CN112844914A - Cable silica gel coating mechanism - Google Patents

Abstract

The invention relates to the technical field of cable processing, in particular to a cable silica gel coating mechanism, which solves the problems that the silica gel coating efficiency of the existing cable is low and the coating uniformity cannot be ensured; the rotary motor is connected with the first rotary shell, two first feeding doors are hinged on the first rotary shell, a second rotary shell is arranged in the first rotary shell, an installation device and a winding device are arranged in the second rotary shell, and a spraying device is arranged above the second rotary shell; through being provided with installation device, installation device can install two sets of cables, and at the same time, can carry out the silica gel coating with two sets of cables for coating efficiency, and winding device and installation device's cooperation, when the cable leaves installation device and has not yet entered into in the winding device, spray set sprays the silica gel liquid.

Description

Cable silica gel coating mechanism

Technical Field

The invention relates to the technical field of cable processing, in particular to a cable silica gel coating mechanism.

Background

The special cable is a cable which has special purposes and can be used in special occasions, such as high temperature resistance, acid and alkali resistance and termite resistance, and a wire cable used in occasions such as a ship, an airplane, a nuclear power station and the like, is mainly applied to the fields of energy development, steel, aerospace, oil exploitation, metal smelting and the like, and in order to meet the performance requirements of the special cable, various coatings are coated on the surface of the special cable to improve the performance of the special cable.

But the silica gel coating efficiency of the existing cable is low, and the uniformity of coating cannot be ensured.

Disclosure of Invention

The invention relates to the technical field of cable processing, in particular to a cable silica gel coating mechanism which is provided with a mounting device, wherein the mounting device can mount two groups of cables, the two groups of cables can be coated with silica gel at the same time, the coating efficiency is accelerated, and a spraying device is matched with the mounting device, so that when the cables leave the mounting device and do not enter the winding device, the spraying device sprays silica gel liquid, and in the spraying process, the silica gel liquid on the cables can be uniformly sprayed through centrifugal force, and a rotating motor rotates a first rotating shell, so that the silica gel liquid on the cables can be uniformly coated.

In order to solve the technical problems, the invention relates to the technical field of cable processing, in particular to a cable silica gel coating mechanism which comprises a rotary motor, an installation block, a first rotary shell, a first feeding door, a second rotary shell, a second feeding door, a clamping block, an installation device, a winding device and a spraying device, wherein the installation block is arranged on the first rotary shell; the bottom and the installation piece fixed connection of rotating electrical machines, the rotating electrical machines links to each other with first rotating shell, it has two first feed gates to articulate on the first rotating shell, be provided with the rotatory casing of second in the first rotating shell, processing has a plurality of groups through-hole on the rotatory casing of second, it has two second feed gates to articulate on the rotatory casing of second, and every group second feed gate contacts with the fixture block, be provided with installation device and winding device in the rotatory casing of second, the top of the rotatory casing of second is provided with spray set.

As a further optimization of the technical scheme, the cable silica gel coating mechanism comprises a mounting device, a motor, a first mounting shaft, a first mounting cam, a first mounting gear, a second mounting shaft, a second mounting gear, a first mounting belt wheel, a third mounting shaft, a triangular transmission wheel, a limiting block, a mounting wheel, a fourth mounting shaft, a main transmission rod, a secondary transmission wheel, a fifth mounting shaft, a second mounting belt wheel, a third mounting belt wheel and a mounting connecting belt; the mounting motor is connected with a first mounting shaft through a coupler, the first mounting shaft is provided with a first mounting cam, the first mounting cam can be meshed with a first mounting gear, the first mounting gear is connected with a second mounting shaft, the second mounting shaft is in key connection with a second mounting gear, the second mounting gear is connected with a winding device, the winding device is also connected with a first mounting belt wheel, the first mounting belt wheel is arranged on a third mounting shaft, the third mounting shaft is provided with two groups of triangular driving wheels, each group of the triangular driving wheels is hinged with a limiting block, each group of the limiting blocks is respectively arranged in three groups of limiting grooves of a mounting wheel, the mounting wheel is connected with a fourth mounting shaft, the fourth mounting shaft is provided with a mounting groove, the first mounting cam is symmetrically provided with a plurality of groups of main transmission rods, and the main transmission rods can be meshed with a driven wheel, the driven wheel is arranged on a fifth installation shaft, a second installation belt wheel is arranged on the fifth installation shaft, the second installation belt wheel is connected with a third installation belt wheel through an installation connecting belt, and the third installation belt wheel is connected with the spraying device.

As a further optimization of the technical scheme, the cable silica gel coating mechanism comprises a winding device, a winding gear, a winding shaft, a winding belt wheel, a winding connecting belt, a winding wheel and a clamping device, wherein the winding device comprises a winding gear, a winding shaft, a winding belt wheel, a winding connecting belt, a winding wheel and a clamping device; the third mounting gear is meshed with the winding gear, the winding gear is arranged on the winding shaft, the first mounting belt wheel is connected with the winding belt wheel through a winding connecting belt, the winding belt wheel is arranged on the winding shaft, two groups of winding wheels are arranged on the winding shaft, and clamping devices are arranged on the winding wheels;

the clamping device comprises a clamping shell, a clamping bottom block, a clamping handle, a first clamping shaft, a clamping fixed disc, a second clamping shaft, a clamping rotating block and a clamping fixed block; be provided with the chucking casing on the reel, processing has into the wire casing on the chucking casing, the bottom of chucking casing is provided with the chucking bottom block, be provided with the chucking return pulley on the chucking bottom block, processing has a plurality of groups chucking groove on the chucking return pulley, the chucking groove can link to each other with the chucking handle, chucking handle and first chucking axle fixed connection, first chucking axle links to each other with the chucking fixed disk, still be provided with a plurality of groups second chucking axle on the chucking fixed disk, every group be provided with the chucking rotating block on the second chucking axle, every group the chucking rotating block is provided with in the chucking restriction groove in the chucking rotating block, every group be provided with the chucking fixed block on the chucking rotating block.

As a further optimization of the technical scheme, the invention relates to a cable silica gel coating mechanism, the spraying device comprises a first spraying shaft, a first spraying helical gear, a second spraying shaft, a first spraying belt wheel, a second spraying belt wheel, a first spraying transmission belt, a third spraying shaft, a spraying transmission box, a third spraying belt wheel, a fourth spraying shaft, a third spraying helical gear, a fourth spraying helical gear, a spraying bent cylinder, a spraying water pipe, a spray head, a spraying connecting block, a spraying connecting rod, a fourth spraying belt wheel, a fifth spraying belt wheel, a second spraying transmission belt, a fifth spraying shaft, a fixed spraying wheel, a first transmission spraying wheel, a sixth spraying shaft, a second transmission spraying wheel, a first spraying transmission block, a first limiting clamping block, a moving frame, a spraying transmission box, a second spraying transmission block, a second limiting clamping block, a limiting fixing block and a spraying fixing block; the second installation belt wheel is arranged on the first spray shaft, the first spray shaft is connected with the first spray bevel wheel, the first spray bevel wheel is meshed with the second spray bevel wheel, the second spray bevel wheel is arranged on the second spray shaft, the second spray shaft is provided with the first spray belt wheel, the first spray belt wheel is connected with the second spray belt wheel through a first spray transmission belt, the second spray belt wheel is arranged on the third spray shaft, the first spray transmission belt passes through a spray transmission box to be connected with the third spray belt wheel, the third spray belt wheel is arranged on the fourth spray shaft, the fourth spray shaft is arranged on the third spray bevel wheel, the third spray bevel wheel is meshed with two groups of the fourth spray bevel wheels, each group of the fourth spray bevel wheels is arranged on a spray curved cylinder, one end of each group of the spray curved cylinders is processed with an internal thread, the other end of the spray curved cylinder is connected with a spray pipe, the spray pipe is provided with a switch valve, the spray pipe is connected with a spray head through screw threads, each group of the spray curved cylinders is provided with a spray connecting block, two groups of the spray connecting blocks are connected through a spray connecting rod, the spray connecting rod is connected with a fourth spray shaft in a clamping way, the third spray shaft is provided with a fourth spray belt wheel, the fourth spray belt wheel is connected with a fifth spray belt wheel through a second spray driving belt, the fifth spray belt wheel is arranged on a fifth spray shaft, the fifth spray shaft is provided with a fixed spray wheel, the fixed spray wheel is meshed with a first transmission spray wheel, the first transmission spray wheel is arranged on a sixth spray shaft, the sixth spray shaft is arranged in a second transmission spray wheel, the second transmission spray wheel is arranged on the fifth spray shaft, the sixth sprays epaxial articulated first transmission piece that sprays, the first both sides that spray the transmission piece are provided with first spacing fixture block, spacing draw-in groove in first spacing fixture block and the criss-cross motion frame, the motion frame with spray transmission case fixed connection, the fifth sprays the axle and still articulates there is the second to spray the transmission piece, the second sprays and is provided with the spacing fixture block of second on the transmission piece, the spacing fixture block of second and the spacing draw-in groove swing joint in the motion frame, motion frame and spacing fixed block fixed connection, spacing fixed block with spray fixed block fixed connection.

The cable silica gel coating mechanism has the beneficial effects that:

the invention relates to the technical field of cable processing, in particular to a cable silica gel coating mechanism;

by providing the mounting means; the mounting device can mount two groups of cables, so that the mounting efficiency is improved, the mounting device adopts the triangular transmission wheel to drive the mounting wheel to rotate, the rotating speed of the mounting wheel is lower than that of the triangular transmission wheel, and the purpose is to reduce the time for mounting the wheel to transmit the cables, so that the output shaft of the mounting motor can be matched with the transmission speed of the mounting device and the transmission speeds of the winding device and the spraying device;

by arranging the winding device; the winding device collects the cable sprayed with the silica gel, and can also fix one end of the cable, so that the cable is prevented from falling off in the spraying process, the spraying cannot normally work, and the winding device and the mounting device synchronously run, so that the cable is ensured to be always in a straight state, and the spraying is more uniform;

by arranging the spraying device; spray set with silica gel even spout the cable on, and make spray set fall on the silica gel liquid on two sets of cables more even through spray set's centrifugal force, and spray set is spraying the back, and the rotating electrical machines can drive the motion of the rotatory casing of second, make unnecessary silica gel liquid enter into first rotatory casing through the through-hole, then again through opening first feed door, clear up the silica gel of retrieving in the first rotatory casing.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

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

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the mounting device of the present invention.

Fig. 4 is a second schematic structural diagram of the mounting device of the present invention.

Fig. 5 is a third schematic structural diagram of the mounting device of the present invention.

Fig. 6 is a first schematic structural diagram of a winding device according to the present invention.

Fig. 7 is a second schematic structural diagram of the winding device of the present invention.

Fig. 8 is a third schematic structural diagram of the winding device of the present invention.

Fig. 9 is a fourth schematic structural diagram of the winding device of the present invention.

Fig. 10 is a fifth structural schematic diagram of the winding device of the present invention.

Fig. 11 is a sixth schematic structural view of the winding device of the present invention.

Fig. 12 is a seventh schematic structural diagram of the winding device of the present invention.

Fig. 13 is a first schematic structural diagram of the spraying device of the present invention.

Fig. 14 is a second schematic structural view of the spraying device of the present invention.

Fig. 15 is a third schematic structural view of the spray device of the present invention.

Fig. 16 is a fourth schematic structural view of the spray device of the present invention.

Fig. 17 is a fifth schematic structural view of the spraying device of the present invention.

Fig. 18 is a sixth schematic structural view of the spray device of the present invention.

Fig. 19 is a sectional view showing the overall structure of the present invention.

In the figure: a rotating electrical machine 1; a mounting block 2; a first rotary case 3; a first feed gate 4; a second rotary case 5; a second feed gate 6; a fixture block 7; a mounting device 8; a winding device 9; a spray device 10; installing a motor 8-1; a first mounting shaft 8-2; installing a cam 8-3; a first mounting gear 8-4; a second mounting shaft 8-5; a second mounting gear 8-6; a first mounting pulley 8-7; a third mounting shaft 8-8; 8-9 parts of a triangle transmission wheel; 8-10 of a limiting block; mounting wheels 8-11; a fourth mounting shaft 8-12; main transmission rods 8-13; the driven wheels 8-14; a fifth installation shaft 8-15; a second mounting pulley 8-16; a third mounting pulley 8-17; mounting connecting belts 8-18; a winding gear 9-1; a winding shaft 9-2; 9-3 of a winding belt wheel; 9-4 of winding connecting belt; reels 9-5; a clamping device 9-6; a clamping shell 9-6-1; clamping the bottom block 9-6-2; 9-6-3 of a clamping handle; a first clamping shaft 9-6-4; clamping the fixed disc 9-6-5; a second clamping shaft 9-6-6; clamping the rotating block 9-6-7; 9-6-8 parts of a clamping limiting box; 9-6-9 parts of a clamping fixing block; a first spray shaft 10-1; a first spray helical gear 10-2; a second spray bevel gear 10-3; a second spray shaft 10-4; a first spray belt wheel 10-5; a second spray belt wheel 10-6; a first spray conveyor belt 10-7; a third spray shaft 10-8; 10-9 of a spraying transmission case; 10-10 of a third spray belt wheel; a fourth spray shaft 10-11; a third spray bevel gear 10-12; a fourth spray bevel gear 10-13; spraying the bent cylinders 10-14; 10-15 parts of spray header; 10-16 parts of a spray head; spraying the connecting blocks by 10-17; 10-18 parts of a spray connecting rod; a fourth spray belt wheel 10-19; a fifth spray belt wheel 10-20; a second spray conveyor belt 10-21; a fifth spray shaft 10-22; fixing a spray wheel 10-23; a first transmission spray wheel 10-24; a sixth spray shaft 10-25; second transmission spray wheel 10-26; a first spray drive block 10-27; a first limit clamping block 10-28; a moving frame 10-29; 10-30 parts of a second spray transmission block; 10-31 of a second limiting clamping block; and 10-32 parts of a limit fixing block.

Detailed Description

The first embodiment is as follows:

in order to solve the technical problems, the invention relates to the technical field of cable processing, and more particularly to a cable silica gel coating mechanism, which comprises a rotary motor 1, an installation block 2, a first rotary shell 3, a first feeding door 4, a second rotary shell 5, a second feeding door 6, a clamping block 7, an installation device 8, a winding device 9 and a spraying device 10, wherein the installation block 2 is arranged on the first rotary shell; the bottom end of the rotating motor 1 is fixedly connected with the mounting block 2, the rotating motor 1 is connected with the first rotating shell 3, two first feeding doors 4 are hinged on the first rotating shell 3, a second rotating shell 5 is arranged in the first rotating shell 3, a plurality of groups of through holes are processed on the second rotating shell 5, two second feeding doors 6 are hinged on the second rotating shell 5, each group of second feeding doors 6 is in contact with the fixture block 7, a mounting device 8 and a winding device 9 are arranged in the second rotating shell 5, and a spraying device 10 is arranged above the second rotating shell 5;

rotating electrical machines 1 can drive the rotation of first rotating housing 3, because rotating electrical machines 1 is servo motor, can be with the just reversal of second rotating housing 5, prevent into the winding of the pipe of silica gel liquid on second rotating housing 5, through opening first feed gate 4, second feed gate 6 passes through installation device 8 with the cable and places in the device, be provided with two sets of first feed gate 4 and second feed gate 6 and can guarantee smearing silica gel of two sets of cables, accelerate the speed of smearing, then with the one end joint of the activity of cable on winding device 9, spray set 10 sprays the cable, rethread second rotating housing 5's just reversal, guarantee that each place can both spray evenly.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 19, and the present embodiment further describes the first embodiment, where the mounting device 8 includes a mounting motor 8-1, a first mounting shaft 8-2, a mounting cam 8-3, a first mounting gear 8-4, a second mounting shaft 8-5, a second mounting gear 8-6, a first mounting pulley 8-7, a third mounting shaft 8-8, a triangle transmission wheel 8-9, a limiting block 8-10, a mounting wheel 8-11, a fourth mounting shaft 8-12, a main transmission rod 8-13, a secondary transmission wheel 8-14, a fifth mounting shaft 8-15, a second mounting pulley 8-16, a third mounting pulley 8-17, and a mounting connecting belt 8-18; the mounting motor 8-1 is connected with a first mounting shaft 8-2 through a coupler, a mounting cam 8-3 is arranged on the first mounting shaft 8-2, the mounting cam 8-3 can be meshed with a first mounting gear 8-4, the first mounting gear 8-4 is connected with a second mounting shaft 8-5, the second mounting shaft 8-5 is in key joint with a second mounting gear 8-6, the second mounting gear 8-6 is connected with a winding device 9, the winding device 9 is also connected with a first mounting belt wheel 8-7, the first mounting belt wheel 8-7 is arranged on a third mounting shaft 8-8, two groups of triangular transmission wheels 8-9 are arranged on the third mounting shaft 8-8, each group of triangular transmission wheels 8-9 is hinged with a limiting block 8-10, each group of limiting blocks 8-10 is respectively arranged in three groups of limiting grooves of the mounting wheels 8-11, the mounting wheels 8-11 are connected with a fourth mounting shaft 8-12, a mounting groove is processed on the fourth mounting shaft 8-12, a plurality of groups of main transmission rods 8-13 are symmetrically arranged on the mounting cam 8-3, the main transmission rods 8-13 can be meshed with auxiliary transmission wheels 8-14, the auxiliary transmission wheels 8-14 are arranged on a fifth mounting shaft 8-15, second mounting belt wheels 8-16 are arranged on the fifth mounting shaft 8-15, the second mounting belt wheels 8-16 are connected with third mounting belt wheels 8-17 through mounting connecting belts 8-18, and the third mounting belt wheels 8-17 are connected with the spraying device 10;

the installation motor 8-1 can drive the first installation shaft 8-2 to rotate and further drive the installation cam 8-3 to rotate, when the convex part on the installation cam 8-3 can be meshed with the first installation gear 8-4, the first installation gear 8-4 can be driven to rotate, and further the second installation shaft 8-5 can be driven to rotate, so that the second installation gear 8-6 rotates along with the second installation gear, the winding device further rotates along with the second installation gear, and the winding device can also drive the transmission of the first installation belt wheel 8-7 and drive the third installation shaft 8-8 to rotate along with the third installation shaft, so that the transmission of the two groups of triangular transmission wheels 8-9 is further driven, because the limit blocks on the two groups of triangular transmission wheels 8-9 are in limited connection with the installation wheels 8-11, under the rotation of the triangular transmission wheels 8-9, the movement of the limiting block can drive the installation wheels 8-11 to rotate, so that the fourth installation shaft 8-12 rotates along with the fourth installation shaft, the fourth installation shaft 8-12 is clamped with the cable through the installation groove, the stable rotation of the cable is ensured, the rotation of the two groups of triangular transmission wheels 8-9 is arranged, the limiting block drives the rotation of the two groups of installation wheels 8-11, when the triangular transmission wheels 8-9 rotate for one circle, the limiting block can drive the installation wheels 8-11 to rotate for a half, so that the triangular transmission wheels 8-9 can adjust the rotation speed of the installation wheels, the rotation of the installation cams 8-3 can drive the transmission of each group of main transmission blocks, when the main transmission blocks rotate to be meshed with the driven wheels 8-14, the transmission of the main transmission blocks can be driven, and further the rotation of the fifth installation shafts 8-15 is driven, the second mounting belt wheels 8-16 rotate along with the second mounting belt wheels, so that the third mounting belt wheels 8-17 can be driven to rotate through the mounting connecting belts 8-18, the spraying device is further driven to operate, the protruding parts of the mounting cams 8-3 and the main transmission block do not have cross parts, the working uniqueness of the spraying device and the winding device is ensured, and the transmission is reasonable.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-19, and the second embodiment is further described in the embodiment, wherein the winding device 9 comprises a winding gear 9-1, a winding shaft 9-2, a winding pulley 9-3, a winding connecting belt 9-4, a winding reel 9-5 and a clamping device 9-6; the third mounting gear is meshed with a winding gear 9-1, the winding gear 9-1 is arranged on a winding shaft 9-2, the first mounting belt wheel is connected with a winding belt wheel 9-3 through a winding connecting belt 9-4, the winding belt wheel 9-3 is arranged on the winding shaft 9-2, two groups of winding wheels 9-5 are arranged on the winding shaft 9-2, and clamping devices 9-6 are arranged on the winding wheels 9-5; the third mounting gear can drive the first winding gear 9-1 to rotate so as to drive the winding shaft 9-2 to rotate, the winding shaft 9-2 drives the two groups of winding wheels 9-5 to transmit, the winding shaft 9-2 can drive the winding belt wheel 9-3 to transmit, the winding connecting belt 9-4 can drive the mounting device 8 to transmit, the winding shaft 9-2 rotates so as to drive the two groups of winding wheels 9-5 to transmit, the mounting device 8 and the winding device 9 move synchronously, and the clamping device 9-6 clamps one end of the cable so as to ensure the orderly operation of the devices;

the clamping device 9-6 comprises a clamping shell 9-6-1, a clamping bottom block 9-6-2, a clamping handle 9-6-3, a first clamping shaft 9-6-4, a clamping fixed disc 9-6-5, a second clamping shaft 9-6-6, a clamping rotating block 9-6-7, a clamping limiting box 9-6-8 and a clamping fixed block 9-6-9; the winding wheel is characterized in that a clamping shell 9-6-1 is arranged on the winding wheel 9-5, a wire inlet groove is processed on the clamping shell 9-6-1, a clamping bottom block 9-6-2 is arranged at the bottom end of the clamping shell 9-6-1, a clamping bottom wheel is arranged on the clamping bottom block 9-6-2, a plurality of groups of clamping grooves are processed on the clamping bottom wheel, the clamping grooves can be connected with a clamping handle 9-6-3, the clamping handle 9-6-3 is fixedly connected with a first clamping shaft 9-6-4, the first clamping shaft 9-6-4 is connected with a clamping fixed disk 9-6-5, a plurality of groups of second clamping shafts 9-6-6 are further arranged on the clamping fixed disk 9-6-5, each group of second clamping shafts 9-6-6 is provided with clamping rotating blocks 9-6-7, each group of clamping rotating blocks 9-6-7 is arranged in a clamping limiting groove in a clamping limiting box 9-6-8, and each group of clamping rotating blocks 9-6-7 is provided with a clamping fixing block 9-6-9;

the movable end of the cable penetrates through the wire inlet groove of the clamping shell 9-6-1, the clamping handle 9-6-3 is manually rotated to drive the first clamping shaft 9-6-4 to move around the circle center of the clamping fixed disk 9-6-5 by the clamping handle 9-6-3, and further drive each group of second clamping shafts 9-6-6 to move around the circle center of the clamping fixed disk 9-6-5, so that the clamping rotating blocks 9-6-7 rotate in the clamping limiting boxes 9-6-8, the clamping limiting boxes 9-6-8 can limit the movement of the clamping rotating blocks 9-6-7, and the second clamping shaft 9-6-6 can drive the movable end of the clamping rotating block 9-6-7 to rotate, when the movable end of the clamping rotating block 9-6-7 rotates, the clamping rotating block 9-6-7 drives the clamping fixed blocks 9-6-9, all the clamping fixed blocks 9-6-9 can move towards the circle center of the clamping fixed disc 9-6-5, all the clamping fixed blocks 9-6-9 can clamp the cable, after the position is determined, the clamping handles 9-6-3 are placed in the corresponding clamping grooves, the cable cannot be separated from the whole device in the movement process of the device, the normal operation of the device is ensured, the aligning grooves processed on the clamping shell 9-6-1 are in contact with the upper end and the lower end of the clamping handle 9-6-3, and the clamping handles 9-6-3 are prevented from displacing in the rotation process of the first rotating shell 3, when the cable is not required to be clamped, the cable can be taken out only by reversing the clamping handle 9-6-3.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1-19, wherein the spray device 10 comprises a first spray shaft 10-1, a first spray helical gear 10-2, a second spray helical gear 10-3, a second spray shaft 10-4, a first spray pulley 10-5, a second spray pulley 10-6, a first spray transmission belt 10-7, a third spray shaft 10-8, a spray transmission box 10-9, a third spray pulley 10-10, a fourth spray shaft 10-11, a third spray helical gear 10-12, a fourth spray helical gear 10-13, a spray curved cylinder 10-14, a spray water pipe 10-15, a spray head 10-16, a spray connecting block 10-17, a spray connecting rod 10-18, a fourth spray pulley 10-19, a spray connecting block 10-17, a spray connecting block 10-18, a spray connecting block 10-19, a spray connecting block 10-13, a spray connecting block, a spray, A fifth spraying belt wheel 10-20, a second spraying transmission belt 10-21, a fifth spraying shaft 10-22, a fixed spraying wheel 10-23, a first transmission spraying wheel 10-24, a sixth spraying shaft 10-25, a second transmission spraying wheel 10-26, a first spraying transmission block 10-27, a first limiting fixture block 10-28, a moving frame 10-29, a second spraying transmission block 10-30, a second limiting fixture block 10-31 and a limiting fixture block 10-32; the second installation belt wheel is arranged on a first spray shaft 10-1, the first spray shaft 10-1 is connected with a first spray helical gear 10-2, the first spray helical gear 10-2 is meshed with a second spray helical gear 10-3, the second spray helical gear 10-3 is arranged on a second spray shaft 10-4, a first spray belt wheel 10-5 is arranged on the second spray shaft 10-4, the first spray belt wheel 10-5 is connected with a second spray belt wheel 10-6 through a first spray transmission belt 10-7, the second spray belt wheel 10-6 is arranged on a third spray shaft 10-8, the first spray transmission belt 10-7 passes through a spray transmission box 10-9 to be connected with a third spray belt wheel 10-10, the third spray belt wheel 10-10 is arranged on a fourth spray shaft 10-11, the fourth spray shaft 10-11 is arranged on a third spray helical gear 10-12, the third spray helical gear 10-12 is meshed with two groups of fourth spray helical gears 10-13, each group of fourth spray helical gears 10-13 is arranged on a spray curved cylinder 10-14, one end of each group of spray curved cylinders 10-14 is processed with internal threads, the other end of each group of spray curved cylinders 10-14 is connected with a spray water pipe 10-15, the spray water pipe 10-15 is provided with a switch valve, the spray water pipe 10-15 is connected with a spray head 10-16 through threads, each group of spray curved cylinders 10-14 is provided with a spray connecting block 10-17, the two groups of spray connecting blocks 10-17 are connected through spray connecting rods 10-18, and the spray connecting rods 10-18 are clamped with the fourth spray shaft 10-11, the third spraying shaft 10-8 is provided with a fourth spraying belt wheel 10-19, the fourth spraying belt wheel 10-19 is connected with a fifth spraying belt wheel 10-20 through a second spraying transmission belt 10-21, the fifth spraying belt wheel 10-20 is arranged on a fifth spraying shaft 10-22, the fifth spraying shaft 10-22 is provided with a fixed spraying wheel 10-23, the fixed spraying wheel 10-23 is engaged with a first transmission spraying wheel 10-24, the first transmission spraying wheel 10-24 is arranged on a sixth spraying shaft 10-25, the sixth spraying shaft 10-25 is arranged in a second transmission spraying wheel 10-26, the second transmission spraying wheel 10-26 is arranged on the fifth spraying shaft 10-22, the sixth spraying shaft 10-25 is hinged with a first spraying transmission block 10-27, two sides of the first spray transmission block 10-27 are provided with first limiting fixture blocks 10-28, the first limiting fixture blocks 10-28 are connected with limiting fixture grooves in a cross-shaped moving frame 10-29, the moving frame 10-29 is fixedly connected with a spray transmission box 10-9, the fifth spray shaft 10-22 is further hinged with second spray transmission blocks 10-30, the second spray transmission blocks 10-30 are provided with second limiting fixture blocks 10-31, the second limiting fixture blocks 10-31 are movably connected with the limiting fixture grooves in the moving frame 10-29, the moving frame 10-29 is in limiting connection with limiting fixture blocks 10-32, and the limiting fixture blocks 10-32 are fixedly connected with the spray frame;

the second mounting belt wheel can drive the first spray shaft 10-1 to rotate so as to drive the first spray bevel gear 10-2 to rotate, the first spray bevel gear 10-2 can drive the second spray bevel gear 10-3 to rotate so that the second spray shaft 10-4 rotates along with the second spray shaft, and further drives the first spray belt wheel 10-5 to rotate, the first spray transmission belt 10-7 can drive the second spray belt wheel 10-6 to rotate so that the third spray shaft 10-8 rotates along with the third spray shaft, and the normal motion of the second spray belt wheel 10-6 is ensured, and the first spray transmission belt 10-7 can drive the third spray belt wheel 10-10 to transmit in the transmission process, so that the third spray belt wheel 10-10 rotates along with the third spray belt wheel, and further drives the fourth spray shaft 10-11 to rotate, and further drives the third spray bevel gear 10-12 to rotate along with the third spray belt wheel 10-10, and because the third spray bevel gear 10-12 and the fourth spray shaft 10-11 drive the rotation of the spray connecting rod 10-18, two groups of second spray lower gears can rotate around the first spray bevel gear 10-2, and can also drive the second spray bevel gear 10-3 to rotate around the self circle center, so as to drive the rotation of the spray curved cylinder 10-14, the spray curved cylinder 10-14 can be connected with an external silicone tube through a universal pipe, so as to ensure that the rotation of the spray curved cylinder does not cause the clamping, silicone fluid flows into the spray water pipe 10-15 through the external silicone tube and an open switch valve, the silicone fluid is sprayed onto two groups of cables through the spray nozzles 10-16, and the silicone fluid received by the two groups of cables can be more uniform through the autorotation and turnover of the spray curved cylinder 10-14 by the centrifugal force, the rotation of the third spray shaft 10-8 can also drive the rotation of the fourth spray belt wheel 10-19, the second spray transmission belt 10-21 can drive the transmission of the fifth spray belt wheel 10-20, so that the fifth spray shaft 10-22 rotates along with the fifth spray shaft 10-22, the fifth spray shaft 10-22 is connected with the fixed spray wheel 10-23 through a bearing, the rotation of the fifth spray shaft 10-22 can not drive the rotation of the fixed spray wheel 10-23, the fifth spray shaft 10-22 can also drive the transmission of the first transmission spray wheel 10-24, because the sixth spray shaft 10-25 is arranged in the first transmission spray wheel 10-24, the sixth spray shaft 10-25 can drive around the first transmission spray wheel 10-24, and because the fixed spray wheel 10-23 is meshed with the first transmission spray wheel 10-24, in the process of driving the sixth spraying shaft 10-25 to drive the first driving spraying wheel 10-24 to drive, the first driving spraying wheel 10-24 can rotate, the sixth spraying shaft 10-25 can rotate along with the rotation, the sixth spraying shaft 10-25 is hinged with the first spraying transmission block 10-27 and limited by the moving frame 10-29, the first spraying transmission block 10-27 can drive the moving frame 10-29 to move back and forth when the sixth spraying shaft 10-25 rotates, the first spraying transmission blocks 10-27 at two ends of the first spraying transmission block 10-27 can limit the height of the moving frame 10-29 through the limiting clamping grooves, the fifth spraying shaft 10-22 can drive the second spraying transmission block 10-30 to move in the moving frame 10-29, and the second limiting clamping block 10-31 slides in the limiting clamping grooves, the height of the moving frame 10-29 can be further limited by the second limiting clamping blocks 10-31 and the limiting fixing blocks 10-32, so that transmission is more stable, the spraying transmission box 10-9 is driven to move back and forth by the horizontal back and forth movement of the moving frame 10-29, all cables between the mounting device 8 and the winding device 9 in the transmission process can be sprayed with silica gel, insulation is guaranteed, the spraying transmission belt can drive the third spraying belt wheel 10-10 to transmit all the time in the transmission process, and the spraying continuity is guaranteed.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. A cable silica gel coating mechanism comprises a rotary motor (1), an installation block (2), a first rotary shell (3), a first feeding door (4), a second rotary shell (5), a second feeding door (6), a clamping block (7), an installation device (8), a winding device (9) and a spraying device (10); the method is characterized in that: the bottom and the installation piece (2) fixed connection of rotating electrical machines (1), rotating electrical machines (1) link to each other with first rotating casing (3), it has two first feed gates (4) to articulate on first rotating casing (3), be provided with second rotating casing (5) in first rotating casing (3), it has a plurality of groups through-hole to process on second rotating casing (5), it has two second feed gates (6) to articulate on second rotating casing (5), and every group second feed gate (6) contacts with fixture block (7), be provided with installation device (8) and winding device (9) in second rotating casing (5), the top of second rotating casing (5) is provided with spray set (10).

2. The cable silicone coating mechanism of claim 1, wherein: the mounting device (8) comprises a mounting motor (8-1), a first mounting shaft (8-2), a mounting cam (8-3), a first mounting gear (8-4), a second mounting shaft (8-5), a second mounting gear (8-6), a first mounting belt wheel (8-7), a third mounting shaft (8-8), a triangular transmission wheel (8-9), a limiting block (8-10), a mounting wheel (8-11), a fourth mounting shaft (8-12), a main transmission rod (8-13), a secondary transmission wheel (8-14), a fifth mounting shaft (8-15), a second mounting belt wheel (8-16), a third mounting belt wheel (8-17) and a mounting connecting belt (8-18); the mounting motor (8-1) is connected with a first mounting shaft (8-2) through a coupler, a mounting cam (8-3) is arranged on the first mounting shaft (8-2), the mounting cam (8-3) can be meshed with a first mounting gear (8-4), the first mounting gear (8-4) is connected with a second mounting shaft (8-5), the second mounting shaft (8-5) is in key connection with a second mounting gear (8-6), the second mounting gear (8-6) is connected with a winding device (9), the winding device (9) is further connected with a first mounting belt wheel (8-7), the first mounting belt wheel (8-7) is arranged on a third mounting shaft (8-8), and two groups of triangular transmission wheels (8-9) are arranged on the third mounting shaft (8-8), each group of the triangular transmission wheels (8-9) is hinged with limiting blocks (8-10), each group of the limiting blocks (8-10) is respectively arranged in three groups of limiting grooves of a mounting wheel (8-11), the mounting wheel (8-11) is connected with a fourth mounting shaft (8-12), the fourth mounting shaft (8-12) is processed with a mounting groove, a plurality of groups of main transmission rods (8-13) are symmetrically arranged on the mounting cam (8-3), the main transmission rods (8-13) can be meshed with auxiliary transmission wheels (8-14), the auxiliary transmission wheels (8-14) are arranged on a fifth mounting shaft (8-15), a second mounting belt wheel (8-16) is arranged on the fifth mounting shaft (8-15), the second mounting belt wheel (8-16) is connected with a third mounting belt wheel (8-17) through a mounting connecting belt (8-18), the third mounting belt wheels (8-17) are connected with the spraying device (10).

3. The cable silicone coating mechanism of claim 1, wherein: the winding device (9) comprises a winding gear (9-1), a winding shaft (9-2), a winding belt wheel (9-3), a winding connecting belt (9-4), a winding wheel (9-5) and a clamping device (9-6); the second mounting gear (8-6) is meshed with a winding gear (9-1), the winding gear (9-1) is arranged on a winding shaft (9-2), the first mounting belt wheel (8-7) is connected with a winding belt wheel (9-3) through a winding connecting belt (9-4), the winding belt wheel (9-3) is arranged on the winding shaft (9-2), two groups of winding wheels (9-5) are arranged on the winding shaft (9-2), and clamping devices (9-6) are arranged on the winding wheels (9-5);

the clamping device (9-6) comprises a clamping shell (9-6-1), a clamping bottom block (9-6-2), a clamping handle (9-6-3), a first clamping shaft (9-6-4), a clamping fixed disc (9-6-5), a second clamping shaft (9-6-6), a clamping rotating block (9-6-7), a clamping limiting box (9-6-8) and a clamping fixed block (9-6-9); the winding wheel is characterized in that a clamping shell (9-6-1) is arranged on the winding wheel (9-5), a wire inlet groove is processed on the clamping shell (9-6-1), a clamping bottom block (9-6-2) is arranged at the bottom end of the clamping shell (9-6-1), a clamping bottom wheel is arranged on the clamping bottom block (9-6-2), a plurality of groups of clamping grooves are processed on the clamping bottom wheel and can be connected with a clamping handle (9-6-3), the clamping handle (9-6-3) is fixedly connected with a first clamping shaft (9-6-4), the first clamping shaft (9-6-4) is connected with a clamping fixed disk (9-6-5), a plurality of groups of second clamping shafts (9-6-6) are further arranged on the clamping fixed disk (9-6-5), each group of second clamping shafts (9-6-6) is provided with clamping rotating blocks (9-6-7), each group of clamping rotating blocks (9-6-7) is arranged in clamping limiting grooves in clamping limiting boxes (9-6-8), and each group of clamping rotating blocks (9-6-7) is provided with clamping fixing blocks (9-6-9).

4. The cable silicone coating mechanism of claim 1, wherein: the spraying device (10) comprises a first spraying shaft (10-1), a first spraying helical gear (10-2), a second spraying helical gear (10-3), a second spraying shaft (10-4), a first spraying belt wheel (10-5), a second spraying belt wheel (10-6), a first spraying transmission belt (10-7), a third spraying shaft (10-8), a spraying transmission box (10-9), a third spraying belt wheel (10-10), a fourth spraying shaft (10-11), a third spraying helical gear (10-12), a fourth spraying helical gear (10-13), a spraying curved cylinder (10-14), a spraying water pipe (10-15), a nozzle (10-16), a spraying connecting block (10-17), a spraying connecting rod (10-18), a fourth spraying belt wheel (10-19), A fifth spraying belt wheel (10-20), a second spraying transmission belt (10-21), a fifth spraying shaft (10-22), a fixed spraying wheel (10-23), a first transmission spraying wheel (10-24), a sixth spraying shaft (10-25), a second transmission spraying wheel (10-26), a first spraying transmission block (10-27), a first limiting clamping block (10-28), a moving frame (10-29), a second spraying transmission block (10-30), a second limiting clamping block (10-31) and a limiting fixing block (10-32); the third installation belt wheel (8-17) is arranged on the first spray shaft (10-1), the first spray shaft (10-1) is connected with the first spray helical gear (10-2), the first spray helical gear (10-2) is meshed with the second spray helical gear (10-3), the second spray helical gear (10-3) is arranged on the second spray shaft (10-4), the second spray shaft (10-4) is provided with the first spray belt wheel (10-5), the first spray belt wheel (10-5) is connected with the second spray belt wheel (10-6) through the first spray transmission belt (10-7), the second spray belt wheel (10-6) is arranged on the third spray shaft (10-8), and the first spray transmission belt (10-7) penetrates through the spray transmission box (10-9) to be connected with the third spray belt wheel (10-10) The third spray belt wheel (10-10) is arranged on a fourth spray shaft (10-11), the fourth spray shaft (10-11) is arranged on a third spray helical gear (10-12), the third spray helical gear (10-12) is meshed with two groups of fourth spray helical gears (10-13), each group of fourth spray helical gears (10-13) is arranged on a spray curved cylinder (10-14), one end of each group of spray curved cylinders (10-14) is provided with internal threads, the other ends of the spray curved cylinders (10-14) are connected with spray water pipes (10-15), the spray water pipes (10-15) are provided with switch valves, the spray water pipes (10-15) are connected with spray heads (10-16) through threads, each group of spray curved cylinders (10-14) is provided with spray connecting blocks (10-17), the two groups of spraying connecting blocks (10-17) are connected through spraying connecting rods (10-18), the spraying connecting rods (10-18) are connected with a fourth spraying shaft (10-11) in a clamping manner, a fourth spraying belt wheel (10-19) is arranged on a third spraying shaft (10-8), the fourth spraying belt wheel (10-19) is connected with a fifth spraying belt wheel (10-20) through a second spraying transmission belt (10-21), the fifth spraying belt wheel (10-20) is arranged on a fifth spraying shaft (10-22), a fixed spraying wheel (10-23) is arranged on the fifth spraying shaft (10-22), the fixed spraying wheel (10-23) is meshed with a first transmission spraying wheel (10-24), the first transmission spraying wheel (10-24) is arranged on a sixth spraying shaft (10-25), the sixth spraying shaft (10-25) is arranged in a second transmission spraying wheel (10-26), the second transmission spraying wheel (10-26) is arranged on a fifth spraying shaft (10-22), a first spraying transmission block (10-27) is hinged on the sixth spraying shaft (10-25), first limiting clamping blocks (10-28) are arranged on two sides of the first spraying transmission block (10-27), the first limiting clamping blocks (10-28) are connected with limiting clamping grooves in a cross-shaped moving frame (10-29), the moving frame (10-29) is fixedly connected with a spraying transmission box (10-9), the fifth spraying shaft (10-22) is also hinged with a second spraying transmission block (10-30), and a second limiting clamping block (10-31) is arranged on the second spraying transmission block (10-30), the second limiting clamping blocks (10-31) are movably connected with limiting clamping grooves in the moving frames (10-29), the moving frames (10-29) are in limiting connection with limiting fixing blocks (10-32), and the limiting fixing blocks (10-32) are fixedly connected with the spraying frames.

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