in the prior art and comprises a bottom plate, a water cooling mechanism, a blanking mechanism, a stirring mechanism and a wiping mechanism, wherein the water cooling mechanism and the wiping mechanism are fixedly arranged on the upper surface of the bottom plate, the wiping mechanism is positioned on the right side of the water cooling mechanism, the blanking mechanism is fixedly arranged above the water cooling mechanism, and the stirring mechanism is arranged in the water cooling mechanism.

The wiping mechanism comprises a second 匚 plate with an upward opening, the opposite faces of the two side walls of the second 匚 plate are fixedly connected with connecting seats, the other ends of the connecting seats are hinged with V-shaped rods, one faces of the two ends of the V-shaped rods, which are far away from the side walls of the second 匚 plate, are provided with first sliding grooves, the inner walls of the two first sliding grooves of the V-shaped rods are slidably connected with first hinging seats, the first hinging seats are hinged with connecting rods, the upper end and the lower end of the connecting rods are hinged with rectangular plates, water absorbing cotton is fixedly connected between the rectangular plates, the second sliding grooves are formed in one sides of the two rectangular plates, which are far away from the water absorbing cotton, of the two rectangular plates, the second sliding grooves are slidably connected with second hinging seats, the second hinging seats are hinged with first fixing rods, and the other ends of the first fixing rods are fixedly connected with the side walls of the second 匚 plates.

The right sides of two V-arrangement poles all are provided with the second dead lever, the one end of second dead lever and the lateral wall fixed connection of second 匚's shaped plate, the other end fixedly connected with arc of second dead lever, the inner wall of arc also is provided with absorbent cotton.

Further, both sides all are provided with the second cylinder around the second 匚 shaped plate, and the second cylinder passes through the lateral wall of second 匚 shaped plate of second connecting plate fixed mounting, the third spout has all been seted up to the surface of two lateral walls of second 匚 shaped plate, and the equal sliding connection of inner wall of two third spouts has the wedge, the flexible end and the surface fixed connection of wedge of second cylinder, the left end fixedly connected with spring of V-arrangement pole, the other end of spring and the lateral wall fixed connection of second 匚 shaped plate, two lateral walls of second 匚 shaped plate all slide and run through there is the ejector pin, the one end of ejector pin is contradicted with the inclined plane slip of corresponding wedge, the other end of ejector pin is contradicted with the right-hand member surface slip of V-arrangement pole.

Further, two support frames around the bottom of second 匚 shaped plate is provided with, the support frame comprises a horizon bar and with the vertical pole of horizon bar both ends integrated into one piece, the bottom of support frame and the last fixed surface of bottom plate are connected, and the fourth spout has been seted up at the top of support frame, the kidney slot has been seted up to the bottom of second 匚 shaped plate with the fourth spout inner wall sliding connection of two support frames respectively to both sides around the bottom of second 匚 shaped plate, and the front and back inner wall of kidney slot all is provided with tooth, the upper surface of bottom plate has the second motor through mount pad fixed mounting, the output shaft fixedly connected with incomplete gear of second motor, incomplete gear is located the kidney slot of second 匚 shaped plate, and the tooth of incomplete gear meshes with the tooth of kidney slot.

Further, the water cooling mechanism includes the L shape basin that the level was placed, two landing legs around the right side fixedly connected with of basin bottom, the vertical section bottom of basin and the bottom of two landing legs are common with the last fixed surface of bottom plate be connected, and the surface of the vertical section of basin passes through water pump fixedly connected with water pipe, the other end fixedly connected with back flow of water pipe, and the delivery port of back flow is located the top of basin, the inside of basin is provided with a plurality of leading wheels, and the leading wheel passes through the front and back inner wall swivelling joint of pivot and basin, the equal fixedly connected with mount in top of lateral wall around the basin, the front and back both sides the mount respectively with the front and back both ends fixed connection of unloading mechanism.

Further, unloading mechanism includes the 匚 shape frame that the opening set up towards left, the common sliding connection in both ends has the slide around 匚 shape frame, the blanking hole has been seted up in the left side of slide upper surface, and the blanking hole bottom fixedly connected with unloading section of thick bamboo of slide, the fixed surface on unloading section of thick bamboo right side is connected with first connecting plate, and the bottom of unloading section of thick bamboo is provided with the shrouding, the surface of shrouding is articulated with the surface of first connecting plate, the bottom fixedly connected with first cylinder of 匚 shape frame right-hand member, the flexible end and the surface fixed connection of first connecting plate of first cylinder, 匚 shape frame's bottom is provided with the first 匚 shaped plate that the opening is up, the bottom and the upper surface sliding laminating of first 匚 shaped plate horizontal part of shrouding, the top at both ends is around first 匚 shaped plate respectively with 匚 shape frame's front and back both ends fixed connection.

Further, the top of slide is provided with the insulation can, the ice-cube is equipped with to the inside of insulation can, the top of insulation can articulates there is the apron, the bottom fixedly connected with feed opening of insulation can, the bottom of feed opening and the laminating of upper surface slip of slide, 匚 shape frame and the front and back surface of insulation can respectively with two sets of mount fixed connection around the basin top.

Further, rabbling mechanism includes the hollow tube, the surface of hollow tube is equipped with the lantern ring through the bearing rotation cover, the equal fixedly connected with fixed plate in front and back both ends of lantern ring, two the other end of fixed plate respectively with the front and back inner wall fixed connection of basin, the fixed cover in circumference of hollow tube left end is equipped with the worm wheel for the circumference fixedly connected with blade that a plurality of circumference arrays set up, the lateral wall of hollow tube right-hand member, the lateral wall of basin has first motor through mount pad fixed mounting, the output shaft rotation of first motor runs through the lateral wall of basin and fixedly connected with worm, the spiral surface and the surface engagement of worm wheel of worm.

The invention has the following beneficial effects: 1. according to the invention, through the arrangement of the wiping mechanism, the moisture on the surface of the cable can be wiped off, so that the time for surface air drying of the cable after water cooling can be shortened, the processing efficiency of the cable is effectively accelerated, and the water-absorbing cotton on the left side and the right side can work alternately, so that the continuous wiping effect on the cable can be realized.

2. According to the invention, through the cooperation of the incomplete gear in the test mechanism and the teeth at the bottom of the second 匚 plate, the rectangular plate can drive the absorbent cotton to reciprocate left and right, so that the action during manual wiping is simulated, and the moisture on the surface of the cable can be thoroughly wiped.

3. According to the invention, through the arrangement of the blanking mechanism, ice cubes can be thrown into the water tank when the water temperature rises, so that the water temperature is reduced, and the water flow speed can be increased through the stirring mechanism, so that the water temperature fusion speed is increased, the water temperature in the water tank is uniform, and the cooling cost can be effectively reduced through the ice cube cooling method.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the invention, the drawings that are needed for the description of the embodiments will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic diagram of a water cooling mechanism according to the present invention.

FIG. 3 is a schematic structural view of the stirring mechanism of the present invention.

Fig. 4 is a schematic structural view of the blanking mechanism of the present invention.

Fig. 5 is a schematic view of a first view of the wiping mechanism of the invention.

Fig. 6 is a schematic view of a wiping mechanism according to a second aspect of the present invention.

Fig. 7 is an enlarged schematic view of fig. 6a in accordance with the present invention.

Fig. 8 is a schematic structural view of the support frame, the incomplete gear and the second 匚 plate according to the present invention.

In the drawings, the list of components represented by the various numbers is as follows: 1. a bottom plate; 2. a water cooling mechanism; 21. a water tank; 22. a support leg; 23. a water pipe; 24. a water pump; 25. a return pipe; 26. a guide wheel; 27. a fixing frame; 3. a blanking mechanism; 301. 匚 -shaped frames; 302. a slide plate; 303. a blanking cylinder; 304. a first connection plate; 305. a sealing plate; 306. a first cylinder; 307. a first 匚 panel; 308. an insulation box; 309. a cover plate; 310. a feed opening; 4. a stirring mechanism; 41. a hollow tube; 42. a collar; 43. a fixing plate; 44. a blade; 45. a worm wheel; 46. a first motor; 47. a worm; 5. a wiping mechanism; 501. a second 匚 panel; 502. a second cylinder; 503. a second connecting plate; 504. wedge blocks; 505. a push rod; 506. a connecting seat; 507. a V-shaped rod; 508. a spring; 509. a first hinge base; 510. a connecting rod; 511. a rectangular plate; 512. a water-absorbing cotton; 513. the second hinge seat; 514. a first fixing rod; 515. a second fixing rod; 516. an arc-shaped plate; 517. a support frame; 518. a second motor; 519. an incomplete gear; 6. and (3) a cable.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, based on the embodiments in the invention, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the invention.

Referring to fig. 1, the invention relates to a ceramic flexible fireproof cable processing device, which comprises a bottom plate 1, a water cooling mechanism 2, a blanking mechanism 3, a stirring mechanism 4 and a wiping mechanism 5, wherein the water cooling mechanism 2 and the wiping mechanism 5 are fixedly arranged on the upper surface of the bottom plate 1, the wiping mechanism 5 is positioned on the right side of the water cooling mechanism 2, the blanking mechanism 3 is fixedly arranged above the water cooling mechanism 2, the stirring mechanism 4 is arranged in the water cooling mechanism 2, when a cable 6 passes through the water cooling mechanism 2, the surface temperature of the cable 6 can be reduced, the blanking mechanism 3 can keep the water temperature in the water cooling mechanism 2 in a low-temperature state all the time, the water temperature in the water cooling mechanism 2 is prevented from rising due to long-time work, the cooling effect of the cable 6 is reduced, the flow speed of water in the water cooling mechanism 2 can be quickened through the stirring mechanism 4, the water temperature is kept uniform, and the cooled cable 6 can be quickly dried by water drops on the surface of the wiping mechanism 5, so that the cable 6 can be convenient for subsequent winding operation.

Referring to fig. 1 and 2, the water cooling mechanism 2 comprises an L-shaped water tank 21 which is horizontally placed, a round hole is formed at the left end of the water tank 21, two front and rear supporting legs 22 are fixedly connected to the right side of the bottom of the water tank 21, the bottoms of the vertical sections of the water tank 21 and the bottoms of the two supporting legs 22 are fixedly connected with the upper surface of the bottom plate 1 together, the outer surface of the vertical section of the water tank 21 is fixedly connected with a water pipe 23 through a water pump 24, the other end of the water pipe 23 is fixedly connected with a return pipe 25, a water outlet of the return pipe 25 is located above the water tank 21, a plurality of guide wheels 26 are arranged in the water tank 21, the guide wheels 26 are rotatably connected with the front and rear inner walls of the water tank 21 through rotating shafts, fixing frames 27 are fixedly connected to the top of the front and rear side walls of the water tank 21, the fixing frames 27 are fixedly connected with the front and rear ends of the discharging mechanism 3 respectively, the cable 6 penetrates through the round hole at the left end of the water tank 21, then the cable 6 is led out from the right end of the water tank 21 through the plurality of the guide wheels 26, water in the water tank 21 flows into the vertical section of the water tank 21 from the right to the left end through the water pump 24, water in the water pump 24 is pumped into the water pipe 23 through the water pump 24, and then the water is circulated above the water tank 21.

Referring to fig. 4, the blanking mechanism 3 includes a 匚 -shaped frame 301 with an opening facing left, two front and rear ends of the 匚 -shaped frame 301 are slidably connected with a slide plate 302, a blanking hole is formed in the left side of the upper surface of the slide plate 302, the bottom of the blanking hole of the slide plate 302 is fixedly connected with a blanking cylinder 303, a first connecting plate 304 is fixedly connected to the surface of the right side of the blanking cylinder 303, a sealing plate 305 is arranged at the bottom of the blanking cylinder 303, the outer surface of the sealing plate 305 is hinged to the outer surface of the first connecting plate 304, a first cylinder 306 is fixedly connected to the bottom of the right end of the 匚 -shaped frame 301, a telescopic end of the first cylinder 306 is fixedly connected to the outer surface of the first connecting plate 304, a first 匚 plate 307 with an upward opening is arranged at the bottom of the 匚 -shaped frame 301, the top of the first sealing plate 307 is fixedly connected to the upper surface of the horizontal part of the first 匚 plate 307, the tops of the front and rear ends of the first plate 307 are respectively fixedly connected to the front and rear ends of the 匚 -shaped frame 301, the blanking cylinder 303 is pushed by the first cylinder 306 to move left, the blanking cylinder 303 is pushed by the first cylinder 306 from the bottom of the first 匚, the blanking cylinder 305 is moved out of the first cylinder 306, the bottom of the blanking cylinder 305 is pushed by the blanking cylinder 306, the first cylinder 306 is pulled out of the cylinder 307, the first cylinder 305 is pulled out of the cylinder 307, and the blanking cylinder 305 is pulled down by the cylinder 307 to the lower cylinder 307 is in a state, and the blanking cylinder 303 is in front of the blanking cylinder 307 is in front of the cylinder 303, and the blanking cylinder 307 is in front, and the cylinder is in front, and a cylinder is matched state, and a cylinder is in front, and a cylinder is matched with a cylinder 303 is in front is a cylinder 303 and a cylinder is has.

Referring to fig. 4, an insulation box 308 is disposed above the sliding plate 302, ice cubes are mounted in the insulation box 308, the insulation box 308 is used for storing the ice cubes, a cover plate 309 is hinged to the top of the insulation box 308, a blanking opening 310 is fixedly connected to the bottom of the insulation box 308, the bottom of the blanking opening 310 is in sliding fit with the upper surface of the sliding plate 302, initially, the blanking opening 310 is aligned with the blanking hole 310 of the sliding plate 302, the front surface and the rear surface of the 匚 -shaped frame 301 and the front surface and the rear surface of the insulation box 308 are respectively fixedly connected with the front fixing frame 27 and the rear fixing frame 27 on the top of the water tank 21, after the ice cubes are placed in the insulation box 308, the ice cubes fall into the blanking barrel 303 through the blanking opening 310, the blanking barrel 303 can be pushed by the first air cylinder 306 at intervals, the ice cubes in the blanking barrel 303 fall into the water tank 21, the blanking opening 302 moves along with the blanking barrel 303, the blanking hole in the sliding plate 302 is removed from the bottom of the blanking opening 310, the blanking opening 310 is plugged by the right side of the sliding plate 302, after the ice cubes in the blanking barrel 303 fall into the blanking barrel 303, and the blanking barrel 302 is aligned with the blanking opening 303 again.

Referring to fig. 3, the stirring mechanism 4 includes a hollow tube 41, the cable 6 passes through the hollow tube 41, the outer surface of the hollow tube 41 is provided with a collar 42 through a bearing rotating sleeve, the front end and the rear end of the collar 42 are fixedly connected with fixing plates 43, the other ends of the two fixing plates 43 are respectively fixedly connected with the front inner wall and the rear inner wall of the water tank 21, the circumferential surface of the left end of the hollow tube 41 is fixedly connected with a plurality of blades 44 arranged in a circumferential array, the circumferential surface of the right end of the hollow tube 41 is fixedly sleeved with a worm wheel 45, the side wall of the water tank 21 is fixedly provided with a first motor 46 through a mounting seat, the output shaft of the first motor 46 rotates to penetrate through the side wall of the water tank 21 and is fixedly connected with a worm 47, the spiral surface of the worm 47 is meshed with the surface of the worm wheel 45, the worm 47 is driven to rotate through the first motor 46, then the worm 47 is driven by the worm wheel 45, the hollow tube 41 is rotated, and meanwhile, the blades 44 are rotated, so that the water flow in the water tank 21 is quickened, after the ice blocks fall into the water tank 21 through the feeding mechanism 3, the water flow quickly, the water flow in the water tank 21 is mixed as soon as possible, the water temperature in the water tank 21 is not evenly, and the water temperature is not even, and the cooling effect due to the problem of the cooling effect caused by the cable 6 is avoided.

Referring to fig. 5, 6 and 7, the wiping mechanism 5 includes a second 匚 plate 501 with an upward opening, opposite sides of two side walls of the second 匚 plate 501 are fixedly connected with a connecting seat 506, the other end of the connecting seat 506 is hinged with a V-shaped rod 507, one side of two ends of the V-shaped rod 507 far away from the side wall of the second 匚 plate 501 is provided with a first sliding groove, inner walls of the two first sliding grooves of the V-shaped rod 507 are slidably connected with a first hinging seat 509, the first hinging seat 509 is hinged with a connecting rod 510, upper and lower ends of the connecting rod 510 are hinged with rectangular plates 511, absorbent cotton 512 is fixedly connected between the two rectangular plates 511, one sides of the two rectangular plates 511 far away from the absorbent cotton 512 are provided with second sliding grooves, the inner walls of the second sliding grooves of the rectangular plates 511 are slidably connected with second hinging seats 513, the second hinging seats 513 are hinged with a first fixing rod 514, the other ends of the first fixing rod 514 are fixedly connected with the side wall of the second 匚 plate 501, the right sides of the two V-shaped rods 507 are respectively provided with a second fixed rod 515, one end of the second fixed rod 515 is fixedly connected with the side wall of the second 匚 plate 501, the other end of the second fixed rod 515 is fixedly connected with an arc plate 516, the inner wall of the arc plate 516 is also provided with absorbent cotton 512, when the cable 6 is led out from the right end of the water tank 21, the V-shaped rods 507 positioned at the front side and the rear side are positioned between the V-shaped rods 507, when the left ends of the two V-shaped rods 507 are simultaneously close to the cable 6, the corresponding absorbent cotton 512 contacts the cable 6, so that water drops on the surface of the cable 6 are erased, at the moment, the other end of the V-shaped rod 507 can turn over towards the side wall of the second 匚 plate 501, and through the limiting effect of the corresponding first fixed rod 514, the right end of the V-shaped rod 507 can be mutually close to the two rectangular plates 511, thereby extruding water in the absorbent cotton 512, and the V-shaped rods 507 can be turned back and forth, the rectangular plates 511 on the left and right sides can drive the absorbent cotton 512 to alternately contact the cable 6, and the squeezing operation is alternately performed, so that a continuous wiping effect on the cable 6 can be realized, and the absorbent cotton 512 in the arc plate 516 wipes a small amount of parts which are missed to be wiped due to the alternate operation of the two absorbent cotton 512 on the left and right sides.

Referring to fig. 5 and 6, the front and rear sides of the second 匚 plate 501 are respectively provided with a second cylinder 502, the second cylinders 502 are fixedly installed on the side walls of the second 匚 plate 501 through a second connecting plate 503, the outer surfaces of the two side walls of the second 匚 plate 501 are respectively provided with a third sliding groove, the inner walls of the two third sliding grooves are respectively and slidably connected with a wedge block 504, the telescopic end of the second cylinders 502 is fixedly connected with the outer surfaces of the wedge blocks 504, the left end of each V-shaped rod 507 is fixedly connected with a spring 508, the other end of each spring 508 is fixedly connected with the side wall of the second 匚 plate 501, two side walls of the second 匚 plate 501 are respectively and slidably penetrated by a push rod 505, one end of each push rod 505 is slidably abutted against the corresponding inclined surface of each wedge block 504, the other end of each push rod 505 is slidably abutted against the right end surface of each V-shaped rod 507, and the left end of each spring 508 can be always pushed by each V-shaped rod 507, so that when water in the left water in each absorbent cotton 512 is excessively contained in each left absorbent cotton 512, the left absorbent cotton 512 can be pushed by the second cylinders 504, the wedge blocks 502 are pushed by the second cylinders to push the wedge blocks 502, and the push the wedge blocks 505 to push the corresponding wedge blocks 505 to the right end of each other to push the right side of the corresponding V-shaped rods 512, and the right side rods to push the corresponding V-shaped rods 511 to the right rods, and the V-shaped rods are more tightly pushed by the corresponding rods 512, and the right rods are pushed by the push rods and push the push rods, and the corresponding rods, and the V rods, and the push rods, and the compression rods, and are deformed.

Referring to fig. 8, the bottom of the second 匚 plate 501 is provided with front and rear two supporting frames 517, the supporting frames 517 are formed by a horizontal rod and vertical rods integrally formed with two ends of the horizontal rod, the bottom of the supporting frames 517 is fixedly connected with the upper surface of the bottom plate 1, the top of the supporting frames 517 is provided with a fourth sliding groove, the front and rear sides of the bottom of the second 匚 plate 501 are respectively and slidably connected with the inner walls of the fourth sliding grooves of the two supporting frames 517, the bottom of the second 匚 plate 501 is provided with a kidney-shaped groove, the front and rear inner walls of the kidney-shaped groove are respectively provided with teeth, the upper surface of the bottom plate 1 is fixedly provided with a second motor 518 through a mounting seat, an output shaft of the second motor 518 is fixedly connected with an incomplete gear 519, the incomplete gear 519 is positioned in a kidney-shaped groove of the second 匚 plate 501, and after the incomplete gear 519 is driven by the second motor 518 to rotate, the teeth of the incomplete gear 519 are alternately meshed with the teeth of the front and rear inner walls of the kidney-shaped groove, the second 匚 plate can reciprocate on the top of the supporting frames 517, and simultaneously reciprocate the left and right sides of the V-shaped plate 507, and the water can absorb water of the rectangular plate 512, and the water can reciprocate, and the water can absorb and the water from the cable 512 to the water to the left and the water.

When the electric cable 6 is in operation, the electric cable 6 passes through the round hole at the left end of the water tank 21, then the electric cable 6 is led out from the right end of the water tank 21 through the guide wheels 26, water in the water tank 21 is circularly used through the water pump 24, when the water temperature in the water tank 21 rises due to long-time operation, the first air cylinder 306 can push the discharging cylinder 303, ice cubes in the discharging cylinder 303 fall into the water tank 21, the water temperature is lowered through the ice cubes, the hollow tube 41 is driven to rotate through the first motor 46, the blades 44 are enabled to rotate, so that the water flow in the water tank 21 is accelerated, the water temperature can be fused evenly more quickly, the cooled electric cable 6 passes through the two water absorbing cotton 512 at the left side, the water on the surface of the electric cable 6 is erased through the water absorbing cotton 512, the left water absorbing cotton 512 and the right water absorbing cotton 512 can alternately work, the second air cylinder 518 can drive the second air cylinder 匚 to reciprocate left and right when the second air cylinder 518 is driven to rotate, the water absorbing cotton 512 can reciprocate left and right, and the water absorbing cotton 512 can be further reciprocated left and the electric cable 6 can be wiped by the winding device.

In the description of the present invention, it should be understood that the terms "open," "upper," "lower," "top," "middle," "inner," and the like indicate an orientation or positional relationship, merely for convenience of description and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

The above disclosed preferred embodiments of the invention are merely intended to help illustrate the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (6)

1. The utility model provides a pottery flexible fire-resistant cable processing equipment, includes bottom plate (1), water-cooling mechanism (2), unloading mechanism (3), rabbling mechanism (4) and wiping mechanism (5), its characterized in that: the water cooling mechanism (2) and the wiping mechanism (5) are fixedly arranged on the upper surface of the bottom plate (1), the wiping mechanism (5) is positioned on the right side of the water cooling mechanism (2), the blanking mechanism (3) is fixedly arranged above the water cooling mechanism (2), and the stirring mechanism (4) is arranged in the water cooling mechanism (2);

The wiping mechanism (5) comprises a second 匚 plate (501) with an upward opening, the opposite surfaces of two side walls of the second 匚 plate (501) are fixedly connected with connecting seats (506), the other ends of the connecting seats (506) are hinged with V-shaped rods (507), one surfaces of the two ends of the V-shaped rods (507) away from the side walls of the second 匚 plate (501) are provided with first sliding grooves, the inner walls of the two first sliding grooves of the V-shaped rods (507) are slidably connected with first hinging seats (509), the first hinging seats (509) are hinged with connecting rods (510), the upper ends and the lower ends of the connecting rods (510) are hinged with rectangular plates (511), water absorbing cotton (512) is fixedly connected between the two rectangular plates (511), one sides of the two rectangular plates (511) away from the water absorbing cotton (512) are provided with second sliding grooves, the inner walls of the second sliding grooves of the rectangular plates (511) are slidably connected with second hinging seats (513), the second hinging seats (513) are hinged with first fixing rods (514), and the other ends of the first hinging rods (514) are fixedly connected with the side walls of the second fixing plates (匚);

The right sides of the two V-shaped rods (507) are respectively provided with a second fixed rod (515), one end of each second fixed rod (515) is fixedly connected with the side wall of a second 匚 plate (501), the other end of each second fixed rod (515) is fixedly connected with an arc plate (516), and the inner wall of each arc plate (516) is also provided with absorbent cotton (512);

The bottom of the second 匚 plate (501) is provided with a front support frame and a rear support frame (517), the support frame (517) is composed of a horizontal rod and vertical rods integrally formed with two ends of the horizontal rod, the bottom of the support frame (517) is fixedly connected with the upper surface of the bottom plate (1), the top of the support frame (517) is provided with a fourth sliding groove, the front side and the rear side of the bottom of the second 匚 plate (501) are respectively in sliding connection with the inner walls of the fourth sliding grooves of the two support frames (517), the bottom of the second 匚 plate (501) is provided with a kidney-shaped groove, the front inner wall and the rear inner wall of the kidney-shaped groove are respectively provided with teeth, the upper surface of the bottom plate (1) is fixedly provided with a second motor (518) through an installation seat, the output shaft of the second motor (518) is fixedly connected with an incomplete gear (519), the incomplete gear (519) is positioned in the kidney-shaped groove of the second 匚 plate (501), and the teeth of the incomplete gear (519) are meshed with the teeth of the kidney-shaped groove;

the water cooling mechanism (2) comprises an L-shaped water tank (21) which is horizontally arranged;

Through the setting of unloading mechanism (3), can throw into ice-cube in basin (21) when the temperature risees to reduce the temperature, and can accelerate the speed of rivers through rabbling mechanism (4), thereby accelerate the integration speed of temperature, make the temperature in basin (21) even.

2. A ceramic flexible fire resistant cable processing apparatus as claimed in claim 1 wherein: the utility model discloses a V-arrangement pole, including first 匚 shaped plate (501), second cylinder (502) are all provided with around second 匚 shaped plate (501), and second cylinder (502) pass through the lateral wall of second 匚 shaped plate (501) of second connecting plate (503) fixed mounting, the third spout has all been seted up to the surface of two lateral walls of second 匚 shaped plate (501), and the equal sliding connection of inner wall of two third spouts has wedge (504), the flexible end of second cylinder (502) and the surface fixed connection of wedge (504), the left end fixedly connected with spring (508) of V-arrangement pole (507), the other end of spring (508) and the lateral wall fixed connection of second 匚 shaped plate (501), two lateral walls of second 匚 shaped plate (501) all slide and run through ejector pin (505), the one end of ejector pin (505) is contradicted with the inclined plane slip of corresponding wedge (504), the other end of ejector pin (505) is contradicted with the right-hand member surface slip of V-shaped pole (507).

3. A ceramic flexible fire resistant cable processing apparatus as claimed in claim 1 wherein: two landing legs (22) around the right side fixedly connected with of basin (21) bottom, the top fixed surface of bottom plate (1) is connected with jointly in the vertical section bottom of basin (21) and the bottom of two landing legs (22), and the surface of the vertical section of basin (21) passes through water pump (24) fixedly connected with water pipe (23), the other end fixedly connected with back flow (25) of water pipe (23), and the delivery port of back flow (25) is located the top of basin (21), the inside of basin (21) is provided with a plurality of leading wheels (26), and leading wheel (26) are connected with the front and back inner wall rotation of basin (21) through the pivot, the top of the lateral wall all fixedly connected with mount (27) around basin (21), both sides mount (27) respectively with the front and back both ends fixed connection of unloading mechanism (3).

4. A ceramic flexible fire resistant cable processing apparatus as claimed in claim 3 wherein: the blanking mechanism (3) comprises a 匚 -shaped frame (301) with an opening arranged leftwards, the front end and the rear end of the 匚 -shaped frame (301) are connected with a sliding plate (302) in a sliding mode, blanking holes are formed in the left side of the upper surface of the sliding plate (302), a blanking barrel (303) is fixedly connected to the bottom of the blanking holes of the sliding plate (302), a first connecting plate (304) is fixedly connected to the surface of the right side of the blanking barrel (303), a sealing plate (305) is arranged at the bottom of the blanking barrel (303), the outer surface of the sealing plate (305) is hinged to the outer surface of the first connecting plate (304), a first air cylinder (306) is fixedly connected to the bottom of the right end of the 匚 -shaped frame (301), the telescopic end of the first air cylinder (306) is fixedly connected with the outer surface of the first connecting plate (304), the bottom of the 匚 -shaped frame (301) is provided with a first 匚 -shaped plate (307) with an opening upwards, the bottom of the sealing plate (305) is in a sliding mode attached to the upper surface of the horizontal portion of the first 匚 -shaped plate (307), and the two ends of the first 匚 (307) are respectively connected with the front end and the rear end of the front end of the first connecting plate (301).

5. A ceramic flexible fire resistant cable processing apparatus as defined in claim 4 wherein: the top of slide (302) is provided with insulation can (308), the ice-cube is equipped with to the inside of insulation can (308), the top of insulation can (308) articulates there is apron (309), the bottom fixedly connected with feed opening (310) of insulation can (308), the bottom of feed opening (310) is laminated with the upper surface of slide (302) in a sliding way, 匚 shape frame (301) and two sets of mounts (27) fixed connection around basin (21) top, the front and back surface of insulation can (308) and two sets of mounts (27) fixed connection around basin (21) top.

6. A ceramic flexible fire resistant cable processing apparatus as claimed in claim 1 wherein: the stirring mechanism (4) comprises a hollow tube (41), a sleeve ring (42) is arranged on the outer surface of the hollow tube (41) through a bearing rotating sleeve, fixing plates (43) are fixedly connected to the front end and the rear end of the sleeve ring (42), the two fixing plates (43) are fixedly connected to the front inner wall and the rear inner wall of a water tank (21) respectively, blades (44) are fixedly connected to the circumferential surface of the left end of the hollow tube (41) and are arranged in a plurality of circumferential arrays, worm gears (45) are fixedly sleeved on the circumferential surface of the right end of the hollow tube (41), a first motor (46) is fixedly installed on the side wall of the water tank (21) through a mounting seat, an output shaft of the first motor (46) rotates to penetrate through the side wall of the water tank (21) and is fixedly connected with a worm (47), and the spiral surface of the worm (47) is meshed with the surface of the worm gears (45).