CN116174801A - Novel shearing mechanism for processing flexible connection soft busbar and shearing method thereof - Google Patents

Abstract

The invention relates to the field of busbar shearing, in particular to a novel shearing mechanism for flexible connection soft busbar processing and a shearing method thereof. This kind of novel flexible connection soft busbar processing is with shearing mechanism, with two sets of sealing blocks of push rod jack-up, cause ventilation groove and first gas-supply hole intercommunication on the sealing block, with hydraulic oil input to the hydraulic pressure storehouse in to make hydraulic pressure extend, push pressure plate fixes the material, the reinforcement material of being convenient for.

Description

Novel shearing mechanism for processing flexible connection soft busbar and shearing method thereof

Technical Field

The invention relates to the field of busbar shearing, in particular to a novel shearing mechanism for flexible connection soft busbar processing and a shearing method thereof.

Background

The busbar is used for copper bars or aluminum bars connected with various circuit switches in a power supply system, surface insulation treatment is an indispensable component part in the circuit system, and in the busbar processing process, drilling and cutting operations are required for the busbar, so that a corresponding busbar processing device is required.

The inventor finds that the following problems in the prior art are not well solved: 1. in the process of processing the busbar, the existing device is inconvenient to reinforce the busbar, so that the busbar is offset in the process of processing, and the like, thereby causing the deflection of a notch and reducing the yield; 2. when processing the busbar, need to put the busbar in cutting mechanism, operate, but in busbar insertion process, cutter in the cutting mechanism probably can be because the mistake touches and cause the cutting in advance, not only can waste the material, also has certain potential safety hazard.

Disclosure of Invention

The invention aims to provide a novel shearing mechanism for processing flexible connection soft busbar and a shearing method thereof, so as to solve the problems in the background technology. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a novel flexible connection soft busbar processing is with shearing mechanism, includes the shearing platform, the top both sides of shearing platform all fixedly connected with connecting rod, and the top of connecting rod is fixed to be provided with hydraulic lifting platform, but the below of hydraulic lifting platform is fixed to be provided with vertical motion's cutter, the top of shearing platform is fixed with fixed establishment, one side level of fixed establishment is provided with protection machanism, the fixed hydraulic pump that is provided with in the inner wall of shearing platform;

the utility model provides a hydraulic pressure storehouse, including trigger storehouse, hydraulic pressure pipe and fixed platform, the bottom of trigger storehouse is fixed with the top of shearing the platform and is set up, it is provided with the trigger piece to slide on the diapire of trigger storehouse, the rear end of trigger piece is provided with the push rod, the one end of hydraulic pressure pipe runs through to the inside of shearing the platform and is linked together with the inside of hydraulic pump, fixed setting spare that is provided with in the inner wall of hydraulic pressure pipe, the inner wall of hydraulic pressure pipe is the setting of running through with the outer wall of push rod, fixed platform's bottom is fixed with the hydraulic pressure storehouse with shearing the platform, the inside of hydraulic pressure storehouse is linked together with the hydraulic pressure pipe and is set up, the bottom axis both sides of hydraulic pressure storehouse are all fixedly connected with flexible spring rod, and the bottom fixedly connected with clamp plate of two sets of flexible spring rods to the top of clamp plate is fixed with the hydraulic stem, the inside of hydraulic stem is the intercommunication setting with the inside of hydraulic pressure storehouse.

Preferably, the regulating part comprises a regulating bin, the outer wall of the regulating bin is fixedly connected with the inner wall of the hydraulic pipe, two groups of regulating bins are symmetrically arranged on the axis of the hydraulic pipe, pressure relief openings are formed in the top end of the regulating bin, first gas transmission holes are formed in the side walls of the two ends of the regulating bin, second gas transmission holes are horizontally formed in the upper portion of the first gas transmission holes, and the second gas transmission holes are formed in the inner wall of the regulating bin.

Preferably, the adjusting piece further comprises a sealing block, the outer diameter of the sealing block and the inner diameter of the adjusting bin are arranged in a sliding mode, a bevel edge formed by machining is arranged below the sealing block, an air vent groove is formed in the inner wall of the sealing block, and the air vent groove and the first air transmission hole are horizontally arranged;

the side hypotenuse of sealing block and the lateral wall phase-match of push rod, sealing block is the level setting with the push rod, fixedly provided with extension spring on the back wall of sealing block, and extension spring and the inner wall fixed connection in regulation storehouse.

Preferably, springs in the two groups of telescopic spring rods fixed at the bottom end of the hydraulic bin are tension springs, and the default state of the two groups of telescopic spring rods is a contracted state.

Preferably, two groups of adjusting chambers in the hydraulic pipe are arranged at the same level, sealing blocks in the two groups of adjusting chambers are arranged oppositely, and the default states of the two groups of sealing blocks are joint connection.

Preferably, the protection mechanism comprises a control box, the two ends of the control box are penetrated with transmission wires, the tail ends of the two groups of transmission wires are fixedly connected with electrode rods, the front ends of the two groups of electrode rods are hinged with conductive plates, torsion springs are sleeved on the shaft ends of the conductive plates, and the conductive plates, the electrode rods, the transmission wires and the hydraulic lifting platform are electrically connected.

Preferably, the protection machanism still includes the power storehouse, the bottom in power storehouse and shearing platform's bottom fixed connection, one side in power storehouse is linked together with triggering the storehouse, the inner wall axis both sides in power storehouse are all fixed and are provided with reset spring, and the front end of two sets of reset springs all is fixed with the roof, the rear end of roof is fixed with the telescopic link, set up the spout that is font structure on the outer wall of telescopic link, be fixed with insulating cover on the removal end outer wall of telescopic link, and the top of removal end is fixed with the pull piece to the outer wall of pull piece is the slip setting with the inner wall of spout.

Novel shearing mechanism for processing flexible connection soft busbar and shearing method thereof are characterized in that: the method comprises the following steps:

the method comprises the steps that S1, a worker manually inserts a busbar into a power bin, a push plate in the power bin contacts with the busbar along with the insertion of the power bin, the busbar moves forwards to push a telescopic rod to move forwards, and as the front end of the telescopic rod is fixedly provided with an insulating sleeve, the insulating sleeve extrudes two groups of conducting strips which are arranged next to the skin, so that the two groups of conducting strips relatively rotate, the connection state is released, the power supply is disconnected, and unnecessary safety accidents caused by downward movement of a cutter due to false contact in the busbar installation process are avoided;

s2, along with the insertion of the busbar, the busbar is transversely moved to the right, so that the right side of the busbar is inserted into the trigger bin, the busbar presses the trigger block, the trigger block moves to the right, the push rod is pushed to move forward in the hydraulic pipe, and as the side wall of the push rod is matched with the inclined plane below the sealing blocks, the two groups of sealing blocks are respectively jacked up by the push rod, and the sealing blocks move towards the inside of the adjustment bin;

s3, when the sealing block moves to the maximum value, the ventilation groove on the sealing block is in butt joint with the first air transmission hole, the side wall above the sealing block can block the second air transmission hole, hydraulic oil in the hydraulic pipe can enter the hydraulic pipe on the other side through the first air transmission hole and the ventilation groove, so that the hydraulic oil is transported to the hydraulic rod, and at the moment, the movable pressing plate is pushed down to press and fix one end of the busbar;

s4, after the fixing is completed, the pull block is pulled to slide in a runner with a -shaped structure to drive the telescopic rod to shrink, so that the limitation of two groups of conductive sheets is relieved, and at the moment, the two groups of conductive sheets are reset through the torsion spring, so that the hydraulic lifting platform can be driven to control the cutter to descend for cutting;

s5, when cutting is finished, manually pulling a cut finished product, taking out the cut finished product, at the moment, because the trigger block and the push block are released from a mutual extrusion state with the busbar, the trigger block is reset, the push block drives the push rod to move backwards, the push rod releases extrusion restriction on the two groups of sealing blocks, the two groups of sealing blocks are reset, the sealing blocks block the first gas transmission hole simultaneously, the second gas transmission hole is released, redundant hydraulic oil on the other side of the hydraulic pipe is released through the second gas transmission hole and the pressure relief opening, and meanwhile, the pressing plate is reset through the arrangement of the two groups of telescopic spring rods.

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

according to the invention, the two groups of sealing blocks are propped up by the push rod, so that the ventilation grooves on the sealing blocks are communicated with the first gas transmission holes, hydraulic oil is input into the hydraulic bin, so that the hydraulic pressure is extended, and the pressing plate is pushed to fix the materials.

According to the invention, when the busbar is inserted into the power bin, the top plate and the telescopic rod are triggered to move forwards, and the front end of the telescopic rod pushes up two groups of electrically connected conducting plates, so that a circuit is disconnected, a hydraulic lifting table cannot be started to cut when a worker installs the busbar, and the loss caused by false touch is avoided.

Drawings

FIG. 1 is a schematic top cross-sectional view of a device body of the present invention;

FIG. 2 is a schematic side cross-sectional view of the device body of the present invention;

FIG. 3 is a schematic view of the front cross-sectional structure of the device body of the present invention;

FIG. 4 is a schematic cross-sectional view of an adjustment member according to the present invention;

FIG. 5 is a schematic cross-sectional view of a chute according to the present invention;

fig. 6 is an enlarged schematic view of the structure of fig. 4 a according to the present invention.

In the figure: 1. a shearing platform; 2. a hydraulic lifting platform; 3. a cutter; 4. a fixing mechanism; 41. triggering a bin; 42. a trigger block; 43. a push rod; 44. a hydraulic pipe; 45. an adjusting member; 451. adjusting the bin; 452. a pressure relief port; 453. a first gas delivery port; 454. a second gas delivery port; 455. a sealing block; 456. a vent groove; 46. a fixed platform; 47. a hydraulic bin; 48. a telescoping spring rod; 49. a hydraulic rod; 5. a protective mechanism; 51. a control box; 52. an electrode rod; 53. a conductive sheet; 54. a power bin; 55. a top plate; 56. a telescopic rod; 57. a chute; 58. an insulating sleeve; 59. pulling blocks.

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 are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the utility model provides a novel flexible connection soft busbar processing is with shearing mechanism, includes shearing platform 1, the equal fixedly connected with connecting rod in top both sides of shearing platform 1, and the fixed hydraulic lift platform 2 that is provided with in top of connecting rod, but the fixed cutter 3 that is provided with vertical motion in the below of hydraulic lift platform 2, shearing platform 1's top is fixed with fixed establishment 4, one side level of fixed establishment 4 is provided with protection machanism 5, is provided with the hydraulic pump in the inner wall of shearing platform 1 fixedly;

the fixed establishment 4 includes trigger storehouse 41, hydraulic pipe 44 and fixed platform 46, the bottom in trigger storehouse 41 is fixed with the top of shearing platform 1 and is set up, slide on the diapire in trigger storehouse 41 and be provided with trigger piece 42, the rear end of trigger piece 42 is provided with push rod 43, the one end of hydraulic pipe 44 runs through to the inside of shearing platform 1 and is linked together with the inside of hydraulic pump, fixedly be provided with regulating part 45 in the inner wall of hydraulic pipe 44, the inner wall of hydraulic pipe 44 is the setting of running through with the outer wall of push rod 43, the bottom of fixed platform 46 is fixed with shearing platform 1 and sets up, the bottom of fixed platform 46 is fixed with hydraulic storehouse 47, the inside of hydraulic storehouse 47 is linked together with hydraulic pipe 44 and is set up, the bottom axis both sides of hydraulic storehouse 47 are all fixedly connected with flexible spring rod 48, and the bottom fixedly connected with clamp plate of two sets of flexible spring rod 48, and the top of clamp plate is fixed with hydraulic rod 49, the inside of hydraulic rod 49 is the intercommunication setting with the inside of hydraulic storehouse 47.

In this embodiment, as shown in fig. 2, 3 and 4, the adjusting member 45 includes an adjusting bin 451, the outer wall of the adjusting bin 451 is fixedly connected with the inner wall of the hydraulic pipe 44, two groups of adjusting bins 451 are symmetrically arranged about the axis of the hydraulic pipe 44, the top end of the adjusting bin 451 is provided with a pressure relief port 452, two side walls at two ends of the adjusting bin 451 are provided with first air holes 453, a second air hole 454 is horizontally arranged above the first air holes 453, the second air holes 454 are formed on the inner wall of the adjusting bin 451, when the push block drives the push rod 43 to move backwards, the push rod 43 releases the extrusion restriction on the two groups of sealing blocks 455, when the two groups of sealing blocks 455 are reset, the sealing blocks 455 block the first air holes 453, release the second air holes 454, so that redundant hydraulic oil at the other side of the hydraulic pipe 44 is released through the second air holes 454 and the pressure relief port 452, and reset the pressure plate through the arrangement of the two groups of telescopic spring rods 48.

In this embodiment, as shown in fig. 2, 4 and 6, the adjusting member 45 further includes a sealing block 455, where the outer diameter of the sealing block 455 and the inner diameter of the adjusting bin 451 are slidably disposed, a bevel edge formed by machining is disposed below the sealing block 455, and an air vent groove 456 is formed in the inner wall of the sealing block 455, and the air vent groove 456 and the first air delivery hole 453 are horizontally disposed;

the side hypotenuse of sealing block 455 and the lateral wall phase-match of push rod 43, sealing block 455 is the level setting with push rod 43, fixedly on the back wall of sealing block 455 is provided with the extension spring, and extension spring and the inner wall fixed connection of adjusting the storehouse 451, when sealing block 455 got into in adjusting the storehouse 451, the air vent 456 on the sealing block 455 can dock with first gas-supply hole 453, and the top lateral wall of sealing block 455 can block second gas-supply hole 454, hydraulic oil in the hydraulic pipe 44 can get into in the hydraulic pipe 44 of opposite side through first gas-supply hole 453 and air vent 456, cause to transport to the hydraulic rod 49, can push up the movable platen and move down this moment, compress tightly fixedly to the one end of busbar.

In this embodiment, as shown in fig. 2, the springs in the two groups of expansion spring rods 48 fixed at the bottom end of the hydraulic chamber 47 are tension springs, and the default state of the two groups of expansion spring rods 48 is a contracted state, so that when the device is in the initial state, the pressing plate is located above, and when the hydraulic oil in the hydraulic pipe 44 is released, the two groups of expansion spring rods 48 can be reset through the tension springs.

In this embodiment, as shown in fig. 2 and fig. 4, two groups of adjustment bins 451 in the hydraulic pipe 44 are arranged at the same level, and sealing blocks 455 in the two groups of adjustment bins 451 are arranged oppositely, and the default states of the two groups of sealing blocks 455 are joint connection, when the device is in an initial state, the two groups of sealing blocks 455 in the hydraulic pipe 44 are arranged oppositely in a joint manner, so that the hydraulic pipe 44 is primarily sealed, and when no material is inserted, the pressing plate does not move downwards, and is fixed.

In this embodiment, as shown in fig. 1 and 3, the protection mechanism 5 includes a control box 51, two ends of the control box 51 are penetrated by transmission wires, the ends of the two groups of transmission wires are fixedly connected with electrode rods 52, the front ends of the two groups of electrode rods 52 are hinged with conductive plates 53, torsion springs are sleeved on shaft ends of the conductive plates 53, the electrode rods 52, the transmission wires and the hydraulic lifting table 2 are electrically connected, a worker manually inserts a busbar into the power bin 54, with the insertion of the power bin 54, a push plate in the power bin 54 contacts the busbar, the busbar moves forward to push the telescopic rod 56 to move forward, and as the front ends of the telescopic rod 56 are fixed with insulating sleeves 58, the insulating sleeves 58 squeeze the conductive plates 53 arranged next to each other, so that the two groups of conductive plates 53 relatively rotate, the connection state is released, and unnecessary safety accidents caused by downward movement of the cutter 3 due to false contact in the busbar installation process are avoided.

In this embodiment, as shown in fig. 1, 3 and 5, the protection mechanism 5 further includes a power bin 54, the bottom end of the power bin 54 is fixedly connected with the bottom end of the shearing platform 1, one side of the power bin 54 is communicated with the triggering bin 41, two sides of the inner wall axis of the power bin 54 are fixedly provided with return springs, the front ends of the two groups of return springs are fixedly provided with a top plate 55, the rear end of the top plate 55 is fixedly provided with a telescopic rod 56, the outer wall of the telescopic rod 56 is provided with a runner 57 with a -shaped structure, the outer wall of the moving end of the telescopic rod 56 is fixedly provided with an insulating sleeve 58, the top end of the moving end is fixedly provided with a pull block 59, the outer wall of the pull block 59 and the inner wall of the runner 57 are in sliding arrangement, the pull block 59 slides in the runner 57 with a -shaped structure through pulling, the pull block 59 drives the telescopic rod 56 to shrink, the limitation of the two groups of conductive pieces 53 is relieved, and at this moment, the two groups of conductive pieces 53 are reset through the torsion springs, thereby the hydraulic lifting table 2 can be driven to control 3 to descend for cutting.

In this embodiment, as shown in fig. 1 to 6, a novel shearing mechanism for processing flexible connection soft busbar and a shearing method thereof are characterized in that: the method comprises the following steps:

s1, firstly, a worker manually inserts a busbar into a power bin 54, and with the insertion of the power bin 54, a push plate in the power bin 54 contacts with the busbar, the busbar moves forwards to push a telescopic rod 56 to move forwards, and as the front end of the telescopic rod 56 is fixedly provided with an insulating sleeve 58, the insulating sleeve 58 extrudes two groups of conducting plates 53 which are arranged next to the skin, the two groups of conducting plates 53 rotate relatively, the connection state is released, the power supply is disconnected, and unnecessary safety accidents caused by downward movement of a cutter 3 due to false touch in the busbar installation process are avoided;

s2, along with the insertion of the busbar, the busbar is transversely moved to the right, so that the right side of the busbar is inserted into the trigger bin 41, the busbar presses the trigger block 42, the trigger block 42 moves to the right, the push rod 43 is pushed to move forward in the hydraulic pipe 44, and as the side wall of the push rod 43 is matched with the inclined plane below the sealing blocks 455, the two groups of sealing blocks 455 are respectively pushed open by the push rod 43, and the sealing blocks 455 move towards the inside of the adjustment bin 451;

s3, when the sealing block 455 moves to the maximum value, the ventilation groove 456 on the sealing block 455 is abutted with the first air hole 453, the upper side wall of the sealing block 455 blocks the second air hole 454, hydraulic oil in the hydraulic pipe 44 enters the hydraulic pipe 44 on the other side through the first air hole 453 and the ventilation groove 456, so that the hydraulic oil is transported to the hydraulic rod 49, and at the moment, the movable plate is pushed down to press and fix one end of the busbar;

s4, after the fixing is completed, the pulling block 59 slides in the sliding groove 57 with the -shaped structure by pulling the pulling block 59, the telescopic rod 56 is driven to shrink, the limitation on the two groups of conductive sheets 53 is relieved, and at the moment, the two groups of conductive sheets 53 are reset through torsion springs, so that the hydraulic lifting platform 2 can be driven to control the cutter 3 to descend for cutting;

s5, when cutting is finished, the finished cut product is manually pulled, the finished cut product is taken out, at the moment, the trigger block 42, the push block reset and the push block are released from the extrusion state of the mother board, the push block drives the push rod 43 to move backwards, the push rod 43 releases extrusion restriction on the two groups of sealing blocks 455, the two groups of sealing blocks 455 reset, the sealing blocks 455 block the first air holes 453 and release the second air holes 454, redundant hydraulic oil on the other side of the hydraulic pipe 44 is released through the second air holes 454 and the pressure relief port 452, and meanwhile, the pressing plate is reset through the arrangement of the two groups of telescopic spring rods 48.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. Novel flexible connection soft busbar processing is with shearing mechanism, including shearing platform (1), its characterized in that: the cutting device comprises a cutting platform (1), wherein connecting rods are fixedly connected to two sides of the top end of the cutting platform (1), a hydraulic lifting table (2) is fixedly arranged at the top end of the connecting rods, a cutter (3) capable of vertically moving is fixedly arranged below the hydraulic lifting table (2), a fixing mechanism (4) is fixedly arranged at the top end of the cutting platform (1), a protection mechanism (5) is horizontally arranged at one side of the fixing mechanism (4), and a hydraulic pump is fixedly arranged in the inner wall of the cutting platform (1);

the utility model provides a hydraulic pressure storehouse, including trigger storehouse (41), hydraulic pipe (44) and fixed platform (46), the bottom of trigger storehouse (41) is fixed with the top of shearing platform (1) and is set up, it is provided with trigger piece (42) to slide on the diapire of trigger storehouse (41), be provided with push rod (43) of the rear end of trigger piece (42), the one end of hydraulic pipe (44) runs through to the inside of shearing platform (1) and is linked together with the inside of hydraulic pump, fixed setting regulating part (45) in the inner wall of hydraulic pipe (44), the inner wall of hydraulic pipe (44) is the setting of running through with the outer wall of push rod (43), the bottom of fixed platform (46) is fixed with shearing platform (1), the bottom of fixed platform (46) is fixed with hydraulic pressure storehouse (47), the inside of hydraulic pressure storehouse (47) is linked together with hydraulic pipe (44) and is set up, the bottom axis both sides of hydraulic pressure storehouse (47) are fixed connection flexible spring bar (48), and the bottom of two sets of flexible spring bar (48) is fixed connection's clamp plate and inside hydraulic pressure bar (49) is fixed with hydraulic pressure storehouse (47).

2. The novel shearing mechanism for processing flexible connection soft busbar according to claim 1, wherein: the regulating part (45) comprises a regulating bin (451), the outer wall of the regulating bin (451) is fixedly connected with the inner wall of the hydraulic pipe (44), two groups of regulating bins (451) are symmetrically arranged on the axis of the hydraulic pipe (44), pressure release openings (452) are formed in the top ends of the regulating bins (451), first air conveying holes (453) are formed in the side walls of the two ends of the regulating bins (451), second air conveying holes (454) are formed in the upper level of the first air conveying holes (453), and the second air conveying holes (454) are formed in the inner wall of the regulating bins (451).

3. The novel shearing mechanism for processing flexible connection soft busbar according to claim 2, wherein: the adjusting piece (45) further comprises a sealing block (455), the outer diameter of the sealing block (455) and the inner diameter of the adjusting bin (451) are in sliding arrangement, a bevel edge formed by machining is arranged below the sealing block (455), an air vent groove (456) is formed in the inner wall of the sealing block (455), and the air vent groove (456) and the first air transmission hole (453) are horizontally arranged;

the side hypotenuse of sealing piece (455) matches with the lateral wall phase-match of push rod (43), sealing piece (455) are the level setting with push rod (43), fixedly on the back wall of sealing piece (455) be provided with the extension spring, and extension spring and the inner wall fixed connection of regulation storehouse (451).

4. The novel shearing mechanism for processing flexible connection soft busbar according to claim 1, wherein: the springs in the two groups of telescopic spring rods (48) fixed at the bottom end of the hydraulic bin (47) are tension springs, and the default state of the two groups of telescopic spring rods (48) is a contracted state.

5. The novel shearing mechanism for processing flexible connection soft busbar according to claim 2, wherein: two groups of adjusting bins (451) in the hydraulic pipe (44) are arranged at the same level, sealing blocks (455) in the two groups of adjusting bins (451) are arranged oppositely, and the default states of the two groups of sealing blocks (455) are in fit connection.

6. The novel shearing mechanism for processing flexible connection soft busbar according to claim 1, wherein: the protection mechanism (5) comprises a control box (51), transmission wires penetrate through two ends of the control box (51), electrode rods (52) are fixedly connected to the tail ends of the two groups of transmission wires, conducting strips (53) are hinged to the front ends of the two groups of electrode rods (52), torsion springs are sleeved on shaft ends of the conducting strips (53), and the conducting strips (53), the electrode rods (52), the transmission wires and the hydraulic lifting table (2) are electrically connected.

7. The novel shearing mechanism for processing the flexible connection soft busbar of claim 6, wherein the shearing mechanism comprises: the protection mechanism (5) further comprises a power bin (54), the bottom end of the power bin (54) is fixedly connected with the bottom end of the shearing platform (1), one side of the power bin (54) is communicated with the triggering bin (41), reset springs are fixedly arranged on two sides of the axis of the inner wall of the power bin (54), top plates (55) are fixedly arranged at the front ends of the two groups of reset springs, telescopic rods (56) are fixedly arranged at the rear ends of the top plates (55), sliding grooves (57) with -shaped structures are formed in the outer walls of the telescopic rods (56), insulating sleeves (58) are fixedly arranged on the outer walls of the moving ends of the telescopic rods (56), pull blocks (59) are fixedly arranged on the tops of the moving ends, and the outer walls of the pull blocks (59) are slidably arranged on the inner walls of the sliding grooves (57).

8. The novel shearing mechanism for processing the flexible connection soft busbar and the shearing method thereof according to claim 1 are characterized in that: the method comprises the following steps:

the method comprises the steps that S1, firstly, a worker manually inserts a busbar into a power bin (54), and with the insertion of the power bin (54), a push plate in the power bin (54) is contacted with the busbar, the busbar moves forwards to push a telescopic rod (56) to move forwards, and as the front end of the telescopic rod (56) is fixedly provided with an insulating sleeve (58), the insulating sleeve (58) extrudes two groups of conducting plates (53) which are closely arranged, so that the two groups of conducting plates (53) relatively rotate, the connection state is released, the power supply is disconnected, and unnecessary safety accidents caused by downward movement of a cutter (3) due to false contact in the busbar installation process are avoided;

s2, along with the insertion of the busbar, the busbar is transversely moved to the right, so that the right side of the busbar is inserted into the trigger bin (41), the busbar presses the trigger block (42), the trigger block (42) moves to the right, the push rod (43) is pushed to move forward in the hydraulic pipe (44), and as the side wall of the push rod (43) is matched with the inclined plane below the sealing blocks (455), the two groups of sealing blocks (455) are respectively pushed open by the push rod (43), and the sealing blocks (455) move towards the inside of the regulating bin (451);

s3, when the sealing block (455) moves to the maximum value, the ventilation groove (456) on the sealing block (455) is in butt joint with the first air conveying hole (453), the upper side wall of the sealing block (455) can block the second air conveying hole (454), hydraulic oil in the hydraulic pipe (44) can enter the hydraulic pipe (44) on the other side through the first air conveying hole (453) and the ventilation groove (456), so that the hydraulic pipe is transported to the hydraulic rod (49), and at the moment, the movable plate is pushed down, and one end of the busbar is pressed and fixed;

s4, after the fixing is completed, the pull block (59) slides in a runner (57) with a -shaped structure by pulling the pull block (59), the telescopic rod (56) is driven to shrink, the limitation on the two groups of conductive sheets (53) is relieved, and at the moment, the two groups of conductive sheets (53) are reset through torsion springs, so that the hydraulic lifting platform (2) can be driven to control the cutter (3) to descend for cutting;

s5, when cutting is finished, the finished product is manually pulled, the finished product is taken out, at the moment, the trigger block (42) and the push block are released from the busbar to be in a mutually extruded state, the trigger block (42) is reset, the push block drives the push rod (43) to move backwards, the push rod (43) releases extrusion restriction on the two groups of sealing blocks (455), the two groups of sealing blocks (455) are reset, the sealing blocks (455) block the first air conveying hole (453) and release the second air conveying hole (454), redundant hydraulic oil on the other side of the hydraulic pipe (44) is released through the second air conveying hole (454) and the pressure relief opening (452), and meanwhile, the pressing plate is reset through the arrangement of the two groups of telescopic spring rods (48).

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