CN218532632U - Guide cutting device for electrode wire machining - Google Patents

Abstract

The utility model discloses a guide cutting device for electrode wire processing, which comprises an outer shell and guide wheels movably arranged inside the left end and the right end of the outer shell; the movable frames are arranged in grooves in the left end and the right end of the outer shell, and transmission gears are meshed and connected with the inner parts of the upper side surface and the lower side surface of one end of each movable frame; an installation shaft lever penetrates through and is fixed in the transmission gear, and a connecting rod is fixed on the outer side of the installation shaft lever; the connecting rod is arranged on the front side surface of the transmission gear, and the other end of the connecting rod is connected with a clamping plate in an arc-shaped structure through a movable shaft; and a connecting rope is fixed on one side surface of the movable frame close to the electric push rod. This a direction cutting device for wire electrode processing is provided with and connects the rope, is convenient for then the connecting rod drives the grip block and removes to the wire electrode centre gripping, consequently does not need the staff manual operation in advance, can control fixture automatically at the in-process that cuts, subsequent cutting work of being convenient for.

Description

Guide cutting device for electrode wire machining

Technical Field

The utility model relates to a direction cutting technical field specifically is a direction cutting device for wire electrode processing.

Background

The electrode wire is used as a cutting mechanism on a linear cutting device due to good performance, and the electrode wire needs to be cut into different lengths by using a guide cutting device during production and processing;

when cutting the electrode wire, the guide cutting device on the market at present needs to operate the clamping mechanism in advance, so that the clamping mechanism clamps and fixes the electrode wire, and the cutting work can be stably carried out in the later period, but the operation is troublesome, and the guide cutting device also needs to be operated by workers, thereby wasting time and labor;

therefore, the guide cutting device for processing the electrode wire can well solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a direction cutting device for wire electrode processing to solve the direction cutting device on the existing market that above-mentioned background art provided and when cutting the wire electrode, still need operate fixture in advance, make fixture carry out the wire electrode centre gripping with the wire electrode and fix, so that the stable cutting work that carries on in later stage, but operate comparatively troublesome like this, still need the staff operation, problem that wastes time and energy.

In order to achieve the above object, the utility model provides a following technical scheme: a guide cutting device for processing electrode wires comprises an outer shell and guide wheels movably mounted inside the left end and the right end of the outer shell;

an electric push rod penetrates through and is fixed in the middle of the upper surface of the outer shell, and a cutting blade is fixed at the output end of the electric push rod;

the movable frames are arranged in grooves in the left end and the right end of the outer shell, and transmission gears are meshed and connected with the inner parts of the upper side surface and the lower side surface of one end of each movable frame;

a mounting shaft lever penetrates through and is fixed inside the transmission gear, and a connecting rod is fixed on the outer side of the mounting shaft lever;

the connecting rod is arranged on the front side surface of the transmission gear, and the other end of the connecting rod is connected with a clamping plate in an arc-shaped structure through a movable shaft;

a connecting rope is fixed on one side face, close to the electric push rod, of the moving frame, and the other end of the connecting rope is fixed on the side face of the output end of the electric push rod.

Preferably, the inside of shell body is the setting of cavity column structure, and the middle part front and back both sides face of shell body is the setting of opening form.

Through the arrangement of the structure, the inner part of the outer shell is of a hollow structure, so that the electrode wire transversely penetrates through the inner part of the outer shell.

Preferably, two through grooves b are symmetrically formed in the upper end and the lower end of the moving frame, and the number of the through grooves b and the number of the moving frame are 4:1.

Through the arrangement of the structure, the installation shaft lever is arranged in the through groove b when the movable frame moves, so that the installation shaft lever cannot influence the movement of the movable frame.

Preferably, the outer walls of the upper side and the lower side of the movable frame are both fixed with sliding blocks, the inner walls of the upper side and the lower side of the movable frame are both fixed with a row of saw-tooth blocks, and the saw-tooth blocks are meshed with the transmission gears at corresponding positions.

Through the arrangement of the structure, the movable frame can drive the transmission gear to rotate when moving.

Preferably, the limiting groove has been seted up to both ends inside equal symmetry about the shell body, and the internally mounted of limiting groove has reset spring to the inside block sliding connection of limiting groove has the slider, and the one end of slider is connected with reset spring's the other end.

Through the arrangement of the structure, the sliding block can automatically move reversely to reset at the later stage through the force storage of the reset spring.

Preferably, the front end and the rear end of the mounting shaft lever penetrate through the through groove b to be connected with the inner wall bearing of the outer shell, and the mounting shaft lever and the connecting rod are arranged in a one-to-one correspondence mode.

Through the setting of above-mentioned structure for the steerable connecting rod of installation axostylus axostyle is together rotatory, and the inner wall bearing that leads to groove b and shell body all runs through at both ends around the installation axostylus axostyle is connected, makes the installation axostylus axostyle can not influence the removal work that removes the frame.

Preferably, a rubber pad is fixed on one side face of the clamping plate and arranged in an arc shape, a supporting plate in an inverted U-shaped structure is fixed above the middle of the bottom surface of the outer shell, and a through groove a is formed in the inner portion of the upper surface of the supporting plate.

Through the arrangement of the structure, the clamping plate is enabled to descend well, and the rubber pad can be in good contact with the electrode wire.

Compared with the prior art, the beneficial effects of the utility model are that: this a direction cutting device for wire electrode processing through the setting of connecting the rope, consequently does not need staff's manual operation in advance, can control fixture automatically at the in-process that cuts, the simple operation, its concrete content as follows:

(1) The connecting rope is arranged, so that when the electric push rod and the cutting blade descend to perform cutting work, the connecting rope can be pulled, the connecting rope can pull the moving frame, the sawtooth blocks on the inner side wall of the moving frame can drive the transmission gear to rotate, the transmission gear drives the mounting shaft rod and the connecting rod to rotate together, and the connecting rod can drive the clamping plate to move to clamp the electrode wire, so that manual operation of workers in advance is not needed, the clamping mechanism can be automatically controlled in the cutting process, the operation is convenient and fast, and subsequent cutting work is facilitated;

(2) Install the layer board, through the layer board with lead to the setting of groove a, the cutting blade of being convenient for is in the cutting back, and the lower extreme of cutting blade can enter into leading to the inslot a, is convenient for protect cutting blade.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is a schematic view of the main sectional structure of the movable frame of the present invention;

FIG. 3 is a side sectional view of the movable frame of the present invention;

FIG. 4 is a schematic view of the structure of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the support plate of the present invention.

In the figure: 1. an outer housing; 2. a guide wheel; 3. an electric push rod; 4. a cutting blade; 5. a support plate; 501. a through groove a; 6. installing a shaft lever; 7. a transmission gear; 8. moving the frame; 801. a slider; 802. a sawtooth block; 9. a limiting groove; 10. a connecting rod; 11. a through groove b; 12. connecting ropes; 13. and (4) clamping the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a guide cutting device for processing electrode wires comprises an outer shell 1 and guide wheels 2 movably mounted inside the left end and the right end of the outer shell 1, as shown in figure 1, the whole guide cutting device is moved into a working area, after the guide cutting device reaches the working area, the inner part of the outer shell 1 is arranged in a hollow structure, the front side surface and the rear side surface of the middle part of the outer shell 1 are arranged in an open manner, the electrode wires penetrate through the hollow areas inside the left end and the right end of the outer shell 1, and the guide wheels 2 on the upper side and the lower side are matched for use, so that the electrode wires can be clamped and guided preliminarily, the electrode wires are kept in parallel, and then cutting work can be carried out;

an electric push rod 3 penetrates through and is fixed to the middle of the upper surface of the outer shell 1, a cutting blade 4 is fixed to the output end of the electric push rod 3, the electric push rod 3 is started, the output end of the electric push rod 3 drives the cutting blade 4 to move downwards, a connecting rope 12 is fixed to one side face, close to the electric push rod 3, of the moving frame 8, the other end of the connecting rope 12 is fixed to the side face of the output end of the electric push rod 3, then the output end of the electric push rod 3 can simultaneously pull the connecting ropes 12 on the left side and the right side, and the two connecting ropes 12 respectively pull the two moving frames 8;

the outer walls of the upper side and the lower side of the movable frame 8 are fixed with sliding blocks 801, the inner walls of the upper side and the lower side of the movable frame 8 are fixed with a row of sawtooth blocks 802, the sawtooth blocks 802 are meshed with the transmission gears 7 at corresponding positions, the limiting grooves 9 are symmetrically formed in the left end and the right end of the outer shell 1, the reset springs are arranged in the limiting grooves 9, the sliding blocks 801 are clamped in the limiting grooves 9 in a sliding mode, one ends of the sliding blocks 801 are connected with the other ends of the reset springs, then as shown in the attached drawings 1-3, the sliding blocks 801 on the outer side of the movable frame 8 slide in the limiting grooves 9 formed in the outer shell 1, the sliding blocks 801 extrude the reset springs in the limiting grooves 9, the reset springs store force, the movable frame 8 is guaranteed to stably move, through the arrangement of the through grooves b11, the two through grooves b11 are symmetrically formed in the upper end and the lower end of the movable frame 8, the number of the through grooves b11 and the number of the moving frames 8 are 4:1, the front end and the rear end of the installation shaft lever 6 penetrate through the through grooves b11 to be connected with the inner wall bearing of the outer shell 1, the installation shaft lever 6 and the connecting rods 10 are arranged in a one-to-one correspondence manner, the installation shaft lever 6 penetrates through the inside of the through grooves b11, so that the installation shaft lever 6 does not influence the movement of the moving frames 8, the moving frames 8 are arranged in grooves in the left end and the right end of the outer shell 1, the upper side surface and the lower side surface of one end of the moving frame 8 are respectively connected with the transmission gears 7 in a meshing manner, the installation shaft lever 6 penetrates through and is fixed in the transmission gears 7, the connecting rods 10 are fixed on the outer sides of the installation shaft lever 6, the sawtooth blocks 802 on the inner side walls of the moving frames 8 are meshed with the transmission gears 7 during moving, so that the transmission gears 7 are driven to rotate when rotating, the transmission gears 7 drive the installation shaft lever 6 connected with the inner keys to rotate during rotating, then the mounting shaft lever 6 drives the connecting rod 10 fixed at the outer side to rotate;

wherein, connecting rod 10 sets up the leading flank at drive gear 7, and the other end of connecting rod 10 is connected with the grip block 13 that is the arc column structure through the loose axle, a side of grip block 13 is fixed with the rubber pad, then connecting rod 10 drives the grip block 13 that other end loose axle connected when rotating with installation axostylus axostyle 6 as the centre of a circle and moves, then make the rubber pad of grip block 13 inside wall and the laminating contact of wire electrode, thereby it is automatic to the wire electrode centre gripping to be convenient for two sets of grip blocks 13 to mutually support, and the rubber pad is the arc column setting, the bottom surface middle part top of shell body 1 is fixed with the layer board 5 that is "U" shape structure of inversion, and logical groove a501 has been seted up to the upper surface inside of layer board 5, as shown in figure 1 and figure 5, electric putter 3 drives cutting blade 4 and descends and cuts the work simultaneously, cutting blade 4's lower extreme enters into logical groove a501 after the cutting, from this avoid cutting blade 4 and layer board 5 to contact, be convenient for protecting cutting blade 4, after the cutting, electric putter 3 drives cutting blade 4 and rises, then the power of power storage through reset spring in spacing groove 9 drives the reverse movement automatic drive frame 8, use of being convenient for next time cutting.

The working principle is as follows: when the guide cutting device for processing the electrode wire is used, firstly, the electrode wire penetrates through hollow areas inside the left end and the right end of the outer shell 1, and then the guide wheels 2 on the upper side and the lower side preliminarily clamp and guide the electrode wire;

the output end of the electric push rod 3 drives the cutting blade 4 to move downwards, and at the moment, the two connecting ropes 12 respectively pull the two moving frames 8, so that the moving frames 8 drive the transmission gear 7 to rotate when moving, and then rubber pads on the inner side walls of the clamping plates 13 are in contact with the electrode wires in a fit manner, and the two groups of clamping plates 13 are convenient to mutually cooperate to automatically clamp the electrode wires;

the lower end of the cutting blade 4 enters the through groove a501 after the cutting is finished, so that the cutting blade 4 is protected, and the content not described in detail in this specification belongs to the prior art well known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A guide cutting device for processing electrode wires comprises an outer shell (1) and guide wheels (2) movably mounted inside the left end and the right end of the outer shell (1);

an electric push rod (3) penetrates through the middle of the upper surface of the outer shell (1), and a cutting blade (4) is fixed at the output end of the electric push rod (3);

it is characterized by also comprising:

a movable frame (8) is arranged in grooves in the left end and the right end of the outer shell (1), and transmission gears (7) are meshed and connected in the upper side surface and the lower side surface of one end of the movable frame (8);

an installation shaft lever (6) penetrates through and is fixed in the transmission gear (7), and a connecting rod (10) is fixed on the outer side of the installation shaft lever (6);

the connecting rod (10) is arranged on the front side surface of the transmission gear (7), and the other end of the connecting rod (10) is connected with a clamping plate (13) in an arc-shaped structure through a movable shaft;

one side of the movable frame (8) close to the electric push rod (3) is fixed with a connecting rope (12), and the other end of the connecting rope (12) is fixed on the side of the output end of the electric push rod (3).

2. The pilot cutting device for wire electrode machining according to claim 1, wherein: the inside of shell body (1) is the setting of cavity column structure, and the middle part front and back both sides face of shell body (1) is the setting of opening form.

3. The pilot cutting device for wire electrode machining according to claim 1, wherein: two through grooves b (11) are symmetrically formed in the upper end and the lower end of the moving frame (8), and the number of the through grooves b (11) and the number of the moving frame (8) are 4:1.

4. The pilot cutting device for wire electrode machining according to claim 1, wherein: the outer walls of the upper side and the lower side of the movable frame (8) are both fixed with sliding blocks (801), the inner walls of the upper side and the lower side of the movable frame (8) are both fixed with a row of sawtooth blocks (802), and the sawtooth blocks (802) are meshed with transmission gears (7) at corresponding positions.

5. The pilot cutting device for wire electrode machining according to claim 4, wherein: limiting grooves (9) are symmetrically formed in the left end and the right end of the outer shell (1), a reset spring is arranged in each limiting groove (9), a sliding block (801) is connected to the inner portion of each limiting groove (9) in a sliding mode, and one end of each sliding block (801) is connected with the other end of the corresponding reset spring.

6. The pilot cutting device for wire electrode machining according to claim 1, wherein: the front end and the rear end of the mounting shaft lever (6) are connected with the inner wall bearing of the outer shell (1) through the through grooves b (11), and the mounting shaft lever (6) and the connecting rods (10) are arranged in a one-to-one correspondence mode.

7. The pilot cutting device for wire electrode machining according to claim 1, wherein: a rubber pad is fixed on one side face of the clamping plate (13) and arranged in an arc shape, a supporting plate (5) in an inverted U-shaped structure is fixed above the middle of the bottom face of the outer shell (1), and a through groove a (501) is formed in the inner portion of the upper surface of the supporting plate (5).

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