CN114188104B

CN114188104B - Water-blocking powder filling device for submarine cable production

Info

Publication number: CN114188104B
Application number: CN202111464527.6A
Authority: CN
Inventors: 徐君
Original assignee: Jiangxi Jien Heavy Industry Co ltd
Current assignee: Jiangxi Jien Submarine Cable Co ltd
Priority date: 2021-12-03
Filing date: 2021-12-03
Publication date: 2022-09-02
Anticipated expiration: 2041-12-03
Also published as: CN114188104A

Abstract

A water-blocking powder filling device for submarine cable production relates to the technical field of submarine cable production devices, and comprises a powder rolling device for deforming wrapping cloth and filling the wrapping cloth with water-blocking powder, wherein a side guide plate and an inner guide plate are arranged on the powder rolling device, the side guide plate and the inner guide plate are used for extruding the wrapping cloth and adjusting an extrusion gap, a feeding pipe for synchronously filling the water-blocking powder during extrusion is arranged at the upper end of the inner guide plate, the powder rolling device further drives a cable to rotate while moving through a dial wheel and a rotating theory, the wrapping cloth with the water-blocking powder is wound on the cable, the leakage of the water-blocking powder is placed, a tabletting and laminating device for tabletting the wrapped cable to fasten the wrapping cloth on the cable is arranged at the rear end of the powder rolling device, a tabletting and storing frame and a transmission electric cylinder are arranged on the tabletting and pushing cylinder is used for pushing a tabletting sheet in the tabletting and storing frame to the outside, and then the tabletting is fastened on the wrapping cloth through the extrusion column, the manual operation is simplified and the working efficiency is greatly improved.

Description

Water-blocking powder filling device for submarine cable production

Technical Field

The invention relates to the technical field of submarine cable production devices, in particular to a water-blocking powder filling device for submarine cable production.

Background

In the technical field of filling of water-blocking powder for submarine cable production, along with the continuous expansion of China on the development and utilization scale of ocean and island resources, the application of submarine cables is rapidly developed, the demand is continuously increased, the requirements on performance are also continuously improved, and the cable is particularly required to have excellent mechanical and physical properties and electrical properties. In the actual production process, the length of the submarine cable is often limited by production equipment, the existence of a submarine cable joint can increase the possibility that the cable is corroded and damaged, the service life of the submarine cable is shortened, the existing cable is filled with water-blocking powder to improve the waterproof measure of the cable, and the difficulty challenge on the continuity of cable production is aggravated by an additional process. Patent with application number CN201110003151.9 discloses dry-type optical cable water-blocking powder filling device, and the device can realize the water-blocking powder filling of cable, fails to realize continuous production. According to the invention, the problem of continuous production of water-blocking powder filling is solved by continuously supplying the cable and continuously winding the wrapping cloth for filling the water-blocking powder from the side surface, continuous work is realized by synchronously driving the progressive cable, the wrapping cloth is automatically clamped into the pressing sheet after filling and wrapping are completed, the problem of integral water-blocking powder loss caused by cable fracture is avoided, the equipment does not need manual operation, the efficiency is high, continuous production can be realized, and the waterproof use effect of the cable is good.

Disclosure of Invention

The technical scheme of the device for solving the technical problems is as follows: a water-blocking powder filling device for submarine cable production comprises a powder rolling device, wherein a pressing piece laminating device is arranged on the powder rolling device, the powder rolling device comprises a workbench, a driving base is arranged on the workbench, a filling motor is arranged on the workbench, a driving assembly is arranged on an output shaft of the filling motor, the powder rolling device further comprises a wrapping support, a wrapping cloth roll is arranged on the wrapping support, wrapping cloth is wound on the wrapping cloth roll, a deformation assembly is arranged on the workbench, and the wrapping cloth deforms after passing through the deformation assembly; the preforming laminating device including installing the A-frame on the workstation, be provided with on the A-frame and rotate extrusion subassembly, the workstation on still be provided with the transmission support, the transmission support on be provided with the transmission board, the transmission board on be provided with preforming storage frame, preforming storage frame in be provided with a plurality of preforming, the preforming side be provided with transmission electric jar, transmission electric jar on be provided with the L shaped plate, the L shaped plate on be provided with the slurcam, the transmission support on be provided with the separation blade, the separation blade install in the transmission board, the transmission board with rotate extrusion subassembly and be connected, have the preforming all the time on making the transmission board through setting up of separation blade, nevertheless the preforming can not drop, can carry the preforming to operating position fast when needs use the preforming.

Furthermore, the driving assembly comprises a driving column arranged on an output shaft of the filling motor, the driving column is rotatably arranged on a driving base, a poking wheel is coaxially arranged on the driving column, the poking wheel is rotatably arranged on the driving base, a transmission belt is arranged on the driving column, one end of the transmission belt is connected with the driving column, a driving bevel gear is arranged at the other end of the transmission belt, a driven bevel gear is rotatably arranged on the driving base and meshed with the driving bevel gear, a rotating wheel is coaxially and rotatably arranged on the driven bevel gear, a cable is arranged on the driving base and is simultaneously attached to the poking wheel and the rotating wheel, one end of the driving column is connected with the filling motor, a feeding wheel is arranged at the other end of the driving column, and a feeding base is also arranged on the workbench, the feeding base on be provided with the feeder hopper, the feed wheel rotate and install inside the feeder hopper, the feeder hopper lower extreme is provided with the inlet pipe, inlet pipe one end is connected with the feeder hopper, the inlet pipe other end is connected with the deformation subassembly, drive assembly can drive electricity and remove when the pivoted, drives the feed wheel simultaneously and moves, festival power.

Furthermore, the deformation subassembly including installing the direction base on the workstation, the fixed side deflector that is provided with on the direction base, the side deflector on slide and be provided with the regulation post, the regulation post on slide and be provided with the sideslip deflector, sideslip deflector and side deflector between be provided with guide spring, the sideslip deflector on slide and be provided with the direction fixed block, direction fixed block lower extreme be provided with inside deflector, the direction fixed block on be provided with adjusting nut.

Furthermore, the side guide plates, the guide springs and the adjusting columns are arranged in two groups in the same arrangement mode, the inner guide plate is arranged between the two groups of side guide plates, and two ends of the transverse moving guide plate are connected with the two groups of adjusting columns respectively.

Furthermore, the rotating extrusion assembly comprises an inner pipe arranged on a triangular support, a rotating bearing is arranged on the inner pipe, a side support is arranged on the rotating bearing, an inner rotating disc is arranged on the inner side of the side support, rotating teeth are arranged on the inner rotating disc, an arc starting point block and an arc end point block are arranged inside the inner rotating disc, an extrusion column is arranged on the extrusion ring in a sliding mode, a connecting plate is arranged at the upper end of the extrusion column, an extrusion spring is arranged between the connecting plate and the extrusion ring, a rotating wheel is arranged on the connecting plate in a rotating mode, the rotating wheel slides on the inner rotating disc, a pressing sheet is automatically added after the filling package is completed, and the phenomenon that the whole water blocking powder is lost due to the breakage of a cable is avoided.

Furthermore, an arc surface is arranged between the arc plate end point and the arc plate starting point block, the radian of the arc surface is gradually increased in the direction from the arc plate end point block to the arc plate starting point block, and when the inner rotating disc rotates, the rotating wheel slides on the arc surface formed by the arc plate starting point block and the arc plate end point block.

Furthermore, the extrusion column, the connecting plate, the extrusion spring and the rotating wheel are provided with three groups in the same arrangement mode, the extrusion ring is provided with a pressing sheet placing opening, and the pressing sheet placing opening is connected with the transfer plate.

Compared with the prior art, the invention has the beneficial effects that: 1. the water-blocking powder filling device for submarine cable production can realize continuous supply of the cable and improve the problem of continuous production of water-blocking powder filling by winding the water-blocking powder filling cloth belt from the side surface uninterruptedly, has high efficiency, can realize continuous production, and has good waterproof use effect of the cable; 2. the water-blocking powder filling device for submarine cable production is realized by adopting a linkage function, continuous work is realized by synchronously driving progressive cables, and clamping pieces are automatically clamped after filling and coating are finished, so that the problem of integral water-blocking powder loss caused by cable fracture is avoided.

Drawings

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

FIG. 2 is a schematic view of the powder rolling device according to the present invention.

Fig. 3 is a schematic view of a partial structure of the powder rolling device according to the present invention.

Fig. 4 is a schematic view of a partial structure of the powder rolling device of the invention.

Fig. 5 is a schematic view of a partial structure of the powder rolling device.

Fig. 6 is a schematic view of a partial structure of the powder rolling device of the present invention.

FIG. 7 is a schematic view of a sheeting and laminating device according to the present invention.

FIG. 8 is a schematic view of a partial structure of a sheeting and laminating device according to the present invention.

FIG. 9 is a schematic view of a second embodiment of a sheeting and laminating device according to the present invention.

Reference numerals are as follows: 1-a powder rolling device; 2-a tabletting and fitting device; 101-a workbench; 102-a filling motor; 103-a cable; 104-wrapping the stent; 105-wrapping a cloth roll; 106-wrapping cloth; 107-drive belt; 108-a drive column; 109-a dial wheel; 110-drive bevel gear; 111-a feed base; 112-a feed hopper; 113-a feed pipe; 114-a guide base; 115-side guide plate; 116-a guide spring; 117-guiding fixed blocks; 118-traversing guide plates; 119-a conditioning column; 120-an adjusting nut; 121-inner guide plate; 122-driven bevel gear; 123-a rotator wheel; 124-a feed wheel; 125-drive base; 126-a material reducing port; 201-a triangular support; 202-a delivery scaffold; 203-a transfer plate; 204-transferring electric cylinder; 205-L shaped plate; 206-a push plate; 207-compressed tablet storage frame; 208-tabletting; 209-baffle plate; 210-a squeeze motor; 211-extrusion gear; 212-a side bracket; 213-rotating teeth; 214-an inner rotating disk; 215-arc starting block; 216-arc plate end block; 217-inner tube; 218-a rotational bearing; 219-extrusion ring; 220-an extrusion column; 221-a compression spring; 222-connector tiles; 223-a turning wheel; 224-tablet placement port.

Detailed Description

In the following description of the present invention, it is to be noted that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the following description of the present invention, it should be noted that unless otherwise explicitly specified or limited, the terms "mounted," "disposed," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; the specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention will be further described with reference to the drawings and illustrative embodiments, which are provided herein to illustrate and not to limit the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

Example (b): referring to fig. 1, a water-blocking powder filling device for submarine cable production includes a powder rolling device 1 for deforming wrapping cloth and filling water-blocking powder in the wrapping cloth, and a tablet pressing device 2 for pressing the wrapped cable to fasten the wrapping cloth on the cable is arranged on the powder rolling device 1.

Referring to fig. 2, 3, 4, 5 and 6, the powder rolling device 1 includes a working table 101, a driving base 125 is disposed on the working table 101, a filling motor 102 is disposed on the working table 101, a driving column 108 is disposed on an output shaft of the filling motor 102, the driving column 108 is rotatably mounted on the driving base 125, a toggle wheel 109 is coaxially disposed on the driving column 108, the toggle wheel 109 is rotatably mounted on the driving base 125, a driving belt 107 is disposed on the driving column 108, one end of the driving belt 107 is connected to the driving column 108, the other end of the driving belt 107 is provided with a driving bevel gear 110, a driven bevel gear 122 is disposed on the driving base 125, the driven bevel gear 122 is engaged with the driving bevel gear 110, a rotating wheel 123 is coaxially disposed on the driven bevel gear 122, a cable 103 is disposed on the driving base 125, the cable 103 is simultaneously attached to the toggle wheel 109 and the rotating wheel 123, one end of the driving column 108 is connected to the filling motor 102, the other end of the driving column 108 is provided with a feeding wheel 124, the workbench 101 is further provided with a feeding base 111, the feeding base 111 is provided with a feeding hopper 112, the feeding wheel 124 is rotatably installed inside the feeding hopper 112, the lower end of the feeding hopper 112 is provided with a feeding pipe 113, one end of the feeding pipe 113 is connected with the feeding hopper 112, the other end of the feeding pipe 113 is connected with a material reducing port 126, the filling motor 102 is started, the filling motor 102 drives the driving column 108 to rotate, the driving column 108 simultaneously drives the driving belt 107, the poking wheel 109 and the feeding wheel 124 to rotate, the driving belt 107 drives the driving bevel gear 110 to rotate when rotating, the driving bevel gear 110 drives the driven bevel gear 122 to rotate, the driven bevel gear 122 drives the rotating wheel 123 to rotate, the rotating wheel 123 drives the rotating wheel cable 103 to rotate, the poking wheel 109 drives the cable 103 to slide on the driving base 125 when rotating, the cable moves forwards, when the feeding wheel 124 rotates, the water-blocking powder in the feeding hopper 112 enters the material reducing port 126 through the feeding pipe 113, the workbench 101 is provided with a guide base 114, the guide base 114 is fixedly provided with two groups of side guide plates 115, the side guide plates 115 are provided with adjusting columns 119 in a sliding manner, the adjusting columns 119 are provided with transverse guide plates 118 in a sliding manner, guide springs 116 are arranged between the transverse guide plates 118 and the side guide plates 115, the transverse guide plates 118 are provided with guide fixing blocks 117 in a sliding manner, the lower ends of the guide fixing blocks 117 are provided with inner guide plates 121, the inner guide plates 121 are arranged between the two groups of side guide plates 115, the guide fixing blocks 117 are provided with adjusting nuts 120, the inner guide plates 121 are provided with material reducing ports 126, water blocking powder falls through the material reducing ports 126, the extrusion motor 210 is unscrewed to enable the guide fixing blocks 117 to slide on the transverse guide plates 118, the guide fixing blocks 117 drive the inner guide plates 121 to transversely move, and the extrusion motor 210 is screwed down after the transverse gap adjustment of the inner guide plates 121 is completed, make inside deflector 121 transversely fixed, twist and move two sets of regulation post 119, regulation post 119 drives sideslip deflector 118 and slides on side deflector 115, sideslip deflector 118 extrudes guide spring 116 simultaneously, drive sideslip deflector 118 through adjusting post 119 and remove inside deflector 121 vertical position, after the vertical gap of inside deflector 121 is adjusted and is accomplished, stop twisting and move regulation post 119, powder rolling device 1 still includes parcel support 104, be provided with parcel yardage roll 105 on the parcel support 104, the winding has wrapping up cloth 106 on the parcel yardage roll 105, wrapping up cloth 106 and taking place deformation when passing through the gap between inside deflector 121 and the side deflector 115, wrap up cloth 106 on cable 103, through cable 103 autogiration and removal, realize the parcel to cable 103.

Referring to fig. 7, 8 and 9, the pressing sheet attaching device 2 includes a triangular bracket 201 installed on a workbench 101, an inner tube 217 is installed on the triangular bracket 201, a rotating bearing 218 is installed on the inner tube 217, a side bracket 212 is installed on the rotating bearing 218, an inner rotating disc 214 is installed in the side bracket 212, rotating teeth 213 are installed on the inner rotating disc 214, a squeezing ring 219 is installed at the rear end of the inner tube 217, a squeezing column 220 is installed on the squeezing ring 219 in a sliding manner, a connecting plate 222 is installed at the upper end of the squeezing column 220, a squeezing spring 221 is installed between the connecting plate 222 and the squeezing ring 219, a rotating wheel 223 is installed on the connecting plate 222 in a rotating manner, the rotating wheel 223 slides on the inner rotating disc 214, a pressing sheet placing opening 224 is installed on the squeezing ring 219, a transmission bracket 202 is installed on the workbench 101, a transmission plate 203 is installed on the transmission bracket 202, a pressing sheet storage frame 207 is installed on the transmission plate 203, a plurality of pressing sheets 208 are arranged in the pressing sheet storage frame 207, a transmission electric cylinder 204 is arranged on the side edge of the pressing sheet 208, an L-shaped plate 205 is arranged on the transmission electric cylinder 204, a pushing plate 206 is arranged on the L-shaped plate 205, a blocking piece 209 is arranged on the transmission support 202, the blocking piece 209 is arranged in the transmission plate 203, the transmission plate 203 is connected with a pressing sheet placing opening 224, the transmission electric cylinder 204 drives the L-shaped plate 205 to move, the L-shaped plate 205 drives the pushing plate 206 to move, the pushing plate 206 pushes the pressing sheet storage frame 207 on the transmission plate 203 to cross the blocking piece 209, the pressing sheet storage frame 207 crosses the blocking piece 209 and then is attached to a cable 103 in the blocking piece 209 through the pressing sheet placing opening 224, an arc-shaped surface is arranged between the arc-shaped plate terminal block 216 and the arc-shaped plate starting block 215, the arc-shaped surface radian is gradually increased in the direction from the arc-shaped plate terminal block 216 to the arc-shaped plate starting block 215, when the inner rotating disc 214 rotates, the rotating wheel 223 slides on an arc-shaped surface formed by the arc-shaped plate starting block 215 and the arc-shaped plate terminal block 216, the pressing column 220, the engaging plate 222, the pressing spring 221 and the rotating wheel 223 are provided with 3 sets, and the setting mode is the same, the extrusion ring 219 is provided with a tablet placing port 224, the tablet placing port 224 is connected with the transfer plate 203, the extrusion motor 210 is started, the extrusion motor 210 drives the extrusion gear 211 to rotate, the extrusion gear 211 drives the rotating teeth 213 to rotate, the rotating teeth 213 drive the inner rotating disc 214 to rotate on the rotating bearing 218, the rotating wheel 223 moves on the arc surface formed by the arc starting block 215 and the arc ending block 216, the arc surface formed by the arc starting block 215 and the arc ending block 216 gradually increases, the rotating wheel 223 pushes the connecting plate 222 to move, the connecting plate 222 drives the extrusion column 220 to extrude inwards, simultaneously, the connecting plate 222 presses the pressing spring 221, and the pressing column 220 presses the pressing piece 208 inside the blocking piece 209, so that the pressing piece 208 is fastened on the cable 103 wound with the wrapping cloth 106.

The working principle is as follows: during operation, firstly, the deformation degree of the wrapping cloth is adjusted, the extrusion motor 210 is unscrewed, the guide fixing block 117 slides on the transverse guide plate 118, the guide fixing block 117 drives the inner guide plate 121 to move transversely, the extrusion motor 210 is screwed down after the transverse gap of the inner guide plate 121 is adjusted, the inner guide plate 121 is fixed transversely, two groups of adjusting columns 119 are screwed, the adjusting columns 119 drive the transverse guide plate 118 to slide on the side guide plate 115, the transverse guide plate 118 simultaneously extrudes the guide springs 116, the transverse guide plate 118 is driven by the adjusting columns 119 to move and adjust the vertical position of the inner guide plate 121, after the vertical gap of the inner guide plate 121 is adjusted, the adjusting columns 119 are stopped being screwed, the cable 103 is placed on the driving base 125, the poking wheel 109 is attached to the rotating wheel 123 and the cable 103, and the wrapping cloth 106 is simultaneously inserted into the gap between the inner guide plate 121 and the two groups of side guide plates 115, extruding and deforming a gap between an inner guide plate 121 and two groups of side guide plates 115 to wrap the wrapping cloth 106, putting water-blocking powder into a feed hopper 112, starting a filling motor 102, driving a driving column 108 to rotate by the filling motor 102, simultaneously driving a driving belt 107, a stirring wheel 109 and a feed wheel 124 to rotate by the driving column 108, driving a driving bevel gear 110 to rotate when the driving belt 107 rotates, driving the driving bevel gear 110 to rotate a driven bevel gear 122, driving a rotating wheel 123 to rotate by the driven bevel gear 122, driving a cable 103 to rotate by the rotating wheel 123, enabling the wrapping cloth 106 to be wound on the cable 103, driving the cable 103 to slide on a driving base 125 to move forwards when the stirring wheel 109 rotates, and when the feed wheel 124 rotates, enabling the water-blocking powder in the feed hopper 112 to enter a material reducing port 126 through a feed pipe 113, and placing the water-blocking powder into the deformed wrapping cloth 106 through the inner guide plate 121 by the material reducing port 126, the wrapping cloth 106 is placed on the rotating cable 103, the wrapping cloth 106 is automatically wound on the cable 103 by the cable 103, after the cable 103 is driven by the dial wheel 109 to enter the inner pipe 217, the cable enters the extrusion ring 219 from the inner pipe 217, then the filling motor 102 stops rotating, the transmission electric cylinder 204 drives the L-shaped plate 205 to move, the L-shaped plate 205 drives the push plate 206 to move, the push plate 206 pushes the tablet storage frame 207 on the transmission plate 203 to cross the blocking piece 209, the tablet storage frame 207 crosses the blocking piece 209 and then is attached to the cable 103 in the blocking piece 209 through the tablet placing port 224, then the extrusion motor 210 is started, the extrusion motor 210 drives the extrusion gear 211 to rotate, the extrusion gear 211 drives the rotating teeth 213 to rotate, the rotating teeth 213 drive the inner rotating disc 214 to rotate on the rotating bearing 218, the rotating wheel 223 moves on the arc face formed by the arc-shaped plate starting block 215 and the arc-shaped plate terminal block 216, the arc face formed by the arc-shaped plate starting block 215 and the arc-shaped plate terminal block 216 gradually increases in arc face, the rotating wheel 223 pushes the connecting plate 222 to move, the connecting plate 222 drives the extrusion column 220 to extrude inwards, meanwhile, the connecting plate 222 extrudes the extrusion spring 221, the extrusion column 220 extrudes the pressing sheet 208 inside the blocking piece 209, the pressing sheet 208 is fastened on the cable 103 wound with the wrapping cloth 106, the wrapping cloth 106 is attached to the cable 103 more tightly, after the pressing sheet 208 is extruded, the triangular support 201 rotates reversely, the triangular support 201 drives the extrusion gear 211, the rotating teeth 213, the inner rotating disc 214 and the side support 212 to rotate reversely, the arc face formed by the arc-shaped plate starting point block 215 and the arc-shaped plate end point block 216 in the inner rotating disc 214 releases extrusion on the rotating wheel 223, the extrusion spring 221 pushes the extrusion column 220 to reset, the filling motor 102 is started, and the cable 103 is wrapped and extruded continuously.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims

1. The utility model provides a submarine cable production is with powder filling device that blocks water, is provided with preforming laminating device (2), its characterized in that including rolling up powder device (1) on rolling up powder device (1): the powder rolling device (1) comprises a workbench (101), a driving base (125) is arranged on the workbench (101), a filling motor (102) is arranged on the workbench (101), a driving assembly is arranged on an output shaft of the filling motor (102), the powder rolling device (1) further comprises a wrapping support (104), a wrapping cloth roll (105) is arranged on the wrapping support (104), wrapping cloth (106) is wound on the wrapping cloth roll (105), a deformation assembly is arranged on the workbench (101), and the wrapping cloth (106) deforms after passing through the deformation assembly; the tablet pressing and attaching device (2) comprises a triangular support (201) arranged on the workbench (101), a rotary extrusion assembly is arranged on the triangular support (201), the workbench (101) is also provided with a transfer bracket (202), the transfer bracket (202) is provided with a transfer plate (203), the transmission plate (203) is provided with a pressing sheet storage frame (207), a plurality of pressing sheets (208) are arranged in the pressing sheet storage frame (207), a transmission electric cylinder (204) is arranged on the side edge of the pressing sheet (208), an L-shaped plate (205) is arranged on the transmission electric cylinder (204), a pushing plate (206) is arranged on the L-shaped plate (205), a baffle plate (209) is arranged on the transmission bracket (202), the baffle plate (209) is arranged in the transmission plate (203), and the transmission plate (203) is connected with the rotary extrusion assembly;

the driving assembly comprises a driving column (108) arranged on an output shaft of a filling motor (102), the driving column (108) is rotatably arranged on a driving base (125), the driving column (108) is coaxially provided with a poking wheel (109), the poking wheel (109) is rotatably arranged on the driving base (125), the driving column (108) is provided with a transmission belt (107), one end of the transmission belt (107) is connected with the driving column (108), the other end of the transmission belt (107) is provided with a driving bevel gear (110), the driving base (125) is rotatably provided with a driven bevel gear (122), the driven bevel gear (122) is meshed with the driving bevel gear (110), the driven bevel gear (122) is coaxially rotatably provided with a rotating wheel (123), and the driving base (125) is provided with a cable (103), the cable (103) is simultaneously attached to the poking wheel (109) and the rotating wheel (123), one end of the driving column (108) is connected with the filling motor (102), the other end of the driving column (108) is provided with the feeding wheel (124), the workbench (101) is further provided with the feeding base (111), the feeding base (111) is provided with the feeding hopper (112), the feeding wheel (124) is rotatably installed inside the feeding hopper (112), the lower end of the feeding hopper (112) is provided with the feeding pipe (113), one end of the feeding pipe (113) is connected with the feeding hopper (112), and the other end of the feeding pipe (113) is connected with the deformation assembly;

deformation subassembly including installing direction base (114) on workstation (101), fixed side deflector (115) of being provided with on direction base (114), side deflector (115) go up to slide and be provided with regulation post (119), regulation post (119) go up to slide and be provided with sideslip deflector (118), sideslip deflector (118) and side deflector (115) between be provided with guide spring (116), sideslip deflector (118) go up to slide and be provided with direction fixed block (117), direction fixed block (117) lower extreme be provided with inside deflector (121), direction fixed block (117) on be provided with adjusting nut (120).

2. The water-blocking powder filling device for submarine cable production according to claim 1, wherein: the side guide plates (115), the guide springs (116) and the adjusting columns (119) are arranged in two groups in the same mode, the inner guide plate (121) is arranged between the two groups of side guide plates (115), and two ends of the transverse moving guide plate (118) are respectively connected with the two groups of adjusting columns (119).

3. The water-blocking powder filling device for submarine cable production according to claim 2, wherein: the rotation extrusion subassembly including installing inlayer pipe (217) on A-frame (201), inlayer pipe (217) on be provided with rolling bearing (218), rolling bearing (218) on be provided with side support (212), side support (212) inboard be provided with inside rolling disc (214), inside rolling disc (214) on be provided with rotation tooth (213), inside rolling disc (214) inside be provided with arc starting point piece (215) and arc terminal point piece (216), inlayer pipe (217) rear end be provided with extrusion ring (219), extrusion ring (219) on slide and be provided with extrusion post (220), extrusion post (220) upper end be provided with connection plate (222), connection plate (222) and extrusion ring (219 between be provided with extrusion spring (221), connection plate (222) on rotate and be provided with swivel block (223), the rotating wheel (223) slides on the inner rotating disk (214).

4. The water-blocking powder filling device for submarine cable production according to claim 3, wherein: an arc surface is arranged between the arc plate terminal block (216) and the arc plate starting block (215), the radian of the arc surface is gradually increased in the direction from the arc plate terminal block (216) to the arc plate starting block (215), and when the inner rotating disc (214) rotates, the rotating wheel (223) slides on the arc surface formed by the arc plate starting block (215) and the arc plate terminal block (216).

5. The water-blocking powder filling device for submarine cable production according to claim 4, wherein: the extrusion device is characterized in that three groups of extrusion columns (220), a connecting plate (222), extrusion springs (221) and rotating wheels (223) are arranged in the same mode, a pressing piece placing opening (224) is formed in each extrusion ring (219), and the pressing piece placing opening (224) is connected with the transfer plate (203).