CN116944580B - Plate body fixing device for cutting anode plate - Google Patents

Abstract

The invention belongs to the technical field of anode plate cutting, in particular to a plate body fixing device for anode plate cutting, which comprises a base, a bracket fixed on the surface of the base, a cutting mechanism arranged between the bracket and the base, and a moving mechanism arranged between the cutting mechanism and the bracket.

Description

Plate body fixing device for cutting anode plate

Technical Field

The invention belongs to the technical field of anode plate cutting, and particularly relates to a plate body fixing device for anode plate cutting.

Background

The anode plate is a core component of the electric dust collector, and the acceptance standard of the anode plate is as follows: the electrolytic anode plate is formed by sequentially welding anode lugs, transition rows and a main plate, and is characterized in that the transition rows are formed by mixing tin, silver, cobalt, silicon, antimony and lead according to a certain proportion, the main plate is formed by mixing calcium, aluminum, silver, tin and lead according to a certain proportion, and trace rare earth elements are added into the main plate to be manufactured by respectively dissolving, mixing, casting, cold pressing, shearing and stamping, so that the anode plate is required to be cut in the processing process, however, the fixing effect of the existing cutting device on the anode plate is poor, displacement slipping phenomenon of the anode plate is easy to occur in the cutting process, the cutting effect is poor, and the quality of a finished product is affected.

In order to solve the above problems, the present application provides a plate body fixing device for cutting an anode plate.

Disclosure of Invention

To solve the problems set forth in the background art. The application provides a plate body fixing device for cutting an anode plate, which has the characteristics of extruding and fixing the anode plate body, avoiding displacement and slipping of the anode plate body in the cutting process, ensuring better fixing effect on the anode plate body and improving the quality of a finished product after cutting.

In order to achieve the above purpose, the present application provides the following technical solutions: the plate body fixing device for cutting the anode plate comprises a base, a bracket fixed on the surface of the base, a cutting mechanism arranged between the bracket and the base, a moving mechanism arranged between the cutting mechanism and the bracket, and a fixing mechanism arranged on the surface of the base;

the fixing mechanism comprises a driving assembly, a positioning assembly, an extrusion assembly, a fixing assembly and a transmission assembly, wherein the driving assembly is installed in the base, the positioning assembly is installed on one side, close to the cutting mechanism, of the surface of the base, the extrusion assembly is installed on one side, far away from the positioning assembly, of the surface of the base, the fixing assembly is symmetrically arranged above the extrusion assembly, and the transmission assembly is installed in the base.

As a plate body fixing device for cutting an anode plate, the driving assembly comprises a rotating shaft, worm sections, worm wheels, a hand wheel, a rotating rod and a bevel gear A, wherein two ends of the rotating shaft are rotatably connected to the inside of the base through bearings A, the worm sections are arranged on two sides of the surface of the rotating shaft, the worm wheels are meshed and connected to the surfaces of two groups of worm sections, the rotating rod is fixed to the inside of the worm wheel, the bottom end of the rotating rod is rotatably connected to the inside of the base through bearings B, the bevel gear A is arranged above the worm wheel, the bevel gear A is fixed to the surface of the rotating rod, one end of the rotating shaft penetrates through the inside of the base and extends to one side of the base, and is fixedly connected with the hand wheel arranged on one side of the base.

Preferably, as a plate body fixing device for cutting the anode plate, a driving cavity is formed in one side, close to the worm section and the worm wheel, of the base.

As a plate body fixing device for cutting an anode plate, the positioning assembly comprises a threaded rod A, a threaded block A positioning push plate, a scale and a graduated scale, wherein one side, close to two groups of bevel gears A, of the inside of a base is provided with the threaded rod A, two ends of the threaded rod A are respectively connected with the inside of the base in a rotating mode through a bearing C, the surfaces of the two groups of threaded rods A are respectively connected with the threaded block A in a threaded mode, one side, close to the threaded block A, of the inside of the base is provided with a moving groove A, the threaded block A is in sliding connection with the base through the moving groove A, one side, close to the two groups of positioning push plates, of the upper side of the base is provided with the positioning push plate, the lower surface of the positioning push plate is fixedly connected with the surfaces of the two groups of the threaded blocks A, two sides of the positioning push plate are symmetrically fixedly provided with the graduated scale, and one side, close to the surfaces of the base are fixedly provided with the graduated scale and the graduated scale is attached to the graduated scale.

As a plate body fixing device for cutting an anode plate, the extrusion assembly comprises a threaded rod B, a threaded block B and an extrusion baffle, wherein one ends, close to the two groups of bevel gears A, of the threaded rod A are respectively provided with the threaded rod B, two ends of the threaded rod B are respectively connected with the inside of a base in a rotating mode through a bearing D, the surfaces of the two groups of threaded rods B are respectively connected with the threaded block B in a threaded mode, one side, close to the threaded block B, of the inside of the base is provided with a movable groove B, the threaded block B is in sliding connection with the base through the movable groove B, one side, close to the two groups of threaded blocks B, of the upper side of the base is provided with the extrusion baffle, and the lower surface of the extrusion baffle is fixedly connected with the surfaces of the two groups of the threaded blocks B.

As a plate body fixing device for cutting an anode plate, preferably, one ends of two groups of threaded rods B far away from two groups of threaded rods A penetrate through the base, extend to one side of the base respectively, are fixedly connected with two groups of chain wheels arranged on one side of the base respectively, and are connected with chains.

The fixing component comprises a screw rod, a pressing plate, sliding rods, springs, a transmission gear, a single toothed plate and a fixing plate, wherein the screw rod is respectively connected with the inside of a positioning push plate and the inside of an extrusion baffle plate in a rotating mode through a bearing E, the pressing plates with T-shaped structures are arranged above the positioning push plate and the extrusion baffle plate and are in threaded connection with the screw rod, the fixing plate is arranged below the pressing plates, two groups of sliding rods are fixed on the upper surface of the fixing plate, the springs are wound on the surfaces of the sliding rods, two ends of the springs are respectively fixed between the pressing plate and the fixing plate, the bottom end of the screw rod penetrates through the surface of the positioning push plate and extends to the lower side of the positioning push plate and is fixedly connected with the transmission gear arranged below the positioning push plate, a yield groove is formed in one side, close to the transmission gear, the single toothed plate is arranged inside the base, and the single toothed plate is connected with the transmission gear and meshed with the single toothed plate inside the base.

As a plate body fixing device for cutting an anode plate, preferably, one end of a screw rod, which is far away from a transmission gear, is fixedly provided with a limiting ring A, two sides of the screw rod are symmetrically provided with limiting rods, two groups of limiting rods are fixed on the surface of a positioning push plate, one side, which is close to the two groups of limiting rods, of the inside of a pressing plate is provided with a through groove A, the pressing plate and the two groups of limiting rods are in sliding connection through the through groove A, one end, which is far away from the positioning push plate, of the two groups of limiting rods is fixedly provided with a limiting ring B, one side, which is close to the two groups of sliding rods, of the inside of the pressing plate is provided with a through groove B, the sliding rods and the pressing plate are in sliding connection through the through groove B, and one ends, which are close to the two groups of sliding rods, of the upper part of the pressing plate are provided with a limiting ring C.

As a plate body fixing device for cutting an anode plate, the invention is preferable, the transmission assembly comprises a supporting plate, a transmission shaft, a bevel gear B, a single-sided clamping ring A, a bevel gear C, a single-sided clamping ring B, a double-sided clamping ring, a baffle ring and a pushing piece, wherein the supporting plate is symmetrically arranged on two sides of the bevel gear A, the supporting plate is fixed in the base, the transmission shaft is arranged above the bevel gear A, sliding grooves A matched with the transmission shaft are respectively arranged in the two groups of supporting plates, the transmission shaft is in sliding connection with the supporting plate through the sliding grooves A, the adjacent sides of the two groups of supporting plates are respectively connected with the bevel gear B and the bevel gear C through bearings F in a rotating way, the bevel gear B and the bevel gear C are respectively in meshed connection with the bevel gear A, the double-sided latch ring is arranged between the bevel gear B and the bevel gear C, the double-sided latch ring is fixed on the surface of the transmission shaft, one end of the bevel gear B, which is close to the double-sided latch ring, is fixed with the single-sided latch ring A matched with the double-sided latch ring, one end of the bevel gear C, which is close to the double-sided latch ring, is fixed with the single-sided latch ring B matched with the double-sided latch ring, sliding grooves B matched with the transmission shaft are formed in one sides, which are close to the transmission shaft, of the bevel gear B, the single-sided latch ring A, the bevel gear C and the single-sided latch ring B, which are matched with the transmission shaft, are connected in a sliding manner through the sliding grooves B, the baffle rings are symmetrically arranged on the opposite sides of the two groups of support plates, and two groups of baffle rings are fixed on the surface of the transmission shaft, and pushing pieces in T-shaped structures are arranged on one sides, close to the baffle rings, of the two groups of support plates on the opposite sides.

As a plate body fixing device for cutting an anode plate, preferably, connecting clamping keys in a cross structure are fixed at two ends of a transmission shaft, key grooves matched with the connecting clamping keys are formed at adjacent ends of a threaded rod A and a threaded rod B, a ball head is fixed at one end of a pushing piece, which is close to a baffle ring, the ball head is attached to the baffle ring, an electric telescopic rod is fixed between the pushing piece and the support plate, guide rods are symmetrically arranged at two sides of the electric telescopic rod, guide grooves are formed in one sides, close to two groups of guide rods, of the pushing piece, the pushing piece and the guide rods are connected in a sliding mode through the guide grooves, and an anti-falling block is fixed at one end, far away from the support plate, of the two groups of guide rods.

Compared with the prior art, the invention has the beneficial effects that:

through the fixed establishment who sets up, can extrude fixedly the anode plate body, avoid the phenomenon that the anode plate body appears the displacement and skid in cutting process, make the fixed effect to the anode plate body better, ensured the finished product quality after the cutting of anode plate body.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic view of a base structure according to the present invention;

FIG. 3 is a cross-sectional view of a base of the present invention;

FIG. 4 is a schematic diagram of a driving assembly according to the present invention;

FIG. 5 is a partial cross-sectional view of the positioning assembly and the compression assembly of the present invention;

FIG. 6 is a schematic view of a partial construction of a connection between a transmission assembly and a compression assembly in accordance with the present invention;

FIG. 7 is a partial cross-sectional view of the transmission assembly of the present invention;

FIG. 8 is a schematic diagram of a transmission assembly according to the present invention;

FIG. 9 is an enlarged view of the portion A of FIG. 6 in accordance with the present invention;

FIG. 10 is a schematic view of a fixing assembly according to the present invention;

fig. 11 is a partial cross-sectional view of a securing assembly in accordance with the present invention.

In the figure:

1. a base; 2. a bracket;

3. a moving mechanism;

4. a cutting mechanism;

5. a fixing mechanism;

51. a drive assembly; 511. a rotating shaft; 512. a worm section; 513. a worm wheel; 514. a hand wheel; 515. a rotating rod; 516. bevel gears A;

52. a positioning assembly; 521. a threaded rod A; 522. a thread block A; 523. a moving groove A; 524. positioning a push plate; 525. a ruler; 526. a graduated scale;

53. an extrusion assembly; 531. a threaded rod B; 5311. a key slot; 5312. a sprocket; 5313. a chain; 532. a thread block B; 533. a moving groove B; 534. extruding a baffle;

54. A fixing assembly; 541. a screw rod; 5411. a limiting ring A; 542. a pressing plate; 5421. a limit rod; 5422. a limiting ring B; 543. a slide bar; 5431. a limiting ring C; 544. a spring; 545. a transmission gear; 546. a single toothed plate; 547. a relief groove; 548. a fixing plate;

55. a transmission assembly; 551. a support plate; 552. a transmission shaft; 5521. a connecting clamping key; 553. bevel gear B; 554. a single-side clamping tooth ring A; 555. bevel gears C; 556. a single-side clamping tooth ring B; 557. a double-sided snap ring; 558. a baffle ring; 559. a pushing member; 5591. ball head; 5592. an electric telescopic rod; 5593. a guide rod; 5594. and (5) preventing the block from falling off.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

A plate body fixing device for cutting an anode plate comprises a base 1, a support 2 fixed on the surface of the base 1 and a cutting mechanism 4 arranged between the support 2 and the base 1, wherein a moving mechanism 3 is arranged between the cutting mechanism 4 and the support 2.

In this embodiment: the fixing effect on the anode plate is poor, the anode plate is easy to displace and slip in the cutting process, the cutting effect is poor, the quality of a finished product is affected, and the like, and in order to solve the technical problem, the fixing mechanism 5 is added on the file of the application.

As shown in fig. 1-11:

in combination with the above, in order to avoid the phenomenon that the anode plate is displaced and slipped in the cutting process, the device further comprises a fixing mechanism 5 arranged on the surface of the base 1, the fixing mechanism 5 comprises a driving component 51, a positioning component 52, an extrusion component 53, a fixing component 54 and a transmission component 55, the driving component 51 is arranged in the base 1, the positioning component 52 is arranged on one side, close to the cutting mechanism 4, of the surface of the base 1, the extrusion component 53 is arranged on one side, far away from the positioning component 52, of the surface of the base 1, the fixing components 54 are symmetrically arranged above the positioning component 52 and the extrusion component 53, and the transmission component 55 is arranged in the base 1.

In this embodiment: through the drive assembly 51 that sets up, can provide power for the fixed of the anode plate body, through the locating component 52 that sets up, can fix a position the cutting position of the anode plate body, thereby more audio-visual observation anode plate body cutting position, through the extrusion subassembly 53 that sets up, can extrude fixedly to the anode plate body, the phenomenon that the displacement is skidding appears in the cutting process to the anode plate body has been avoided, make the fixed effect to the anode plate body better, improve the finished product quality after the cutting, through the fixed subassembly 54 that sets up, can extrude once more fixedly to the surface both sides of the anode plate body, thereby make the fixed to the anode plate body more stable, the going on of the cutting of the anode plate body of being convenient for, guaranteed the quality of the cutting of the anode plate body, through the transmission component 55 that sets up, can carry out power transmission close and separate, realize smooth-going with the direction of power transmission and change.

It should be noted that: the moving mechanism 3 comprises a hydraulic cylinder arranged on the surface of the support 2, a moving seat fixed at the output end of the hydraulic cylinder and a moving block slidably connected inside the moving seat, the cutting mechanism 4 comprises a cutting motor fixed below the moving block and a cutting piece fixed at the output end of the cutting motor, the cutting motor and the cutting piece can be driven to move up and down through the hydraulic cylinder, the cutting motor and the cutting piece can be driven to move left and right through the moving seat and the moving block, the cutting range is increased, and the cutting operation of the anode plate is realized.

In an alternative embodiment: the drive assembly 51 includes axis of rotation 511, worm section 512, worm wheel 513, hand wheel 514, bull stick 515 and bevel gear A516, the both ends of axis of rotation 511 all rotate through bearing A and connect in the inside of base 1, worm section 512 is all installed to the surface both sides of axis of rotation 511, the surface of two sets of worm sections 512 all meshes is connected with worm wheel 513, the inside of worm wheel 513 is fixed with bull stick 515, and the bottom of bull stick 515 passes through bearing B and rotates the inside of connecting at base 1, the top of worm wheel 513 is provided with bevel gear A516, and bevel gear A516 fixes the surface at bull stick 515, the one end of axis of rotation 511 runs through the inside of base 1 to extend to one side of base 1, and with the hand wheel 514 fixed connection who sets up in one side of base 1, the drive chamber has been seted up to one side that is close to worm section 512 and worm wheel 513 in the inside of base 1.

In this embodiment: through rotating the hand wheel 514, the hand wheel 514 drives the rotation shaft 511 to rotate in the base 1, so that two groups of worm sections 512 on the surface of the hand wheel are driven to synchronously rotate, and then the worm wheel 513 can be driven to rotate by the rotation of the worm sections 512, so that the rotating rod 515 is driven to rotate in the base 1, and the bevel gear A516 can be driven to synchronously rotate, so that power is provided for the fixation of the anode plate body.

In an alternative embodiment: the positioning assembly 52 comprises a threaded rod A521, a threaded block A522 positioning push plate 524, a scale 525 and a graduated scale 526, wherein the threaded rod A521 is arranged at one side, close to two groups of bevel gears A516, of the inside of the base 1, the two ends of the threaded rod A521 are respectively connected to the inside of the base 1 in a rotating way through bearings C, the surfaces of the two groups of threaded rods A521 are respectively in threaded connection with the threaded block A522, a movable groove A523 is formed in one side, close to the threaded block A522, of the inside of the base 1, the threaded block A522 and the base 1 are in sliding connection through the movable groove A523, the positioning push plate 524 is arranged at one side, close to two groups of positioning push plates 524, of the upper side of the base 1, the lower surface of the positioning push plate 524 is fixedly connected with the surfaces of the two groups of the threaded blocks A522, the scales 525 are symmetrically fixed at two sides of the positioning push plate 524, the scales 526 are respectively fixed at one side, and the surfaces of the base 1, close to the two groups of the scales 525 are attached to the scales 526.

In this embodiment: through the rotation of bevel gear A516, can drive threaded rod A521 and rotate, and then drive the screw thread piece A522 of its surface and slide in the inside of removing groove A523, thereby drive location push pedal 524 and remove in the top of base 1, through the removal of location push pedal 524, can promote the anode plate body that waits to cut and remove on the surface of base 1, along with the removal of location push pedal 524, the scale 525 of its both sides can drive and slide on the surface of scale 526, can audio-visual observation location push pedal 524's travel distance, when scale 525 indicates the position and the anode plate body cut length unanimity at scale 526 surface, stop rotatory hand wheel 514, can fix a position the cutting position of anode plate body, thereby more audio-visual observation anode plate body cutting position.

In an alternative embodiment: the extrusion subassembly 53 includes threaded rod B531, screw thread piece B532 and extrusion baffle 534, two sets of threaded rod a521 are close to the one end of two sets of bevel gears a516 all and are provided with threaded rod B531, and the both ends of two sets of threaded rod B531 rotate through bearing D respectively and connect in the inside of base 1, the equal screwed connection of surface of two sets of threaded rod B531 has screw thread piece B532, the removal groove B533 has been seted up to the one side that is close to screw thread piece B532 in the inside of base 1, and screw thread piece B532 and base 1 pass through removal groove B533 sliding connection, the one side that is close to two sets of screw thread piece B532 above the base 1 is provided with extrusion baffle 534, and the lower surface of extrusion baffle 534 and the fixed surface connection of two sets of screw thread piece B532, the one end that two sets of threaded rod B531 kept away from two sets of threaded rod a521 all runs through the inside of base 1, and extends to one side of base 1 respectively, and be connected with chain 5312 fixed connection in two sets of sprocket 5312 on one side of base 1 respectively, and be connected with chain 5313 between two sets of sprocket 5312.

In this embodiment: through rotating hand wheel 514, can drive threaded rod B531 and rotate, and then drive the screw thread piece B532 of its surface and slide in the inside of removing groove B533 to drive extrusion baffle 534 and be close to towards the surface of the anode plate body in the top of base 1, until extrusion baffle 534 is hugged closely together with the anode plate body, can extrude the anode plate body fixedly, avoided the anode plate body to appear the phenomenon that the displacement skidded in the cutting process, make the fixed effect to the anode plate body better, improve the finished product quality after the cutting.

It should be noted that: through the rotation of threaded rod B531, can drive the synchronous rotation of fixed sprocket 5312 on its surface, then under the cooperation of chain 5313, can guarantee that two sets of threaded rods B531 and two sets of sprockets 5312 are the same speed and are rotated in the same direction, realize driving two sets of screw thread piece B532 simultaneously and slide in the inside of shifting chute B533.

In an alternative embodiment: the fixing assembly 54 comprises a screw rod 541, a pressing plate 542, a sliding rod 543, a spring 544, a transmission gear 545, a single toothed plate 546 and a fixing plate 548, wherein the screw rod 541 is respectively connected with the inside of the positioning push plate 524 and the inside of the extrusion baffle 534 in a rotating manner through a bearing E, the pressing plate 542 with a T-shaped structure is arranged above the positioning push plate 524 and the extrusion baffle 534, the pressing plate 542 is in threaded connection with the screw rod 541, the fixing plate 548 is arranged below the pressing plate 542, two groups of sliding rods 543 are fixedly arranged on the upper surface of the fixing plate 548, the spring 544 is wound on the surface of the sliding rod 543, two ends of the spring 544 are respectively fixed between the pressing plate 542 and the fixing plate 548, the bottom end of the screw rod 541 penetrates through the surface of the positioning push plate 524 and extends to the lower side of the positioning push plate 524 and is fixedly connected with the transmission gear 545 arranged below the positioning push plate 524, a yield groove 547 is formed in one side of the base 1, the single toothed plate 546 is in meshed connection with the transmission gear 545, and the yield groove 547 is fixedly arranged inside the base 1.

In this embodiment: through the removal of location push pedal 524 and extrusion baffle 534, can drive the lead screw 541 of its surface and remove in step, along with the removal of lead screw 541, can drive the drive gear 545 of its bottom and remove in the inside of stepping down groove 547, then under the meshing of single pinion 546 and drive gear 545, can force drive gear 545 and produce the rotation in the in-process of stepping down groove 547 internal movement, and then drive lead screw 541 and rotate in the inside of location push pedal 524 or extrusion baffle 534, and then drive the clamp plate 542 of its surface to move down, thereby drive fixed plate 548 and be close to towards the surface of anode plate body, after fixed plate 548 contacts with anode plate body, through the continuation of clamp plate 542 move down, can extrude spring 544 and produce elasticity, and make clamp plate 542 slide on the surface of slide rod 543, through the elasticity of spring 544, can make fixed plate 548 extrude the fixed again to the surface both sides of anode plate body, thereby make the fixed more stable to the anode plate body, the going on of the body cutting processing of anode plate body of being convenient for, the quality of anode plate body cutting processing has been ensured.

In an alternative embodiment: one end of the lead screw 541 away from the transmission gear 545 is fixed with a limiting ring A5411, two sides of the lead screw 541 are symmetrically provided with limiting rods 5421, two groups of limiting rods 5421 are fixed on the surface of the positioning push plate 524, a through groove A is formed in one side of the inside of the pressing plate 542, which is close to the two groups of limiting rods 5421, the pressing plate 542 and the two groups of limiting rods 5421 are in sliding connection through the through groove A, one end of the two groups of limiting rods 5421, which is away from the positioning push plate 524, is fixed with a limiting ring B5422, a through groove B is formed in one side of the inside of the pressing plate 542, which is close to the two groups of sliding rods 543, and the limiting rings C5431 are arranged at one ends of the upper part of the pressing plate 542, which are close to the two groups of sliding rods 543.

In this embodiment: through setting up of spacing ring A5411, can restrict the travel distance of clamp plate 542, avoid clamp plate 542 to follow the surface slippage of lead screw 541, along with the downmovement of clamp plate 542, through setting up of gag lever post 5421, can carry out spacing direction to the downmovement of clamp plate 542, improve the stability of clamp plate 542 downmovement, through setting up of spacing ring C5431, can control the interval between clamp plate 542 and the baffle ring 558, avoid pushing the surface slippage of clamp plate 542 from slide bar 543 because of the elasticity of spring 544.

In an alternative embodiment: the transmission assembly 55 comprises a support plate 551, a transmission shaft 552, a bevel gear B553, a unilateral latch ring A554, a bevel gear C555, a unilateral latch ring B556, a bilateral latch ring 557, a baffle ring 558 and a pushing piece 559, wherein the support plate 551 is symmetrically arranged at two sides of the bevel gear A516 and is fixed in the base 1, the transmission shaft 552 is arranged above the bevel gear A516, sliding grooves A matched with the transmission shaft 552 are arranged in the two groups of support plates 551, the transmission shaft 552 and the support plate 551 are in sliding connection through the sliding grooves A, the adjacent sides of the two groups of support plates 551 are respectively connected with the bevel gear B553 and the bevel gear C555 in a meshed connection through bearings F, the bevel gear B553 and the bevel gear C555 are respectively provided with the bevel gear A516, the bilateral latch ring 557 is arranged between the bevel gears B553 and the bevel gear C555 and is fixed on the surface of the transmission shaft 552, one end of a bevel gear B553, which is close to a double-sided latch ring 557, is fixed with a single-sided latch ring A554 matched with the double-sided latch ring 557, one end of a bevel gear C555, which is close to the double-sided latch ring 557, is fixed with a single-sided latch ring B556 matched with the double-sided latch ring 557, one side, which is close to a transmission shaft 552, inside the bevel gear B553, the single-sided latch ring A554, the bevel gear C555 and the single-sided latch ring B556 is provided with a sliding groove B matched with the transmission shaft 552, the transmission shaft 552 is in sliding connection with the bevel gear B553, the single-sided latch ring A554, the bevel gear C555 and the single-sided latch ring B556, opposite sides of two groups of support plates 551 are symmetrically provided with baffle rings 558, the two groups of baffle rings 558 are fixed on the surface of the transmission shaft 552, and one side, which is close to the baffle rings 558, of the two groups of support plates 551 is provided with a pushing piece 559 in a T-shaped structure.

In this embodiment: when the plate body fixing device for cutting the anode plate is used, firstly, the anode plate body to be cut is placed at the top of the base 1, one end of the anode plate body is abutted against the surface of the positioning push plate 524, the baffle ring 558 can be pushed to move by the movement of the pushing piece 559, and then the transmission shaft 552 is driven to move, so that the double-sided latch ring 557 on the surface of the transmission shaft is driven to synchronously move, one end of the double-sided latch ring 557 is just clamped with the single-sided latch ring A554 (at the moment, the double-sided latch ring 557 and the single-sided latch ring B556 are in a separated state), the single-sided latch ring A554 can be driven to rotate by the rotation of the bevel gear B553, so that the double-sided latch ring 557 and the transmission shaft 552 are driven to synchronously rotate, then under the cooperation of the connecting latch key 5521 and the key slot 5311, the threaded rod A521 can be driven to rotate, and the power transmission is realized, the push piece 559 pushes the baffle ring 558 and the transmission shaft 552 to move reversely, so that the connection clamping key 5521 of the transmission shaft 552 near one end of the threaded rod B531 is inserted into the key slot 5311 formed in the threaded rod B531 (at this time, the connection clamping key 5521 of the other end of the transmission shaft 552 is separated from the key slot 5311 formed in the threaded rod A521), meanwhile, by moving the transmission shaft 552, one end of the double-sided clamping tooth ring 557 is just clamped with the single-sided clamping tooth ring B556 (at this time, the double-sided clamping tooth ring 557 and the single-sided clamping tooth ring A554 are in a separated state), the bevel gear C555 can be driven to rotate by rotating the bevel gear A516, then the double-sided clamping tooth ring 557 and the transmission shaft 552 are driven to synchronously rotate by the bevel gear C555 through the single-sided clamping tooth ring B556, then the threaded rod B531 can be driven to rotate under the cooperation of the other group of the connection clamping key 5521 and the key slot 5311, and the power transmission can be driven to be closed and separated, the smooth conversion of the direction of power transmission is realized.

It should be noted that: the adjacent sides of the two ends of the double-sided clamping tooth ring 557 and the single-sided clamping tooth ring A554 and the single-sided clamping tooth ring B556 are respectively provided with a triangular clamping tooth, when the double-sided clamping tooth ring 557 approaches to one side of the single-sided clamping tooth ring A554 or the single-sided clamping tooth ring B556, if the clamping teeth between the double-sided clamping tooth ring 557 and the single-sided clamping tooth ring A554 or the single-sided clamping tooth ring B556 are not corresponding at this time, the clamping can be completed between the double-sided clamping tooth ring 557 and the single-sided clamping tooth ring A554 or the single-sided clamping tooth ring B556 by mutual extrusion among a plurality of groups of the clamping teeth with the triangular structure.

In an alternative embodiment: the both ends of transmission shaft 552 all are fixed with the connection bayonet catch 5521 that is "cross structure", the keyway 5311 that matches with connection bayonet catch 5521 is all offered to the adjacent one end of threaded rod A521 and threaded rod B531, the one end that impeller 559 is close to baffle ring 558 is fixed with bulb 5591, and bulb 5591 and baffle ring 558 laminate mutually, be fixed with electric telescopic handle 5592 between impeller 559 and the backup pad 551, electric telescopic handle 5592's bilateral symmetry is provided with guide bar 5593, the guide way has all been offered to the inside one side that is close to two sets of guide bars 5593 of impeller 559, and impeller 559 and guide bar 5593 pass through this guide way sliding connection, the one end that backup pad 551 was kept away from to two sets of guide bars 5593 is fixed with anticreep piece 5594.

In this embodiment: the electric telescopic rod 5592 far away from one end of the threaded rod A521 is started to shrink (the electric telescopic rod 5592 close to one end of the threaded rod A521 stretches at the moment), and then the baffle ring 558 is pushed to move, the transmission shaft 552 can be driven to move in the two groups of supporting plates 551, so that the connection clamping key 5521 at one end of the transmission shaft 552 is inserted into the key slot 5311 formed in the threaded rod A521 (the connection clamping key 5521 at the other end of the transmission shaft 552 can be separated from the key slot 5311 formed in the threaded rod B531 at the moment), during the process, the pushing piece 559 can be driven to slide on the surfaces of the two groups of guide rods 5593 through the expansion of the electric telescopic rod 5592, the ball head 5591 can be driven to push the baffle ring 558 to move, the electric telescopic rod 5592 far away from one end of the threaded rod B531 is started to shrink (the electric telescopic rod 5592 close to one end of the threaded rod B531 stretches at the moment), and then the connection clamping key 5521 close to one end of the transmission shaft 552 can be inserted into the key slot 5311 formed in the threaded rod B531 at the inner part of the threaded rod B531 to be separated from the key slot 5311 at the moment through the ball head 5591.

It should be noted that: by the arrangement of the ball 5591, friction between the pusher 559 and the stopper ring 558 can be reduced during rotation of the transmission shaft 552 and the stopper ring 558, so that rotation of the transmission shaft 552 and the stopper ring 558 is smoother.

The working principle and the using flow of the invention are as follows: when the plate body fixing device for cutting the anode plate is used, firstly, the anode plate body to be cut is placed at the top of the base 1, one end of the anode plate body is abutted against the surface of the positioning push plate 524, then, the electric telescopic rod 5592 far away from one end of the threaded rod A521 is started to shrink (at the moment, the electric telescopic rod 5592 close to one end of the threaded rod A521 stretches), the baffle ring 558 is pushed to move, the transmission shaft 552 can be driven to move in the two groups of support plates 551, so that the connection clamping key 5521 at one end of the transmission shaft 552 is inserted into the key slot 5311 formed in the threaded rod A521 (at the moment, the connection clamping key 5521 at the other end of the transmission shaft 552 is separated from the key slot 5311 formed in the threaded rod B531), during the period, the pushing piece 559 can be driven to slide on the surfaces of the two groups of guide rods 5593 through the expansion of the electric telescopic rod 5592, along with the movement of the pushing piece 559, the ball head 5591 can be driven to push the baffle ring 558 to move, during the period, through the movement of the transmission shaft 552, the double-sided latch ring 557 on the surface of the ball head 5591 can be driven to synchronously move, when the electric telescopic rod 5592 stretches to the maximum limit, one end of the double-sided latch ring 557 is just clamped with the single-sided latch ring A554 (at the moment, the double-sided latch ring 557 and the single-sided latch ring B556 are in a separated state), then the hand wheel 514 is rotated, the hand wheel 514 drives the rotating shaft 511 to rotate in the base 1, further drives the two groups of worm sections 512 on the surface of the hand wheel to synchronously rotate, then the worm wheel 513 can be driven to rotate by the rotation of the worm section 512, further drives the rotating rod 515 to rotate in the base 1, namely, the bevel gear A516 can be driven to synchronously rotate, and along with the rotation of the bevel gear A516, the bevel gear B on one side can be driven to rotate, then the bevel gear B553 drives the single-side clamping ring A554 to rotate, the double-side clamping ring 557 and the transmission shaft 552 can be driven to synchronously rotate, then under the matching of the connecting clamping key 5521 and the key groove 5311, the threaded rod A521 can be driven to rotate, and then the threaded block A522 on the surface of the threaded rod A is driven to slide in the moving groove A523, thereby the positioning push plate 524 is driven to move above the base 1, the anode plate body to be cut can be driven to move on the surface of the base 1 through the movement of the positioning push plate 524, along with the movement of the positioning push plate 524, the scales 525 on the two sides of the positioning push plate can be driven to slide on the surface of the graduated scale 526, the moving distance of the positioning push plate 524 can be visually observed, when the positions pointed by the scales 525 on the surfaces of the graduated scale 526 are consistent with the cutting length of the anode plate body, the rotating hand wheel 514 is stopped, then the electric telescopic rod 5592 far away from one end of the threaded rod B531 is started to shrink (at the moment, the electric telescopic rod 5592 close to one end of the threaded rod B531 stretches), the push piece 559 and the ball head 5591 pushes the baffle ring 558 and the transmission shaft 552 to move reversely, namely, the transmission shaft 552 is driven to be close to the anode plate body to slide on the surface of the base 1, the surface of the single-side clamping ring A5521 is driven to slide on the surface of the threaded rod A, the inner side of the threaded rod A5521 is separated from the threaded rod A, the inner side of the threaded rod A is separated from the threaded rod A, and the inner side 5511, and the inner side of the threaded rod A is separated from the inner side of the threaded rod A is cut by the threaded rod A, and the threaded rod is separated from the inner side of the threaded rod A, and the threaded rod is cut, and the end of the threaded rod has the threaded rod 5511, and the end of the electric joint is separated from the end. Then under the cooperation of the other group of connecting clamping keys 5521 and key grooves 5311, the threaded rod B531 can be driven to rotate, and then the threaded block B532 on the surface of the threaded rod B531 is driven to slide in the moving groove B533, so that the extruding baffle 534 is driven to approach the surface of the anode plate body above the base 1 until the extruding baffle 534 is tightly attached to the anode plate body, the anode plate body can be extruded and fixed, the phenomenon that displacement slip occurs in the cutting process of the anode plate body is avoided, the fixing effect on the anode plate body is better, the quality of a finished product after cutting is improved, during the period, the screw rod 541 on the surface of the threaded rod B531 can be driven to synchronously move through the movement of the positioning push plate 524 and the extruding baffle 534, the transmission gear 545 at the bottom end of the threaded rod 541 can be driven to move in the yielding groove 547 along with the movement of the screw rod 541, then under the meshing of single pinion 546 and drive gear 545, can force the drive gear 545 to produce the rotation in the in-process that the groove 547 is moved to the stepping down, and then drive lead screw 541 rotates in the inside of location push pedal 524 or extrusion baffle 534, and then the clamp plate 542 of its surface moves down, thereby drive fixed plate 548 and be close to towards the surface of anode plate body, after fixed plate 548 contacts with anode plate body, through the continuation of clamp plate 542 move down, can extrude spring 544 and take place deformation and produce elasticity, and make clamp plate 542 slide on the surface of slide bar 543, through the elasticity of spring 544, can make fixed plate 548 extrude the fixed once more to the surface both sides of anode plate body, thereby make the fixed more stable to the anode plate body, the going on of anode plate body cutting processing of being convenient for, the quality of anode plate body cutting processing has been ensured.

Finally, it should be noted that: the above is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that the present invention is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. Plate body fixing device for cutting anode plates, comprising a base (1), a bracket (2) fixed on the surface of the base (1) and a cutting mechanism (4) arranged between the bracket (2) and the base (1), wherein a moving mechanism (3) is arranged between the cutting mechanism (4) and the bracket (2), and the plate body fixing device is characterized in that: the device also comprises a fixing mechanism (5) arranged on the surface of the base (1);

the fixing mechanism (5) comprises a driving assembly (51), a positioning assembly (52), an extrusion assembly (53), a fixing assembly (54) and a transmission assembly (55), wherein the driving assembly (51) is installed inside the base (1), the positioning assembly (52) is installed on one side, close to the cutting mechanism (4), of the surface of the base (1), the extrusion assembly (53) is installed on one side, far away from the positioning assembly (52), of the surface of the base (1), the fixing assembly (54) is installed above the positioning assembly (52) and above the extrusion assembly (53) in a symmetrical mode, and the transmission assembly (55) is installed inside the base (1);

The driving assembly (51) comprises a rotating shaft (511), worm sections (512), worm wheels (513), a hand wheel (514), a rotating rod (515) and bevel gears A (516), wherein two ends of the rotating shaft (511) are rotationally connected to the inside of the base (1) through bearings A, the worm sections (512) are installed on two sides of the surface of the rotating shaft (511), the worm wheels (513) are connected to the surfaces of two groups of worm sections (512) in a meshed mode, the rotating rod (515) is fixed to the inside of the worm wheels (513), the bottom end of the rotating rod (515) is rotationally connected to the inside of the base (1) through bearings B, the bevel gears A (516) are arranged above the worm wheels (513), the bevel gears A (516) are fixed to the surface of the rotating rod (515), and one end of the rotating shaft (511) penetrates through the inside of the base (1) and extends to one side of the base (1) and is fixedly connected with the hand wheel (514) arranged on one side of the base (1);

the positioning assembly (52) comprises a threaded rod A (521), a thread block A (522), a positioning push plate (524), a scale (525) and a graduated scale (526), wherein one side, close to two groups of bevel gears A (516), of the base (1) is provided with the threaded rod A (521), two ends of the threaded rod A (521) are respectively connected with the inside of the base (1) through a bearing C in a rotating way, the surfaces of the two groups of threaded rods A (521) are respectively connected with the thread block A (522) in a threaded way, one side, close to the thread block A (522), of the base (1) is provided with a moving groove A (523), the thread block A (522) and the base (1) are in sliding connection through the moving groove A (523), one side, close to two groups of positioning push plates (524), of the lower surfaces of the positioning push plates (524) are fixedly connected with the surfaces of the thread block A (522), two sides of the positioning push plates (524) are fixedly connected with the scale (525), the two sides of the positioning push plates (524) are symmetrically fixed, and the scale (525) are respectively attached to one side, close to the scale (525) of the scale (525);

The extrusion assembly (53) comprises a threaded rod B (531), a threaded block B (532) and an extrusion baffle plate (534), wherein two groups of threaded rods A (521) are respectively arranged at one ends, close to two groups of bevel gears A (516), of the threaded rod B (531), two ends of the two groups of threaded rods B (531) are respectively connected with the inside of the base (1) through a bearing D in a rotating mode, the surfaces of the two groups of threaded rods B (531) are respectively connected with the threaded block B (532) in a threaded mode, a moving groove B (533) is formed in one side, close to the threaded block B (532), of the inside of the base (1), the threaded block B (532) is connected with the base (1) in a sliding mode through the moving groove B (533), one side, close to the two groups of the threaded block B (532), of the upper side of the base (1) is provided with the extrusion baffle plate (534), and the lower surface of the extrusion baffle plate (534) is fixedly connected with the surfaces of the two groups of the threaded block B (532).

The fixing component (54) comprises a screw rod (541), a pressing plate (542), a sliding rod (543), a spring (544), a transmission gear (545), a single toothed plate (546) and a fixing plate (548), wherein the screw rod (541) is respectively connected with the positioning push plate (524) and the inside of the extrusion baffle plate (534) through a bearing E in a rotating mode, the pressing plate (542) with a T-shaped structure is arranged above the extrusion baffle plate (534), the pressing plate (542) and the screw rod (541) are in threaded connection, the fixing plate (548) is arranged below the pressing plate (542), two groups of sliding rods (543) are fixed on the upper surface of the fixing plate (548), the springs (544) are arranged on the surface of the sliding rod (543) in a winding mode, two ends of each spring (544) are respectively fixed between the pressing plate (542) and the fixing plate (548), the bottom end of each screw rod (541) penetrates through the surface of the positioning push plate (524) and extends to the lower side of the positioning push plate (524), the transmission gear (545) is arranged below the positioning push plate (524), the transmission gear (547) is arranged near the transmission gear (545), one side of the transmission gear (547) is connected with the transmission gear (545), the single-tooth plate (546) is arranged in the abdication groove (547), the single-tooth plate (546) is in meshed connection with the transmission gear (545), and the single-tooth plate (546) is fixed in the base (1) through the abdication groove (547);

The transmission assembly (55) comprises a supporting plate (551), a transmission shaft (552), a bevel gear B (553), a unilateral latch ring A (554), a bevel gear C (555), a unilateral latch ring B (556), a bilateral latch ring (557), a baffle ring (558) and a pushing piece (559), wherein the supporting plate (551) is symmetrically arranged on two sides of the bevel gear A (516), the supporting plate (551) is fixed in the base (1), the transmission shaft (552) is arranged above the bevel gear A (516), sliding grooves A matched with the transmission shaft (552) are formed in the two groups of the supporting plate (551), the transmission shaft (552) and the supporting plate (551) are in sliding connection through the sliding grooves A, adjacent sides of the two groups of the supporting plate (551) are respectively connected with the bevel gear B (553) and the bevel gear C (555) through a bearing F in a rotating way, the bevel gear B (553) and the bevel gear C (551) are in meshed connection with the bevel gear A (516), sliding grooves A matched with the bevel gear B (553) and the double-sided latch ring (555) are arranged between the two sides of the bevel gear A (516) and the bevel gear C (557), the bevel gear B (553) is close to one end of the double-sided latch ring (557) and is fixedly provided with a single-sided latch ring A (554) matched with the double-sided latch ring (557), one end of the bevel gear C (555) close to the double-sided latch ring (557) is fixedly provided with a single-sided latch ring B (556) matched with the double-sided latch ring (557), the bevel gear B (553), the single-sided latch ring A (554), the bevel gear C (555) and one side of the single-sided latch ring B (556) are internally provided with a sliding groove B matched with the transmission shaft (552), the transmission shaft (552) and the single-sided latch ring B (553), the bevel gear C (555) and the single-sided latch ring B (556) are in sliding connection through the sliding groove B, two groups of back sides of the support plates (551) are symmetrically provided with the stop rings (558), and the two groups of the bevel gears C (555) are provided with the stop-off rings (558) matched with the transmission shaft (552) on one side of the transmission shaft (552), and the stop rings (559) are provided with the stop-off rings (558).

2. The plate body fixing device for cutting an anode plate according to claim 1, wherein: a driving cavity is formed in one side, close to the worm section (512) and the worm wheel (513), of the base (1).

3. The plate body fixing device for cutting an anode plate according to claim 2, wherein: one ends of the two groups of threaded rods B (531) far away from the two groups of threaded rods A (521) penetrate through the base (1) and extend to one side of the base (1) respectively, are fixedly connected with two groups of chain wheels (5312) arranged on one side of the base (1) respectively, and are connected with chains (5313) between the two groups of chain wheels (5312).

4. A plate body fixing device for anode plate cutting according to claim 3, wherein: the screw rod (541) is kept away from one end of drive gear (545) is fixed with spacing ring A (5411), the bilateral symmetry of screw rod (541) is provided with gag lever post (5421), two sets of gag lever post (5421) are all fixed the surface of location push pedal (524), clamp plate (542) are inside to be close to two sets of one side of gag lever post (5421) has all been seted up logical groove A, just clamp plate (542) and two sets of gag lever post (5421) all are through this logical groove A sliding connection, two sets of gag lever post (5421) are kept away from one end of location push pedal (524) all is fixed with spacing ring B (5422), clamp plate (542) are inside to be close to two sets of logical groove B has all been seted up to one side of slide bar (543), just slide bar (543) with clamp plate (542) are through this logical groove B sliding connection, clamp plate (542) top is close to two sets of one end of slide bar (543) all is provided with spacing ring C (5431).

5. The plate body fixing device for anode plate cutting according to claim 4, wherein: the utility model discloses a motor vehicle drive mechanism, including drive shaft (552) and support plate (551), drive shaft (552) are fixed with connection draw-in key (5521) that are "cross structure", threaded rod A (521) with adjacent one end of threaded rod B (531) all seted up with keyway (5311) that connect draw-in key (5521) to match the adaptation, impeller (559) are close to one end of retaining ring (558) is fixed with bulb (5591), just bulb (5591) with retaining ring (558) laminating mutually, impeller (559) with be fixed with electric telescopic handle (5592) between support plate (551), electric telescopic handle (5592)'s bilateral symmetry is provided with guide bar (5593), inside two sets of being close to of guide bar (5593) one side all has seted up the guide way, just impeller (559) with guide bar (5593) are through this guide way sliding connection, two sets of guide bar (5593) keep away from one end of support plate (551) is fixed with anti-disengaging block (5594).