CN216912148U - Automatic feeding and punching equipment for die parts - Google Patents

Abstract

The utility model discloses an automatic feeding and punching device for die parts, which comprises a supporting bottom plate, a linear feeding mechanism, a multi-station clamping mechanism, a punching mechanism and a blowing mechanism, wherein the rear part of the supporting bottom plate is provided with two inverted L-shaped racks, the bottoms of the two inverted L-shaped racks are provided with cross beams, the bottoms of the cross beams are provided with transverse driving devices, the transverse driving devices are connected with moving plates, the bottoms of the moving plates are provided with lifting driving devices, driving shafts of the lifting driving devices are fixedly provided with lifting plates, and the punching mechanism and the blowing mechanism are arranged below the bottoms of the moving plates, the utility model has higher use value.

Description

Automatic feeding and punching equipment for die parts

Technical Field

The utility model relates to the technical field of punching equipment, in particular to automatic feeding and punching equipment for a die part.

Background

The technological route of die making is firstly estimated according to the pattern or object of the workpiece, then the die design, part processing, assembly adjustment and die testing are carried out until the workpiece meeting the requirements is produced, and the process can be divided into two parts of process technology and process management according to the property of the workpiece.

Present mould is drilling equipment for part production can only drill a part when using at every turn, and this just needs operating personnel to carry out the unloading of relapseing on, and also can't effectively understand the piece on part surface when drilling equipment drills the part, after processing, still needs operating personnel to carry out manual clearance, so not only can increase operating personnel's intensity of labour, and work efficiency is comparatively low.

In order to solve the problems, the utility model discloses automatic feeding and punching equipment for die parts.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to solve the defects in the background art, the utility model discloses automatic feeding and punching equipment for a die part.

The technical scheme is as follows: an automatic feeding and punching device for die parts comprises a supporting bottom plate, a linear feeding mechanism, a multi-station clamping mechanism, a punching mechanism and an air blowing mechanism, the linear feeding mechanism is arranged along the length direction of the supporting bottom plate and is used for carrying out linear feeding on the die parts, the multi-station clamping mechanism is arranged on two opposite sides of the linear feeding mechanism to clamp a plurality of die parts on the linear feeding mechanism, the rear part of the supporting bottom plate is provided with two inverted L-shaped racks, and the bottoms of the two inverted L-shaped racks are provided with cross beams, the bottoms of the cross beams are provided with transverse driving devices, the transverse driving device is connected with a moving plate, the bottom of the moving plate is provided with a lifting driving device, and a lifting plate is fixed on a driving shaft of the lifting driving device, and the punching mechanism and the blowing mechanism are arranged below the bottom of the moving plate.

Further, the linear feeding mechanism comprises a telescopic driving cylinder and a linear carrier, a linear guide rail I is arranged above the supporting base plate along the length direction of the supporting base plate, the telescopic driving cylinder is arranged at one side end of the linear guide rail I, and the linear carrier is connected to the linear guide rail I in a sliding mode and is fixedly connected with a driving shaft of the telescopic driving cylinder.

Further, multistation fixture includes two fluted discs, two flexible strip pieces, two grip blocks and two output shaft have the positive reverse drive motor of reduction gear, the relative both sides in supporting baseplate top all are provided with linear guide two along its width direction, two flexible strip pieces correspond the sliding joint on two linear guide two, two grip blocks correspond the adjacent that side end that sets up at two flexible strip pieces, and the clamping face of two grip blocks all corresponds and is provided with the several centre gripping groove, two output shaft have the positive reverse drive motor setting of reduction gear in the relative both sides of supporting baseplate, and the output of every reduction gear all is connected with a fluted disc through the axis of rotation, the side surface that every flexible strip piece is close to the fluted disc all is provided with the rack and is connected with the fluted disc meshing.

Furthermore, a plurality of workpiece positioning grooves are formed in the upper surface of the linear bearing platform at equal intervals, and the number of the workpiece positioning grooves is consistent with that of clamping grooves formed in one clamping block.

Furthermore, a layer of rubber shock absorption pad is attached to the inner wall of each clamping groove.

Furthermore, U-shaped frames are arranged on two opposite sides of the supporting bottom plate, and a forward and reverse rotation driving motor with a speed reducer connected with each output shaft is correspondingly arranged on one U-shaped frame.

Further, the transverse driving device is a servo linear module, and the lifting driving device is a lifting driving cylinder.

Furthermore, the punching mechanism comprises a punching driving motor and a punching cutter, the punching driving motor is arranged on one side of the bottom of the lifting plate, and the punching cutter is connected with an output shaft of the punching driving motor.

Further, the air blowing mechanism is an air blowing pump, and an air blowing opening of the air blowing pump is arranged downwards.

The utility model realizes the following beneficial effects:

the automatic feeding clamping device can automatically feed, clamp and fix the die parts, and blow and clean the scraps generated on the die parts in the punching process of the punching mechanism, so that the labor intensity of operators can be reduced, the working efficiency is improved, and the automatic feeding clamping device has higher use value compared with the existing punching equipment.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic view of the overall structure disclosed in the present invention.

Fig. 2 is a schematic structural diagram of a linear feeding mechanism and a multi-station clamping mechanism disclosed by the utility model.

Fig. 3 is a schematic structural diagram of a punching mechanism and an air blowing mechanism disclosed by the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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.

Examples

Referring to fig. 1 to 3, an automatic die part feeding and punching apparatus includes a support base plate 10, a linear feeding mechanism 20 disposed along a length direction of the support base plate for linearly feeding a die part, a multi-station clamping mechanism 30 disposed at opposite sides of the linear feeding mechanism for clamping a plurality of die parts on the linear feeding mechanism, a punching mechanism 120 disposed at a rear portion of the support base plate and having two inverted L-shaped frames 40, and the bottom of the two inverted L-shaped frames is provided with a cross beam 50, the bottom of the cross beam is provided with a transverse driving device 60, the transverse driving device is connected with a moving plate 70, the bottom of the moving plate is provided with a lifting driving device 80, and a lifting plate 90 is fixed to a driving shaft of the lifting driving device, and a punching mechanism 110 and an air blowing mechanism 100 are arranged below the bottom of the moving plate.

In this embodiment, the linear feeding mechanism includes a telescopic driving cylinder 21 and a linear carrier 22, a linear guide rail 23 is arranged above the supporting base plate along the length direction of the supporting base plate, the telescopic driving cylinder is arranged at one side end of the linear guide rail, the linear carrier is slidably connected to the linear guide rail and fixedly connected to a driving shaft of the telescopic driving cylinder, an operator can place a part to be punched on the linear carrier, and the linear carrier can reach the multi-station clamping mechanism under the driving of the telescopic driving cylinder, so that the multi-station clamping mechanism can clamp a plurality of parts simultaneously.

In this embodiment, the multi-station clamping mechanism includes two fluted discs 34, two telescopic bars 35, two clamping blocks 38 and two forward and backward rotation driving motors 31 with two output shafts connected with speed reducers 32, two linear guide rails 37 are respectively arranged on two opposite sides above the supporting base plate along the width direction of the supporting base plate, the two telescopic bars are correspondingly connected with the two linear guide rails in a sliding manner, the two clamping blocks are correspondingly arranged on the adjacent side ends of the two telescopic bars, a plurality of clamping grooves 381 are correspondingly arranged on the clamping surfaces of the two clamping blocks, the forward and backward rotation driving motors with the two output shafts connected with the speed reducers are arranged on two opposite sides of the supporting base plate, the output end of each speed reducer is connected with one fluted disc through a rotating shaft 36, a rack 371 is arranged on the side surface of each telescopic bar close to the fluted disc and is connected with the fluted disc in a meshing manner, under the driving of the two forward and backward rotation driving motors, the fluted disc drives the two telescopic bars to extend and retract in opposite directions, and the plurality of clamping grooves corresponding to the surfaces of the two clamping blocks can simultaneously clamp a plurality of parts, so that the punching mechanism can punch holes.

As a preferred mode of the present invention, a plurality of workpiece positioning slots 24 are equidistantly formed on the upper surface of the linear stage, and the number of the workpiece positioning slots is consistent with the number of the clamping slots provided on one clamping block, so as to ensure that the clamping block can simultaneously clamp the plurality of workpiece positioning slots of the linear stage.

As a preferred mode of the present invention, a layer of rubber shock pad 382 is attached to the inner wall of each clamping groove, so that when the clamping block clamps a part, the clamping block can play a role in shock absorption and protection of the part, and the part is prevented from being damaged due to an excessively large vibration amplitude in the punching process.

As a preferable mode of the utility model, the two opposite sides of the supporting bottom plate are provided with U-shaped frames 33, each forward and reverse rotation driving motor with an output shaft connected with a speed reducer is correspondingly arranged on one U-shaped frame, and the arrangement of the U-shaped frames can facilitate the installation of the forward and reverse rotation motors.

In this embodiment, the horizontal driving device is a servo linear module, and the lifting driving device is a lifting driving cylinder.

In this embodiment, the punching mechanism includes a punching driving motor 111 and a punching tool 112, the punching driving motor is disposed on one side of the bottom of the lifting plate, the punching tool is connected to an output shaft of the punching driving motor, and when the punching driving motor drives the punching tool to rotate, the punching tool can punch a hole on the part.

In this embodiment, the air blowing mechanism is an air blowing pump 100, and an air blowing port 101 of the air blowing pump is disposed downward, and the air blowing pump can perform air blowing cleaning on the chips on the surface of the previous part when the punching mechanism finishes punching a part and reaches above the next part.

In the specific use process, an operator places a plurality of parts in the part positioning grooves corresponding to the surfaces of the linear bearing platform, then the linear bearing platform is driven by the telescopic driving piece to move towards the multi-station clamping mechanism, after the parts move in place, the two servo driving motors drive the fluted disc to rotate, the fluted disc can drive the telescopic bar blocks to move forwards while rotating, the clamping blocks arranged on the two telescopic bar blocks move towards each other until the clamping grooves corresponding to the surfaces of the two clamping blocks are matched to clamp the plurality of parts, after the clamping of the plurality of parts is finished, the servo linear module drives the sliding plate to be above one part, then the lifting driving device drives the lifting plate to lift, the punching driving motor drives the punching cutter to rotate to drill the parts, and in the process, the air blowing mechanism does not clean the fragments generated on the surfaces of the parts, after the mechanism of punching a hole is carried out die-cut to this part, lift drive arrangement drive lift reset this moment to drive lifter plate to next part top by servo sharp module again, after arriving the position, punch a hole driving motor and drive punching cutter once more and rotate and bore the hole to the part, at this in-process, the mechanism of blowing will blow the clearance to the piece that last part surface left, drilling mechanism and the mechanism of blowing carry out work according to above-mentioned operation flow and blow the clearance and accomplish to last part until the mechanism of blowing, and when the mechanism of blowing blows the clearance to last part, drilling mechanism is out of work.

In the following description, it is emphasized that the present invention is controlled in a unified manner by using a PLC control system in a specific application.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. An automatic feeding and punching device for die parts is characterized by comprising a supporting bottom plate, a linear feeding mechanism, a multi-station clamping mechanism, a punching mechanism and a blowing mechanism, the linear feeding mechanism is arranged along the length direction of the supporting bottom plate and is used for carrying out linear feeding on the die parts, the multi-station clamping mechanism is arranged on two opposite sides of the linear feeding mechanism to clamp a plurality of die parts on the linear feeding mechanism, the rear part of the supporting bottom plate is provided with two inverted L-shaped racks, and the bottoms of the two inverted L-shaped racks are provided with cross beams, the bottoms of the cross beams are provided with transverse driving devices, the transverse driving device is connected with a moving plate, the bottom of the moving plate is provided with a lifting driving device, and a lifting plate is fixed on a driving shaft of the lifting driving device, and the punching mechanism and the blowing mechanism are arranged below the bottom of the moving plate.

2. The automatic die part feeding and punching equipment according to claim 1, wherein the linear feeding mechanism comprises a first telescopic driving cylinder and a first linear carrier, a first linear guide rail is arranged above the supporting base plate along the length direction of the supporting base plate, the first telescopic driving cylinder is arranged at one side end part of the first linear guide rail, and the first linear carrier is in sliding connection with the first linear guide rail and is fixedly connected with a driving shaft of the first telescopic driving cylinder.

3. The automatic die part feeding and punching device according to claim 1, the multi-station clamping mechanism comprises two fluted discs, two telescopic bar blocks, two clamping blocks and two forward and reverse rotation driving motors of which the output shafts are connected with a speed reducer, two opposite sides above the supporting bottom plate are respectively provided with a second linear guide rail along the width direction, two telescopic strip blocks are correspondingly connected on the second linear guide rails in a sliding way, two clamping blocks are correspondingly arranged at the adjacent side ends of the two telescopic strip blocks, and the clamping surfaces of the two clamping blocks are correspondingly provided with a plurality of clamping grooves, the two positive and negative rotation driving motors with output shafts connected with the speed reducers are arranged on the two opposite sides of the supporting bottom plate, and the output end of each speed reducer is connected with a fluted disc through a rotating shaft, and the side surface of each telescopic strip block close to the fluted disc is provided with a rack which is meshed with the fluted disc.

4. The automatic die part feeding and punching device according to claim 2, wherein a plurality of workpiece positioning grooves are formed in the upper surface of the linear stage at equal intervals, and the number of the workpiece positioning grooves is equal to the number of clamping grooves formed in a clamping block.

5. The automatic die part feeding and punching device as claimed in claim 3, wherein a rubber shock pad is attached to the inner wall of each clamping groove.

6. The automatic die part feeding and punching equipment according to claim 3, wherein U-shaped frames are arranged on two opposite sides of the supporting base plate, and a forward and reverse rotation driving motor with a speed reducer connected to each output shaft is correspondingly arranged on one U-shaped frame.

7. The automatic die part feeding and punching equipment according to claim 1, wherein the transverse driving device is a servo linear module, and the lifting driving device is a lifting driving cylinder.

8. The automatic die part feeding and punching device according to claim 1, wherein the punching mechanism comprises a punching driving motor and a punching cutter, the punching driving motor is arranged on one side of the bottom of the lifting plate, and the punching cutter is connected with an output shaft of the punching driving motor.

9. The automatic die part feeding and punching device as claimed in claim 1, wherein the blowing mechanism is a blowing pump, and a blowing port of the blowing pump is arranged downward.

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