CN115635144A - Auto-parts mould processing equipment - Google Patents

Abstract

The invention relates to the technical field of die processing appliances, and provides automobile accessory die processing equipment which comprises a rack, wherein an objective table and a regulating and controlling processor are arranged on one side of the rack, a moving seat and an extending arm which are electrically connected with the regulating and controlling processor are arranged on the rack, the output end of the extending arm is provided with a connector, the connector is connected with a processing knife of a processing die, the automobile accessory die processing equipment also comprises a clamping assembly and a knife connecting assembly, the clamping assembly is arranged on the connector, the knife connecting assembly is arranged on the processing knife, the clamping assembly comprises a locking piece and a clamping cylinder, the clamping cylinder is arranged on the connector, the locking piece is movably arranged on the clamping cylinder, the knife connecting assembly is provided with a first sliding piece, the clamping cylinder is abutted against or separated from the first sliding piece through the extending arm, the first sliding piece is abutted against the processing knife through the clamping cylinder, and the first sliding piece is contacted with or separated from the locking piece after sliding; through above-mentioned technical scheme, the problem that processing sword is connected inconveniently with processing equipment during mould processing in the correlation technique has been solved.

Description

Auto-parts mould processing equipment

Technical Field

The invention relates to the technical field of die processing appliances, in particular to automobile accessory die processing equipment.

Background

The automobile is a non-rail-bearing vehicle with 4 or more than 4 wheels and driven by power, some automobiles are not large in size, but the number of accessories related to the inside is hundreds or thousands, most accessories can be manufactured successfully by means of corresponding dies, so that the manufacturing of the dies is particularly important, the dies need to be processed by using various processing knives in the manufacturing process, the installation process between the processing knives and the processing equipment is simplified in order to connect the various processing knives and the processing equipment together, and the improvement and the promotion of the existing technology are needed.

Disclosure of Invention

The invention provides automobile accessory die processing equipment, and solves the problem that a processing tool is not conveniently connected with the processing equipment during die processing in the related technology.

The technical scheme of the invention is as follows:

auto-parts mould processing equipment, which comprises a frame, frame one side is provided with objective table and regulation and control treater, be equipped with in the frame with removal seat and the extending arm that regulation and control treater electricity is connected, it removes to set up to remove the seat in the frame, the extending arm rotates to set up remove on the seat, the output of extending arm sets up the connector, the connector is connected with the processing sword of processing mould, still includes centre gripping subassembly and cutter coupling assembling, the centre gripping subassembly sets up on the connector, cutter coupling assembling sets up on the processing sword, the centre gripping subassembly includes locking piece and clamping cylinder, clamping cylinder sets up on the connector, locking piece removes to set up on the clamping cylinder, be provided with first slider on the cutter coupling assembling, clamping cylinder with the help of the extending arm with first slider or separation, first slider with the help of clamping cylinder the processing sword is gone up to slide, first slider slide the back with locking piece contact or separation are contradicted.

As a further technical scheme, the extension arm comprises a rotating base, a telescopic cross arm and a telescopic vertical arm, the rotating base, the telescopic cross arm and the telescopic vertical arm are all electrically connected with the regulating and controlling processor, the rotating base is arranged on the moving base, the telescopic cross arm is rotatably arranged on the rotating base, the telescopic vertical arm is arranged at the output end of the telescopic cross arm, and the connector is arranged at the output end of the telescopic vertical arm.

As a further technical scheme, an annular groove and a first through groove are formed in the inner wall of the clamping cylinder, a second through groove and a third through groove are formed in the side wall of the annular groove, the clamping assembly further comprises a transmission rod, a swing rod and a locking unit, the transmission rod is movably arranged in the second through groove by means of a first sliding part, the swing rod is rotatably arranged in the first through groove, the locking unit is arranged in the third through groove and electrically connected with the regulating and controlling processor, the locking piece is arranged at the output end of the locking unit, the swing rod rotates by means of the movement of the transmission rod, and the swing rod is in contact with or separated from the locking unit when rotating.

As a further technical scheme, the clamping assembly further comprises a transmission spring, the transmission spring is arranged in the second through groove, two ends of the transmission spring are fixedly connected with the transmission rod and the swing rod respectively, and one end of the transmission rod, which is in contact with the first sliding piece, is in a circular arc shape.

As a further technical scheme, a first groove is formed in a side wall of the first through groove, the clamping assembly further comprises a return spring and an unlocking ring, the return spring is arranged in the first groove, two ends of the return spring are fixedly connected with the bottom of the first groove and the oscillating rod respectively, the unlocking ring is movably arranged on the clamping cylinder and electrically connected with the regulating and controlling processor, and the unlocking ring is abutted against or separated from the oscillating rod when moving.

As a further technical scheme, a trigger is arranged on one side of the oscillating rod close to the locking unit, the locking unit comprises a trigger switch and a trigger motor, the trigger switch is in contact with or separated from the trigger switch by means of rotation of the oscillating rod, the trigger switch is electrically connected with the trigger motor, and the trigger motor is arranged in the third through groove and is electrically connected with the regulating and controlling processor.

As a further technical scheme, be close to on the processing sword first sliding tray has been seted up to the one end of centre gripping subassembly, first slider removes to set up in the first sliding tray, the second sliding tray has all been seted up on the lateral wall of first sliding tray both sides, be provided with the sliding block on the first slider, the sliding block removes to set up in the second sliding tray, cutter coupling assembling includes first spring and guide element, first spring housing is established on the guide element, the both ends of first spring respectively with first slider with the processing sword links firmly, the guide element is including removing uide bushing and the guide bar of connecting, the uide bushing sets up on the first slider, the guide bar sets up on the processing sword.

As a further technical scheme, a connecting pin is arranged on the connecting head, a second groove is formed in one side, close to the clamping cylinder, of the processing knife, and the connecting pin is in contact with or separated from the second groove by means of the motion of the extending arm.

As a further technical scheme, the cutter coupling assembling with the quantity of centre gripping subassembly all sets up to two, the cutter coupling assembling with the centre gripping subassembly all uses the axial lead of a centre gripping section of thick bamboo becomes the circumference distribution as the center, still includes second slider and strengthens the round pin, the second slider removes to set up on the processing sword, two cutter coupling assembling respectively with the second slider with first slider is connected, be provided with the fourth on the first slider and lead to the groove, be provided with the fifth on the second slider and lead to the groove, strengthen the round pin and pass simultaneously the fourth lead to the groove with the fifth lead to the groove, strengthen the round pin respectively with the fourth lead to the groove with fifth lead to groove sliding connection.

The working principle and the beneficial effects of the invention are as follows:

in order to facilitate the connection between a processing cutter and processing equipment, the invention provides automobile accessory die processing equipment, which specifically comprises a rack, an objective table, a regulating and controlling processor, a moving seat, an extending arm, a clamping component and a cutter connecting component; before the mold is machined, the mold to be machined is placed on an objective table and fixed, machining cutters of various specifications are placed on a cutter rest on one side of a rack, and one end of a cutter connecting assembly faces upwards; adjusting the position of the movable seat through the adjusting processor to enable the connector to move above the processing cutter; and then adjusting the position of the extension arm by the adjusting and controlling processor to enable the clamping cylinder on the connector to gradually approach the cutter connecting assembly until the clamping cylinder is in extrusion contact with the first sliding piece, moving the first sliding piece on the machining cutter by means of the extrusion force of the clamping cylinder until one end of the first sliding piece, which is far away from the machining cutter, is in extrusion contact with the locking piece, and completing the locking installation of the machining cutter.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the whole of the present invention.

FIG. 2 is a schematic view of the construction of the joint of the extension arm, clamping assembly and tool coupling assembly of the present invention.

FIG. 3 is an elevational view of the combination clamping assembly and tool coupling assembly of the present invention.

FIG. 4 is a second angle schematic view of the joint of the clamping assembly and the tool coupling assembly of the present invention.

Fig. 5 is a schematic view of the construction of the joint of the cutting insert and the tool coupling assembly of the present invention.

Fig. 6 is a schematic structural view of the processing cutter of the present invention.

Fig. 7 is a schematic structural view of a joint of the processing cutter, the first sliding member and the second sliding member according to the present invention.

In the figure: 1. the device comprises a frame, 2, an object stage, 3, a regulating and controlling processor, 4, a moving seat, 5, an extending arm, 6, a connecting head, 7, a processing knife, 8, a locking piece, 9, a clamping barrel, 10, a first sliding piece, 11, a rotating base, 12, a telescopic cross arm, 13, a telescopic vertical arm, 14, an annular groove, 15, a first through groove, 16, a second through groove, 17, a third through groove, 18, a transmission rod, 19, a swinging rod, 20, a transmission spring, 21, a first groove, 22, a reset spring, 23, an unlocking ring, 24, a trigger piece, 25, a trigger switch, 26, a trigger motor, 27, a first sliding groove, 28, a second sliding groove, 29, a sliding block, 30, a first spring, 31, a guide sleeve, 32, a guide rod, 33, a connecting pin, 34, a second groove, 35, a second sliding piece, 36, a reinforcing pin, 37, a fourth through groove, 38 and a fifth through groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 7, the present embodiment proposes an automobile accessory mold processing apparatus.

Auto-parts mould processing equipment, which comprises a frame 1, 1 one side of frame is provided with objective table 2 and regulation and control treater 3, be equipped with removal seat 4 and the extending arm 5 of being connected with regulation and control treater 3 electricity in the frame 1, it removes and sets up in frame 1 to remove seat 4, extending arm 5 rotates and sets up on removing seat 4, the output of extending arm 5 sets up connector 6, connector 6 is connected with the processing sword 7 of processing mould, still include centre gripping subassembly and cutter coupling assembling, the centre gripping subassembly sets up on connector 6, cutter coupling assembling sets up on processing sword 7, the centre gripping subassembly includes locking piece 8 and clamping cylinder 9, clamping cylinder 9 sets up on connector 6, locking piece 8 removes and sets up on clamping cylinder 9, be provided with first slider 10 on the cutter coupling assembling, clamping cylinder 9 conflicts or separates with first slider 10 with the help of extending arm 5, first slider 10 slides on processing sword 7 with the help of the conflict of clamping cylinder 9, contact or separation with locking piece 8 after first slider 10 slides.

In the embodiment, as shown in fig. 1 to 4, in order to facilitate connection between the processing tool 7 and the processing equipment, the inventor provides the processing equipment for the automobile accessory mold, which specifically comprises a rack 1, an object stage 2, a regulating and controlling processor 3, a moving seat 4, an extending arm 5, a clamping component and a tool connecting component; before the mold is machined, the mold to be machined is placed on the objective table 2 and fixed, machining cutters 7 of various specifications are placed on a cutter rest on one side of the rack 1, and one end of the cutter connecting assembly faces upwards; the position of the movable seat 4 is adjusted by the adjusting processor 3 to enable the connecting head 6 to move above the processing knife 7; and then, the position of the extension arm 5 is adjusted by the adjusting and controlling processor 3, so that the clamping cylinder 9 on the connector 6 is gradually close to the cutter connecting assembly until the clamping cylinder 9 is in extrusion contact with the first sliding part 10, the first sliding part 10 moves on the machining cutter 7 by virtue of the extrusion force of the clamping cylinder 9 until one end of the first sliding part 10, which is far away from the machining cutter 7, is in extrusion contact with the locking part 8, and the locking installation of the machining cutter 7 is completed, and the installation process of the machining cutter 7 is simple and can be achieved in one step.

Further, the extending arm 5 comprises a rotating base 11, a telescopic cross arm 12 and a telescopic vertical arm 13, the rotating base 11, the telescopic cross arm 12 and the telescopic vertical arm 13 are all electrically connected with the regulating and controlling processor 3, the rotating base 11 is arranged on the moving seat 4, the telescopic cross arm 12 is rotatably arranged on the rotating base 11, the telescopic vertical arm 13 is arranged at the output end of the telescopic cross arm 12, and the connector 6 is arranged at the output end of the telescopic vertical arm 13.

In this embodiment, as shown in fig. 1 to 2, in order to implement multi-angle processing of the processing knife 7, the inventor optimizes the extension arm 5, the extension arm 5 specifically includes a rotating base 11, a telescopic cross arm 12 and a telescopic vertical arm 13, which are all electrically connected to the adjusting and controlling processor 3, the adjusting and controlling processor 3 adjusts the rotating angle of the rotating base 11, the extending length of the telescopic cross arm 12 and the extending length of the telescopic vertical arm 13, and the position of the connector 6 is adjusted by the rotating base 11, the telescopic cross arm 12 and the telescopic vertical arm 13 which can be linked together, thereby implementing multi-angle processing of the die by the processing knife 7.

Furthermore, an annular groove 14 and a first through groove 15 are formed in the inner wall of the clamping cylinder 9, a second through groove 16 and a third through groove 17 are formed in the side wall of the annular groove 14, the clamping assembly further comprises a transmission rod 18, a swing rod 19 and a locking unit, the transmission rod 18 is movably arranged in the second through groove 16 through a first sliding piece 10, the swing rod 19 is rotatably arranged in the first through groove 15, the locking unit is arranged in the third through groove 17 and is electrically connected with the regulating and controlling processor 3, the locking piece 8 is arranged at the output end of the locking unit, the swing rod 19 rotates through the movement of the transmission rod 18, and the swing rod 19 is in contact with or separated from the locking unit when rotating.

In this embodiment, as shown in fig. 2 to 4, in order to improve the convenience and stability of the installation of the processing cutter 7, the inventor optimizes a clamping assembly, wherein the clamping assembly specifically includes a transmission rod 18, a swing rod 19 and a locking unit, a first through groove 15 on a clamping cylinder 9 is an L-shaped through groove, the first through groove 15 is divided into two sections, which are an a through groove and a B through groove perpendicular to each other, the a through groove is communicated with an annular groove 14 by a second through groove 16, the B through groove is communicated with the annular groove 14 by a third through groove 17, the swing rod 19 is in an L shape as a whole, one section in the a through groove is a C rod, one section in the B through groove is a D rod, and the C rod and the D rod are perpendicular to each other; when the processing knife 7 is installed, the processing knife 7 is vertically placed on the knife rest, one end, which is in contact with a die, of the processing knife 7 points downwards, and the adjusting processor 3 adjusts the extending arm 5 to move, so that the connecting head 6 and the clamping cylinder 9 are opposite to the processing knife 7 from top to bottom; then, the processor 3 is regulated and controlled to enable the connecting head 6 and the clamping cylinder 9 to simultaneously approach the processing knife 7 until the clamping cylinder 9 is in extrusion contact with the first sliding part 10; the first slide 10 slides on the tool coupling assembly by means of the pressing force provided by the clamping cylinder 9; with the sliding of the first sliding part 10, one end of the first sliding part 10 far away from the processing knife 7 is in pressing contact with the transmission rod 18, and the transmission rod 18 moves in the second through groove 16; with the continuous pressing of the first slider 10, the end of the transmission rod 18 away from the first slider 10 comes into pressing contact with the C-bar on the swing lever 19; with the continuous extrusion of the transmission rod 18, the rod C drives the rod D to synchronously rotate in the through groove B; the D rod rotates to be in extrusion contact with the locking unit, the locking unit is started under extrusion of the D rod and drives the locking piece 8 to move in the direction close to the first sliding piece 10 in the third through groove 17 until the locking piece 8 moves to the limiting position of the locking unit and then the locking unit stops working, the locking unit transmits a signal to the regulating and controlling processor 3 after the locking unit stops working, the regulating and controlling processor 3 stops working of the extending arm 5 after receiving the signal of the locking unit after the locking unit stops working, and the clamping cylinder 9 does not extrude the first sliding piece 10 any more; the blocking element 8 is now located below the contact point of the first slider 10 with the transmission lever 18; the first sliding part 10 is locked in a gap between the locking part 8 and the annular groove 14, so that the processing cutter 7 is prevented from being separated from the clamping cylinder 9, the clamping assembly clamps the first sliding part 10, and the processing installation is completed; when the clamping cylinder 9 is sleeved on the first sliding part 10, the installation process of the processing knife 7 is completed, and the process is simple.

Further, the clamping assembly further comprises a transmission spring 20, the transmission spring 20 is arranged in the second through groove 16, two ends of the transmission spring 20 are fixedly connected with the transmission rod 18 and the swing rod 19 respectively, and one end, in contact with the first sliding piece 10, of the transmission rod 18 is arc-shaped.

In the present embodiment, as shown in fig. 2 to 4, in order to reduce the impact force between the transmission rod 18 and the swing lever 19, the inventor adds a transmission spring 20 between the transmission rod 18 and the swing lever 19, and when the transmission rod 18 approaches the swing lever 19, the transmission spring 20 is compressed and deformed, so as to reduce the impact force when the transmission rod 18 moves, and buffer the impact force between the transmission rod 18 and the swing lever 19.

Furthermore, a first groove 21 is formed in the side wall of the first through groove 15, the clamping assembly further comprises a return spring 22 and an unlocking ring 23, the return spring 22 is arranged in the first groove 21, two ends of the return spring 22 are fixedly connected with the bottom of the first groove 21 and the swing rod 19 respectively, the unlocking ring 23 is movably arranged on the clamping cylinder 9 and is electrically connected with the adjusting and controlling processor 3, and the unlocking ring 23 is abutted against or separated from the swing rod 19 when moving.

In the embodiment, as shown in fig. 2 to 4, in order to facilitate the detachment of the processing blade 7, the inventor adds a return spring 22 and an unlocking ring 23 to the clamping cylinder 9, and when the processing blade 7 is fixed on the clamping cylinder 9, the return spring 22 is in a compressed state; when the processing knife 7 needs to be placed on the knife rest after the operation is finished, the adjusting processor 3 adjusts the action of the extending arm 5, so that the connecting head 6 drives the clamping cylinder 9 and the processing knife 7 to move to the upper part of the knife rest, and the processing knife 7 is placed in the knife groove; the adjusting and controlling processor 3 starts the built-in motor of the unlocking ring 23, so that the unlocking ring 23 moves towards the direction close to the swing rod 19 until an unlocking pin on the unlocking ring 23 is inserted between the swing rod 19 and the locking unit, and the swing rod 19 is separated from the locking unit along with the insertion of the unlocking pin; as the oscillating lever 19 disengages from the blocking unit, the blocking unit is activated again, which carries the blocking element 8 away from the first slider 10 until the blocking element 8 and the first slider 10 are completely disengaged; after the locking piece 8 and the first sliding piece 10 are separated, the locking unit stops working and transmits a signal that the locking piece 8 and the first sliding piece 10 are separated to the adjusting and controlling processor 3, and the adjusting and controlling processor 3 receives the signal and adjusts and controls the action of the extension arm 5, so that the extension arm 5 drives the connecting head 6 and the clamping cylinder 9 to move in the direction away from the tool rest, and the detaching operation of the processing tool 7 is completed; after the processing knife 7 is separated from the clamping cylinder 9, the compression spring is in a natural extension state, and the swinging rod 19 and the locking unit are in a separation state under the action of the reset spring 22, so that the phenomenon that the swinging rod 19 and the locking unit are in error contact in the moving process of the extension arm 5, the locking unit is in error operation, and the clamping operation of the next processing knife 7 is influenced is avoided; then the adjusting and controlling processor 3 controls the unlocking ring 23 to restore to the original position, and simultaneously adjusts and controls the extending arm 5 to take the next processing knife 7 for the next processing operation.

Further, a trigger piece 24 is arranged on one side of the swing rod 19 close to the locking unit, the locking unit comprises a trigger switch 25 and a trigger motor 26, the trigger piece 24 is in contact with or separated from the trigger switch 25 by means of rotation of the swing rod 19, the trigger switch 25 is electrically connected with the trigger motor 26, and the trigger motor 26 is arranged in the third through groove 17 and is electrically connected with the regulating processor 3.

In this embodiment, as shown in fig. 2 to 4, the inventor refines the locking unit, and specifically includes a trigger switch 25 and a trigger motor 26, when the D rod on the swing rod 19 rotates in a direction approaching the locking unit, the trigger piece 24 on the swing rod 19 makes pressing contact with the trigger switch 25, the trigger switch 25 turns on the trigger motor 26, the trigger motor 26 starts to drive the locking piece 8 to move, so as to fix the first slider 10 by the locking piece 8, and when the locking piece 8 moves in place, the trigger motor 26 sends a signal to the adjustment processor 3, and performs the next operation.

Further, first sliding tray 27 has been seted up to the one end that is close to the centre gripping subassembly on the processing sword 7, first slider 10 removes and sets up in first sliding tray 27, second sliding tray 28 has all been seted up on the lateral wall at first sliding tray 27 both sides, be provided with sliding block 29 on first slider 10, sliding block 29 removes and sets up in second sliding tray 28, cutter coupling assembling includes first spring 30 and guide element, first spring 30 cover is established on the guide element, the both ends of first spring 30 link firmly with first slider 10 and processing sword 7 respectively, the guide element is including removing uide bushing 31 and the guide bar 32 of connecting, uide bushing 31 sets up on first slider 10, guide bar 32 sets up on processing sword 7.

In this embodiment, as shown in fig. 3 to 7, the inventor refines the tool connecting assembly, and improves the stability of the first sliding member 10 during movement, the specific tool connecting assembly includes a first spring 30, a guide sleeve 31 and a guide rod 32, the first sliding member 10 is integrally divided into three sections, which are a first section, a second section and a third section that are sequentially connected, respectively, wherein the first section is movably disposed in the first sliding groove 27, sliding blocks 29 are disposed on both side edges of the first section, the first section and the third section are disposed in parallel, the second section is obliquely disposed between the first section and the third section, and the first section and the third section are located on the same side of the second section; when the processing knife 7 is naturally placed on the knife rest, the first spring 30 is in a natural extension state, and under the action of the first spring 30, the connecting position of the first section and the second section exceeds the outer edge position of the processing knife 7; when the clamping cylinder 9 extrudes the first sliding part 10, the clamping cylinder 9 is in extrusion contact with the second section, under the action of the clamping cylinder 9, the connecting position of the first section and the second section moves towards the direction close to the axial lead of the processing cutter 7, the third section moves towards the direction far away from the axial lead of the processing cutter 7, and the first spring 30 starts to compress to accumulate elastic force; meanwhile, as the height of the clamping cylinder 9 continuously decreases, the third section gradually approaches and enters the annular groove 14 until the third section is in extrusion contact with the transmission rod 18; the clamping cylinder 9 continues to descend, and the transmission rod 18 moves towards the direction close to the swing rod 19 until the swing rod 19 starts to rotate; after the swing rod 19 rotates, the locking unit is pressed, and after the locking unit is started, the locking piece 8 is driven to move towards the direction close to the first sliding piece 10 until the locking piece 8 moves below the third section; at this time, the third section is located between the upper side wall of the annular groove 14 and the upper side surface of the locking member 8 as viewed in the vertical direction, and the first slider 10 is fixed to the annular groove 14 by the urging force generated by the compression of the first spring 30; the problem of fixing failure due to the bending deformation of the first spring 30 can be prevented by the guide rod 32 and the guide sleeve 31 during the compression of the first spring 30.

Further, a connecting pin 33 is arranged on the connecting head 6, a second groove 34 is formed on one side of the processing knife 7 close to the clamping cylinder 9, and the connecting pin 33 is contacted with or separated from the second groove 34 by the action of the extending arm 5.

In this embodiment, as shown in fig. 3 to 7, in order to further enhance the stability of the connection between the processing knife 7 and the connecting head 6, the inventor adds a connecting pin 33 on the connecting head 6, when the first sliding member 10 is fixed on the clamping cylinder 9, the connecting pin 33 is just inserted into the second groove 34 on the processing knife 7, when the connecting head 6 rotates, the connection strength between the connecting head 6 and the processing knife 7 is enhanced, and the knife external force applied to the clamping assembly and the knife connecting assembly is reduced.

Further, the number of the cutter connecting assemblies and the number of the clamping assemblies are two, the cutter connecting assemblies and the clamping assemblies are distributed circumferentially by taking the axial lead of the clamping cylinder 9 as the center, the cutter connecting assemblies further comprise a second sliding member 35 and a reinforcing pin 36, the second sliding member 35 is movably arranged on the processing cutter 7, the two cutter connecting assemblies are respectively connected with the second sliding member 35 and the first sliding member 10, the first sliding member 10 is provided with a fourth through groove 37, the second sliding member 35 is provided with a fifth through groove 38, the reinforcing pin 36 simultaneously penetrates through the fourth through groove 37 and the fifth through groove 38, and the reinforcing pin 36 is respectively connected with the fourth through groove 37 and the fifth through groove 38 in a sliding manner.

In the present embodiment, as shown in fig. 3 to 7, in order to further improve the stability of the connection between the clamping assembly and the processing knife 7, the inventor adds a second sliding member 35, and the second sliding member 35 is also divided into three segments, and the structure is basically the same as that of the first sliding member 10; and two cutter connecting assemblies and two clamping assemblies are respectively arranged by taking the axial lead of the clamping cylinder 9 as the center; by adding a reinforcing pin 36 on the intermediate section of the first slider 10 and the second slider 35; when the processing knife 7 is installed, the clamping cylinder 9 can simultaneously extrude the first sliding part 10 and the second sliding part 35, so that the first sliding part 10 and the second sliding part 35 simultaneously move in opposite directions, and the reinforcing pin 36 simultaneously slides in the fourth through groove 37 and the fifth through groove 38, so that the symmetry of the first sliding part 10 and the second sliding part 35 during movement is improved, synchronous operation is realized, and the stability of connection between the clamping assembly and the processing knife 7 is enhanced.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. Auto-parts mould processing equipment, including frame (1), frame (1) one side is provided with objective table (2) and regulation and control treater (3), be equipped with in frame (1) with removal seat (4) and extension arm (5) that regulation and control treater (3) electricity is connected, remove seat (4) and remove to set up in frame (1), extension arm (5) rotate to set up remove on seat (4), the output of extension arm (5) sets up connector (6), connector (6) are connected with processing sword (7) of processing mould, its characterized in that still includes centre gripping subassembly and cutter coupling assembling, the centre gripping subassembly sets up on connector (6), cutter coupling assembling sets up on processing sword (7), the centre gripping subassembly includes lock piece (8) and a centre gripping section of thick bamboo (9), centre gripping section of thick bamboo (9) set up on connector (6), conflict piece (8) remove to set up on centre gripping section of thick bamboo (9), be provided with the last first lock piece (10) of cutter coupling assembling, centre gripping section of thick bamboo (9) with the help of sliding part slider (5) with the help of first slider (10) sliding part (10) or sliding part (7) on processing sword (7) processing sword (10), the first sliding piece (10) is contacted with or separated from the locking piece (8) after sliding.

2. The auto-parts mould processing equipment according to claim 1, characterized in that the extending arm (5) comprises a rotating base (11), a telescopic cross arm (12) and a telescopic vertical arm (13), the rotating base (11), the telescopic cross arm (12) and the telescopic vertical arm (13) are all electrically connected with the regulating and controlling processor (3), the rotating base (11) is arranged on the moving base (4), the telescopic cross arm (12) is rotatably arranged on the rotating base (11), the telescopic vertical arm (13) is arranged on the output end of the telescopic cross arm (12), and the connector (6) is arranged on the output end of the telescopic vertical arm (13).

3. The auto-parts die-processing device according to claim 1, wherein the inner wall of the clamping cylinder (9) is provided with an annular groove (14) and a first through groove (15), the side wall of the annular groove (14) is provided with a second through groove (16) and a third through groove (17), the clamping assembly further comprises a transmission rod (18), a swing lever (19) and a locking unit, the transmission rod (18) is movably disposed in the second through groove (16) by means of the first slider (10), the swing lever (19) is rotatably disposed in the first through groove (15), the locking unit is disposed in the third through groove (17) and electrically connected with the adjustment processor (3), the locking member (8) is disposed on the output end of the locking unit, wherein the swing lever (19) is rotated by means of the movement of the transmission rod (18), and the swing lever (19) is contacted with or separated from the locking unit when rotated.

4. The auto-parts mould processing equipment of claim 3, characterized in that, the centre gripping subassembly still includes transmission spring (20), transmission spring (20) set up in the second through-groove (16), the both ends of transmission spring (20) respectively with the transfer line (18) with swing lever (19) link firmly, the transfer line (18) with the first slider (10) the contact one end is the circular arc.

5. The auto-parts mould processing equipment according to claim 3, characterized in that a first groove (21) is opened on the side wall of the first through groove (15), the clamping assembly further comprises a return spring (22) and an unlocking ring (23), the return spring (22) is arranged in the first groove (21), two ends of the return spring (22) are respectively fixedly connected with the bottom of the first groove (21) and the swing rod (19), the unlocking ring (23) is movably arranged on the clamping cylinder (9) and electrically connected with the regulating and controlling processor (3), and the unlocking ring (23) is abutted against or separated from the swing rod (19) when moving.

6. The auto-parts mold processing apparatus according to claim 3, characterized in that a trigger member (24) is provided on a side of the swing lever (19) close to the locking unit, the locking unit includes a trigger switch (25) and a trigger motor (26), the trigger member (24) is in contact with or separated from the trigger switch (25) by rotation of the swing lever (19), the trigger switch (25) is electrically connected to the trigger motor (26), and the trigger motor (26) is provided in the third through groove (17) and electrically connected to the regulating processor (3).

7. The auto-parts mould processing equipment of claim 3, characterized in that, the processing sword (7) is gone up the one end that is close to the centre gripping subassembly and has been seted up first sliding tray (27), first slider (10) remove and set up in first sliding tray (27), second sliding tray (28) have all been seted up on the lateral wall of first sliding tray (27) both sides, be provided with sliding block (29) on first slider (10), sliding block (29) remove and set up in second sliding tray (28), cutter coupling assembling includes first spring (30) and guide unit, first spring (30) cover is established on the guide unit, the both ends of first spring (30) respectively with first slider (10) with processing sword (7) link firmly, the guide unit includes guide sleeve (31) and guide bar (32) of removal connection, guide sleeve (31) set up on first slider (10), guide bar (32) set up on processing sword (7).

8. The automobile accessory die machining equipment according to claim 7, characterized in that a connecting pin (33) is arranged on the connecting head (6), a second groove (34) is formed in one side, close to the clamping cylinder (9), of the machining cutter (7), and the connecting pin (33) is in contact with or separated from the second groove (34) through the action of the extending arm (5).

9. The auto-parts mould processing equipment according to claim 7, characterized in that the number of the cutter connecting assemblies and the clamping assemblies is two, the cutter connecting assemblies and the clamping assemblies are distributed circumferentially around the shaft axis of the clamping barrel (9), the auto-parts mould processing equipment further comprises a second sliding piece (35) and a reinforcing pin (36), the second sliding piece (35) is movably arranged on the processing knife (7), the two cutter connecting assemblies are respectively connected with the second sliding piece (35) and the first sliding piece (10), the first sliding piece (10) is provided with a fourth through groove (37), the second sliding piece (35) is provided with a fifth through groove (38), the reinforcing pin (36) simultaneously passes through the fourth through groove (37) and the fifth through groove (38), and the reinforcing pin (36) is respectively connected with the fourth through groove (37) and the fifth through groove (38) in a sliding manner.

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