CN203044635U - Motorized numerical control mesh opening punching device - Google Patents

Abstract

The utility model relates to a motorized numerical control mesh opening punching device which comprises an upper die head and a lower die head, wherein the upper die head comprises an upper die fitting seat and at least one movable stamping die fixedly arranged on the upper die fitting seat; the upper die fitting seat is provided with at least one horizontal chute; at least one Z-directional chute communicated with the corresponding horizontal chute is respectively formed right below each horizontal chute; a sliding block is arranged in each horizontal chute in a slidable manner; the movable stamping dies are arranged in the Z-directional chutes in a sliding manner; each sliding block is provided with two working positions; when each sliding block is positioned at a first working position, the bottom surface of the sliding block is compressed at the top of the corresponding movable stamping die; when each sliding block is positioned at a second working position, the bottom surface of the sliding block is far away from the top of the corresponding movable stamping die, at least part of the top of the movable stamping die is positioned in the corresponding horizontal chute and a space for the movable stamping die to move upwards is formed in the horizontal chute. The movable stamping dies can be used for performing selective punching on workpieces at the same position, so that processing cost of a conventional fixed stamping die is reduced.

Description

A kind of motor driven numerical control is towards the mesh device

Technical field

The utility model relates to the numerical control press field, relates in particular to a kind ofly can carry out the motor driven numerical control of punching towards the mesh device to the thin plate of unlike materials such as metal, plastic cement, Mylar.

Background technology

The numerical control of conventional art comprises lathe bed towards the mesh device, be arranged on last die head and lower die head on the lathe bed, the workpiece mount pad that is used for the location workpiece to be processed, drive the described drive unit of die head and the motion of workpiece mount pad and the PLC control module that is used for the described drive unit of control gone up respectively, the workpiece mount pad can be slidingly arranged on the lower die head along directions X and Y-direction, last die head is slidably disposed on the lathe bed along the Z direction, wherein go up die head and comprise the mold mount pad and be fixed on fixedly diel on the mold mount pad, wherein fixedly be processed with several carry out punching to workpiece to be processed drift in the diel.During punching press, workpiece to be processed is installed on the workpiece mount pad, drive unit drives the workpiece mount pad and slides into after the stamping position fixingly along directions X and Y-direction, and drive unit drove the last die head that is loaded with fixedly diel and moved downward this moment, and workpiece to be processed is carried out stamping press.

The numerical control of conventional art need be carried out integral replacing towards the fixedly diel of mesh device when processing has the workpiece of different structure, when multiple workpiece to be processed partial structurtes not simultaneously, this moment, workpiece only needed the partial structurtes according to client's demand change workpiece, this moment, the maintenance cost of the development cost of mould and follow-up mould all can be too high as if the fixedly diel of workpiece customization to each change.

Summary of the invention

The utility model provide a kind of can be to the punching position of the thin plate of unlike material and motor driven numerical control that the punching figure carries out selective punching towards the mesh device.

For achieving the above object, the technical solution adopted in the utility model is:

A kind of motor driven numerical control is towards the mesh device, comprise lathe bed, be arranged on last die head and lower die head on the described lathe bed, the workpiece mount pad that is used for the location workpiece to be processed, drive the described drive unit of die head and the motion of workpiece mount pad and the PLC control module that is used for the described drive unit of control gone up respectively, the described die head of going up can be slidingly arranged on the described lathe bed along the Z direction, described lower die head is fixed on the described lathe bed, described workpiece mount pad can be slidingly arranged on described lathe bed or the described lower die head along directions X and Y-direction, and the described die head of going up comprises the mold mount pad and is fixed at least one activity diel on the described mold mount pad; Described mold mount pad is provided with at least one horizontal concrete chute, be respectively arranged with at least one coupled logical Z-direction chute under each described horizontal concrete chute, slidably be provided with slide block in each described horizontal concrete chute, described horizontal concrete chute extends along the plane at described directions X and Y-direction place, what described activity diel can be slided is arranged in the described Z-direction chute, described slide block has two operating positions, when described slide block is in first operating position, the bottom surface of described slide block is pressed on the top of described activity diel, and described activity diel is fixed in the described Z-direction chute; When described slide block is in second operating position, the bottom surface of described slide block is away from the top of described activity diel, the space that formation can supply described activity diel to move up in the described horizontal concrete chute, described activity diel is movably arranged in the described Z-direction chute.

In the preferred version, described mold mount pad comprises upper plate and lower plate, and described horizontal concrete chute is positioned on the described upper plate, and described Z-direction chute is positioned on the described lower plate.

In the preferred version, described horizontal concrete chute extends setting along directions X or Y-direction.

In the preferred version, described slide block also has first plane that is higher than with described bottom surface, when described slide block is in second operating position, described first plane be positioned at described activity diel directly over.

In the preferred version, the bottom of described activity diel has at least one drift.

In the preferred version, the bottom of described activity diel is provided with a plurality of drifts, and a plurality of described drifts are linear array or are the bottom that matrix is arranged in described activity diel.

In the preferred version, described slide block is provided with one and drives it along the slide-driving device that described horizontal concrete chute slides, and described slide-driving device is connected with described PLC control module signal.

In the preferred version, also be installed with at least one fixedly diel on the described mold mount pad.

The utility model operation principle is:

Slidably be provided with slide block in the horizontal concrete chute in the mold mount pad, be positioned at horizontal concrete chute under the Z-direction chute slidably be provided with the activity diel, the activity diel has two states: press work state and off working state.

When mobile stamping die is in the press work state, the top of mobile stamping die is against on the bottom surface of slide block, when the last die head that be loaded with activity diel when drive unit drives this moment moved downward, the activity diel was owing to punching press inertia and under the slide block squeezing action at its top workpiece to be processed is carried out stamping press; When the activity diel is in off working state, slide block drives or manually outwards skids off LAP by drive unit, make the top of activity diel break away from the bottom surface of slide block, in horizontal concrete chute, has the space that can supply the activity diel to move up, when drive unit drives the last die head be loaded with the activity diel and moves downward, the activity diel touches workpiece to be processed, because the top of activity diel is not against on the bottom surface of slide block and has mobile space in the horizontal concrete chute, the squeezing action that the bottom of activity diel is subjected to workpiece to be processed moves up, therefore in the punching stroke of workpiece to be processed, the activity diel is not done work to workpiece to be processed.

In the workpiece small lot batch manufacture, slide block can make slide block slide along horizontal concrete chute by the PLC control module, thereby reach the effect of the state of control activity diel, when new workpiece trial production or single work piece production, in order to reduce the trouble of PLC programming, the utility model also can pass through manual moving slider, makes it to reach the effect of the state of control activity diel.

Replaceable activity diel with different punch structures in the Z-direction chute of same position, thus the punching that can form different structure at the same position of thin plate made.

Because technique scheme is used, the utility model compared with prior art has following advantage:

1, can carry out selective punching at the structure of the workpiece at same position, also can select not punching: according to client's actual demand, be positioned at the duty of activity diel by change, make the activity diel in corresponding not punching of position, the activity diel that also can have different punching structures by replacing makes the activity diel carry out punching in corresponding position; When the mesh punching that matrix form is arranged, by the slide block of removal relevant position, can adjust the pitch of holes of the mesh of matrix form arrangement;

2, reduced the development cost of activity diel and maintenance thereof, cost of upkeep: since the numerical control of conventional art towards the diel overall fixed of mesh device on the mold mount pad, when having the workpiece of different structure, processing need carry out integral replacing, and the utility model is provided with the activity diel in the mold mount pad, shape and structure that can local change die punching, thus the development cost of activity diel and maintenance thereof, cost of upkeep reduced effectively.

Description of drawings

Accompanying drawing 1 is that a kind of motor driven numerical control of the utility model is towards the perspective view of mesh device;

Accompanying drawing 2 is positioned at the structural representation of duty for the activity diel;

Accompanying drawing 3 is positioned at the structural representation of off working state for the activity diel;

Accompanying drawing 4 is for utilizing a kind of structural representation of the workpiece towards the processing of mesh device of the present utility model;

Accompanying drawing 5 is for utilizing the another kind of structural representation of the workpiece towards the processing of mesh device of the present utility model;

Accompanying drawing 6 is for utilizing another structural representation of the workpiece towards the processing of mesh device of the present utility model;

In the above accompanying drawing: 1, lathe bed; 2, go up die head; 3, lower die head; 4, workpiece mount pad; 5, drive unit; 51, PLC control module; 6, mold mount pad; 61, horizontal concrete chute; 62, Z-direction chute; 63, upper plate; 64, lower plate; 7, slide block; 71, first plane; 72, bottom surface; 8, activity diel; 81, transition face; 9, drift.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further described:

Accompanying drawing 1 is depicted as a kind of motor driven numerical control of the utility model towards the perspective view of mesh device, a kind of motor driven numerical control is towards the mesh device, comprise lathe bed 1, be arranged on last die head 2 and lower die head 3 on the lathe bed 1, the workpiece mount pad 4 that is used for the location workpiece to be processed, drive the drive unit 5 of going up die head 2 and 4 motions of workpiece mount pad and the PLC control module 51 that is used for accessory drive respectively, workpiece mount pad 4 can be slidingly arranged on the lower die head 3 along directions X and Y-direction, last die head 2 is slidably disposed on the lathe bed 1 along the Z direction, and last die head 2 comprises mold mount pad 6 and is individually fixed at least one fixedly diel and at least one activity diel 8 on the mold mount pad 6.

Accompanying drawing 2 is depicted as the concrete structure schematic diagram that the activity diel is installed in the mold mount pad, wherein mold mount pad 6 is provided with at least one horizontal concrete chute 61 that extends along the plane at directions X and Y-direction place, slidably be provided with slide block 7 in each horizontal concrete chute 61, first plane 71 that slide block 7 has bottom surface 72 and is higher than bottom surface 72, can be connected by chamfered transition between bottom surface 72 and first plane 71, slide block 7 is provided with one and drives it along the slide-driving device that horizontal concrete chute 61 slides, and slide-driving device is connected with PLC control module 51 signals; Slide block 7 has two operating positions, and when slide block place 7 during in first operating position, the bottom surface of slide block 7 is pressed on the top of activity diel 8, and activity diel 8 is fixed in the Z-direction chute 62; When slide block 7 was in second operating position, the bottom surface of slide block 7 was away from the top of activity diel 8, the space that formation can move up for activity diel 8 in the horizontal concrete chute 61, and activity diel 8 is movably arranged in the Z-direction chute 62.

Under each horizontal concrete chute 61, be respectively arranged with at least one coupled logical Z-direction chute 62, slidably be provided with activity diel 8 in each Z-direction chute 62, the top of activity diel 8 has the transition face 81 that matches with the inclined-plane of slide block, in the specific embodiment, the bottom of activity diel 8 can be provided with a drift 9, also can be provided with at least two and be linearly aligned drift 9, also can be provided with a plurality of drifts 9 that are the matrix arrangement.

In actual production, activity diel 8 has two states: press work state and off working state, when mobile stamping die 8 is in the press work state, slide block 7 is in first operating position, when the last die head 2 that be loaded with activity diel 8 when drive unit 5 drivings this moment moves downward, activity diel 8 is because punching press inertia and being positioned under slide block 7 squeezing actions at its top workpiece to be processed punching press acting, and accompanying drawing 2 is depicted as the structural representation that the activity diel is positioned at duty; When activity diel 8 is in off working state, slide block 7 is in second operating position, at this moment, when drive unit drives the last die head 2 be loaded with activity diel 8 and moves downward, because the top of activity diel 8 is not against on the bottom surface 72 of slide block 7 and has mobile space in the horizontal concrete chute, after activity diel 8 touches workpiece to be processed, the squeezing action that its bottom is subjected to workpiece to be processed moves up, therefore in the punching stroke of workpiece to be processed, to the workpiece to be processed acting, accompanying drawing 3 is not depicted as the structural representation that activity diel 8 is positioned at off working state in activity diel 8.

Slide block 7 can make slide block 7 slide along horizontal concrete chute 61 by PLC control module 51 in the workpiece small lot batch manufacture, thereby reach the effect of the state of control activity diel 8, when new workpiece trial production or single work piece production, in order to reduce the trouble of PLC programming, the utility model also can pass through manual moving slider 7, makes it to reach the effect of the state of control activity diel 8.

In concrete production, the activity diel 8 that is positioned at Z-direction chute 62 can be according to the customer demand of reality in corresponding not punching of position, also can carry out punching in corresponding position by the activity diel 8 that replacing has different punching structures, accompanying drawing 4-6 is depicted as the structural representation that utilizes the workpiece towards mesh device processing of the present utility model, in the a-quadrant of thin plate, dash in the accompanying drawing 4 square punching is arranged, be positioned at by change the a-quadrant activity diel 8 duty or with these activity diel 8 removals, form the figure that does not have punching in the accompanying drawing 5, also can form accompanying drawing 6 by the structure of changing the activity diel 8 that will be arranged in the a-quadrant and dash the punching that the switch figure is arranged; When the mesh punching that matrix form is arranged, the utility model also can multiple adjustment pitch of holes and punching position, in the B zone of accompanying drawing 4 thin plate that is shown in, slide block 7 by the removal relevant position, can form the figure of the adjustment pitch of holes shown in the accompanying drawing 6, by regulating slide block 7 positions of relevant position, change the duty that is positioned at same each activity diel 8 that lists and to form the figure shown in the accompanying drawing 5.

Because the numerical control of conventional art is that overall fixed is on mold mount pad 6 towards the diel 8 of mesh device, when having the workpiece of different structure, processing need carry out integral replacing, can cause its processing cost too high like this, and the maintenance cost problem of higher of mould, and the utility model is owing to be provided with the slide block 7 of adjustable position in the horizontal concrete chute 61 in the mold mount pad 6, and in Z-direction chute 62, be provided with the activity diel 8 that manually to change, thereby make activity diel 8 to carry out selective punching at the workpiece punching structure at same position, also can select not punching, but the punching pitch of holes of the mesh that the adjustment matrix of multiple is arranged, and processing cost that can reduction activity diel with and the maintenance cost.

Above-described embodiment only is explanation technical conceive of the present utility model and characteristics, and its purpose is to allow the personage who is familiar with this technology can understand content of the present utility model and enforcement according to this, can not limit protection domain of the present utility model with this.All equivalences of doing according to the utility model spirit essence change or modify, and all should be encompassed within the protection domain of the present utility model.

Claims (8)

1. a motor driven numerical control is towards the mesh device, comprise lathe bed, be arranged on last die head and lower die head on the described lathe bed, the workpiece mount pad that is used for the location workpiece to be processed, drive the described drive unit of die head and the motion of workpiece mount pad and the PLC control module that is used for the described drive unit of control gone up respectively, the described die head of going up can be slidingly arranged on the described lathe bed along the Z direction, described lower die head is fixed on the described lathe bed, described workpiece mount pad can be slidingly arranged on described lathe bed or the described lower die head along directions X and Y-direction, it is characterized in that: the described die head of going up comprises the mold mount pad and is fixed at least one activity diel on the described mold mount pad; Described mold mount pad is provided with at least one horizontal concrete chute, be respectively arranged with at least one coupled logical Z-direction chute under each described horizontal concrete chute, slidably be provided with slide block in each described horizontal concrete chute, described horizontal concrete chute extends along the plane at described directions X and Y-direction place, what described activity diel can be slided is arranged in the described Z-direction chute, described slide block has two operating positions, when described slide block is in first operating position, the bottom surface of described slide block is pressed on the top of described activity diel, and described activity diel is fixed in the described Z-direction chute; When described slide block is in second operating position, the bottom surface of described slide block is away from the top of described activity diel, the space that formation can supply described activity diel to move up in the described horizontal concrete chute, described activity diel is movably arranged in the described Z-direction chute.

2. a kind of motor driven numerical control according to claim 1 is characterized in that towards the mesh device: described mold mount pad comprises upper plate and lower plate, and described horizontal concrete chute is positioned on the described upper plate, and described Z-direction chute is positioned on the described lower plate.

3. a kind of motor driven numerical control according to claim 1 is characterized in that towards the mesh device: described horizontal concrete chute extends setting along directions X or Y-direction.

4. a kind of motor driven numerical control according to claim 1 is towards the mesh device, it is characterized in that: described slide block also has first plane that is higher than with described bottom surface, when described slide block is in second operating position, described first plane be positioned at described activity diel directly over.

5. a kind of motor driven numerical control according to claim 1 is towards the mesh device, and it is characterized in that: the bottom of described activity diel has at least one drift.

6. a kind of motor driven numerical control according to claim 5 is towards the mesh device, it is characterized in that: the bottom of described activity diel is provided with a plurality of drifts, and a plurality of described drifts are linear array or are the bottom that matrix is arranged in described activity diel.

7. a kind of motor driven numerical control according to claim 1 is towards the mesh device, it is characterized in that: described slide block is provided with one and drives it along the slide-driving device that described horizontal concrete chute slides, and described slide-driving device is connected with described PLC control module signal.

8. a kind of motor driven numerical control according to claim 1 is characterized in that towards the mesh device: also be installed with at least one fixedly diel on the described mold mount pad.

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