CN114309979A - Full-automatic efficient cup bottom laser cutting production line and cutting processing method - Google Patents

Abstract

The invention discloses a full-automatic efficient cup bottom laser cutting production line and a cutting processing method, wherein the full-automatic efficient cup bottom laser cutting production line comprises a feeding conveying line and a discharging conveying line which are positioned in the same conveying direction, a rotary bottom die unit arranged between the feeding conveying line and the discharging conveying line, a horizontal transfer unit positioned above the rotary bottom die unit, a feeding adsorption module arranged at the movable end of the horizontal transfer unit, a follow-up pressing module and a discharging adsorption module, a waste discharge unit for ejecting waste materials out of the rotary bottom die unit and discharging the waste materials, and a laser cutting module aligned with the rotary bottom die unit; the feeding adsorption module and the discharging adsorption module are symmetrically arranged on the left side and the right side of the follow-up compression module. The automatic feeding device realizes a series of automatic operations of automatic feeding, automatic discharging, automatic waste discharging and the like of products, and greatly improves the production efficiency.

Description

Full-automatic efficient cup bottom laser cutting production line and cutting processing method

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of laser cutting equipment, and particularly relates to a full-automatic efficient cup bottom laser cutting production line and a cutting processing method.

[ background of the invention ]

At present, stainless steel vacuum cups are required to be subjected to vacuum pumping treatment after being welded with a cup bottom in the production process, but the cup body is welded with the cup bottom, the requirements on the flatness and the smoothness of a welding position are high, otherwise, the welding quality is influenced after welding, the problem of invisible air leakage can occur after vacuum pumping, the vacuum cup cannot be used for a long time, the phenomenon of no heat preservation can occur, and particularly, the requirements on cutting and leveling of the cup bottom are strict when the unqualified vacuum cup is repaired.

Patent number is CN201921580831.5 discloses a flat base laser cutting machine of double-end flat mouth among the prior art, and the material loading and the unloading of cup bottom all adopt manual operation, and the waste material behind the flat base of cup can't discharge automatically, need the manual work to get rid of it from the die block then throw into the waste material box, and operating efficiency is low.

Therefore, there is a need to provide a new full-automatic efficient cup bottom laser cutting production line and a cutting processing method to solve the above problems.

[ summary of the invention ]

One of the main purposes of the invention is to provide a full-automatic efficient cup bottom laser cutting production line, which realizes a series of automatic operations of automatic feeding, automatic discharging, automatic waste discharging and the like of products and greatly improves the production efficiency.

The invention realizes the purpose through the following technical scheme: a full-automatic efficient cup bottom laser cutting production line comprises a feeding conveying line and a discharging conveying line which are located in the same conveying direction, a rotary bottom die unit arranged between the feeding conveying line and the discharging conveying line, a horizontal transfer unit located above the rotary bottom die unit, a feeding adsorption module arranged at the movable end of the horizontal transfer unit, a follow-up pressing module and a discharging adsorption module, a waste discharging unit discharging waste materials after being ejected out of the rotary bottom die unit, and a laser cutting module aligned with the rotary bottom die unit; the feeding adsorption module and the discharging adsorption module are symmetrically arranged on the left side and the right side of the follow-up compression module.

Furthermore, the tail end of the feeding conveying line is provided with a positioning unit for positioning the product and a sensor for sensing whether the product is in place; the laser cutting module comprises a third motor, a fourth supporting plate driven by the third motor to move up and down, a fourth motor fixed on the fourth supporting plate, and a laser cutting head driven by the fourth motor to move back and forth.

Furthermore, the positioning unit comprises a first air cylinder and a positioning plate which is driven by the first air cylinder to move left and right, and a pair of limiting baffles for limiting the front and rear positions of the cup bottom main body are arranged on the surface of one side, facing the product supplied materials, of the positioning plate.

Furthermore, the rotary bottom die unit comprises a first motor and a bottom die holder driven by the first motor to perform rotary motion.

Further, the unit of wasting discharge includes the second cylinder, receives the second cylinder drive carries out the first backup pad of up-and-down motion, fixes third cylinder in the first backup pad, receives the waste discharge push pedal of seesaw is carried out in the third cylinder drive, offer the confession on the first backup pad the hole of dodging that the die block passed, the bottom of cup product is placed on the die block in the vertical direction during on with first backup pad has annular overlap portion.

Furthermore, the follow-up compressing module comprises a fifth cylinder, a third supporting plate driven by the fifth cylinder to move up and down, a telescopic rod moving up and down on the third supporting plate, a compression spring sleeved on the telescopic rod and used for supporting the telescopic rod downwards, and a compressing head rotatably arranged at the bottom of the telescopic rod.

Furthermore, an enclosing baffle plate for enclosing the cutting space is arranged on the lower surface of the third supporting plate, a dust suction port is formed in the enclosing baffle plate, and the dust suction port is communicated with a dust suction device; the compressing head is positioned in a space formed by the surrounding baffle plate.

The invention also aims to provide a full-automatic high-efficiency cup bottom laser cutting processing method, which comprises the following steps:

1) the method comprises the following steps that an opening of a cup bottom faces downwards, automatic feeding and conveying are carried out through a feeding conveying line, and a positioning unit is arranged at the tail end of the feeding conveying line to accurately position the cup bottom;

2) a feeding adsorption module is used for carrying the positioned cup bottom from the feeding conveying line to a bottom die holder in a bottom die unit in a rotating mode, and the cup bottom is accurately positioned on the bottom die holder through an inverse buckle;

3) the cup bottom is pressed downwards at the top of the cup bottom through an elastic floating pressing head in a follow-up pressing module, the bottom die base is driven to drive the cup bottom to rotate, and the pressing head is rotatably arranged on an upper telescopic rod and a lower telescopic rod in the follow-up pressing module to realize synchronous rotation with the bottom die base;

4) starting the laser cutting head, and completing the cutting of the cup bottom by rotating the cup bottom for one circle; an enclosing baffle is arranged on the periphery of the pressing head to enclose the cutting space, and air suction and dust collection are carried out on the cutting process through a dust suction device communicated with a dust suction port on the enclosing baffle;

5) after cutting, the pressing head is withdrawn upwards, and then a cut cup bottom is taken out of the bottom die base by using a blanking adsorption module and placed on a blanking conveying line;

6) the cut waste materials are still remained and sleeved on the bottom die base, the waste materials are upwards ejected out of the bottom die base and supported through the upward movement of a first supporting plate, and then the waste materials are outwards ejected out of the first supporting plate through a waste discharging push plate, so that the automatic waste discharging is realized.

Further, in the step 2) and the step 5), the material taking action of the loading adsorption module on the loading conveying line and the material taking action of the blanking adsorption module on the bottom die base are performed synchronously; the discharging action of the feeding adsorption module on the bottom die base and the discharging action of the discharging adsorption module on the discharging conveying line are synchronously carried out.

Further, the feeding adsorption module, the discharging adsorption module and the follow-up pressing module are arranged on a horizontal transfer unit together, the feeding adsorption module and the discharging adsorption module are symmetrically arranged on two sides of the follow-up pressing module, and the feeding adsorption module and the discharging adsorption module stop when moving back synchronously after finishing the discharging action when the follow-up pressing module moves right above the base seat, and then the step 3) to the step 4) are executed.

Compared with the prior art, the full-automatic efficient cup bottom laser cutting production line and the cutting processing method have the beneficial effects that: the automatic feeding and the automatic discharging of the cup bottom products are realized by arranging the feeding adsorption module and the discharging adsorption module and arranging the corresponding feeding conveying line and the corresponding discharging conveying line in a matched manner; the loading adsorption module and the unloading adsorption module are arranged on the same horizontal transfer unit, so that synchronous action of loading and unloading is realized, and time is saved; a follow-up pressing module is arranged on a movable plate of the horizontal transfer unit, a telescopic rod which floats up and down is arranged in the follow-up pressing module, a pressing head is rotatably arranged at the tail end of the telescopic rod, a cup bottom product on the rotary bottom die holder is pressed downwards, the position stability and the rotation coaxiality of the cup bottom product are guaranteed, and the precision of a cutting surface is guaranteed; after cutting, the waste on the bottom die base is ejected upwards by utilizing the supporting plate, and the waste is pushed out from the supporting plate through the waste discharge push plate to realize automatic waste discharge, so that the integral cutting efficiency and the automation degree of cutting processing of the cup bottom product are greatly improved; still be provided with in the follow-up compresses tightly the module and encloses the fender that the fender got up with the cutting space, sets up the dust absorption mouth on enclosing the fender, carries out automatic convulsions dust absorption at the cutting in-process, ensures good operational environment.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a feeding conveyor line according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a rotary bottom die unit and a waste discharge unit according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a portion of an embodiment of the present invention;

FIG. 5 is a schematic diagram of a front view of a servo pressing module according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a laser cutting module according to an embodiment of the present disclosure;

the figures in the drawings represent:

100-full-automatic efficient cup bottom laser cutting production line; 200-a cup bottom product;

1-a feeding conveying line; 2-blanking conveying line;

3-rotating bottom die unit, 31-first motor, 32-bottom die holder;

4-horizontal transfer unit, 41-second motor, 42-second support plate;

5-a feeding adsorption module, 51-a fourth cylinder and 52-a suction nozzle;

6-follow-up pressing module, 61-fifth cylinder, 62-third support plate, 63-telescopic rod, 64-compression spring, 65-pressing head, 66-baffle and 67-dust suction port;

7-a blanking adsorption module;

8-waste discharge unit, 81-second cylinder, 82-first support plate, 83-third cylinder, 84-waste discharge push plate, 85-avoidance hole and 86-avoidance opening;

9-a laser cutting module, 91-a third motor, 92-a fourth supporting plate, 93-a fourth motor and 94-a laser cutting head;

10-a positioning unit, 101-a first cylinder, 102-a positioning plate and 103-a limiting baffle; 11-a sensor; 12-waste discharge.

[ detailed description ] embodiments

The first embodiment is as follows:

referring to fig. 1 to 6, the embodiment is a full-automatic high-efficiency cup bottom laser cutting production line 100, which includes a feeding conveyor line 1 and a discharging conveyor line 2 located in the same conveying direction, a rotating bottom die unit 3 disposed between the feeding conveyor line 1 and the discharging conveyor line 2, a horizontal transfer unit 4 located above the rotating bottom die unit 3, a feeding adsorption module 5 disposed at the movable end of the horizontal transfer unit 4, a follow-up pressing module 6 and a discharging adsorption module 7, a waste discharge unit 8 discharging waste materials ejected from the rotating bottom die unit 3, and a laser cutting module 9 aligned with the rotating bottom die unit 3.

The feeding adsorption module 5 and the discharging adsorption module 7 are symmetrically arranged on the left side and the right side of the follow-up pressing module 6, so that the feeding and discharging actions can be synchronously realized.

The tail end of the feeding conveying line 1 is provided with a positioning unit 10 for positioning the product, and the tail end of the feeding conveying line 1 is also provided with a sensor 11 for sensing whether the product is in place. In this embodiment, the positioning unit 10 includes a first cylinder 101 and a positioning plate 102 driven by the first cylinder 101 to move left and right, and a pair of limiting baffles 103 for limiting the front and rear positions of the cup bottom main body are disposed on the surface of one side of the positioning plate 102 facing the incoming product. In other embodiments, the positioning unit 10 may also adopt a V-shaped baffle structure to realize positioning and blocking of the product. Because the cup bottom in the embodiment is provided with a circle of ring planes which are horizontally outwards turned at the opening, when the V-shaped baffle is adopted, the whole product is positioned by limiting the ring plane part, and when the front and rear limiting baffles 103 are adopted, the whole product is positioned by positioning the cylindrical part of the cup bottom main body, so that the positioning effect is more accurate; after the positioning is completed, the positioning plate 102 is retracted to avoid the position so as to block the rising of the annular plane part.

The rotary bottom die unit 3 includes a first motor 31 and a bottom die base 32 driven by the first motor 31 to perform a rotary motion, and the cup bottom is positioned on the bottom die base 32 by being reversely buckled.

The waste discharge unit 8 comprises a second cylinder 81, a first support plate 82 driven by the second cylinder 81 to move up and down, a third cylinder 83 fixed on the first support plate 82, and a waste discharge push plate 84 driven by the third cylinder 83 to move back and forth, wherein a avoiding hole 85 for the bottom die holder 32 to pass through is formed in the first support plate 82, and a cup bottom product has an annular overlapping part with the first support plate 82 in the vertical direction when placed on the bottom die holder 32, so that the cut waste can be ejected out of the bottom die holder 32 through the ascending movement of the first support plate 82, and then is ejected out through the waste discharge push plate 84, thereby realizing automatic waste discharge.

The laser cutting module 9 is arranged at the rear side of the waste discharge unit 8, and an avoidance opening 86 for laser to pass through is arranged on the waste discharge push plate 84.

In the present embodiment, a waste discharge port 12 for receiving waste discharged from the waste discharge unit 8 is provided on the front side of the rotary die unit 3, and a waste material box (not shown) is provided below the waste discharge port 12.

The horizontal transfer unit 4 comprises a second motor 41 and a second support plate 42 which is driven by the second motor 41 to move left and right, and the feeding adsorption module 5, the follow-up pressing module 6 and the discharging adsorption module 7 are all arranged on the second support plate 42.

The loading adsorption module 5 and the unloading adsorption module 7 have the same structure and comprise a fourth cylinder 51 fixed on the second support plate 42 and a suction nozzle 52 driven by the fourth cylinder 51 to move up and down.

The follow-up pressing module 6 comprises a fifth cylinder 61 fixed on the second support plate 42, a third support plate 62 driven by the fifth cylinder 61 to move up and down, an expansion rod 63 moving up and down on the third support plate 62, a compression spring 64 sleeved on the expansion rod 63 and supporting the expansion rod 63 downwards, and a pressing head 65 rotatably arranged at the bottom of the expansion rod 63. The compression head 65 is rotatably arranged on the telescopic rod 63 through a bearing.

In order to ensure that cutting scraps cannot splash everywhere in the cutting process and ensure the field operation environment, the lower surface of the third supporting plate 63 is provided with an enclosing baffle plate 66 which encloses and blocks the cutting space, the enclosing baffle plate 66 is provided with a dust suction port 67, and the dust suction port 67 is communicated with a dust suction device. The hold down head 65 is located in the space surrounded by the apron 66.

The laser cutting module 9 includes a third motor 91, a fourth support plate 92 driven by the third motor 91 to move up and down, a fourth motor 93 fixed on the fourth support plate 92, and a laser cutting head 94 driven by the fourth motor 93 to move back and forth.

The embodiment also provides a full-automatic efficient cup bottom laser and cutting processing method, which comprises the following steps:

1) the opening of the cup bottom faces downwards, automatic feeding and conveying are carried out through a feeding conveying line 1, and a positioning unit 10 is arranged at the tail end of the feeding conveying line 1 to accurately position the cup bottom;

2) a feeding adsorption module 5 is used for transporting the positioned cup bottom from a feeding conveying line 1 to a bottom die base 32 in a bottom die unit 3 in a rotating mode, and the cup bottom is accurately positioned on the bottom die base 32 through reverse buckling;

3) the cup bottom is pressed downwards at the top of the cup bottom through an elastic floating pressing head 65 in a follow-up pressing module 6, the bottom die holder 32 is driven to drive the cup bottom to rotate, and the pressing head 65 is rotatably arranged on an upper telescopic rod 63 and a lower telescopic rod 63 in the follow-up pressing module 6 to realize synchronous rotation with the bottom die holder 32;

4) starting the laser cutting head 94, and completing cup bottom cutting along with one circle of cup bottom rotation; an enclosing baffle plate 66 is arranged at the periphery of the pressing head 65 to enclose the cutting space, and the dust suction device communicated with a dust suction port 67 on the enclosing baffle plate 66 performs air draft dust suction on the cutting process;

5) after cutting, the pressing head 65 is withdrawn upwards, and then the cut cup bottom is taken out from the bottom die base 32 by using a blanking adsorption module 7 and placed on a blanking conveying line 2;

6) the cut waste material is still remained and sleeved on the base 32, the waste material is pushed out of the base 32 and supported by the upward movement of a first supporting plate 82, and then the waste material is pushed out of the first supporting plate 82 by a waste discharging push plate 84, so that automatic waste discharging is realized.

In the step 2) and the step 5), the material taking action of the loading adsorption module 5 on the loading conveyor line 1 and the material taking action of the unloading adsorption module 7 on the bottom die base 32 are performed synchronously; the discharging action of the feeding adsorption module 5 on the bottom die base 32 and the discharging action of the discharging adsorption module 7 on the discharging conveying line 2 are synchronously performed.

The feeding adsorption module 5, the discharging adsorption module 7 and the follow-up pressing module 6 are arranged on a horizontal transfer unit 4 together, the feeding adsorption module 5 and the discharging adsorption module 7 are symmetrically arranged on two sides of the follow-up pressing module 6, the feeding adsorption module 5 and the discharging adsorption module 7 are stopped when the follow-up pressing module 6 moves right above the bottom die seat 32 in the process of synchronously moving back after the discharging action is completed, and the steps 3-4) are executed again.

According to the full-automatic efficient cup bottom laser cutting production line and the cutting processing method, the automatic feeding and the automatic discharging of cup bottom products are realized by arranging the feeding adsorption module and the discharging adsorption module and arranging the corresponding feeding conveying line and the corresponding discharging conveying line in a matched manner; the loading adsorption module and the unloading adsorption module are arranged on the same horizontal transfer unit, so that synchronous action of loading and unloading is realized, and time is saved; a follow-up pressing module is arranged on a movable plate of the horizontal transfer unit, a telescopic rod which floats up and down is arranged in the follow-up pressing module, a pressing head is rotatably arranged at the tail end of the telescopic rod, a cup bottom product on the rotary bottom die holder is pressed downwards, the position stability and the rotation coaxiality of the cup bottom product are guaranteed, and the precision of a cutting surface is guaranteed; after cutting, the waste on the bottom die base is ejected upwards by utilizing the supporting plate, and the waste is pushed out from the supporting plate through the waste discharge push plate to realize automatic waste discharge, so that the integral cutting efficiency and the automation degree of cutting processing of the cup bottom product are greatly improved; still be provided with in the follow-up compresses tightly the module and encloses the fender that the fender got up with the cutting space, sets up the dust absorption mouth on enclosing the fender, carries out automatic convulsions dust absorption at the cutting in-process, ensures good operational environment.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims (10)

1. A full-automatic high-efficiency cup bottom laser cutting production line and a cutting processing method are characterized in that: the device comprises a feeding conveying line and a discharging conveying line which are positioned in the same conveying direction, a rotary bottom die unit arranged between the feeding conveying line and the discharging conveying line, a horizontal transfer unit positioned above the rotary bottom die unit, a feeding adsorption module arranged at the movable end of the horizontal transfer unit, a follow-up pressing module and a discharging adsorption module, a waste discharge unit which ejects waste materials out of the rotary bottom die unit and discharges the waste materials, and a laser cutting module which is aligned with the rotary bottom die unit; the feeding adsorption module and the discharging adsorption module are symmetrically arranged on the left side and the right side of the follow-up compression module.

2. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 1, wherein: the tail end of the feeding conveying line is provided with a positioning unit for positioning the product and a sensor for sensing whether the product is in place; the laser cutting module comprises a third motor, a fourth supporting plate driven by the third motor to move up and down, a fourth motor fixed on the fourth supporting plate, and a laser cutting head driven by the fourth motor to move back and forth.

3. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 2, wherein: the positioning unit comprises a first air cylinder and a positioning plate which is driven by the first air cylinder to move left and right, and a pair of limiting baffles for limiting the front position and the rear position of the cup bottom main body are arranged on the surface of one side, facing the product supplied materials, of the positioning plate.

4. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 1, wherein: the rotary bottom die unit comprises a first motor and a bottom die base driven by the first motor to perform rotary motion.

5. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 4, wherein: the waste discharge unit comprises a second cylinder, a first supporting plate driven by the second cylinder to move up and down, a third cylinder and a waste discharge push plate driven by the third cylinder to move back and forth, wherein the first supporting plate is provided with a hole for the bottom die holder to pass through, and a cup bottom product is placed on the bottom die holder in the vertical direction and has an annular overlapping part with the first supporting plate.

6. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 1, wherein: the follow-up compressing module comprises a fifth cylinder, a third supporting plate driven by the fifth cylinder to move up and down, a telescopic rod moving up and down on the third supporting plate, a compression spring sleeved on the telescopic rod and used for supporting the telescopic rod downwards, and a compressing head rotatably arranged at the bottom of the telescopic rod.

7. The full-automatic high-efficiency cup bottom laser cutting production line as claimed in claim 6, wherein: an enclosing baffle plate for enclosing the cutting space is arranged on the lower surface of the third supporting plate, a dust suction port is formed in the enclosing baffle plate, and the dust suction port is communicated with a dust suction device; the compressing head is positioned in a space formed by the surrounding baffle plate.

8. A full-automatic high-efficiency cup bottom laser cutting processing method comprises the following steps:

1) the method comprises the following steps that an opening of a cup bottom faces downwards, automatic feeding and conveying are carried out through a feeding conveying line, and a positioning unit is arranged at the tail end of the feeding conveying line to accurately position the cup bottom;

2) a feeding adsorption module is used for carrying the positioned cup bottom from the feeding conveying line to a bottom die holder in a bottom die unit in a rotating mode, and the cup bottom is accurately positioned on the bottom die holder through an inverse buckle;

3) the cup bottom is pressed downwards at the top of the cup bottom through an elastic floating pressing head in a follow-up pressing module, the bottom die base is driven to drive the cup bottom to rotate, and the pressing head is rotatably arranged on an upper telescopic rod and a lower telescopic rod in the follow-up pressing module to realize synchronous rotation with the bottom die base;

4) starting the laser cutting head, and completing the cutting of the cup bottom by rotating the cup bottom for one circle; an enclosing baffle is arranged on the periphery of the pressing head to enclose the cutting space, and air suction and dust collection are carried out on the cutting process through a dust suction device communicated with a dust suction port on the enclosing baffle;

5) after cutting, the pressing head is withdrawn upwards, and then a cut cup bottom is taken out of the bottom die base by using a blanking adsorption module and placed on a blanking conveying line;

6) the cut waste materials are still remained and sleeved on the bottom die base, the waste materials are upwards ejected out of the bottom die base and supported through the upward movement of a first supporting plate, and then the waste materials are outwards ejected out of the first supporting plate through a waste discharging push plate, so that the automatic waste discharging is realized.

9. The full-automatic high-efficiency cup bottom laser cutting machining method as claimed in claim 8, characterized in that: in the step 2) and the step 5), the material taking action of the loading adsorption module on the loading conveying line and the material taking action of the blanking adsorption module on the bottom die base are performed synchronously; the discharging action of the feeding adsorption module on the bottom die base and the discharging action of the discharging adsorption module on the discharging conveying line are synchronously carried out.

10. The full-automatic high-efficiency cup bottom laser cutting machining method as claimed in claim 9, characterized in that: the feeding adsorption module, the discharging adsorption module and the follow-up pressing module are arranged on a horizontal transfer unit together, the feeding adsorption module and the discharging adsorption module are symmetrically arranged on two sides of the follow-up pressing module, and in the process that the feeding adsorption module and the discharging adsorption module synchronously move back after the discharging action is completed, the feeding adsorption module and the discharging adsorption module stop when the follow-up pressing module moves right above the base die seat, and then the steps 3-4) are executed.

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