CN114505525B - Plate shearing machine with anti-slip structure for machining mechanical die - Google Patents

Abstract

The application discloses a plate shearing machine with an anti-slip structure for machining a mechanical die, which comprises a plate shearing machine, wherein air cylinders are arranged on the left side and the right side of the upper surface of the plate shearing machine, a mounting plate is arranged at the driving end of each air cylinder, and a first half-arc gear and a second half-arc gear are respectively arranged at the upper part and the lower part of an inner cavity of the plate shearing machine. This machine tool processing is with plate shearing machine that has anti-skidding structure, the wire hose of the left electric connection of outer wall of arc chamber pipe will carry out the input electric energy to decide the trigger mechanism, electric telescopic handle on the braking fixed plate mechanism operates, and the telescopic handle that electric telescopic handle drive end is connected stretches out and draws back, and pull pivot and fixing base to the installation base plate pulling, the centre gripping hand on the right side will be moved towards left centre gripping hand simultaneously, thereby carry out the centre gripping to the operation panel that is in between two sets of centre gripping hands, realize carrying out the centre gripping spacing to the operation panel on the lower contact block, guarantee the firm of its operation panel in the shearing.

Description

Plate shearing machine with anti-slip structure for machining mechanical die

Technical Field

The application relates to the field of shearing machines, in particular to a plate shearing machine with an anti-slip structure for machining a mechanical die.

Background

The shearing machine shears or shears the plate or the section bar into machines of the required size. The shearing machine is one kind of machine tool, and is hydraulically driven, and has reliable safety and convenient operation.

However, the traditional plate shearing machine with the anti-slip structure for machining the mechanical die in the market at present is improved aiming at the prior art, in the prior art, when the plate is sheared, the plate can slide or deviate after receiving extrusion force, so that the sheared finished product is unqualified, and the structure is not optimized enough and the design is not reasonable enough.

Disclosure of Invention

The application aims to provide a plate shearing machine with an anti-slip structure for machining a mechanical die, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present application provides the following technical solutions:

the utility model provides a mechanical die processing is with plate shearing machine with anti-skidding structure, includes the plate shearing machine, the cylinder is all installed to the upper surface left and right sides of plate shearing machine, the mounting panel is installed to the drive end of cylinder, plate shearing machine inner chamber upper and lower part is provided with half-arc gear one and half-arc gear two respectively, two sets of half-arc gear one with two sets of half-arc gear two between all install the pivot, the lower surface left and right sides of mounting panel has the vertical board all welded, the lower surface fixedly connected with triangle seat of vertical board, connecting block one is installed to the front facade of plate shearing machine near lower part, connecting block two is all installed to the inner chamber front end left and right sides of plate shearing machine, connecting block two and vertical board sliding connection, the inner chamber position welding of connecting block one has the brace table, the top fixedly connected with down the supporting seat of brace table, the upper surface of the lower supporting seat is welded with a lower contact block near the rear part, an operation plate is arranged between the two groups of triangular seats, a fixed plate mechanism is arranged at the rear part of the operation plate, a re-springing mechanism is arranged near the lower part of the inner cavity wall of the plate shearing machine, a groove is arranged at the upper part of the right wall of the cylinder, a guide rod I is inserted in the groove part, an arc cavity tube is arranged at one end of the guide rod I, a guide rod II is arranged at one end of the arc cavity tube, an arc hole is arranged at the inner cavity part of the arc cavity tube, an arc contact piece is arranged at the slot hole part of the arc cavity tube, a hinge block is fixedly connected at the bottom end of the arc contact piece, an L-shaped connecting rod is connected at the central part of the hinge block through a rotating shaft, the bottom end of the L-shaped connecting rod is fixedly connected with the lower part of the right side of the outer wall of the cylinder, a wire hose is electrically connected at the left part near the inner cavity of the arc cavity tube, the lower surface right side fixedly connected with hose of articulated piece, the bottom fixedly connected with wire of hose, the below of wire is provided with the rebound mechanism, the ball groove has been seted up to the front end of rebound mechanism, the toothed disc is installed at half arc gear two's axle center position, the meshing has the tooth mouth pole on the outer wall of toothed disc, the bottom of tooth mouth pole is provided with the articulated slab, the central part of articulated slab articulates there is the support column through the articulated piece, the right-hand member of articulated slab is provided with the buckle, the top fixedly connected with butt joint board of buckle, the upper surface left side fixedly connected with spring of butt joint board, the top of spring is through round pin axle fixedly connected with connecting block, the arc wall is installed to the upper surface front end of butt joint board, the rotary block has been seted up to the central part of arc wall, the slotted hole position of rotary block is provided with the wire.

As still further aspects of the application: the rail grooves are formed in the left side and the right side of the lower surface of the fixed plate mechanism, the surfaces of the rail grooves are slidably connected with sliding blocks, the upper surfaces of the sliding blocks are fixedly connected with fixing seats, concave heads are mounted on the upper surfaces of the fixing seats, and two ends of each concave head are rotatably connected with rotating shafts.

As still further aspects of the application: the back of rail groove is leaned on left position fixedly connected with fixed block, the last fixed surface of fixed block is connected with the mounting substrate, the end that holds that adds of mounting substrate rotates and is connected with electric telescopic handle, the telescopic handle is installed to electric telescopic handle's drive end, telescopic handle one end and pivot fixed connection, fixedly connected with centre gripping hand on the back of fixed block, the upper surface right side fixedly connected with fixed plate of centre gripping hand, centre gripping hand inner wall left side welding has the centre gripping hand.

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

according to the application, after the hinged plate is tilted upwards, one end of the hinged plate pushes the buckle plate to displace forwards and moves the arc groove to rotate, the rotary block arranged in the middle of the arc groove drives the connected lead to displace downwards after the arc groove rotates, the lead and the hose are pulled to drive the right end of the hinged block to displace downwards, the L-shaped connecting rod hinged in the middle of the hinged block is assisted by overturning the hinged block, the right side of the hinged block displaces downwards, the left side of the hinged block displaces upwards and pushes the arc contact piece to be inserted from the arc groove part of the inner cavity of the arc cavity tube, the arc cavity tube connected between the guide rod II and the guide rod I realizes the electric connection of the guide rod I and the guide rod II after the arc contact piece is inserted, so that the operation control of the cylinder is realized, the vertical plate connected with the driving end of the cylinder pushes the triangular seat and the vertical plate to displace downwards, the operation plate arranged on the lower contact block is bent and sheared, and the structure is more optimized and the design is more reasonable.

According to the application, the electric energy is input to the plate fixing mechanism through the electrically connected wire hose on the left side of the outer wall of the arc cavity tube, the electric telescopic rod on the plate fixing mechanism is braked to operate, the telescopic rod connected with the driving end of the electric telescopic rod stretches, the rotating shaft and the fixing seat are pulled towards the mounting substrate, and meanwhile, the right clamping hand on the right side is displaced towards the left clamping hand, so that the operation plate between the two groups of clamping hands is clamped, the clamping limit of the operation plate on the lower contact block is realized, and the stability of the operation plate in shearing is ensured.

According to the application, the first half-arc gear continuously rotates, the first half-arc gear is separated from the second half-arc gear, and the arc groove is driven to reset under the rebound action of the spring, so that the arc contact piece at one end of the hinge block is pulled to reset through the wire and the hose, the arc contact piece is pulled out of the inner cavity of the arc cavity tube, the separation of the second guide rod and the first guide rod is realized, the air cylinder does not operate, and the operator pulls the operation plate out of the plate shearing machine.

Drawings

Fig. 1 is a schematic structural view of a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 2 is a split view of a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 3 is an internal construction view of a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 4 is a cross-sectional view of a re-springing mechanism in a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 5 is a structural view of a re-springing mechanism in a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 6 is a structural view of a fixed plate mechanism in a plate shearing machine with an anti-slip structure for machining a mechanical die.

Fig. 7 is an enlarged view of a portion a of fig. 3 in a plate shearing machine with a slip preventing structure for machining a mechanical die.

In the figure: plate shearing machine 1, cylinder 2, mounting plate 3, half-arc gear one 4, half-arc gear two 5, triangle seat 6, rotation shaft 7, connection block one 8, connection block two 9, vertical plate 10, clamping hand 11, fixed plate mechanism 12, wire 13, re-springing mechanism 14, support column 15, hinged plate 16, gear plate 17, support table 18, lower support seat 19, lower contact block 20, operation plate 21, tooth mouth bar 22, L-shaped connection rod 23, arc contact piece 24, guide rod one 25, arc chamber tube 26, guide rod two 27, hinging block 28, hose 29, wire hose 30, screwing block 31, connection block 32, spring 33, butt plate 34, buckle plate 35, arc groove 36, ball groove 37, slide block 38, fixing seat 39, concave head 40, rotation shaft 41, telescopic rod 42, electric telescopic rod 43, fixing plate 44, clamping hand 45, fixing block 46, mounting base plate 47, rail groove 48.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-7, in the embodiment of the application, a plate shearing machine with an anti-slip structure for machining a mechanical die comprises a plate shearing machine 1, wherein an air cylinder 2 is arranged on the left side and the right side of the upper surface of the plate shearing machine 1, a mounting plate 3 is arranged at the driving end of the air cylinder 2, a first half-arc gear 4 and a second half-arc gear 5 are respectively arranged at the upper and lower parts of an inner cavity of the plate shearing machine 1, a rotating shaft 7 is arranged between the first half-arc gear 4 and the second half-arc gear 5, a vertical plate 10 is welded on the left side and the right side of the lower surface of the mounting plate 3, a triangular base 6 is fixedly connected to the lower surface of the vertical plate 10, a connecting block 8 is arranged at the lower part of the front vertical face of the plate shearing machine 1, a second connecting block 9 is arranged on the left side and the right side of the front end of the inner cavity of the plate shearing machine 1, the second connecting block 9 is in sliding connection with the vertical plate 10, a supporting table 18 is welded at the inner cavity part of the connecting block 8, a lower supporting seat 19 is fixedly connected to the top end of the supporting table 18, the upper surface of the lower supporting seat 19 is welded with a lower contact block 20 near the rear part, an operation plate 21 is arranged between the two groups of triangular seats 6, a fixed plate mechanism 12 is arranged at the rear part of the operation plate 21, a re-springing mechanism 14 is arranged near the lower part of the inner wall of the plate shearing machine 1, a groove is arranged at the upper part of the right wall of the cylinder 2, a guide rod I25 is inserted in the groove part, an arc cavity tube 26 is arranged at one end of the guide rod I25, a guide rod II 27 is arranged at one end of the arc cavity tube 26, an arc hole is arranged at the inner cavity part of the arc cavity tube 26, an arc contact piece 24 is arranged at the slotted hole part of the arc cavity tube 26, a hinge block 28 is fixedly connected at the bottom end of the arc contact piece 24, an L-shaped connecting rod 23 is fixedly connected at the central part of the hinge block 28 through a rotating shaft, a wire hose 30 is electrically connected near the left part of the inner cavity of the arc cavity tube 26, the lower surface right side fixedly connected with hose 29 of hinge piece 28, the bottom fixedly connected with wire 13 of hose 29, the below of wire 13 is provided with the mechanism 14 that rewinds, the ball groove 37 has been seted up to the front end of mechanism 14 that rewinds, the axle center position of half arc gear two 5 installs toothed disc 17, the meshing has tooth mouth pole 22 on the outer wall of toothed disc 17, the bottom of tooth mouth pole 22 is provided with articulated slab 16, the central part of articulated slab 16 articulates through the articulated piece has support column 15, the right-hand member of 16 is provided with buckle 35, buckle 35's top fixedly connected with butt plate 34, the upper surface left side fixedly connected with spring 33 of butt plate 34, the top fixedly connected with connecting block 32 through the round pin axle, the upper surface front end of butt plate 34 has arc groove 36, the central part of arc groove 36 has seted up rotary block 31, the slotted hole position of rotary block 31 is provided with wire 13, the surface sliding connection of rail groove 48 has slider 38, the upper surface fixedly connected with fixing base plate 39, the upper surface mounting 40 of 39 has the recess 40 to connect with the end, the end of the electric drive end of 45 is connected with the fixed connection of the left-hand shaft 45, the fixed surface of the jack rod is connected with the fixed end of the electric drive end of 45, the fixed connection end of the left-hand shaft is fixed connection of the electric drive end of 45, the left-hand end is fixed connection of the end of the electric end 46, the end is connected with the fixed end of the electric end 46, the end is fixed connection of the end is fixed 45, the end is fixed by the end of the electric end is fixed 45, the end is fixed by the electric end, the end is fixed by the 45.

The working principle of the application is as follows: when in use: the operation plate 21 is placed on the table top of the lower supporting seat 19, the plate is pushed to the first half-arc gear 4 and the second half-arc gear 5, at the moment, the first half-arc gear 4 is controlled to rotate, the second half-arc gear 5 meshed with the outer wall of the first half-arc gear 4 also rotates, the gear disc 17 connected with one end of the second half-arc gear 5 rotates, meanwhile, the tooth plate connected with the outer wall of the gear disc 17 drives the tooth port rod 22 to move up and down, the tooth port rod 22 pushes one end of the hinged plate 16 to tilt, and the supporting column 15 with the clean center part of the hinged plate 16 is used as a seesaw, so that the upward tilting of one end of the hinged plate 16 is facilitated;

after the hinged plate 16 is tilted upwards, one end of the hinged plate 16 pushes the buckle plate 35 to displace forwards and moves the arc groove 36 to rotate, the rotary block 31 arranged in the middle of the arc groove 36 drives the lead 13 connected with the rotary block to displace downwards after the arc groove 36 rotates, pulls the lead 13 and the hose 29 to drive the right end of the hinged block 28 to displace downwards, and the L-shaped connecting rod 23 hinged in the middle of the hinged block 28 assists the hinged block 28 to turn over;

the right side of the hinging block 28 is downwards displaced, the left side of the hinging block is upwards displaced, the arc-shaped contact piece 24 is pushed to be inserted from the arc-shaped groove part in the inner cavity of the arc-shaped cavity tube 26, after the arc-shaped cavity tube 26 connected between the second guide rod 27 and the first guide rod 25 is inserted into the arc-shaped contact piece 24, the electric connection between the first guide rod 25 and the second guide rod 27 is realized, so that the operation control of the air cylinder 2 is realized, the vertical plate 10 connected with the driving end of the air cylinder 2 pushes the triangular base 6 and the vertical plate 10 to downwards displace, and the operation plate 21 positioned on the lower contact block 20 is bent and sheared;

simultaneously, the wire hose 30 electrically connected to the left side of the outer wall of the arc cavity tube 26 inputs electric energy to the fixed plate mechanism 12, the electric telescopic rod 43 on the fixed plate mechanism 12 is braked to operate, the telescopic rod 42 connected to the driving end of the electric telescopic rod 43 stretches, the rotating shaft 41 and the fixing seat 39 are pulled towards the mounting substrate 47, and meanwhile, the right clamping hand 11 on the right side moves towards the left clamping hand 11, so that the operation plate 21 between the two groups of clamping hands 11 is clamped, the operation plate 21 on the lower contact block 20 is clamped and limited, and the stability of the operation plate 21 in shearing is ensured;

the first half-arc gear 4 continues to rotate, the first half-arc gear 4 is separated from the second half-arc gear 5, and the arc groove 36 is driven to reset under the rebound action of the spring 33, so that the arc contact piece 24 at one end of the hinge block 28 is pulled to reset through the lead 13 and the hose 29, the arc contact piece 24 is pulled out of the inner cavity of the arc cavity tube 26, the separation of the second guide rod 27 and the first guide rod 25 is realized, the air cylinder 2 does not operate, and the operator pulls the operation plate 21 out of the plate shearing machine 1.

Although the present application has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present application.

Claims (3)

1. The utility model provides a mechanical die processing is with plate shearing machine that has anti-skidding structure, includes plate shearing machine (1), its characterized in that: the utility model discloses a trigger, including installing board (1) and connecting block (1), mounting board (3) are all installed to upper surface left and right sides of trigger (1), mounting board (3) are installed to the drive end of cylinder (2), the upper and lower position of trigger (1) inner chamber is provided with half-arc gear one (4) and half-arc gear two (5) respectively, two sets of half-arc gear one (4) and two sets of between half-arc gear two (5) all install pivot (7), vertical board (10) are all welded to the lower surface left and right sides of mounting board (3), the lower surface fixedly connected with triangle seat (6) of vertical board (10), connecting block one (8) are installed to the front elevation of trigger (1) near lower position, connecting block two (9) and vertical board (10) sliding connection, the inner chamber position of connecting block one (8) welds supporting bench (18), the top fixedly connected with down supporting seat (19) of supporting bench (18), the lower surface of lower supporting bench (19) is close to triangle seat (21) and is provided with back face down, the trigger (21) is provided with back face down, the trigger is located at the back of the trigger (1) and is located at the back of the trigger (12), the right wall upper portion of cylinder (2) has seted up the recess, and the recess position grafting has guide arm one (25), arc chamber pipe (26) are installed to the one end of guide arm one (25), arc chamber pipe (26)'s one end is installed guide arm two (27), the inner chamber position of arc chamber pipe (26) has seted up the arc hole, the slotted hole position of arc chamber pipe (26) is provided with arc contact piece (24), the bottom fixedly connected with hinge block (28) of arc contact piece (24), the central point of hinge block (28) is connected with L shape connecting rod (23) through the pivot, the bottom of L shape connecting rod (23) and the outer wall right side lower part fixed connection of cylinder (2), the inner chamber of arc chamber pipe (26) is by left position electric connection wire hose (30), the lower surface right side fixed connection hose (29) of hinge block (28), the bottom fixedly connected with wire (13) of hose (29), the below of wire (13) is provided with compound bullet mechanism (14), the tooth disc (16) of compound gear wheel (14) has the tooth disc (17) of tooth disc (17) has, tooth disc (17) is installed to the tooth disc (17), the utility model discloses a hinge plate, including articulated slab, hinged plate, rotary block (31), arc wall (36) are installed to the central point of articulated slab (16), right-hand member of articulated slab (16) is provided with buckle (35), the top fixedly connected with butt plate (34) of buckle (35), the upper surface left side fixedly connected with spring (33) of butt plate (34), the top of spring (33) is through round pin axle fixedly connected with connecting block (32), arc wall (36) are installed to the upper surface front end of butt plate (34), rotary block (31) have been seted up at the central point of arc wall (36), the slotted hole position of rotary block (31) is provided with wire (13).

2. The plate shearing machine with anti-slip structure for machining a mechanical die according to claim 1, wherein: the fixed plate mechanism is characterized in that rail grooves (48) are formed in the left side and the right side of the lower surface of the fixed plate mechanism (12), a sliding block (38) is connected to the surface of the rail grooves (48) in a sliding mode, a fixing seat (39) is fixedly connected to the upper surface of the sliding block (38), a concave head (40) is mounted on the upper surface of the fixing seat (39), and rotating shafts (41) are connected to the two ends of the concave head (40) in a rotating mode.

3. The plate shearing machine with anti-slip structure for machining a mechanical die according to claim 2, wherein: the back of rail groove (48) is leaned on left position fixedly connected with fixed block (46), the last fixed surface of fixed block (46) is connected with mounting substrate (47), the end that holds that adds of mounting substrate (47) rotates and is connected with electric telescopic handle (43), telescopic handle (42) are installed to the drive end of electric telescopic handle (43), telescopic handle (42) one end and pivot (41) fixed connection, fixedly connected with centre gripping hand (11) on the back of fixed block (46), upper surface right side fixedly connected with fixed plate (44) of centre gripping hand (11), centre gripping hand (45) are welded on the left side of the inner wall of centre gripping hand (11).