CN116873645A - Electrolytic cell diaphragm transportation cutting system - Google Patents

Abstract

The application discloses an electrolytic cell diaphragm transportation cutting system which comprises an unreeling roller, a driving part, a cutting part, a butt joint part, a bracket bottom plate and a conveying part, wherein the driving part is used for driving the unreeling roller to rotate; the conveying part is used for receiving and conveying the unreeled diaphragm body and comprises a pair of clamping roller groups, a pair of long side plates and a pair of short side plates, wherein the pair of clamping roller groups are respectively arranged on the inner sides of the long side plates and the short side plates, and each clamping roller group consists of an upper conveying roller and a lower conveying roller; the cutting part comprises an ultrasonic cutter, and the ultrasonic cutter is used for cutting the diaphragm body in the conveying part; the butt joint part is arranged between the long side plate and the short side plate and is close to the unreeling roller.

Description

Electrolytic cell diaphragm transportation cutting system

Technical Field

The application relates to the technical field of diaphragm transportation, in particular to a diaphragm transportation cutting system of an electrolytic cell.

Background

The electrolytic water hydrogen production gas is a common hydrogen production method, and the electrolytic tank diaphragm is a main core material of the water electrolytic tank, is arranged between an anode and a cathode of the water electrolytic tank, and prevents the mixing of anode side gas and cathode side gas so as to ensure the purity of the gas.

In the patent application of the application with the prior patent publication number of CN113400372A, a cutting device for battery diaphragms is disclosed, the cutting device comprises a frame and a film pressing mechanism, wherein support plates are symmetrically arranged on the left side and the right side of the frame, a rotating shaft is rotationally connected to the support plates, battery diaphragm rolls are sleeved on the rotating shaft, a conveying mechanism for conveying the battery diaphragms is arranged on the front side of the support plates, a cutter frame with a U-shaped shape and a downward opening is arranged on the front side of the conveying mechanism, an air cylinder is arranged at the top of the cutter frame, a cutter is fixed at the end part of a piston rod of the air cylinder, a base plate is arranged below the cutter frame, a cutter groove matched with the cutter is formed in the base plate, and the film pressing mechanism is arranged on the base plate and used for pressing the battery diaphragms.

In the above technical scheme, utilize the diaphragm that the diaphragm of rotatory battery diaphragm roll was released to cut, but because the diaphragm itself texture is softer, when the diaphragm section of cutting off, when the extension to the cutter opposite side is to continue to transport, just by the rotatory unreeling of diaphragm roll be difficult to promote the normal transportation forward of disconnection end smoothly, the diaphragm can be constantly released and pile together, can't realize normal continuous cutting and carry, work efficiency is low.

Therefore, it is necessary to provide a diaphragm transporting and cutting system for an electrolytic cell, which can achieve the function of automatic continuous cutting.

Disclosure of Invention

The application aims to provide an electrolytic cell diaphragm transportation cutting system for solving the problems in the background technology.

In order to solve the technical problems, the application provides the following technical scheme: an electrolytic cell diaphragm transportation cutting system comprises an unreeling roller, a driving part, a cutting part, a butt joint part, a bracket bottom plate and a conveying part,

the driving part is used for driving the unreeling roller to rotate, a diaphragm reel body is arranged on the unreeling roller, a reeling paper tube is arranged on the inner side of the diaphragm reel body, and the reeling paper tube is sleeved on the outer side of the unreeling roller;

the conveying part is used for receiving and conveying the unreeled diaphragm body and comprises a pair of clamping roller groups, a pair of long side plates and a pair of short side plates, the pair of clamping roller groups are respectively arranged on the inner sides of the long side plates and the short side plates, the long side plates and the short side plates are both fixed on the upper side of the bracket bottom plate, and the clamping roller groups consist of an upper conveying roller and a lower conveying roller;

the cutting part comprises an ultrasonic cutter, and the ultrasonic cutter is used for cutting the diaphragm body in the conveying part;

the butt joint part is arranged between the long side plate and the short side plate and is close to the unreeling roller, the butt joint part comprises a pair of clamping blocks and a linear driving mechanism, the clamping surfaces of the clamping blocks are provided with rubber clamping plates, the pair of clamping blocks are used for clamping the cutting section of the diaphragm body, the linear driving mechanism is used for driving the clamping blocks and the cutting section of the diaphragm body to move into a clamping roller set, and the clamping roller set is used for clamping and transporting the diaphragm body;

the one end that the clamp splice is close to the unreeling roller has been seted up to the chamfer to one side, the chamfer surface to one side is provided with the cylinder, the cylinder promotes the clamp splice along the chamfer to one side for the clamp splice carries out the centre gripping with the section of diaphragm body.

In one embodiment, the butt joint portion further comprises a pair of concave frames, a plurality of spring shrinkage rods are arranged on the inner sides of the concave frames, the spring shrinkage rods are connected with the clamping blocks, a pair of T-shaped vertical rods are slidably matched between the pair of concave frames, the roller is rotatably connected between the pair of T-shaped vertical rods, a pair of guide rods are fixedly connected between the long side plates and the short side plates, and the guide rods penetrate through the concave frames and the T-shaped vertical rods and are slidably matched with the concave frames and the T-shaped vertical rods.

In one embodiment, the linear driving mechanism comprises a cylinder piece, wherein the cylinder piece is fixed on the outer side of the short side plate, and the driving end of the cylinder piece is connected with the T-shaped vertical rod.

In one embodiment, the rubber clamping plates extend to form extension plates near two ends of the long side plate, the length of the conveying roller positioned on the inner side of the long side plate is smaller than the distance between the extension plates at the two ends, the two ends of the conveying roller are provided with supporting frames, one side of each supporting frame is provided with a spring telescopic short rod, and the supporting frames limit the pair of conveying rollers to clamp and convey the diaphragm body;

the ultrasonic cutter is arranged between the extension plate and the support frame, and is driven to move by the linear driving assembly.

In one embodiment, the inside of unreeling roller sets up to cavity and keep away from the one end of drive portion and set up to the open end, the one end fixedly connected with fender dish that the unreeling roller is close to drive portion, the axial displacement of fender dish pair rolling fiber drum limits, square mouth has been seted up in the middle side of unreeling roller in the penetration, sliding fit has the extrusion strip in square mouth, the both ends of extrusion strip are provided with spring telescopic link one, spring telescopic link one is connected with the inner wall of unreeling roller, the inboard fixedly connected with trapezoidal voussoir strip of extrusion strip, the one end that is close to the open end direction of trapezoidal voussoir strip is provided with the truncated cone strip, the truncated cone strip is simultaneously with two trapezoidal voussoir strip sliding fit, the one end of truncated cone strip is provided with mobilizable push rod, push rod and the inner wall sliding fit of unreeling roller.

In one embodiment, the push rod extends to the outside of the open end of the unreeling roller, the head end of the push rod is provided with a ball, one end of the support bottom plate, which is far away from the driving part, is fixedly connected with a limiting side plate, an open limiting groove is formed in the inner side of the limiting side plate, one end of the push rod is clamped into the open limiting groove and is in sliding fit with the open limiting groove, and the driving part is used for driving the unreeling roller to transversely rotate.

In one embodiment, the middle side of the push rod is provided with an annular groove, the surface of the annular groove is provided with a spring piece, the inner side of the unreeling roller is fixedly connected with a limiting ring, the limiting ring is in sliding fit with the annular groove, and two ends of the spring piece are respectively connected with the annular groove and the limiting ring.

In one embodiment, the driving part comprises a machine part, the motor part is fixed at the lower end of the support base plate, a crown gear is driven at the upper end of the motor part, a cylindrical sleeve is rotated at the middle side of the crown gear, a round table is connected with the inner side of the cylindrical sleeve in a rotating mode, the round table is fixedly connected with the crown gear, a gear is connected with one side of the crown gear in a meshed mode, one side of the gear is in contact with the end face of the unreeling roller, and the gear drives the unreeling roller to rotate.

In one embodiment, the spline groove is formed in one end of the unreeling roller, which is close to the gear, in the spline groove, a spline I is in sliding fit, the gear is rotationally connected with the unreeling roller, one end of the spline I is fixedly connected with a driving rod, a straight spline groove is formed in the outer side surface of the driving rod, the driving rod penetrates through the gear and is in sliding fit with the gear, and the gear drives the driving rod to rotate through torque transmitted by the straight spline groove.

In one embodiment, the actuating lever runs through in the cylinder cover and clearance fit thereof, the end of running through of actuating lever is provided with electric telescopic cylinder, electric telescopic cylinder is rotationally connected with the actuating lever, the medial side fixedly connected with spline two of actuating lever, the inboard fixedly connected with fixed plate of cylinder cover, the fixed plate medial side runs through and is provided with the spline through-hole, spline two and spline through-hole looks adaptation.

Compared with the prior art, the application has the following beneficial effects: according to the application, the unreeled diaphragm body is transported by utilizing the pair of clamping roller sets, the pair of clamping roller sets are respectively arranged in the long side plate and the short side plate, so that the diaphragm body between the long side plate and the short side plate is tensioned and paved, the butt joint part and the ultrasonic cutter are arranged between the pair of clamping roller sets, the ultrasonic cutter is convenient for cutting the diaphragm body after cutting, a finished product with a corresponding size is cut on one side of the long side plate, the diaphragm body is transported to the next working procedure by the clamping roller sets, namely, the section of the diaphragm body connected with the diaphragm roll body is clamped by the pair of clamping blocks, then the clamping blocks are driven to move along with the section of the diaphragm body by the linear driving mechanism until the section is moved into the clamping roller sets in the long side plate, the diaphragm body is clamped again, and then the diaphragm body is cut into a corresponding size, the diaphragm body is repeatedly cut in sequence, the diaphragm body after cutting is prevented from being realized, normal transportation is realized under the pushing of unreeled, the diaphragm body after cutting is prevented, the stability of transportation is improved, the degree of automation is high, and the working efficiency is improved.

Drawings

The technical solution and other advantageous effects of the present application will be made apparent by the following detailed description of the specific embodiments of the present application with reference to the accompanying drawings.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present application;

FIG. 2 is a schematic front cross-sectional view of the present application;

FIG. 3 is an enlarged partial schematic view of area A of FIG. 2;

FIG. 4 is a partial schematic perspective view of the interface of the present application;

FIG. 5 is a partially enlarged schematic illustration of region B of FIG. 1;

FIG. 6 is a schematic perspective view of the transport roller of the present application;

FIG. 7 is a schematic cross-sectional view of an unwind roller of the present application;

FIG. 8 is an enlarged partial schematic view of region C of FIG. 7;

FIG. 9 is a schematic partial cross-sectional view of an unwind roller of the present application;

FIG. 10 is an enlarged partial schematic view of region E of FIG. 1;

FIG. 11 is a partially enlarged schematic illustration of region D of FIG. 7;

FIG. 12 is an enlarged partial schematic view of region F of FIG. 7;

FIG. 13 is a partial schematic perspective view of the drive section of the present application;

in the figure: 1. a driving section; 101. a machine element; 102. a crown gear; 103. a cylindrical sleeve; 104. round bench; 105. a gear; 106. spline grooves; 107. spline one; 108. a driving rod; 109. an electric telescopic cylinder; 110. a spline II; 111. an annular groove; 112. a spring member; 113. a limiting ring; 114. a spline through hole; 115. a fixing plate;

2. an unreeling roller; 201. a baffle disc; 202. extruding the strip; 203. a first spring telescopic rod; 204. trapezoidal wedge bars; 205. a truncated cone-shaped strip; 206. a push rod; 207. a ball;

3. a butt joint part; 301. clamping blocks; 302. a roller; 303. a concave frame; 304. a spring retraction lever; 305. a T-shaped vertical rod; 306. a rubber clamping plate; 307. an extension plate;

5. a conveying section; 501. a transport roller; 502. a long side plate; 503. a short side plate; 504. a guide rod; 505. a support frame;

6. a diaphragm roll body; 601. winding the paper tube;

7. a diaphragm body;

8. an ultrasonic cutter;

10. a bracket base plate; 11. a cylinder member; 12. a limit side plate; 13. and an opening limit groove.

Detailed Description

The following disclosure provides many different embodiments, or examples, for implementing different features of the application. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the application. Furthermore, the present application may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present application provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.

Referring to fig. 1-13, the present application provides the following technical solutions: an electrolytic cell diaphragm transportation cutting system comprises an unreeling roller 2, a driving part 1, a cutting part, a butt joint part 3, a bracket bottom plate 10 and a conveying part 5,

the driving part 1 is used for driving the unreeling roller 2 to rotate, the unreeling roller 2 is provided with a diaphragm reel body 6, the inner side of the diaphragm reel body 6 is provided with a reeling paper cylinder 601, and the reeling paper cylinder 601 is sleeved on the outer side of the unreeling roller 2;

the conveying part 5 is used for receiving and conveying the unreeled diaphragm body 7, the conveying part 5 comprises a pair of clamping roller groups, a pair of long side plates 502 and a pair of short side plates 503, the pair of clamping roller groups are respectively arranged on the inner sides of the long side plates 502 and the short side plates 503, the long side plates 502 and the short side plates 503 are both fixed on the upper side of the bracket bottom plate 10, and the clamping roller groups consist of an upper conveying roller 501 and a lower conveying roller 501;

the cutting part comprises an ultrasonic cutter 8, wherein the ultrasonic cutter 8 is used for cutting the diaphragm body 7 in the conveying part 5;

the butt joint part 3 is arranged between the long side plate 502 and the short side plate 503 and is close to the unreeling roller 2, the butt joint part 3 comprises a pair of clamping blocks 301 and a linear driving mechanism, a rubber clamping plate 306 is arranged on the clamping surface of each clamping block 301, the pair of clamping blocks 301 are used for clamping the cutting section of the diaphragm body 7, the linear driving mechanism is used for driving the clamping blocks 301 and the cutting section of the diaphragm body 7 to move into a clamping roller set, and the clamping roller set is used for clamping and transporting the diaphragm body 7;

the inclined chamfer is arranged at one end of the clamping block 301 close to the unreeling roller 2, a roller 302 is arranged on the surface of the inclined chamfer, and the roller 302 pushes the clamping block 301 along the inclined chamfer, so that the clamping block 301 clamps the section of the diaphragm body 7.

The inner side of the diaphragm coil body 6 is provided with a coil paper tube 601, the diaphragm body 7 is coiled on the outer side of the diaphragm coil body, firstly, a worker sleeves the coil paper tube 601 on the coil roller 2, the diaphragm coil body 6 is driven to rotate for coil discharging through interference fit between the coil roller 2 and the coil paper tube 601, after coil discharging is finished, the empty coil paper tube 601 is dismounted, in the coil discharging process, the diaphragm body 7 discharged to the conveying part 5 is cut by the cutting part, thereby the diaphragm coil body 7 is cut into corresponding size and is continuously transported by the conveying part 5, in particular, the coiled diaphragm body 7 is transported by a pair of clamping roller groups, the pair of clamping roller groups are respectively arranged in the long side plate 502 and the short side plate 503, thereby tensioning and paving the diaphragm body 7 between the two, the abutting part 3 and the ultrasonic cutter 8 are respectively arranged between the pair of clamping roller groups, so that the ultrasonic cutter 8 is convenient for cutting, the cut-off diaphragm body 7 is a finished product with a corresponding size on one side of the long side plate 502, the finished product is transported to the next process by the clamping roller set, the section of the diaphragm body 7 on one side of the short side plate 503, namely, the section of the diaphragm body 7 connected with the diaphragm coil body 6 is clamped by a pair of clamping blocks 301, then the clamping blocks 301 are driven to move along the section of the diaphragm body 7 by a linear driving mechanism, such as a driving piece of an air cylinder and the like, until the section is moved into the clamping roller set in the long side plate 502, the clamping is carried out again, the diaphragm body 7 is cut into a corresponding size again, the continuous cutting and transportation of the diaphragm body 7 are realized repeatedly in sequence, the normal transportation of the cut-off diaphragm body 7 can not be realized only by the pushing of unreeling, the transportation stability is improved, and the automation degree is high, the working efficiency is improved;

further, the rubber clamping plate 306 is further arranged at the clamping position of the clamping block 301, friction force is further increased, damage to the surface of the diaphragm body 7 is avoided, practicability is high, an inclined chamfer is arranged on the outer side of the clamping block 301, the clamping block 301 is pushed by utilizing the roller 302 along the inclined chamfer, and the pair of clamping blocks 301 move towards the center, so that the diaphragm body 7 is clamped.

The butt joint part 3 further comprises a pair of concave frames 303, a plurality of spring contraction rods 304 are arranged on the inner sides of the concave frames 303, the spring contraction rods 304 are connected with the clamping blocks 301, a pair of T-shaped vertical rods 305 are slidably matched between the pair of concave frames 303, the roller 302 is rotatably connected between the pair of T-shaped vertical rods 305, a pair of guide rods 504 are fixedly connected between the long side plates 502 and the short side plates 503, and the guide rods 504 penetrate through the concave frames 303 and the T-shaped vertical rods 305 and are slidably matched with the same.

Specifically, a plurality of spring contraction rods 304 are arranged, so that the clamping blocks 301 are far away from the transported diaphragm body 7 in an initial state, and normal transportation of the diaphragm body 7 is not affected; the guide rod 504 is used for penetrating the concave frame 303 and the T-shaped vertical rod 305, so that the concave frame 303 and the T-shaped vertical rod 305 can only move along the guide rod 504, when the T-shaped vertical rod 305 drives a pair of rollers 302 to move (as shown in fig. 3), the rollers 302 push the clamping blocks 301, so that the clamping blocks 301 move towards the diaphragm body 7 under the guide action of a plurality of spring shrinkage rods 304 until the diaphragm body is clamped, the T-shaped vertical rod 305 continues to move at the moment after clamping, and the concave frame 303 is directly pushed to move integrally, namely, the section of the clamped diaphragm body 7 can be driven to move into the clamping roller group to complete the butt joint, that is, the clamping blocks 301 can clamp and push the diaphragm body 7 to move only by moving the T-shaped vertical rod 305 to complete the butt joint function, the structural design is simple and reasonable, and the cost is saved;

it should be noted that, in the sliding fit between the concave frame 303 and the guide rod 504, a corresponding friction force is set, so that when the roller 302 pushes the clamping block 301, the concave frame 303 is kept motionless and not easily pushed by the roller 302, and the clamping block 301 is pushed to move after the clamping block 301 is clamped.

The linear driving mechanism comprises a cylinder piece 11, the cylinder piece 11 is fixed on the outer side of the short side plate 503, and the driving end of the cylinder piece 11 is connected with a T-shaped vertical rod 305.

Specifically, the cylinder piece 11 pushes the T-shaped vertical rod 305, in the initial state, the cylinder piece 11 controls the T-shaped vertical rod 305 to be in the concave frame 303, the concave frame 303 is pushed to be close to the short side plate 503, the clamping block 301 at the moment is far away from the diaphragm body 7 under the action of the spring shrinkage rod 304, then, after the diaphragm body 7 is cut, the cylinder piece 11 drives the T-shaped vertical rod 305 to move towards the long side plate 502, and therefore butt joint can be achieved at the fracture of the diaphragm body 7, and cost is saved.

The rubber clamping plate 306 extends to be close to the two ends of the long side plate 502 to form an extension plate 307, the length of the transport roller 501 positioned on the inner side of the long side plate 502 is smaller than the distance between the extension plates 307 at the two ends, the two ends of the transport roller 501 are provided with supporting frames 505, one side of each supporting frame 505 is provided with a spring telescopic short rod, and the supporting frames 505 limit the pair of transport rollers 501 to clamp and transport the diaphragm body 7;

the ultrasonic cutter 8 is arranged between the extension plate 307 and the supporting frame 505, and the ultrasonic cutter 8 is driven to move by the linear driving assembly.

Because the diaphragm body 7 is soft, in order to ensure that the clamping roller set can stably receive the section opening clamped and moved by the rubber clamping plate 306, the extension plates 307 are arranged, the extension plates 307 clamp the two ends of the section opening, so that the section opening is tensioned and paved between the two extension plates 307, the clamping roller set clamps the diaphragm body when the diaphragm body is convenient to butt joint, specifically, a linear driving assembly such as a screw rod screw mechanism, an air cylinder or a hydraulic cylinder is utilized to drive the ultrasonic cutter 8 to move, so that the diaphragm body 7 between the extension plates 307 and the supporting frame 505 is cut off, after the diaphragm body is cut off, the section opening of the diaphragm body 7 is clamped by the rubber clamping plate 306 and the extension plates 307 (as shown in fig. 6), the corresponding clamping roller set is matched with the extension plates 307, the length of the conveying rollers 501 is smaller than the distance between the extension plates 307 at two sides, and the upper conveying roller 501 and the lower conveying rollers 501 are mutually pressed towards the center by utilizing a spring telescopic short rod, so that the clamping stability is further improved, and when the section opening part tensioned by the extension plates 307 moves between the conveying rollers 501, the conveying rollers are clamped by the conveying rollers 501, and the conveying rollers (can be rotated by a motor assembly), the conveying blocks 301 are driven to reset, and the diaphragm body 301 can be continuously clamped, and the diaphragm body 301 can be reset, and the diaphragm body 7 can be continuously clamped and released, and the diaphragm body is realized;

through the arrangement of the extension plate 307, when the clamping roller sets are in butt joint, the section opening can be accurately clamped, and the butt joint stability is improved.

The inside of the unreeling roller 2 is hollow, one end far away from the driving part 1 is provided with an opening end, one end, close to the driving part 1, of the unreeling roller 2 is fixedly connected with a baffle disc 201, the baffle disc 201 limits the axial displacement of the winding paper tube 601, a square opening is formed in the middle side of the unreeling roller 2 in a penetrating mode, an extrusion strip 202 is slidably matched in the square opening, a first spring expansion rod 203 is arranged at two ends of the extrusion strip 202, the first spring expansion rod 203 is connected with the inner wall of the unreeling roller 2, a trapezoidal wedge strip 204 is fixedly connected with the inner side of the extrusion strip 202, a flat-head conical strip 205 is arranged in the direction close to the opening end of the trapezoidal wedge strip 204, the flat-head conical strip 205 is simultaneously in sliding fit with the two trapezoidal wedge strips 204, one end of the flat-head conical strip 205 is provided with a movable push rod 206, and the push rod 206 is in sliding fit with the inner wall of the unreeling roller 2.

The staff cup joints diaphragm roll body 6 on unreeling roller 2 at first, it is spacing with fender dish 201 contact, in order to further make things convenient for the stability of unreeling roller 2 after cup jointing, and make things convenient for the staff to install and dismantle, can set up to clearance fit between a rolling fiber drum 601 and the unreeling roller 2, then through the removal of push rod 206, promote the flat head toper strip 205 and remove, extrusion strip 202 is connected with spring telescopic link one 203, in initial condition, extrusion strip 202 withdraws unreeling roller 2 inside, under the promotion of flat head toper strip 205, make trapezoidal voussoir 204 remove along its inclined plane, thereby promote extrusion strip 202 stretch out outside square mouth, support fixedly to the rolling fiber drum 601 of cup jointing in unreeling roller 2 outside, thereby stability when unreeling is improved.

The push rod 206 extends to the outside of the open end of the unreeling roller 2, the head end of the push rod 206 is provided with a ball 207, one end of the bracket bottom plate 10 away from the driving part 1 is fixedly connected with a limiting side plate 12, the inner side of the limiting side plate 12 is provided with an opening limiting groove 13, one end of the push rod 206 is clamped into the opening limiting groove 13 and is in sliding fit with the opening limiting groove 13, and the driving part 1 is used for driving the unreeling roller 2 to transversely rotate.

The driving part 1 can drive the whole unreeling roller 2 to rotate by taking the driving part 1 as an axis, a ball 207 is arranged at one end of a push rod 206, when the diaphragm reel body 6 needs to be installed, the unreeling roller 2 is rotated out and away from the limit side plate 12, so that a worker can conveniently sleeve the diaphragm reel body 6 from the other end of the unreeling roller 2, after the diaphragm reel body is installed, the diaphragm reel body is rotated and reset, when the push rod 206 is clamped into the open limit groove 13, the ball 207 and the inner side surface roll mutually, the push rod 206 is extruded by the open limit groove 13 and is contracted into the unreeling roller 2, so that the flat conical strip 205 is pushed, the extrusion strip 202 is driven to move, the diaphragm reel body 6 is automatically supported and fixed on the unreeling roller 2, and the push rod 206 and the ball 207 at the moment also move to the end of the open limit groove 13, so that unreeling work can be started, and as one end of the push rod 206 is clamped in the open limit groove 13, one end of the unreeling roller 2 is effectively flattened, axis deviation is avoided, and the service life is prolonged;

when unreeling is finished and the winding paper cylinder 601 needs to be taken down, the unreeling roller 2 is rotated in the same way, the opening limiting groove 13 is moved out, at the moment, the push rod 206 loses the limitation of the opening limiting groove 13, under the reset action of the first spring telescopic rod 203, the extrusion strip 202 is retracted into the winding paper cylinder 2, the fixation of the winding paper cylinder 601 is automatically released, and a worker can easily take down the winding paper cylinder to finish discharging;

that is, only through the unwinding roller 2 rotating into or out of the opening limit groove 13, the fixing and the releasing of the winding paper tube 601 can be synchronously realized while the staff installs and unloads, the automation degree is high, the control of the extrusion strip 202 does not need an additional driving piece, and the cost is saved.

The middle side of the push rod 206 is provided with an annular groove 111, the surface of the annular groove 111 is provided with a spring piece 112, the inner side of the unreeling roller 2 is fixedly connected with a limiting ring 113, the limiting ring 113 is in sliding fit with the annular groove 111, and two ends of the spring piece 112 are respectively connected with the annular groove 111 and the limiting ring 113.

In order to limit the push rod 206 not to separate from the unreeling roller 2 and ensure automatic reset when the push rod 206 moves out of the opening limit groove 13, an annular groove 111 is formed in the middle side of the push rod, a limit ring 113 is arranged in the groove, the limit ring 113 is fixed with the unreeling roller 2, the push rod 206 is limited not to separate from the unreeling roller 2, and a spring piece 112 is arranged, so that the push rod 206 can be quickly reset when moving out of the opening limit groove 13, and the extrusion strip 202 can be conveniently taken in the unreeling roller 2.

The driving part 1 comprises a motor part 101, the motor part 101 is fixed at the lower end of the bracket bottom plate 10, the upper end of the motor part 101 is driven by a crown gear 102, the middle side of the crown gear 102 is rotated by a cylindrical sleeve 103, the inner side of the cylindrical sleeve 103 is rotationally connected with a round table 104, the round table 104 is fixedly connected with the crown gear 102, one side of the crown gear 102 is in meshed connection with a gear 105, one side of the gear 105 is contacted with the end surface of the unreeling roller 2, and the gear 105 drives the unreeling roller 2 to rotate.

When the unreeling roller 2 needs to be driven to rotate for unreeling, the crown gear 102 is driven to rotate by the electric machine part 101, the crown gear 102 drives the gear 105 to rotate by meshing, and the gear 105 can drive the unreeling roller 2 to rotate.

A spline groove 106 is formed in one end, close to the gear 105, of the unreeling roller 2, a spline one 107 is slidably matched with the spline groove 106, the gear 105 is rotationally connected with the unreeling roller 2, one end of the spline one 107 is fixedly connected with a driving rod 108, a straight spline groove is formed in the outer side surface of the driving rod 108, the driving rod 108 penetrates through the gear 105 and is slidably matched with the gear 105, and the gear 105 drives the driving rod 108 to rotate through torque transmitted by the straight spline groove.

Specifically, when the gear 105 rotates, the surface of the driving rod 108 is provided with a straight key groove, the gear 105 transmits torque through the straight key groove to drive the driving rod 108 to rotate, the driving rod 108 can drive the spline one 107 to rotate, the unreeling roller 2 is driven to rotate through spline connection, and the driving rod 108 can drive the spline one 107 to axially move in the spline groove 106, so that the rotation driving of the unreeling roller 2 is not affected.

The actuating lever 108 runs through in the cylinder cover 103 and with its clearance fit, and the running-through end of actuating lever 108 is provided with electronic flexible jar 109, and electronic flexible jar 109 is rotatory with actuating lever 108 and is connected, and the medial side fixedly connected with spline two 110 of actuating lever 108, the inboard fixedly connected with fixed plate 115 of cylinder cover 103, fixed plate 115 medial side run through and are provided with spline through-hole 114, spline two 110 and spline through-hole 114 looks adaptation.

Specifically, the driving rod 108 is driven to axially move by the electric telescopic cylinder 109, so that the spline two 110 in the driving is driven to move, when the spline two 110 is clamped into the spline through hole 114, the spline through hole 114 is connected with the fixed plate 115 and the cylindrical sleeve 103, the cylindrical sleeve 103 is only in rotational connection with the round table 104 and the crown gear 102, and when the crown gear 102 continues to rotate, the driving rod 108 is limited and can not rotate, namely, the gear 105 can not rotate, and at the moment, the crown gear 102 is equivalent to being connected with the cylindrical sleeve 103 into a whole, so that the crown gear 102 continues to rotate, the cylindrical sleeve 103 and the unreeling roller 2 can be directly driven to rotate together with the axis of the cylindrical sleeve 103, and the unreeling roller 2 is rotated out of the opening limiting groove 13, so that the mounting and the discharging work can be realized;

that is, only through whether the second spline 110 is clamped with the spline through hole 114, the object driven by the crown gear 102 can be switched, and the effect is achieved that when the crown gear 102 drives the gear 105, the driving rod 108, the first spline 107 and the unreeling roller 2 to rotate, the diaphragm coil body 6 needs to be disassembled and installed again after unreeling is finished, at the moment, only the driving rod 108 and the second spline 110 need to be driven to move through the electric telescopic cylinder 109 and clamped into the spline through hole 114, then the electric machine part 101 drives the crown gear 102 again, the cylinder sleeve 103 and the unreeling roller 2 can be directly driven to rotate transversely, so that the disassembly and the installation of workers are facilitated, the whole process accords with the working step sequence of the application, only a single motor is used, and the cost is saved.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically connected, electrically connected or can be communicated with each other; may be directly connected, may be in communication with the interior of two elements or may be in interaction with two elements. The meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

The foregoing describes in detail a diaphragm transporting and cutting system for an electrolytic cell provided by the embodiment of the present application, and specific examples are applied to illustrate the principle and implementation of the present application, and the description of the foregoing examples is only used to help understand the technical scheme and core idea of the present application; those of ordinary skill in the art will appreciate that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (10)

1. The utility model provides an electrolysis trough diaphragm transportation cutting system, includes unreeling roller (2), drive division (1), cuts portion, butt joint portion (3), support bottom plate (10) and conveying portion (5), its characterized in that:

the driving part (1) is used for driving the unreeling roller (2) to rotate, a diaphragm reel body (6) is arranged on the unreeling roller (2), a reeling paper cylinder (601) is arranged on the inner side of the diaphragm reel body (6), and the reeling paper cylinder (601) is sleeved on the outer side of the unreeling roller (2);

the conveying part (5) is used for receiving and conveying the unreeled diaphragm body (7), the conveying part (5) comprises a pair of clamping roller groups, a pair of long side plates (502) and a pair of short side plates (503), the pair of clamping roller groups are respectively arranged on the inner sides of the long side plates (502) and the short side plates (503), the long side plates (502) and the short side plates (503) are both fixed on the upper side of the bracket bottom plate (10), and the clamping roller groups consist of an upper conveying roller and a lower conveying roller (501);

the cutting part comprises an ultrasonic cutter (8), and the ultrasonic cutter (8) is used for cutting the diaphragm body (7) in the conveying part (5);

the butt joint part (3) is arranged between the long side plate (502) and the short side plate (503) and is close to the unreeling roller (2), the butt joint part (3) comprises a pair of clamping blocks (301) and a linear driving mechanism, rubber clamping plates (306) are arranged on clamping surfaces of the clamping blocks (301), the pair of clamping blocks (301) are used for clamping a cutting section of the diaphragm body (7), the linear driving mechanism is used for driving the clamping blocks (301) and the cutting section of the diaphragm body (7) to move into a clamping roller set, and the clamping roller set is used for clamping and transporting the diaphragm body (7);

the inclined chamfer is formed in one end, close to the unreeling roller (2), of the clamping block (301), a roller (302) is arranged on the surface of the inclined chamfer, and the roller (302) pushes the clamping block (301) along the inclined chamfer, so that the clamping block (301) clamps the section of the diaphragm body (7).

2. An electrolytic cell membrane transportation cutting system according to claim 1, wherein: the butt joint portion (3) further comprises a pair of concave frames (303), a plurality of spring shrinkage rods (304) are arranged on the inner sides of the concave frames (303), the spring shrinkage rods (304) are connected with the clamping blocks (301), a pair of T-shaped vertical rods (305) are slidably matched between the pair of concave frames (303), the roller (302) is rotationally connected between the pair of T-shaped vertical rods (305), a pair of guide rods (504) are fixedly connected between the long side plates (502) and the short side plates (503), and the guide rods (504) penetrate through the concave frames (303) and the T-shaped vertical rods (305) and are slidably matched with the concave frames.

3. An electrolytic cell membrane transportation cutting system according to claim 2, wherein: the linear driving mechanism comprises a cylinder piece (11), wherein the cylinder piece (11) is fixed on the outer side of the short side plate (503), and the driving end of the cylinder piece (11) is connected with a T-shaped vertical rod (305).

4. An electrolytic cell membrane transportation cutting system according to claim 1, wherein: the rubber clamping plates (306) are close to two ends of the long side plates (502) and extend to form extension plates (307), the length of a conveying roller (501) positioned on the inner side of the long side plates (502) is smaller than the distance between the extension plates (307) at the two ends, supporting frames (505) are arranged at two ends of the conveying roller (501), a spring telescopic short rod is arranged on one side of each supporting frame (505), and the supporting frames (505) limit the pair of conveying rollers (501) to clamp and convey the diaphragm body (7);

the ultrasonic cutter (8) is arranged between the extension plate (307) and the supporting frame (505), and the ultrasonic cutter (8) is driven to move by the linear driving assembly.

5. An electrolytic cell membrane transportation cutting system according to claim 1, wherein: the inside of unreeling roller (2) sets up to cavity and keep away from the one end setting of drive division (1) and be the open end, the one end fixedly connected with fender dish (201) that unreels roller (2) and be close to drive division (1), the axial displacement of fender dish (201) to rolling fiber drum (601) is restricted, square mouth has been seted up in the downside of unreeling roller (2), sliding fit has extrusion strip (202) in square mouth, the both ends of extrusion strip (202) are provided with spring telescopic link one (203), spring telescopic link one (203) are connected with the inner wall of unreeling roller (2), the inboard fixedly connected with trapezoidal voussoir strip (204) of extrusion strip (202), the one end that is close to the open end direction of trapezoidal voussoir strip (204) is provided with flat head toper strip (205), flat head toper strip (205) simultaneously with two trapezoidal voussoir strips (204) sliding fit, flat head toper strip (205) one end is provided with mobilizable push rod (206), push rod (206) and the inner wall of unreeling roller (2).

6. An electrolytic cell membrane transport cutting system according to claim 5, wherein: the utility model discloses a coil unwinding device, including support bottom plate (10), push rod (206), drive portion (1), opening limiting groove (13) have been seted up to the inboard of limiting side plate (12), the one end card of push rod (206) goes into in opening limiting groove (13) and rather than sliding fit, the head end of push rod (206) is provided with ball (207), the one end fixedly connected with limiting side plate (12) of drive portion (1) are kept away from to support bottom plate (10), drive portion (1) are used for driving the horizontal rotation of coil unwinding roller (2).

7. An electrolytic cell membrane transport cutting system according to claim 6, wherein: annular groove (111) have been seted up to the mid-side of push rod (206), the surface of annular groove (111) is provided with spring (112), the inboard fixedly connected with spacing ring (113) of unreeling roller (2), spacing ring (113) and annular groove (111) sliding fit, the both ends of spring (112) are connected with annular groove (111) and spacing ring (113) respectively.

8. An electrolytic cell membrane transportation cutting system according to claim 1, wherein: the driving part (1) comprises a machine part (101), the motor part (101) is fixed at the lower end of the support base plate (10), a crown gear (102) is driven at the upper end of the motor part (101), a cylindrical sleeve (103) is rotated at the middle side of the crown gear (102), a round table (104) is connected with the inner side of the cylindrical sleeve (103) in a rotating mode, the round table (104) is fixedly connected with the crown gear (102), a gear (105) is connected with one side of the crown gear (102) in a meshed mode, one side of the gear (105) is in contact with the end face of the unreeling roller (2), and the gear (105) drives the unreeling roller (2) to rotate.

9. An electrolytic cell membrane transportation cutting system according to claim 8, wherein: the novel rolling machine is characterized in that spline grooves (106) are formed in one end of the unreeling roller (2) close to the gear (105), spline one (107) is slidably matched in the spline grooves (106), the gear (105) is rotationally connected with the unreeling roller (2), a driving rod (108) is fixedly connected with one end of the spline one (107), straight spline grooves are formed in the outer side surface of the driving rod (108), the driving rod (108) penetrates through the gear (105) and is in sliding fit with the gear, and the gear (105) drives the driving rod (108) to rotate through torque transmitted by the straight spline grooves.

10. An electrolytic cell membrane transportation cutting system according to claim 9, wherein: the utility model discloses a motor drive device, including cylinder cover (103), actuating lever (108), spline (115), spline through-hole (114) are provided with in running through in cylinder cover (103) and rather than clearance fit in actuating lever (108), electric telescopic jar (109) are connected for rotating with actuating lever (108), the medial side fixedly connected with spline (110) of actuating lever (108), inboard fixedly connected with fixed plate (115) of cylinder cover (103), spline through-hole (114) are run through to fixed plate (115) medial side, spline (110) and spline through-hole (114) looks adaptation.