CN218699141U - Copper-clad plate continuous cutting machine with positioning structure - Google Patents

Abstract

The utility model relates to a copper-clad plate continuous cutting machine with location structure belongs to copper-clad plate processing technology field, has solved the copper-clad plate continuous cutting machine among the prior art to the relatively poor technical problem in location of copper-clad plate. The copper-clad plate continuous cutting machine with the positioning structure comprises a workbench; the mounting rack is mounted on the workbench; the cutter is arranged on the mounting frame in a lifting manner and is positioned above the workbench; the first baffle is slidably arranged at one end of the workbench; the second baffle is slidably mounted at the other end of the workbench and is parallel to the first baffle, and an installation space is formed between the first baffle and the second baffle and used for placing the copper-clad plate body; the mounting groove has been seted up to lifter plate, the upper surface of workstation, and the one end of lifter plate is rotated and is installed in one side of mounting groove. Through the structure, because the setting of first baffle and second baffle, press from both sides the copper-clad plate body tightly and fix on the workstation, so the utility model provides a copper-clad plate continuous cutting machine is better to the location of copper-clad plate.

Description

Copper-clad plate continuous cutting machine with positioning structure

Technical Field

The utility model belongs to the technical field of the copper-clad plate processing, in particular to copper-clad plate continuous cutting machine with location structure.

Background

The copper-clad plate is also called a base material. It is a basic material for PCB, often called substrate. When it is used for the production of multilayer boards, it is also called a core board. The copper-clad plate is a plate-shaped material prepared by soaking electronic glass fiber cloth or other reinforcing materials in resin, coating copper foil on one surface or two surfaces and hot-pressing. Various printed circuit boards with different forms and different functions are manufactured into different printed circuits by selectively carrying out the working procedures of processing, etching, drilling, copper plating and the like on a copper-clad plate. The copper clad laminate mainly plays the roles of interconnection conduction, insulation and support for the printed circuit board, and has great influence on the transmission speed, energy loss, characteristic impedance and the like of signals in a circuit, so that the performance, quality, processability in manufacturing, manufacturing level, manufacturing cost, long-term reliability and stability of the printed circuit board are greatly dependent on the copper clad laminate. In the production of the copper-clad plate, the large copper-clad plate needs to be cut for many times, the large copper-clad plate is cut into a plurality of small plates, and the copper-clad plate continuous cutting machine in the prior art lacks good positioning when cutting the copper-clad plate into sections, so that the copper-clad plate is easy to deviate, and the cut plates are different in size.

SUMMERY OF THE UTILITY MODEL

The utility model provides a copper-clad plate continuous cutting machine with location structure for the copper-clad plate continuous cutting machine who solves among the prior art is to the relatively poor technical problem in location of copper-clad plate.

The utility model discloses a following technical scheme realizes: a copper-clad plate continuous cutting machine with a positioning structure comprises:

a work table;

the mounting rack is mounted on the workbench;

the cutter is arranged on the mounting rack in a lifting manner and is positioned above the workbench;

the first baffle is slidably mounted at one end of the workbench;

the second baffle is slidably mounted at the other end of the workbench and is parallel to the first baffle, and an installation space is formed between the first baffle and the second baffle and used for placing the copper-clad plate body;

the mounting groove has been seted up to the upper surface of workstation, the one end of lifter plate rotates to be installed one side of mounting groove.

Optionally, the method further comprises:

drive actuating cylinder, install on the mounting bracket, the output that drives actuating cylinder sets up down, the cutter is installed drive actuating cylinder's output, it is used for the drive to drive actuating cylinder the cutter reciprocates in order to cut the copper-clad plate body.

Optionally, the method further comprises:

the first sliding block is installed at the bottom end of the first baffle, a first sliding groove matched with the first sliding block is formed in the upper surface of the workbench, and the first sliding block is installed in the first sliding groove in a sliding mode;

the screw rod is rotatably installed in the first sliding groove, one end of the screw rod extends out of the first sliding groove, a threaded through hole is formed in one end of the first sliding block, and the first sliding block is in threaded connection with the screw rod.

Optionally, the method further comprises:

the second sliding block is arranged at the bottom end of the second baffle;

the workbench is provided with a second sliding groove matched with the second sliding block, the second sliding block is inserted into the second sliding groove in a sliding mode, the fixed end of the first electric telescopic rod is installed on the side wall of the second sliding groove, and the telescopic end of the first electric telescopic rod is installed on one side of the second sliding block.

Optionally, a groove is formed in the workbench and located right below the cutter, and the groove is communicated with the mounting groove.

Optionally, an included angle α is formed between the groove bottom of the groove and the groove bottom of the mounting groove, and the included angle α ranges from 30 degrees to α degrees and from 90 degrees.

Optionally, the method further comprises:

the lug is arranged at the movable end of the lifting plate;

the mounting box is mounted on one side, close to the lug, of the workbench;

the fixed end of the second electric telescopic rod is installed in the mounting box, and the protruding block is connected with the telescopic end of the second electric telescopic rod in a lap mode to drive the lifting plate to rotate.

Optionally, a handle is fixedly mounted at one end of the screw rod extending out of the first sliding groove.

The utility model discloses compare in prior art and have following beneficial effect:

the utility model provides a copper-clad plate continuous cutting machine with location structure includes the workstation, a mounting bracket, the cutter, first baffle, second baffle and lifter plate, the mounting bracket is installed on the workstation, the cutter liftable is installed on the mounting bracket, and be located the top of workstation, first baffle slidable mounting is in the one end of workstation, second baffle slidable mounting is at the other end of workstation, and with first baffle parallel arrangement, form installation space between first baffle and the second baffle, installation space is used for placing the copper-clad plate body, the mounting groove has been seted up to the upper surface of workstation, the one side at the mounting groove is installed in the one end rotation of lifter plate.

Through the structure, when the copper-clad plate body is cut to needs, adjust the distance between first baffle and the cutter earlier, the width that the copper-clad plate was cut promptly, place the copper-clad plate body in installation space again, then drive the second baffle, make the second baffle remove to the direction that is close to first baffle, press from both sides the copper-clad plate body tightly between first baffle and second baffle, the redrive cutter cuts the copper-clad plate body downwards, cut the completion back, the cutter resets, then drive the lifter plate, make the drive plate rotate on the workstation, make the copper-clad plate body that cuts fall out the workstation, then the lifter plate resets, the direction that the redrive second baffle is close to first baffle removes, promote the copper-clad plate body synchronous motion of placing on the workstation simultaneously, the copper-clad plate body that will cut once more presss from both sides tightly between first baffle and second baffle, thus, this circulation, the mesh that realizes the continuous cutting of copper-clad plate, because the setting of first baffle and second baffle, the copper-clad plate body that will treat to cut presss from both sides tightly and fixes on the workstation, so the utility model provides a better location to the cutting machine.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a copper-clad plate continuous cutting machine with a positioning structure provided by the embodiment of the present invention;

fig. 2 is a cross-sectional view of the copper-clad plate continuous cutting machine with a positioning structure provided by the embodiment of the utility model.

In the figure:

1-a workbench; 11-mounting grooves; 12-a first runner; 13-a second chute;

2-a mounting rack;

3-cutting the knife;

4-a first baffle;

5-a second baffle;

6-lifting plate;

7-driving the cylinder;

8-a first slider;

9-screw rod;

10-second slide

20-a first electric telescopic rod;

30-a groove;

40-a bump;

50-mounting a box;

60-a second electric telescopic rod;

70-handle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

the embodiment provides a copper-clad plate continuous cutting machine with a positioning structure, which is used for solving the technical problem that the copper-clad plate continuous cutting machine in the prior art has poor positioning on a copper-clad plate. This copper-clad plate continuous cutting machine with location structure includes workstation 1, mounting bracket 2, cutter 3, first baffle 4, second baffle 5 and lifter plate 6, wherein:

the working table 1 is a structural member made of steel.

The mounting frame 2 is mounted on the work table 1.

The cutter 3 is installed on the mounting bracket 2 in a lifting manner and is located above the workbench 1, the cutter 3 is arranged in a lifting manner, when the cutter 3 moves downwards, the copper-clad plate body is cut, after the cutting is completed, the cutter 3 moves upwards to reset, and the next cutting is prepared, so that the purpose of cutting the copper-clad plate body is achieved.

First baffle 4 slidable mounting is in the one end of workstation 1, through slidable mounting's first baffle 4, is convenient for adjust the distance between first baffle 4 and the cutter 3, even is convenient for adjust the width that the copper-clad plate cut, like this, just can cut out the copper-clad plate body of different width.

Second baffle 5 slidable mounting is at the other end of workstation 1, and with first baffle 4 parallel arrangement, form installation space between first baffle 4 and the second baffle 5, installation space is used for placing the copper-clad plate body, and thus, second baffle 5 through slidable mounting, make the copper-clad plate body homoenergetic of different length press from both sides tightly between first baffle 4 and second baffle 5, fix the copper-clad plate body on workstation 1 simultaneously, avoid cutter 3 when cutting the copper-clad plate body, the skew takes place for the copper-clad plate body, lead to the shape of the copper-clad plate body that cuts not of uniform size.

Mounting groove 11 has been seted up to the upper surface of workstation 1, and the one end of lifter plate 6 is rotated and is installed in one side of mounting groove 11, like this, through the lifter plate 6 of rotation installation for the copper-clad plate body that cuts falls out workstation 1 from the side of workstation 1.

Through the structure, when the copper-clad plate body is cut to needs, adjust the distance between first baffle 4 and the cutter 3 earlier, the width that this integument of copper-clad plate cut promptly, place the copper-clad plate body in installation space again, then drive second baffle 5, make second baffle 5 remove to the direction that is close to first baffle 4, press from both sides the copper-clad plate body tightly between first baffle 4 and second baffle 5, redrive cutter 3 cuts the copper-clad plate body downwards, cut the completion back, cutter 3 resets, then drive lifter plate 6, make the drive plate rotate on workstation 1, make the copper-clad plate body that cuts fall out workstation 1, then lifter plate 6 resets, redrive second baffle 5 removes towards the direction that is close to first baffle 4, promote the copper-clad plate body synchronous motion of placing on workstation 1 simultaneously, the copper-clad plate body that will cut once more presss from both sides tightly between first baffle 4 and second baffle 5, so, the purpose of continuous cutting of realizing the copper-clad plate, because first baffle 4 and second baffle 5's setting, treat the copper-clad plate body clamping and fixing and cutting the copper-clad plate body on the workstation and providing the good company of cutting machine.

An alternative implementation of this embodiment is as follows: further comprising a drive cylinder 7, wherein:

drive actuating cylinder 7 and install on mounting bracket 2, drive the output of actuating cylinder 7 and set up down, cutter 3 is installed at the output that drives actuating cylinder 7, drives actuating cylinder 7 and is used for driving cutter 3 and reciprocates in order to cut the copper-clad plate body, in this embodiment to drive actuating cylinder 7 as the power supply, make the utility model provides a copper-clad plate continuous cutting machine with location structure simple compactness more, easily make and the air supply source is convenient for store.

An alternative implementation of this embodiment is as follows: still include first slider 8 and screw rod 9, wherein:

first slider 8 is installed in the bottom of first baffle 4, and the upper surface of workstation 1 is seted up with first spout 12 of first slider 8 adaptation, and first slider 8 slidable mounting is in first spout 12.

The screw rod 9 is rotatably installed in the first sliding groove 12, one end of the screw rod 9 extends out of the first sliding groove 12, one end of the first sliding block 8 is provided with a threaded through hole, and the first sliding block 8 is in threaded connection with the screw rod 9.

Through the structure, when the position of the first baffle 4 needs to be adjusted, the screw rod 9 is rotated, the first sliding block 8 screwed on the screw rod 9 moves in the first sliding groove 12, and the first baffle 4 moves along with the movement of the first sliding block 8 because the first sliding block 8 is installed at the bottom end of the first baffle 4, so that the purpose of adjusting the position of the first baffle 4 is achieved.

An alternative implementation of this embodiment is as follows: still include second slider 10 and first electric telescopic handle 20, wherein:

the second slider 10 is mounted at the bottom end of the second shutter 5.

The second sliding groove 13 matched with the second sliding block 10 is formed in the workbench 1, the second sliding block 10 is inserted into the second sliding groove 13 in a sliding mode, the fixed end of the first electric telescopic rod 20 is installed on the side wall of the second sliding groove 13, and the telescopic end of the first electric telescopic rod 20 is installed on one side of the second sliding block 10.

Through the structure, when the position of the second baffle 5 needs to be adjusted, the first electric telescopic rod 20 is driven to stretch out and draw back so as to drive the second sliding block 10 installed on the first electric telescopic rod 20 to slide in the second sliding groove 13, so that the second baffle 5 connected with the second sliding block 10 is driven to move on the workbench 1, and the purpose of adjusting the position of the second baffle 5 is achieved.

An alternative implementation of this embodiment is as follows: seted up recess 30 on the workstation 1, recess 30 is located cutter 3 under, and recess 30 is linked together with mounting groove 11, and like this, through the setting of recess 30, avoid cutter 3's edge of a knife to collide with workstation 1, prolong cutter 3's life, and the recess 30 that is linked together with mounting groove 11 for the piece that is cut off drops to mounting groove 11 in through recess 30, the clearance of being more convenient for.

More preferably, an included angle α is formed between the groove bottom of the groove 30 and the groove bottom of the mounting groove 11, the included angle α is in a range of 30 ° to 90 °, and exemplarily, the included angle α may be 30 °, 40 °, 50 °, 60 °, 70 °, 80 ° or 90 °. Thus, by providing included angle α, the chance of debris accumulating within groove 30 is reduced.

An alternative implementation of this embodiment is as follows: still include lug 40, mounting box 50 and second electric telescopic handle 60, wherein:

the projection 40 is mounted on the movable end of the lifter plate 6.

The mounting box 50 is mounted on the side of the table 1 near the projection 40.

The fixed end of the second electric telescopic rod 60 is installed in the installation box 50, and the bump 40 is overlapped at the telescopic end of the second electric telescopic rod 60 to drive the lifting plate 6 to rotate.

Through the structure, through installing second electric telescopic handle 60 in mounting box 50, reduce the impaired probability of second electric telescopic handle 60, and after the cutter 3 will cover the copper plate body and cut off, drive second electric telescopic handle 60 extension, so that the lug 40 of overlap joint on second electric telescopic handle 60 upwards removes, thereby make lifter plate 6 upwards rotate, and then make the copper plate body that is cut off fall out workstation 1 from one side of workstation 1, then make second electric telescopic handle 60 shrink again, make lifter plate 6 rotate downwards, until lifter plate 6 and workstation 1's upper surface on the coplanar, avoid second baffle 5 to be hindered when promoting the direction removal of copper plate body towards being close to first baffle 4.

An alternative implementation of this embodiment is as follows: the handle 70 is fixedly mounted at one end of the screw rod 9 extending out of the first sliding chute 12, so that the second screw rod 9 can be rotated by a worker conveniently through the handle 70, and the position of the first baffle plate 4 can be adjusted conveniently.

In summary, when the copper-clad plate body needs to be cut, the screw rod 9 is rotated by the handle 70, so that the first slide block 8 screwed on the screw rod 9 moves in the first slide groove 12, and simultaneously the first baffle 4 installed on the first slide block 8 is driven to move on the workbench 1, and further the distance between the first baffle 4 and the cutter 3 is adjusted, namely the width of the copper-clad plate body is adjusted, so that copper-clad plate bodies with different widths can be cut, after the position of the first baffle 4 is adjusted, the first electric telescopic rod 20 is driven to stretch and retract, so as to drive the second slide block 10 installed on the first electric telescopic rod 20 to slide in the second slide groove 13, and further the second baffle 5 connected with the second slide block 10 is driven to move on the workbench 1, and further the position of the second baffle 5 is adjusted, so as to clamp the copper-clad plate body between the first baffle 4 and the second baffle 5, the copper-clad plate body is fixed on the workbench 1, the cutter 3 is prevented from shifting when cutting the copper-clad plate body, the shape of the copper-clad plate body which is cut is different in size, the second baffle plate 5 which is installed in a sliding mode enables the copper-clad plate bodies with different lengths to be clamped and fixed, after the copper-clad plate body is positioned, the driving cylinder 7 is driven again, the telescopic end of the driving cylinder 7 moves downwards to cut the copper-clad plate body, then the telescopic rod of the driving cylinder 7 moves upwards to reset, the arrangement of the groove 30 on the workbench 1 prevents the cutter 3 from colliding with the workbench 1 to damage the cutter 3, the service life of the cutter 3 is prolonged, the groove 30 is communicated with the mounting groove 11, therefore, scraps generated after the cutter 3 cuts the copper-clad plate body fall into the mounting groove 11 through the groove 30, the scraps are convenient to clean, and after the copper-clad plate body is cut, drive second electric telescopic handle 60 extension, lug 40 moves up, make the lifter plate 6 of installing on lug 40 rotate upwards, and then make the copper-clad plate body that cuts fall out workstation 1 from one side of workstation 1, redrive second electric telescopic handle 60 shrink, lug 40 moves down, make lifter plate 6 rotate downwards, upper surface and workstation 1's upper surface up to lifter plate 6 are in the coplanar, avoid second baffle 5 to be hindered when promoting the copper-clad plate body and remove towards the direction that is close to first baffle 4, then drive second electric telescopic handle 60 promotes second baffle 5, move the copper-clad plate body towards the direction that is close to first baffle 4, until the copper-clad plate body is close to first baffle 4 one end butt on first baffle 4, thereby press from both sides tight and the location to the copper-clad plate body once more, so circulate in order to reach the mesh of cutting the copper-clad plate body in succession, so, the utility model discloses the location effect of the continuous cutting machine that has location structure to the copper-clad plate that provides is better.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a copper-clad plate continuous cutting machine with location structure which characterized in that includes:

a work table;

the mounting rack is mounted on the workbench;

the cutter is arranged on the mounting rack in a lifting manner and is positioned above the workbench;

the first baffle is slidably mounted at one end of the workbench;

the second baffle is slidably mounted at the other end of the workbench and is parallel to the first baffle, and an installation space is formed between the first baffle and the second baffle and used for placing the copper-clad plate body;

the mounting groove has been seted up to the upper surface of workstation, the one end of lifter plate rotates to be installed one side of mounting groove.

2. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 1, further comprising:

drive actuating cylinder, install on the mounting bracket, the output that drives actuating cylinder sets up down, the cutter is installed drive actuating cylinder's output, it is used for the drive to drive actuating cylinder the cutter reciprocates in order to cut the copper-clad plate body.

3. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 1, further comprising:

the first sliding block is installed at the bottom end of the first baffle, a first sliding groove matched with the first sliding block is formed in the upper surface of the workbench, and the first sliding block is installed in the first sliding groove in a sliding mode;

the screw rod is rotatably installed in the first sliding groove, one end of the screw rod extends out of the first sliding groove, a threaded through hole is formed in one end of the first sliding block, and the first sliding block is in threaded connection with the screw rod.

4. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 1, further comprising:

the second sliding block is arranged at the bottom end of the second baffle;

the workbench is provided with a second sliding groove matched with the second sliding block, the second sliding block is inserted into the second sliding groove in a sliding mode, the fixed end of the first electric telescopic rod is installed on the side wall of the second sliding groove, and the telescopic end of the first electric telescopic rod is installed on one side of the second sliding block.

5. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 4, wherein a groove is formed on the worktable, the groove is located right below the cutter, and the groove is communicated with the mounting groove.

6. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 5, wherein an included angle α is formed between the groove bottom of the groove and the groove bottom of the mounting groove, and the included angle α is in a range of 30 ° to 90 °.

7. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 6, further comprising:

the lug is arranged at the movable end of the lifting plate;

the mounting box is mounted on one side, close to the lug, of the workbench;

the fixed end of the second electric telescopic rod is installed in the mounting box, and the protruding block is connected with the telescopic end of the second electric telescopic rod in a lap mode to drive the lifting plate to rotate.

8. The copper-clad plate continuous cutting machine with the positioning structure as claimed in claim 3, wherein a handle is fixedly installed at one end of the screw rod extending out of the first chute.

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