CN216757813U - Automatic flash machine for hardware fastener - Google Patents

Abstract

The utility model relates to the field of machining, in particular to an automatic flash punching and burring machine for hardware buckles, which comprises a vibration feeding disc for automatically feeding the hardware buckles, a multi-station rotary workbench arranged on one side of the output end of the vibration feeding disc, a punching machine arranged on one side of the multi-station rotary workbench, and a grabbing manipulator for grabbing the hardware buckles, wherein the multi-station rotary workbench comprises a rotary table and an index plate coaxially arranged on the working end of the rotary table, a plurality of die holders arranged around the central axis of the index plate are arranged on the index plate, the die holders are respectively provided with a detachable die, the center of the die is provided with a stamping die hole matched with the hardware buckles, a blanking channel is communicated below the stamping die hole, the die holders are provided with blanking cavities for avoiding the blanking channel, and the scheme solves the problem of how to remove burrs of processing equipment for the hardware buckles with different shapes, meanwhile, the removed burrs can be directly collected, and the technical problem that the waste material influences the working environment is avoided.

Description

Automatic flash machine for hardware buckle

Technical Field

The utility model relates to the field of machining, in particular to an automatic flash punching machine for a hardware buckle.

Background

Die casting is usually realized by adopting a die, a parting surface is a part of a front die and a rear die which are contacted when the die is closed, and a male die and a female die joint surface parallel to the parting surface is called a touch-through surface; the collision is that the die surface of the hole position part is collided after the die is closed, so that the alloy liquid can not flow at the position, the hole position with required degree is formed after the product is cast, and the hole position is a through hole formed according to the requirement of a casting and has a circular shape, a square shape and a polygonal shape. The die-cast product has some very thin flash at the position of the touch through and needs to be removed by secondary processing.

Chinese patent application No. CN202021191957.6 discloses a burr processing apparatus and a burr processing method, wherein the burr processing apparatus includes a multi-axis tapping machine and a tool holder; the multi-shaft tapping drilling machine is provided with a machine base, a machine head and a milling cutter, wherein the machine head and a tool clamp are respectively arranged on the machine base, and the milling cutter is fixed on the machine head and faces the machine base; the tooling fixture is provided with a fixing groove for fixing a workpiece to be processed, and the machine head is positioned above the fixing groove and faces the fixing groove. Above-mentioned drape over one's shoulders cutting edge of a knife or a sword processing apparatus, provided and handled the technical design who drapes over one's shoulders cutting edge of a knife or a sword through multiaxis tapping rig, be applicable to various drape over one's edge of a knife or a sword processing technology and be particularly useful for draping over one's edge of a knife or a sword of die casting thimble seal and handle efficiency, be favorable to handling fast on the one hand and drape over one's edge of a knife or a sword and promote treatment effeciency, on the other hand has practiced thrift manpower resources and has avoided manual rasping operation, be favorable to avoiding manual operation to produce a large amount of dust on the other hand and cause operating personnel's work potential safety hazard and personal safety hazard.

However, the device is designed for the burr position of a certain workpiece, and if a product has a plurality of surfaces to be burrs, only one surface can be used as a set of punching dies, and burrs on one surface are punched at one time. Punching away the flash on a product requires multiple punching operations. Therefore, a set of dies is required to be arranged on one surface of the flash on the product, and only one set of dies can be arranged on the machine at one time, so that the flash removing processing is not applicable to the flash removing processing of the edge of the hardware buckle with small volume.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need to provide an automatic flashing machine for a hardware buckle, which aims at the problems in the prior art. According to the technical scheme, the technical problem that how to enable the processing equipment to remove the flash of the hardware buckles in different shapes and directly collect the removed flash of the hardware buckles is solved, and the waste material is prevented from influencing the working environment is solved.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that:

the utility model provides an automatic flash of five metals fastener drapes over one's shoulders cutting edge of a knife or a sword machine, is including being used for the vibration of five metals fastener automatic feeding to the charging tray, and set up the multistation swivel work head of charging tray output one side on the vibration, and set up the punching machine in multistation swivel work head one side, and be used for snatching the manipulator that snatchs of five metals fastener, multistation swivel work head includes that revolving stage and coaxial setting are at the graduated disk of revolving stage work end, is provided with a plurality of die holders that encircle graduated disk the central axis and arrange on the graduated disk, and detachable mould is installed respectively to the die holder, and the center of mould is provided with the punching press nib identical with the five metals fastener, punching press nib below intercommunication has the blanking passageway, and the die holder is provided with the blanking chamber of dodging the blanking passageway.

Preferably, the size of the inner wall of the blanking cavity of the die holder is identical to the size of the outer wall of the blanking channel of the die, the blanking channel is inserted into the blanking cavity of the die holder, and a through hole gradually reduced from top to bottom is formed in the blanking channel.

Preferably, the below in blanking chamber is provided with the installation cavity, and the installation cavity is provided with the opening towards graduated disk week side, is equipped with the garbage collection box in the installation cavity, and the garbage collection box opening is towards the top, and the width of garbage collection box is identical with the width of installation cavity.

Preferably, the die holder of the dividing plate is provided with a plurality of positioning holes perpendicular to the upper surface of the die holder, the positioning holes are distributed on the periphery of the upper opening of the blanking cavity, the bottom of the die is provided with a plurality of positioning pins vertically extending downwards, the positioning pins are wound on the periphery of the blanking channel, the size of the positioning pins is matched with the positioning holes, and the positioning pins are limited and inserted into the positioning holes.

Preferably, the bottom of the positioning hole is provided with a first magnet, the bottom of the positioning pin is provided with a second magnet, and the side of the first magnet facing upward is opposite to the side of the second magnet facing downward in magnetism.

Preferably, snatch the manipulator including setting up the installing support in multistation swivel work head one side, fixed mounting has actuating mechanism on the installing support, and fixed mounting has the electromagnetism to adsorb the unit on actuating mechanism's the work end, and actuating mechanism is used for driving the electromagnetism to adsorb the unit and moves in the discharge end of charging tray and the top of multistation swivel work head on the vibration, and the work end of electromagnetism adsorbs the unit and sets up downwards, and the electromagnetism adsorbs the unit and is used for adsorbing the five metals buckle on the charging tray on the vibration.

Preferably, the driving mechanism comprises a first linear driving device horizontally mounted on the mounting support, the working end of the first linear driving device moves in the horizontal direction between the vibration feeding tray and the multi-station rotary workbench, a second linear driving device is fixedly mounted on the working end of the first linear driving device, the working end of the second linear driving device moves in the vertical direction perpendicular to the multi-station rotary workbench, a first mounting plate is fixedly mounted on the working end of the second linear driving device, and the first mounting plate is used for mounting the electromagnetic adsorption unit.

Preferably, the first linear driving device is provided with two sensing units, the sensing units are respectively arranged on a moving path of the working end of the first linear driving device, and the sensing units are used for controlling the moving position of the working end of the first linear driving device.

Preferably, the electromagnetic adsorption unit comprises an electromagnet, a contact surface of the electromagnet faces downwards, the electromagnet is fixedly mounted on the second mounting plate, a plurality of vertical guide rods extending upwards are arranged on the upper surface of the second mounting plate, and the guide rods are inserted into guide holes corresponding to the guide rods and arranged on the first mounting plate in a limiting mode.

Preferably, the top end of the guide rod is provided with a limiting head, the diameter of the limiting head is larger than that of the guide rod, the guide rod is sleeved with a spring, and the spring is elastically connected with the bottom of the limiting head and the bottom of the first mounting plate.

Compared with the prior art, the beneficial effect of this application is:

1. this application realizes dismantling and installing with the mould through setting up a plurality of fixed die holders on the graduated disk at multistation swivel work head, and the staff only need change when dashing the sword of a knife or a sword the five metals fastener have with the identical punching press nib of five metals fastener shape can realize the normal processing of equipment in the die holder on the graduated disk, has improved the application scope of equipment, makes equipment can get rid of the operation of pushing a knife or a sword to the five metals fastener of difference.

2. This application realizes through the blanking passageway that sets up in the mould below that the waste material that produces when the punching machine during operation will get rid of and drape over one's shoulders the cutting edge of a knife or a sword pushes to and drops in the blanking chamber of graduated disk by the blanking passageway in the punching press nib, and the through-hole that from top to bottom reduces gradually in the blanking passageway can guarantee that the waste material moves down under the action of gravity, and remaining circumstances can not appear and take place.

3. This application is through setting up a plurality of installation cavities corresponding with the die holder position on the graduated disk, and the waste material that drops in the waste material collecting box that the cartridge slidable was taken out to effectual receipt blanking chamber in the installation cavity, the staff only need take the waste material collecting box out wash can, realized also having reduced clear degree of difficulty when carrying out effectual collection to the waste material, improved staff's cleaning efficiency.

4. This application is through setting up a plurality of locating holes on the die holder, the locating pin that cooperation mould bottom set up carries out the location installation of mould and graduated disk, the locating pin bottom sets up second magnet and sets up in the locating hole bottom of graduated disk and realizes magnetic adsorption, both can guarantee the constancy of position of every die holding on the die holder, also can effectually prevent that mould and graduated disk position from taking place relative skew in the course of the work of punching machine, the installation and the dismantlement process of mould and die holder are greatly quickened simultaneously, the realization is to the change of mould in equipment operation, the continuation of having guaranteed processing goes on.

5. This application carries out spacing cooperation second linear drive device to the shift position of electromagnetism absorption unit through setting up induction unit on first linear drive device's working path and drives electromagnetism absorption unit downstream and vibrate the first five metals fastener upper surface contact of charging tray discharge end to guarantee to adsorb and accurately move the top of mould and put the five metals fastener into the punching press die hole to the five metals fastener under the condition of pressing contact five metals fastener earlier, avoided adsorbing and put the condition that the orientation change leads to unable accurate entering punching press die hole is put to the in-process five metals fastener.

Drawings

FIG. 1 is a perspective view of an embodiment;

FIG. 2 is a top view of the embodiment;

FIG. 3 is a perspective view of the multi-station rotary table of the embodiment;

FIG. 4 is a side view of the multi-station rotary table of the embodiment;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 4;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

FIG. 7 is a top view of the embodiment of the multi-station rotary table and a partially enlarged view thereof;

FIG. 8 is a perspective view of a mold of an embodiment;

fig. 9 is a perspective view of a grasping robot of the embodiment;

fig. 10 is an exploded perspective view of the grasping robot according to the embodiment and a partially enlarged view thereof;

the reference numbers in the figures are:

1-vibrating the feeding tray;

2-a multi-station rotary workbench; 2 a-a turntable; 2 b-an index plate; 2b 1-die holder; 2b 2-blanking chamber; 2b 3-mounting cavity; 2b 4-waste collection box; 2b 5-locating holes; 2b6 — first magnet; 2 c-a mold; 2c 1-punch die hole; 2c 2-a blanking channel; 2c 3-locating pin; 2c4 — a second magnet;

3, punching machine;

4-grabbing a manipulator; 4 a-mounting a bracket; 4 b-a drive mechanism; 4b1 — first linear drive; 4b 2-second linear drive; 4b 3-first mounting plate; 4b 4-sensing unit; 4b 5-pilot hole; 4 c-an electromagnetic adsorption unit; 4c 1-electromagnet; 4c 2-second mounting plate; 4c 3-guide bar; 4c 4-limiting head; 4c 5-spring.

Detailed Description

For a better understanding of the features and technical solutions of the present invention, as well as the specific objects and functions attained by the present invention, reference is made to the accompanying drawings and detailed description of the utility model.

As shown in fig. 1 to 6, the present application provides:

an automatic flash machine for hardware buckles comprises a vibration feeding tray 1 for automatically feeding hardware buckles, a multi-station rotary worktable 2 arranged at one side of the output end of the vibrating feeding tray 1, and a punching machine 3 arranged at one side of the multi-station rotary worktable 2, and a grabbing manipulator 4 for grabbing the hardware buckle, wherein the multi-station rotary worktable 2 comprises a rotary table 2a and an index plate 2b coaxially arranged at the working end of the rotary table 2a, the index plate 2b is provided with a plurality of die holders 2b1 arranged around the central axis of the index plate 2b, the die holders 2b1 are respectively provided with a detachable die 2c, the center of the die 2c is provided with a stamping die hole 2c1 matched with the hardware buckle, a blanking channel 2c2 is communicated below the stamping die hole 2c1, and a blanking cavity 2b2 avoiding the blanking channel 2c2 is arranged on the die holder 2b 1.

Based on the above embodiment, the technical problem that this application wants to solve is how to make processing equipment can drape over one's shoulders the getting rid of cutting edge of a knife or a sword to different shapes five metals buckles, can carry out direct collection to the cutting edge of a knife or a sword that gets rid of simultaneously, avoids the waste material to influence operational environment. Therefore, the hardware buckles are automatically fed through the vibrating feeding tray 1, the vibrating feeding tray 1 can directionally move the hardware buckles and ensure that the placing directions of the hardware buckles are the same, the multi-station rotary workbench 2 is arranged on one side of the output end of the vibrating feeding tray 1, the multi-station rotary workbench 2 is detached and installed with the dies 2c by arranging the plurality of fixed die holders 2b1 on the dividing plate 2b, a worker only needs to replace the dies 2c with stamping die holes 2c1 matched with the shapes of the hardware buckles when the hardware buckles are stamped, the dies 2c are installed in the die holders 2b1 on the dividing plate 2b, the normal processing of the equipment can be realized, the application range of the equipment is improved, the equipment can remove the stamping edges of different hardware buckles, when the multi-station rotary workbench 2 is placed, the dies 2c installed on the die holders 2b1 of the dividing plate 2b are ensured to rotate to a certain station, the position of the punching die hole 2c1 and the discharge end of the vibrating feeding tray 1 are on the same vertical plane, and the shape of the stamping die hole 2c1 is the same as the placing direction of the hardware buckles on the vibrating feeding tray 1, the hardware buckles on the output end of the vibrating feeding tray 1 are grabbed by the grabbing manipulator 4 to move and placed on the stamping die hole 2c1 of the die 2c during processing, the rotary table 2a drives the index plate 2b to rotate so as to realize continuous processing of a plurality of hardware buckles, when the die 2c for placing the hardware buckles moves to the position below the working end of the punching machine 3, punching machine 3 starts to carry out the punching press to mould 2c, gets rid of the flash on the five metals buckle, and the waste material that the punching press formed carries out unified collection in the blanking chamber 2b2 that the blanking passageway 2c2 that punching press die hole 2c1 below communicates drops and gets into the setting of die holder 2b1, has avoided the waste material to pile up in mould 2c or splash in operational environment and cause the influence to subsequent processing.

Further, as shown in fig. 5 and 6:

the size of the inner wall of the blanking cavity 2b2 of the die holder 2b1 is matched with the size of the outer wall of the blanking channel 2c2 of the die 2c, the blanking channel 2c2 is inserted into the blanking cavity 2b2 of the die holder 2b1, and a through hole which is gradually reduced from top to bottom is formed in the blanking channel 2c 2.

Based on the above embodiments, the technical problem to be solved by the present application is how to ensure that the arrangement of the blanking channel 2c2 below the die 2c does not affect the installation of the die 2c and the die holder 2b 1. Therefore, the size of the outer wall of the blanking channel 2c2 arranged below the die 2c and the size of the inner wall of the blanking cavity 2b2 of the die holder 2b1 are designed to be the same, so that the blanking channel 2c2 can be conveniently inserted into the blanking cavity 2b2 when the die 2c is mounted on the die holder 2b1, the stability of the die 2c on the dividing plate 2b can be ensured, and the dropping distance of waste materials can also be shortened, a through hole gradually reduced from top to bottom is formed in the blanking channel 2c2, an upper opening of the through hole is formed below the punching die hole 2c1, when the punch 3 works, waste materials generated when the flash is removed are pushed into the blanking channel 2c2, and the through hole gradually reduced from top to bottom in the blanking channel 2c2 can ensure that the waste materials move downwards under the action of gravity, and no residual situation occurs.

Further, as shown in fig. 5 and 6:

a mounting cavity 2b3 is arranged below the blanking cavity 2b2, the mounting cavity 2b3 is provided with an opening facing the circumferential side of the dividing plate 2b, a waste collecting box 2b4 is arranged in the mounting cavity 2b3, the opening of the waste collecting box 2b4 faces upwards, and the width of the waste collecting box 2b4 is matched with the width of the mounting cavity 2b 3.

Based on the above-mentioned embodiment, the technical problem that the present application intends to solve is how to collect the waste materials falling in the blanking chamber 2b2 for convenient cleaning. For this reason, this application is through setting up a plurality of installation cavity 2b3 corresponding with die holder 2b1 position on graduated disk 2b, one side opening of installation cavity 2b3 is in the week side of graduated disk 2b and the top and the blanking chamber 2b2 intercommunication of installation cavity 2b3, the waste material collection box 2b4 that a slidable was taken out is equipped with in the interpolation of installation cavity 2b3, install the waste material that drops in installation cavity 2b2 when waste material collection box 2b4 opening up inside installation cavity 2b3 can be effectual when the clearance, the staff only need take waste material collection box 2b4 out wash can, realized also having reduced clear degree of difficulty when carrying out effectual collection to the waste material, staff's cleaning efficiency has been improved.

Further, as shown in fig. 7 and 8:

a plurality of positioning holes 2b5 perpendicular to the upper surface of the die holder 2b1 are formed in the die holder 2b1 of the index plate 2b, the positioning holes 2b5 are distributed on the periphery of the upper opening of the blanking cavity 2b2, a plurality of positioning pins 2c3 extending vertically and downwardly are arranged at the bottom of the die 2c, the positioning pins 2c3 are arranged on the periphery of the blanking channel 2c2 in a surrounding mode, the positioning pins 2c3 are matched with the positioning holes 2b5 in size, and the positioning pins 2c3 are inserted into the positioning holes 2b5 in a limiting mode.

Based on the above embodiments, the technical problem to be solved by the present application is how to ensure that the installation positions of the die 2c installed at each station are the same as the installation position of the die holder 2b1 so as to ensure that the grabbing manipulator 4 can accurately place the hardware buckle in the stamping die hole 2c1 of the die 2c, for this purpose, the present application sets a plurality of positioning holes 2b5 on the die holder 2b1, performs positioning and installation of the die 2c and the index plate 2b by matching with the positioning pins 2c3 set at the bottom of the die 2c, the positioning pins 2c3 are inserted into the positioning holes 2b5 in a spacing manner, so as to ensure that the position of each die 2c installed on the die holder 2b1 is constant, ensure the accuracy of the placement position of the hardware buckle, and also effectively prevent the die 2c and the index plate 2b from deviating relatively during the operation of the stamping machine 3, the positioning holes 2b5 are distributed at the upper opening of the blanking cavity 2b2, the positioning pin 2c3 surrounds the peripheral side of the blanking channel 2c2, so that the installation positions of the blanking channel 2c2 and the die holder 2b1 can be avoided while the double positioning effect is achieved, and the surface of the die holder 2b1 is kept attached to the die 2c after installation.

Further, as shown in fig. 7 and 8:

the bottom of positioning hole 2b5 is provided with first magnet 2b6, the bottom of positioning pin 2c3 is provided with second magnet 2c4, and the side of first magnet 2b6 facing upward is opposite to the side of second magnet 2c4 facing downward.

Based on the above embodiments, the technical problem to be solved by the present application is how to simplify the installation operation of the die 2c and the die holder 2b1, in general, the die 2c is installed in the die holder 2b1 by a fixing screw, but when encountering a multi-station rotary table 2 with a plurality of stations, a worker needs to spend a lot of time to replace and install the die 2c, and once a certain die 2c is damaged, the worker needs to stop the equipment to detach and replace, which affects the processing process of the equipment. Therefore, the second magnet 2c4 is arranged at the bottom of the positioning pin 2c3 of the die 2c, and the 2c6 is arranged at the bottom of the positioning hole 2b5 of the index plate 2b, so that the position of the die 2c is stabilized, the die 2c is only needed to be stamped in the stamping process of the hardware buckle, the magnetic adsorption effects of the 2c5 and the 2c6 can meet the requirement for ensuring the position of the die 2c, the installation and disassembly processes of the die 2c and the die holder 2b1 can be greatly accelerated, the die 2c is replaced in the operation of equipment, and the continuous processing is ensured.

Further, as shown in fig. 9 and 10:

snatch manipulator 4 including setting up installing support 4a in multistation swivel work head 2 one side, fixed mounting has actuating mechanism 4b on the installing support 4a, fixed mounting has electromagnetic adsorption unit 4c on actuating mechanism 4 b's the work end, actuating mechanism 4b is used for driving electromagnetic adsorption unit 4c and moves in the vibration discharge end of charging tray 1 and multistation swivel work head 2's top, electromagnetic adsorption unit 4 c's work end sets up towards the below, electromagnetic adsorption unit 4c is used for adsorbing the five metals buckle on the vibration charging tray 1.

Based on the above embodiments, the technical problem that the application intends to solve is how to grasp the hardware buckle by the grasping manipulator 4 to move between the vibration feeding tray 1 and the multi-station rotary table 2. Therefore, the installation support 4a is arranged on one side of the vibration feeding tray 1 and the multi-station rotary workbench 2, the installation support 4a is provided with the driving mechanism 4b, the driving mechanism 4b can be ensured to move above the vibration feeding tray 1 and the multi-station rotary workbench 2, the multi-station rotary workbench 2 is placed to ensure that when a die 2c arranged on a die holder 2b1 of the dividing tray 2b rotates to a certain station, the position of a stamping die hole 2c1 and the discharge end of the vibration feeding tray 1 are positioned on the same vertical plane, the shape of the stamping die hole 2c1 is the same as the placing direction of a hardware buckle on the vibration feeding tray 1, the hardware buckle can be moved from the output end of the vibration feeding tray 1 to the stamping die hole 2c1 of the die 2c only by horizontal movement of the working end of the driving mechanism 4b, the electromagnetic adsorption unit 4c for adsorbing the hardware buckle is arranged on the working end of the driving mechanism 4b, the hardware buckles in different shapes can be adsorbed and moved through the electromagnetic adsorption unit 4c, so that the situation that a common clamping jaw cannot stably clamp hardware buckles in different shapes and small in size is avoided.

Further, as shown in fig. 9 and 10:

the driving mechanism 4b comprises a first linear driving device 4b1 horizontally mounted on the mounting bracket 4a, the working end of the first linear driving device 4b1 moves in the horizontal direction between the vibration feeding tray 1 and the multi-station rotary table 2, a second linear driving device 4b2 is fixedly mounted on the working end of the first linear driving device 4b1, the working end of the second linear driving device 4b2 is arranged to move in the vertical direction perpendicular to the multi-station rotary table 2, a first mounting plate 4b3 is fixedly mounted on the working end of the second linear driving device 4b2, and the first mounting plate 4b3 is used for mounting the electromagnetic adsorption unit 4 c.

Based on the above embodiments, the technical problem that the present application intends to solve is how the driving mechanism 4b drives the electromagnetic absorption unit 4c to place the hardware buckle that ensures the electromagnetic absorption unit 4c to absorb into the stamping die hole 2c1 of the die 2 c. For this purpose, the present application realizes the horizontal movement between the discharging end of the vibrating feeding tray 1 and the die 2c by the first linear driving device 4b1 horizontally installed on the mounting bracket 4a, the first linear driving device 4b1 can be a synchronous belt sliding table or a ball screw sliding table, the second linear driving device 4b2 installed at the working end of the first linear driving device 4b1 can drive the electromagnetic adsorption unit 4c to move in the vertical direction, so that the hardware buckle adsorbed at the working end of the electromagnetic adsorption unit 4c is placed in the stamping die hole 2c1 of the die 2c, the second linear driving device 4b2 may be a linear cylinder, etc., and the second linear driving device 4b2 is fixedly mounted with the electromagnetic absorption unit 4c through the first mounting plate 4b3 mounted on the second linear driving device 4b2, so as to ensure the stability of mounting the electromagnetic absorption unit 4 c.

Further, as shown in fig. 9 and 10:

the first linear driving device 4b1 is provided with two sensing units 4b4, the sensing units 4b4 are respectively arranged on the moving path of the working end of the first linear driving device 4b1, and the sensing unit 4b4 is used for controlling the moving position of the working end of the first linear driving device 4b 1.

Based on the above embodiments, the technical problem to be solved by the present application is how to ensure that the driving mechanism 4b can drive the electromagnetic adsorption unit 4c to move to a proper position accurately. For this reason, this application is through setting up induction element 4b4 on the working path of first linear drive device 4b1 and spacing the shift position of electromagnetic adsorption unit 4c, 4d4 can be the stroke limit sensor, and 4d4 installs respectively that the work end that moves to electromagnetic adsorption unit 4c at first linear drive device 4b1 moves to the work end of electromagnetic adsorption unit 4c and is located the position directly over the discharge end of punching press die hole 2c1 and the work end of electromagnetic adsorption unit 4c moves to the vibration and goes up charging tray 1 directly over the position to guarantee that second linear drive device 4b2 can drive electromagnetic adsorption unit 4c in the same position and move in the vertical direction and carry out snatching and placing the five metals buckle.

Further, as shown in fig. 9 and 10:

the electromagnetic adsorption unit 4c comprises an electromagnet 4c1, a contact surface of the electromagnet 4c1 faces downwards, the electromagnet 4c1 is fixedly installed on a second installation plate 4c2, a plurality of guide rods 4c3 extending vertically upwards are arranged on the upper surface of the second installation plate 4c2, and the guide rods 4c3 are inserted into guide holes 4b5 corresponding to the guide rods 4c3 and arranged on the first installation plate 4b3 in a limiting mode.

Based on the above embodiments, the technical problem to be solved by the present application is how to ensure the stable absorption of the hardware buckle by the electromagnetic absorption unit 4 c. Therefore, the electromagnet 4c1 on the electromagnetic adsorption unit 4c is driven by the second linear driving device 4b2 to move downwards to contact with the upper surface of a first hardware buckle at the discharging end of the vibrating feeding tray 1, the electromagnet 4c1 is started to adsorb, the electromagnet 4c1 is driven by the first linear driving device 4b1 to move to the position above the stamping die hole 2c1, the electromagnet 4c1 is driven by the second linear driving device 4b2 to move downwards to accurately place the hardware buckle in the stamping die hole 2c1, and then the electromagnet 4c1 is closed, so that the hardware buckle is ensured to be adsorbed under the condition that the hardware buckle is pressed and contacted firstly, and the condition that the hardware buckle cannot accurately enter the stamping die hole 2c1 due to the change of the placing direction of the hardware buckle during adsorption is avoided.

Further, as shown in fig. 10:

the top end of the guide rod 4c3 is provided with a limiting head 4c4, the diameter of the limiting head 4c4 is larger than that of the guide rod 4c3, the guide rod 4c3 is sleeved with a spring 4c5, and the spring 4c5 is elastically connected with the bottom of the limiting head 4c4 and the bottom of the first mounting plate 4b 3.

Based on the above embodiments, the technical problem to be solved by the present application is how to avoid the influence of an excessive pressure on the electromagnet 4c1 when the working end of the electromagnet 4c1 presses the hardware buckle. Therefore, according to the electromagnetic adsorption device, the second mounting plate 4c2 is arranged on the electromagnet 4c1, the guide rod 4c3 of the second mounting plate 4c2 is inserted into the induction unit 4b4 of the first mounting plate 4b3, the stability of the movement of the electromagnetic adsorption unit 4c in the vertical direction is ensured, the limiting head 4c4 at the top of the guide rod 4c3 limits the spring 4c5 sleeved on the guide rod 4c3, so that the spring 4c5 can provide certain elastic force when the electromagnetic adsorption unit 4c is pressed, the working end of the electromagnet 4c1 is protected to a certain degree, and the automatic resetting of the electromagnet 4c1 is realized.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An automatic flash punching machine for hardware buckles comprises a vibration feeding tray (1) used for automatic feeding of the hardware buckles, a multi-station rotary workbench (2) arranged on one side of the output end of the vibration feeding tray (1), a punching machine (3) arranged on one side of the multi-station rotary workbench (2), and a grabbing manipulator (4) used for grabbing the hardware buckles, and is characterized in that the multi-station rotary workbench (2) comprises a rotary table (2a) and an index plate (2b) coaxially arranged on the working end of the rotary table (2a), a plurality of die holders (2b1) arranged around the central axis of the index plate (2b) are arranged on the index plate (2b), detachable dies (2c) are respectively installed on the die holders (2b1), stamping die holes (2c1) matched with the hardware buckles are formed in the centers of the dies (2c1), and blanking channels (2c2) are communicated below the stamping die holes (2c1), the die holder (2b1) is provided with a blanking cavity (2b2) avoiding the blanking channel (2c 2).

2. The automatic flash punching machine for hardware buckles as claimed in claim 1, wherein the size of the inner wall of a blanking cavity (2b2) of a die holder (2b1) is matched with the size of the outer wall of a blanking channel (2c2) of a die (2c), the blanking channel (2c2) is inserted into the blanking cavity (2b2) of the die holder (2b1), and through holes which are gradually reduced from top to bottom are formed in the blanking channel (2c 2).

3. The automatic flash punching machine for hardware buckles according to claim 1, wherein a mounting cavity (2b3) is arranged below the blanking cavity (2b2), an opening facing the periphery of the dividing plate (2b) is formed in the mounting cavity (2b3), a waste collecting box (2b4) is arranged in the mounting cavity (2b3), the opening of the waste collecting box (2b4) faces upward, and the width of the waste collecting box (2b4) is matched with the width of the mounting cavity (2b 3).

4. The automatic flash machine for hardware buckles according to claim 1, wherein a plurality of positioning holes (2b5) perpendicular to the upper surface of the die holder (2b1) are formed in the die holder (2b1) of the index plate (2b), the positioning holes (2b5) are distributed on the periphery of the upper opening of the blanking cavity (2b2), a plurality of positioning pins (2c3) vertically extending downwards are arranged at the bottom of the die (2c), the positioning pins (2c3) surround the periphery of the blanking channel (2c2), the size of the positioning pins (2c3) is matched with that of the positioning holes (2b5), and the positioning pins (2c3) are inserted into the positioning holes (2b5) in a limiting manner.

5. The automatic flash punching machine for hardware buckles as claimed in claim 4, wherein a first magnet (2b6) is arranged at the bottom of the positioning hole (2b5), a second magnet (2c4) is arranged at the bottom of the positioning pin (2c3), and the upward side of the first magnet (2b6) is opposite to the downward side of the second magnet (2c 4).

6. The automatic flash machine of five metals buckle of claim 1, characterized in that, snatch manipulator (4) including set up installing support (4a) in multistation swivel work head (2) one side, fixed mounting has actuating mechanism (4b) on installing support (4a), fixed mounting has electromagnetic adsorption unit (4c) on the work end of actuating mechanism (4b), actuating mechanism (4b) are used for driving electromagnetic adsorption unit (4c) and move in the discharge end of vibration charging tray (1) and the top of multistation swivel work head (2), the work end of electromagnetic adsorption unit (4c) sets up downwards, electromagnetic adsorption unit (4c) are used for adsorbing the five metals buckle on the vibration charging tray (1).

7. The automatic flash punching machine for hardware buckles according to claim 6, wherein the driving mechanism (4b) comprises a first linear driving device (4b1) horizontally installed on the installation support (4a), a working end of the first linear driving device (4b1) moves in a horizontal direction between the vibration feeding tray (1) and the multi-station rotary workbench (2), a second linear driving device (4b2) is fixedly installed on a working end of the first linear driving device (4b1), a working end of the second linear driving device (4b2) is arranged to move in a vertical direction perpendicular to the multi-station rotary workbench (2), a first installation plate (4b3) is fixedly installed on a working end of the second linear driving device (4b2), and the first installation plate (4b3) is used for installing the electromagnetic adsorption unit (4 c).

8. The automatic flash machine of a hardware buckle according to claim 7, wherein the first linear driving device (4b1) is provided with two sensing units (4b4), the sensing units (4b4) are respectively arranged on the moving path of the working end of the first linear driving device (4b1), and the sensing unit (4b4) is used for controlling the moving position of the working end of the first linear driving device (4b 1).

9. The automatic flash punching machine for hardware buckles according to claim 6, wherein the electromagnetic adsorption unit (4c) comprises an electromagnet (4c1), a contact surface of the electromagnet (4c1) faces downward, the electromagnet (4c1) is fixedly installed on a second installation plate (4c2), a plurality of guide rods (4c3) extending vertically and upwardly are arranged on the upper surface of the second installation plate (4c2), and the guide rods (4c3) are limited and inserted into guide holes (4b5) which are formed in the first installation plate (4b3) and correspond to the guide rods (4c 3).

10. The automatic flash punching machine of hardware buckles according to claim 9, wherein a limiting head (4c4) is arranged at the top end of the guide rod (4c3), the diameter of the limiting head (4c4) is larger than that of the guide rod (4c3), a spring (4c5) is sleeved on the guide rod (4c3), and the spring (4c5) is elastically connected with the bottom of the limiting head (4c4) and the bottom of the first mounting plate (4b 3).

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