CN107471272B

CN107471272B - Automatic cutting machine for automobile label electroplating water gap

Info

Publication number: CN107471272B
Application number: CN201710866311.XA
Authority: CN
Inventors: 刘洪涛; 智理; 唐万军
Original assignee: Ningbo Gensen Auto Parts Inc
Current assignee: Ningbo Gensen Auto Parts Inc
Priority date: 2017-09-22
Filing date: 2017-09-22
Publication date: 2023-04-07
Anticipated expiration: 2037-09-22
Also published as: CN107471272A

Abstract

An automatic cutting machine for an automobile label electroplating water gap comprises a machine body, wherein a cutting device for cutting off the electroplating water gap of a label group to separate an electroplating pipeline from the label group and a positioning device for changing the placing order of labels are arranged on the machine body, and the cutting device and the positioning device are connected with a controller; the automatic cutting device can automatically complete the automatic cutting work of the tag electroplating water gap, so that the time-consuming and labor-consuming production process is automated, time-saving and labor-saving, the tag production cost is greatly reduced, the production efficiency is improved, and the automatic process of the manufacturing industry is promoted.

Description

Automatic cutting machine for automobile label electroplating nozzle

Technical Field

The invention relates to the field of automobile parts, in particular to an automatic cutting machine for an automobile label electroplating water gap.

Background

At present, the market competition of the automobile industry in China is more and more intense, and the labor cost and the material cost are higher and higher. The automobile placard has an appearance decoration function and an identification function, and thus is widely used in various types of automobiles. The production process of the automobile label mainly comprises the following steps: injection molding, turnover, electroplating, cutting an electroplating water gap, sticking an adhesive tape, pressing, sticking a protective film and packaging a finished product.

The existing automobile label assembly is completely manually operated, has more stations, needs too much manpower in the production process of products, and has the following defects:

(1) Multiple unnecessary turnover processes exist, which causes extra waste;

(2) In each process, the product is repeatedly taken and placed, so that the defects of scratching, brushing and the like of the product are easily caused, the defective rate is increased, and the production cost is increased;

(3) The whole process flow is completed by at least more than 2-3 persons, and the method has the advantages of more actions, low efficiency and high labor cost;

(4) The process is many, has increased turnover stock invisibly.

After the electroplating process, the automobile label is preliminarily formed, but the automobile label as a primary product is provided with an electroplating water gap; and the process of cutting off the electroplating water gap to separate the automobile label from the electroplating water gap is time-consuming and labor-consuming, and the problem of high labor cost can be solved by starting from the process.

Disclosure of Invention

In order to overcome the problems, the invention provides an automatic cutting machine for the automobile label electroplating water gap.

The technical scheme adopted by the invention is as follows:

an automatic cutting machine for an automobile label electroplating water gap comprises a machine body, wherein a cutting device for cutting off the electroplating water gap of a label group to separate an electroplating pipeline from the label group and a positioning device for changing the placing order of labels are arranged on the machine body, and the cutting device and the positioning device are connected with a controller;

the label group comprises a plurality of labels, the upper surface of each label is provided with an electroplating water gap, and each electroplating water gap is connected with an electroplating pipeline;

the machine body comprises a horizontally laid workbench, two straight lines which are vertically intersected in a plane where the upper surface of the workbench is located are defined as an x axis and a y axis respectively, and a straight line which is vertically intersected with both the x axis and the y axis is defined as a z axis; and the definition is along the z-axis direction for the up-down direction, along the y-axis direction for the front-back direction, along the x-axis direction for the left-right direction, then:

the working table is erected on the support, a fixing part for fixing the signboard groups is arranged on the upper surface of the working table, the fixing part comprises a plurality of fixed dies for fixing the signs in the signboard groups one by one, the fixed dies are arranged in a row along the x-axis direction, and the electroplating water gaps of the signs are exposed out of the corresponding fixed dies;

the cutting device comprises a punching part which can move back and forth along the y-axis direction to cut off the electroplating water gap and a pressing part which presses the label group from top to bottom and takes away the electroplating pipeline after the electroplating water gap is cut off;

the punching part comprises a strip-shaped cutter rest extending along the x-axis direction, the cutter rest is arranged behind the fixing part, a cutting knife is arranged in front of the cutter rest and corresponds to each electroplating water gap, the cutting knife extends to the electroplating water gaps along the y-axis direction, the cutting edges of the cutting knives are opposite to the electroplating water gaps one by one, and the heights of the cutting edges of the cutting knives along the z-axis direction are aligned with cutting lines of the electroplating water gaps one by one;

the two ends of the tool rest along the x-axis direction are slidably arranged on guide rails, the guide rails extend along the y-axis direction, and the guide rails are erected on a guide rail frame; the rear part of the tool rest is connected with an output shaft of a first air cylinder, and the output shaft of the first air cylinder extends along the y-axis direction;

the compaction part is arranged above the workbench and comprises a compaction strip extending along the x-axis direction, the bottom surface of the compaction strip along the z-axis direction is a compaction surface matched with the upper surface of the label group, the upper part of the compaction strip is connected with an output shaft of a second air cylinder, and the output shaft of the second air cylinder extends along the z-axis direction; the second air cylinder is fixed on a first driving device which can drive the second air cylinder to move along the y-axis direction; the fixed part is positioned on the motion trail of the compaction strip;

the compaction surface is provided with a pair of pliers capable of clamping the electroplating pipeline downwards, and the pliers are provided with a jaw with a downward opening; a delivery port penetrating along the z-axis direction is formed in the workbench, the delivery port is located behind the first air cylinder, and the delivery port is located right below the movement track of the pliers; the delivery port is aligned and communicated with a collecting box for containing an electroplating pipeline through a guide barrel, and the collecting box is positioned below the workbench;

the positioning device comprises positioning parts, the labels to be positioned in the label group are respectively provided with one positioning part, the positioning parts comprise fixing plates laid along the y-axis direction, and the fixing plates are parallel to the workbench; one end of the fixing plate is fixedly connected with the bottom surface of the corresponding fixed die, the other end of the fixing plate is fixedly connected with an output shaft of a third air cylinder, and the output shaft of the third air cylinder extends along the y-axis direction; the third cylinder is fixed on a second driving device which can drive the third cylinder to reciprocate between the position before transposition and the position after transposition along the x-axis direction;

the first cylinder, the second cylinder, the third cylinder, the first driving device and the second driving device are all connected with the controller.

The fixed mould is a fixed groove used for clamping the label, and the shape of the fixed groove is matched with the shape of the cross section of the label to be fixed.

The second cylinder is arranged on the guide rail frames positioned on two sides through the mounting plate fixing frame.

The first driving device is positioned above the workbench and comprises a first bottom plate fixed on the machine body, the first bottom plate is vertical to the workbench, a plurality of first guide rails are erected on the first bottom plate side by side and extend to the upper part of the fixing part along the y-axis direction; the first driving device further comprises a first driving cylinder capable of actively sliding in a reciprocating mode along the first guide rail, the second cylinder is fixed on the first driving cylinder, and the first driving cylinder is connected with the controller.

The second driving device comprises a plurality of second guide rails which are erected on the upper surface of the workbench side by side, and the second guide rails extend along the x-axis direction; the second driving device further comprises a second driving cylinder capable of actively sliding in a reciprocating mode along the second guide rail, the third cylinder is fixed to the second driving cylinder, and the second driving cylinder is connected with the controller.

The knife edge is a slope.

The positioning device further comprises a displacement part, the displacement part is arranged on one side of the label group along the x-axis direction, the displacement part comprises a fourth air cylinder, an output shaft of the fourth air cylinder is fixedly connected with the bottom of the fixed mold needing to be displaced through a connecting plate, and the output shaft of the fourth air cylinder extends along the x-axis direction.

The bottom of the support is provided with a roller convenient for the machine body to move.

The beneficial effects of the invention are: the automatic cutting device can automatically complete the automatic cutting work of the tag electroplating water gap, so that the time-consuming and labor-consuming production process is automated, time-saving and labor-saving, the tag production cost is greatly reduced, the production efficiency is improved, and the automatic process of the manufacturing industry is promoted.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a partial front view of the present invention;

FIG. 3 is a partial side view of the present invention;

FIG. 4 is a second overall structural schematic of the present invention;

FIG. 5 is a schematic view of the combination of the stent, tag, plating line and cutting blade;

FIG. 6 is a schematic view of the position of the index plate L and the index plate V before the index position;

fig. 7 is a schematic diagram of the position of the index plate L and index plate V after the index.

Detailed Description

The invention will be further described with reference to specific examples, but the scope of protection of the invention is not limited thereto:

referring to the attached drawings, the automatic cutting machine for the electroplating water gap of the automobile label comprises a machine body, wherein a cutting device for cutting off the electroplating water gap of a label group to separate an electroplating pipeline 302 from the label group and a positioning device for changing the placing order of the label 301 are arranged on the machine body, and the cutting device and the positioning device are connected with a controller;

the label group comprises a plurality of labels 301, the upper surface of each label 301 is provided with an electroplating water gap, and each electroplating water gap is connected with an electroplating pipeline 302;

the machine body comprises a horizontally laid workbench 101, two straight lines which are randomly and vertically intersected in a plane where the upper surface of the workbench 101 is located are defined as an x axis and a y axis respectively (in the embodiment, the workbench 101 is rectangular, the length direction of the workbench 101 is defined as the x axis, the width direction of the workbench 101 is defined as the x axis), and a straight line which is vertically intersected with both the x axis and the y axis is a z axis (namely the height direction of the machine body); and the definition is along the z-axis direction for the up-down direction, along the y-axis direction for the front-back direction, along the x-axis direction for the left-right direction, then:

the workbench 101 is erected on a support 102 (in this embodiment, the support is a rod-shaped table leg of the workbench 101, four corners of the workbench 102 are respectively provided with one table leg to support the workbench 102), a fixing part 200 for fixing the signboard group is arranged on the upper surface of the workbench 101, the fixing part 200 comprises a plurality of fixing moulds 201 for fixing the signs 301 in the signboard group one by one, the fixing moulds 201 are arranged in a row along the x-axis direction, and the electroplating water gaps of the signs 301 are exposed out of the corresponding fixing moulds 201, so that the electroplating water gaps are cut off by the punching part;

the cutting device comprises a punching part which can move back and forth along the y-axis direction to cut off the electroplating water gap and a pressing part which presses the label group from top to bottom and takes away the electroplating pipeline 302 after the electroplating water gap is cut off; the pressing part presses the label group, so that the label group is prevented from moving in the punching process.

The punching part comprises a strip-shaped cutter rest 401 extending along the x-axis direction, the cutter rest 401 is arranged behind the fixing part 200, a cutting knife 402 is arranged in front of the cutter rest 401 corresponding to each electroplating water gap, the cutting knife 402 extends to the electroplating water gaps along the y-axis direction, the edges of the cutting knives 402 are directly opposite to the electroplating water gaps one by one, the heights of the edges of the cutting knives along the z-axis direction are aligned with cutting lines of the electroplating water gaps one by one, and the electroplating water gaps are cut off when the cutting knives move along the y-axis direction;

the two ends of the tool rest 401 along the x-axis direction are slidably arranged on a guide rail 405, the guide rail 405 extends along the y-axis direction, and the guide rail 405 is erected on a guide rail bracket 404; the rear part of the tool rest 401 is connected with an output shaft of a first air cylinder 403 which drives the tool rest 401 to slide along a guide rail 405, and the output shaft of the first air cylinder 403 extends along the y-axis direction; grooves are formed in the left side and the right side of the guide rail 405, the grooves extend along the y-axis direction, convex edges matched with the grooves are arranged at the two ends of the tool rest 401, and the convex edges are clamped in the grooves and can slide along the grooves;

the compaction part is arranged above the workbench 101 and comprises a compaction strip 501 extending along the x-axis direction, the bottom surface of the compaction strip 501 along the z-axis direction is a compaction surface matched with the upper surface of the label group, the compaction surface is a rubber pad, the upper part of the compaction strip 501 is connected with an output shaft of a second air cylinder 503, and the output shaft of the second air cylinder 503 extends along the z-axis direction; the second cylinder 503 is fixed on a first driving device which can drive the second cylinder 503 to move along the y-axis direction; the fixed part 200 is positioned on the motion track of the compaction strip 501;

the compaction surface is provided with a pair of pliers 502 capable of clamping the electroplating pipeline 302 downwards, and the pliers 502 is provided with a jaw with a downward opening; a delivery port 801 which penetrates along the z-axis direction is formed in the workbench 101, the delivery port 801 is located behind the first air cylinder 403, and the delivery port 801 is located right below the movement track of the pliers 502; the delivery port 801 is aligned with and communicated with a collection box for receiving the electroplating pipeline 302 through a guide barrel 802, and the collection box is positioned below the workbench 101;

the positioning device comprises positioning parts, the labels 301 to be positioned in the label group are respectively provided with one positioning part, the positioning parts comprise fixing plates 601 laid along the y-axis direction, and the fixing plates 601 are parallel to the workbench 101; one end of the fixing plate 601 is fixedly connected with the bottom surface of the corresponding fixing die 201, the other end of the fixing plate 601 is fixedly connected with an output shaft of a third air cylinder 602, and the output shaft of the third air cylinder 602 extends along the y-axis direction; the third cylinder 602 is fixed on a second driving device which can drive the third cylinder 602 to reciprocate between a position before transposition and a position after transposition along the x-axis direction;

the first cylinder 403, the second cylinder 503, the third cylinder 602, the first driving device and the second driving device are all connected with a controller.

The fixed mould 201 is a fixed groove for clamping the label, the shape of the fixed groove is matched with the cross section shape of the label 301 to be fixed so as to clamp the label 301, and the periphery of the groove is slightly larger than the corresponding label 301 so as to be convenient for taking out the label 301.

The second cylinder 503 is fixed on the rail brackets 404 at two sides by a mounting plate.

The first driving device is located above the workbench 101, and the first driving device includes a first bottom plate 506 fixed on the body, the first bottom plate 506 is perpendicular to the workbench 101, a plurality of (3 in this embodiment) first guide rails 505 are erected on the first bottom plate 506 side by side, and the first guide rails 505 all extend to above the fixing portion 200 along the y-axis direction; the first driving device further comprises a first driving cylinder 504 capable of actively sliding back and forth along the first guide rail 505, the second cylinder 503 is fixed on the first driving cylinder 504, and the first driving cylinder 504 is connected with the controller. The first driving means is a commercially available product, and is driven by a first driving cylinder 504 to reciprocate along a first guide rail 505.

The second driving device comprises a plurality of second guide rails 603 erected on the upper surface of the workbench 101 side by side, and the second guide rails 603 extend along the x-axis direction; the second driving device further comprises a second driving cylinder capable of actively sliding back and forth along the second guide rail 603, the third cylinder 602 is fixed on the second driving cylinder, and the second driving cylinder is connected with the controller. The second driving means is a commercially available product, and is driven by a second driving cylinder to reciprocate along the second guide rail 603.

The knife edge is a slope.

The positioning device further comprises a displacement part, the displacement part is arranged on one side of the label group along the x-axis direction, the displacement part comprises a fourth air cylinder 701, an output shaft of the fourth air cylinder 701 is fixedly connected with the bottom of the fixed mold 201 needing to be displaced through a connecting plate 702, and the output shaft of the fourth air cylinder 701 extends along the x-axis direction; the fourth cylinder 701 is connected with the controller.

The controller drives the fourth cylinder 701 to drive the respective fixed mold 201 to be removed to move towards two sides so as to adjust the clearance between the fixed mold 201 and other fixed molds 201. In the present embodiment, the two fixed dies 201 on the left side in fig. 1 need to be moved leftward, so the moving portion is disposed on the left side of the fixed portion.

The bottom of the bracket 102 is provided with a roller 103 which is convenient for the movement of the body.

An operation table 901 is arranged in front of the operation table 901 facing the operation, and a switch 902 for driving the controller to act is arranged on the operation table 901.

The application process of the invention is as follows:

step 1, positioning a label:

the tags 301 preliminarily molded after the plating are placed on the corresponding fixed molds 201, respectively, and the accurate positioning of the tags 301 is ensured.

And 2, step: prepressing of

Starting a first driving device and a second air cylinder 503, adjusting the compacted part to move above the label 301 and press the label 301, and the jaw of the pliers 502 is just clamped on the electroplating pipeline 302; the compacted surface is a rubber pad, which can play a role of buffering to ensure that the label 301 is not damaged.

And step 3: die cutting

Starting the first air cylinder 403, driving the tool rest 401 to move towards the label 301 by the first air cylinder 403, rapidly punching the electroplating water gap by the tool bit, cutting off the electroplating water gap, and separating the label 301 from the electroplating pipeline 301 and the electroplating water gap;

and 4, step 4: take away electroplating pipeline

Start first drive arrangement and second cylinder and drive the removal of compacted part and remove to the delivery port top, when pliers 502 cliied the electroplating line and transported to the delivery port top, close first drive arrangement and second cylinder 503, in the twinkling of an eye that first drive arrangement and second cylinder 503 are closed, under the inertia effect, pliers 502 received vibrations, electroplating line 302 breaks away from with pliers 502, and electroplating line 302 falls into in the collecting box.

And 5: automatic transposition

A third air cylinder 602 of any two labels needing transposition is synchronously started, the third air cylinder 602 drives the fixed mould 201 to carry the labels to move along the y-axis direction, and the operation is stopped when the fixed mould 201 moves to a preset position (the x-axis position of the opposite original position);

then synchronously starting second driving cylinders of the two labels, wherein the second driving cylinders drive the fixed mold 201 to move to a preset position (a y-axis position of the other original position) along the x-axis direction;

finally, synchronously starting the third air cylinders 602 of the two labels, and moving the labels 301 to the opposite position along the y-axis direction in the fixed die; the two signs 301 perform the position interchange.

Step 6: manual double-sided adhesive tape

The label 301 in the fixed mold is manually pasted with double-sided adhesive tape, the label 301 is taken out after the operation is finished, and the invention automatically returns to prepare for the next operation.

In this embodiment, there are five letter signs having HAVAL in sequence from left to right, in which the sign H, the sign A are simultaneously moved by 10mm to the left by the displacement section, and the sign V and the sign L in the VAL are interchanged, as shown in FIGS. 6 and 7.

The embodiments described in this specification are merely illustrative of implementation forms of the inventive concept, and the scope of the present invention should not be considered limited to the specific forms set forth in the embodiments, but also equivalent technical means that can be conceived by one skilled in the art based on the inventive concept.

Claims

1. The utility model provides an automatic buster at mouth of a river is electroplated to car sign which characterized in that: the automatic cutting machine comprises a machine body, wherein an electroplating water gap for cutting off a label group is arranged on the machine body, so that an electroplating pipeline is separated from the label group, and a positioning device for changing the placing order of labels is arranged on the machine body, and the cutting device and the positioning device are both connected with a controller;

the machine body comprises a horizontally laid workbench, two straight lines which are vertically intersected in a plane where the upper surface of the workbench is located are defined as an x axis and a y axis respectively, and a straight line which is vertically intersected with both the x axis and the y axis is defined as a z axis; and the definition is up and down along the z-axis direction, front and back along the y-axis direction, and left and right along the x-axis direction, then:

the compaction surface is provided with a pair of pliers capable of clamping an electroplating pipeline downwards, and the pliers are provided with a jaw with a downward opening; a delivery port which penetrates through the workbench along the z-axis direction is formed in the workbench, the delivery port is positioned behind the first air cylinder, and the delivery port is positioned right below the movement track of the pliers; the delivery port is aligned to and communicated with a collecting box for containing an electroplating pipeline through a guide barrel, and the collecting box is positioned below the workbench;

the positioning device comprises positioning parts, the labels to be positioned in the label group are respectively provided with one positioning part, the positioning parts comprise fixed plates laid along the y-axis direction, and the fixed plates are parallel to the workbench; one end of the fixing plate is fixedly connected with the bottom surface of the corresponding fixed die, the other end of the fixing plate is fixedly connected with an output shaft of a third air cylinder, and the output shaft of the third air cylinder extends along the y-axis direction; the third cylinder is fixed on a second driving device which can drive the third cylinder to reciprocate between the position before transposition and the position after transposition along the x-axis direction;

the first cylinder, the second cylinder, the third cylinder, the first driving device and the second driving device are all connected with a controller.

2. The automatic cutting machine for the plating nozzle of the automobile sign according to claim 1, characterized in that: the fixed mould is a fixed groove used for clamping the label, and the shape of the fixed groove is matched with the shape of the cross section of the label to be fixed.

3. The automatic cutting machine for the plating nozzle of the automobile logo according to claim 2, wherein: the second cylinder is arranged on the guide rail frames positioned on the two sides through the mounting plate fixing frame.

4. The automatic cutting machine for the plating nozzle of the automobile sign according to claim 3, characterized in that: the first driving device is positioned above the workbench and comprises a first bottom plate fixed on the machine body, the first bottom plate is vertical to the workbench, a plurality of first guide rails are erected on the first bottom plate side by side and extend to the upper part of the fixing part along the y-axis direction; the first driving device further comprises a first driving cylinder capable of actively sliding in a reciprocating mode along the first guide rail, the second cylinder is fixed on the first driving cylinder, and the first driving cylinder is connected with the controller.

5. The automatic cutting machine for the plating nozzle of the automobile sign as claimed in claim 4, wherein: the second driving device comprises a plurality of second guide rails which are erected on the upper surface of the workbench side by side, and the second guide rails extend along the x-axis direction; the second driving device further comprises a second driving cylinder capable of actively sliding in a reciprocating mode along the second guide rail, the third cylinder is fixed on the second driving cylinder, and the second driving cylinder is connected with the controller.

6. The automatic cutting machine for the plating nozzle of the automobile sign as claimed in claim 5, wherein: the knife edge is a slope.

7. The automatic cutting machine for the plating nozzle of the automobile sign as claimed in claim 6, wherein: the positioning device further comprises a displacement part, the displacement part is arranged on one side of the label group along the x-axis direction, the displacement part comprises a fourth air cylinder, an output shaft of the fourth air cylinder is fixedly connected with the bottom of the fixed mold needing to be displaced through a connecting plate, and the output shaft of the fourth air cylinder extends along the x-axis direction.

8. The automatic cutting machine for the plating nozzle of the automobile sign as claimed in claim 7, wherein: the bottom of the support is provided with a roller convenient for the machine body to move.