CN112893584B

CN112893584B - Automatic stamping device of miscellaneous jar

Info

Publication number: CN112893584B
Application number: CN202110258533.XA
Authority: CN
Inventors: 李金山
Original assignee: Guangzhou Jinfeng Machinery Technology Co ltd
Current assignee: Guangzhou Jinfeng Machinery Technology Co ltd
Priority date: 2021-03-09
Filing date: 2021-03-09
Publication date: 2021-12-21
Anticipated expiration: 2041-03-09
Also published as: CN112893584A

Abstract

The invention discloses an automatic stamping device for miscellaneous cans, which comprises a conveying line assembly and is characterized in that: the device is including being used for placing semi-manufactured goods mould model frame, being used for the punching press lifting unit who releases semi-manufactured goods secondary forming, being used for pushing away the material subassembly and being used for compressing tightly fixed pressure material subassembly with semi-manufactured goods propelling movement to punching press lifting unit department, it locates the transfer chain subassembly rear side to push away the material subassembly, mould model frame locates transfer chain subassembly one side, punching press lifting unit installs in mould model frame, press the material subassembly to locate between punching press lifting unit and the mould model frame, through punching press lifting unit, push away the material subassembly and press the material subassembly to carry out automatic secondary stamping forming with miscellaneous jar lid semi-manufactured goods.

Description

Automatic stamping device of miscellaneous jar

Technical Field

The invention relates to the technical field of can making industry, in particular to an automatic stamping device for a miscellaneous can.

Background

The existing method for punching and forming the lid of the miscellaneous tank is that the lid of the miscellaneous tank is moved by manpower mostly, secondary punching is carried out by manpower mostly, and the formed lid is taken down by manpower mostly, and then the original steps are repeated; the labor intensity that artifical consumed is big during this period, wastes time and energy, work efficiency is low, and the quality assurance rate that the manual work carries out lid punching press is not high simultaneously, can not satisfy batch processing automated production's needs.

Therefore, it is desirable to provide an automatic device that can reduce labor cost, save time and labor, and improve work efficiency.

Disclosure of Invention

The invention aims to solve the technical problems that manual operation is adopted, so that the labor intensity of workers is high, time and labor are wasted, the working efficiency is low, and the like.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides an automatic stamping device of miscellaneous jar, includes the transfer chain subassembly, the device including be used for placing semi-manufactured goods mould model frame, be used for with semi-manufactured goods post forming and the punching press lifting unit who releases, be used for pushing away the material subassembly with semi-manufactured goods propelling movement to punching press lifting unit department and be used for compressing tightly fixed pressure material subassembly with semi-manufactured goods, it locates transfer chain subassembly rear side to push away the material subassembly, mould model frame is located transfer chain subassembly one side, punching press lifting unit installs in mould model frame, it locates between punching press lifting unit and the mould model frame to press the material subassembly, through punching press lifting unit, push away the material subassembly and press the material subassembly to carry out automatic secondary stamping forming with miscellaneous jar lid semi-manufactured goods.

Preferably, the punching press lifting assembly comprises a lifting frame, a punching cylinder, a punch, a lifting guide rail and a knockout mechanism, the punching cylinder is installed at the top of the lifting frame, the punch is arranged at the end part of the lifting frame, the lifting guide rail is arranged on one side of the lifting frame, and the knockout mechanism is slidably installed on the lifting guide rail.

Preferably, the pushing assembly comprises a pushing rack, a left-right moving guide rail, a pushing turnover mechanism and a pushing driving mechanism, the pushing driving mechanism is mounted on the pushing rack, the left-right moving guide rail is arranged on one side of the pushing rack, and the pushing turnover mechanism is arranged on the front side of the pushing rack and is slidably mounted on the left-right moving guide rail.

Preferably, the pressing assembly comprises a group of guiding pressing mechanisms, and the group of guiding pressing mechanisms are respectively and oppositely arranged on the die model frame and are positioned below the stamping lifting assembly.

Preferably, the knockout mechanism comprises a knockout mounting plate, a cylinder transverse moving guide rail and a knockout cylinder, the knockout mounting plate is slidably mounted on the lifting guide rail, the cylinder transverse moving guide rail is slidably mounted on the knockout mounting plate, the knockout cylinder is slidably mounted on the cylinder transverse moving guide rail, one side of the knockout cylinder is provided with a material pushing connecting plate, and the other side of the knockout cylinder is provided with a knockout connecting plate.

Preferably, it pushes away material tilting mechanism including pushing away material mounting panel, upset cylinder, upset rack and upset gear, it pushes away material mounting panel slidable mounting and removes on the guide rail, the upset cylinder is installed on pushing away the material mounting panel, upset rack is located upset cylinder one side, the upset gear is fixed in on the upset cylinder, one side and the meshing of upset rack of upset gear, the opposite side is equipped with and pushes away the material revolving fragment.

Preferably, the material pushing driving mechanism comprises a driven synchronizing wheel, a driving synchronizing wheel, a synchronous belt, a driving guide rail, a driving sliding block and a driving servo motor, wherein the driven synchronizing wheel and the driving synchronizing wheel are relatively installed on the material pushing frame, the synchronous belt is sleeved on the driven synchronizing wheel and the driving synchronizing wheel, the driving guide rail is arranged on one side of the synchronous belt, the driving sliding block is slidably installed on the driving guide rail, and the driving servo motor is installed below the material pushing frame.

Preferably, direction swager constructs including direction support, die clamping cylinder, presses material mounting panel, presses material cylinder and direction pressure flitch, direction support one side is fixed in die model frame one side, and the other side extends die model frame middle part both sides, die clamping cylinder installs on the direction support, press the material mounting panel to locate die clamping cylinder's one end, press the material cylinder to install on pressing the material mounting panel, the material cylinder tip is located to the direction pressure flitch.

Preferably, a synchronous belt pressing block is arranged inside one side of the synchronous belt, and a tensioning wheel is arranged on the other side of the synchronous belt; the driving device is characterized in that a connecting block is arranged on one side of the driving sliding block and connected with the driving sliding block, a double-layer connecting plate is installed on the front side of the connecting block, and a connecting fixed shaft is arranged on the double-layer connecting plate in an inserting mode.

Compared with the prior art, the invention has the beneficial effects that:

the stamping lifting assembly is arranged and matched with the pushing assembly, the pressing assembly and the conveying line assembly, so that the automatic stamping of the trash can cover is realized, manpower is liberated, and workers can be separated from production; labor cost is reduced, time and labor can be saved, and working efficiency is improved; meanwhile, the punch forming quality of the same batch of the miscellaneous tank cover is ensured, and the requirement of batch processing automatic production is met.

Drawings

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

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

FIG. 3 is a perspective view of the present invention;

FIG. 4 is a partial enlarged view of the overall structure of the present invention;

FIG. 5 is a first schematic view of a pusher assembly according to the present invention;

FIG. 6 is a schematic structural view of a pusher assembly according to the present invention;

FIG. 7 is a schematic structural view of the pushing and turning mechanism of the present invention;

FIG. 8 is a schematic structural view of a swaging assembly of the present invention;

FIG. 9 is a first structural diagram of the knockout mechanism of the present invention;

FIG. 10 is a second schematic structural view of the knockout mechanism of the present invention; .

In the figure, 1 is a conveyor line assembly, 11 is a conveyor line servo motor, 12 is a conveyor belt mechanism, 2 is a mold model rack, 21 is a mold model position, 3 is a stamping lifting assembly, 31 is a lifting frame, 32 is a punch, 33 is a lifting guide rail, 34 is a material beating mechanism, 341 is a material beating mounting plate, 342 is a cylinder transverse moving guide rail, 343 is a material beating cylinder, 344 is a material pushing connecting plate, 345 is a material beating connecting plate, 346 is a sliding block, 347 is a damping tension spring, 4 is a material pushing assembly, 41 is a material pushing rack, 42 is a left-right moving guide rail, 43 is a material pushing turnover mechanism, 431 is a material pushing mounting plate, 432 is a turnover cylinder, 433 is a turnover rack, 434 is a turnover gear, 435 is a material pushing rotary sheet, 44 is a material pushing driving mechanism, 441 is a driven synchronous wheel, 442 is a driving synchronous wheel, 444 is a synchronous belt, 445 is a driving guide rail, 445 is a driving sliding block, 446 is a driving servo motor, 447 is a synchronous belt press block, 448 is a tension wheel, 45 is a connecting block, 46 is a connecting plate, 47 is a connecting fixed shaft, 5 is a pressing component, 51 is a guiding pressing mechanism, 511 is a guiding support, 512 is a clamping cylinder, 513 is a pressing mounting plate, 514 is a pressing cylinder, 515 is a guiding pressing plate, 516 is a cylinder connecting plate, 52 is a linear shaft, 53 is a linear bearing, 54 is an inner hexagonal cylindrical head bolt, and 55 is a hexagonal nut.

Detailed Description

The invention is further illustrated by the following specific embodiments in conjunction with the accompanying drawings:

in the embodiment, referring to fig. 1-10, the automatic stamping device for the miscellaneous tank comprises a conveyor line assembly 1 which comprises a conveyor line servo motor 11 and a conveyor belt mechanism 12, the device comprises a mold model frame 2, a stamping lifting assembly 3, a pushing assembly 4 and a pressing assembly 5, the middle part of the mold model frame 2 is provided with a mold model position 21, the bottom of the mold model frame 2 is provided with a recoil spring (not shown in the figure), the pushing assembly 4 is arranged at the rear side of the conveyor line assembly 1, the mold model frame 2 is arranged at one side of the conveyor line assembly 1, the stamping lifting assembly 3 is arranged on the mold model frame 2, the pressing assembly 5 is arranged between the stamping lifting assembly 3 and the mold model frame 2, and the semi-finished product of the miscellaneous tank cover is subjected to automatic secondary stamping forming through the stamping lifting assembly 3, the pushing assembly 4 and the pressing assembly 5, so as to release manpower, the worker can be separated from the production, the labor cost is reduced, time and labor can be saved, and the working efficiency is improved.

The punching press lifting component 3 is including crane 31, punching press cylinder (not shown in the figure), drift 32, lift guide 33 and dnockout mechanism 34, punching press cylinder installs in crane 31 top, the tip of crane 31 is located to drift 32, lift guide 33 locates crane 31 one side, and lift guide 33 bottom both sides all are provided with stopper 331 to prevent dnockout mechanism 34 and be less than the mould model position 21 and can't withdraw from the good finished product of punching press, dnockout mechanism 34 slidable mounting is on lift guide 33.

The pushing assembly 4 comprises a pushing rack 41, a left-right moving guide rail 42, a pushing turnover mechanism 43 and a pushing driving mechanism 44, wherein the pushing driving mechanism 43 is installed on the pushing rack 41, the left-right moving guide rail 42 is arranged on one side of the pushing rack 41, and the pushing turnover mechanism 43 is arranged on the front side of the pushing rack 41 and is slidably installed on the left-right moving guide rail 42.

The pressing assembly 5 comprises a group of guiding pressing mechanisms 51 which are a first guiding pressing mechanism and a second guiding pressing mechanism, are respectively and oppositely arranged on the die model frame 2 and are positioned below the stamping lifting assembly 3; the guide pressing mechanism 51 comprises a guide support 511, a clamping cylinder 512, a pressing mounting plate 513, a pressing cylinder 514 and a guide pressing plate 515, one side of the guide support 511 is fixed on one side of the mold model frame 2, the other side of the guide support is extended to the upper side of the two sides of the mold model position 21, the clamping cylinder 512 is mounted on the guide support 511, the pressing mounting plate 513 is arranged at one end of the clamping cylinder 512, the pressing cylinder 514 is mounted on the pressing mounting plate 513, and the guide pressing plate 515 is arranged at the end part of the pressing cylinder 514.

In the embodiment of the invention, a cylinder connecting plate 516 is arranged on one side of the pressing mounting plate 513, the pressing cylinder 514 comprises a linear shaft 52 and a linear bearing 53, and one end of the guide pressing plate 515 is fixed on the linear bearing 53 through a hexagon socket head cap bolt 54 and a hexagon nut 55, so that the guide pressing plate 515 ascends and descends.

In the embodiment of the invention, the knockout mechanism 34 comprises a knockout mounting plate 341, a cylinder traverse guide rail 342 and a knockout cylinder 343, the inside of the knockout mounting plate 341 is provided with a slider 346 and a damping tension spring 347, and the knockout cylinder is slidably mounted on the lifting guide rail 33, the knockout mechanism 34 is prevented from swinging along with the downward pressing of the lifting frame 31 by the damping tension spring 347 to affect the pushing out of the finished product, the outside of the knockout mounting plate 341 is provided with a sliding groove, the cylinder traverse guide rail 342 is slidably mounted on the sliding groove of the knockout mounting plate 341, the knockout cylinder 343 is slidably mounted on the cylinder traverse guide rail 342 by a group of sliders arranged on the inside, one side of the knockout cylinder 343 is provided with a material pushing connecting plate 344, the material pushing connecting plate 344 is fixedly sleeved with the material pushing driving mechanism 44, the other side of the knockout cylinder 343 is provided with a knockout connecting plate 345, the knockout mechanism 34 is driven by the material pushing driving mechanism 44 to push out the punched finished product, the final step is completed.

The material pushing and overturning mechanism 43 comprises a material pushing and installing plate 431, an overturning cylinder 432, an overturning rack 433 and an overturning gear 434, wherein one end of the material pushing and installing plate 431 is fixedly connected with a connecting shaft, and the material pushing and overturning mechanism 43 is installed on a left-right moving guide rail 42 in a sliding mode, so that the material pushing and overturning mechanism 43 moves left and right along the left-right moving guide rail 4, the overturning cylinder 432 is installed on the material pushing and installing plate 431, the overturning rack 433 is arranged on one side of the overturning cylinder 432, the overturning gear 434 is fixed on the overturning cylinder 432, one side of the overturning gear 434 is meshed with the overturning rack 433, and the other side of the overturning gear 434 is provided with a material pushing rotating sheet 435.

The pushing driving mechanism 44 includes a driven synchronizing wheel 441, a driving synchronizing wheel 442, a synchronous belt 443, a driving guide rail 444, a driving slider 445 and a driving servo motor 446, the driven synchronizing wheel 441 and the driving synchronizing wheel 442 are relatively installed on the pushing machine frame 41, a set of driven synchronizing wheel 441 and a set of driving synchronizing wheel 442 are also installed on the back surface of the pushing machine frame 41, the synchronous belt 443 is sleeved on the driven synchronizing wheel 441 and the driving synchronizing wheel 442, the driving guide rail 444 is installed on one side of the synchronous belt 443, the driving slider 445 is slidably installed on the driving guide rail 444, and the driving servo motor 446 is installed below the pushing machine frame 41; a synchronous belt pressing block 447 is arranged in one side of the synchronous belt 443 and is connected with one side of the driving slider 445, so that the driving slider 445 is driven by the synchronous belt 443 to move left and right, and a tension wheel 448 is arranged on the other side of the synchronous belt 443; the other side of the driving slider 445 is provided with a connecting block 45, the front side of the connecting block 45 is provided with a double-layer connecting plate 46, the connecting fixed shaft 47 is inserted into the double-layer connecting plate 46, the connecting fixed shaft 47 is connected with the material pushing connecting plate 344 of the material beating mechanism 34, and the driving slider 445 is driven by the driving servo motor 446 to move on the driving guide rail 444, so that the connecting fixed shaft 47 drives the material pushing connecting plate 344 to push the material beating cylinder 343 to push a product leftwards and retract rapidly.

Referring to fig. 7 and 9, in the embodiment of the present invention, the pushing rotation plate 435 and the knockout connection plate 345 are both formed in an "L" shape, so as to facilitate pushing the semi-finished product and pushing the punched finished product.

The working principle of the invention is as follows: the semi-finished product of the trash can cover is conveyed to the tail end from the conveyor line assembly 1, the turnover cylinder 432 in the material pushing and turning mechanism 43 pushes the semi-finished product forwards to the mold model position 21 on the mold model rack 2 from the tail end of the conveyor line assembly 1 after obtaining a signal, and in the pushing process, a group of guiding and pressing mechanisms 51 of the pressing assembly 5 act simultaneously, wherein the guiding and pressing plates are in an opening state and at the highest position respectively; the highest position of the guide pressing plate is controlled by a pressing cylinder 513, the pressing cylinder 513 extends out, the guide pressing plate 515 is at the highest position, the pressing cylinder 513 retracts, and the guide pressing plate 515 is in a pressing position state; the opening state is controlled by a clamping cylinder 512, the clamping cylinder 512 extends, the guide pressure plate 515 is in a clamping state, the clamping cylinder 512 retracts, and the guide pressure plate 515 is in a loosening state.

Then, the semi-finished product is pushed to the mold model position 21 and is matched with the mold model position, and then the punch 32 on the punching lifting component 3 is pressed down along with the lifting frame 31, so that secondary forming is realized. During the pressing down and return stroke of the punch 32, the product after the secondary punching is ejected upwards by the spring at the bottom of the die model position 21. At this time, the knockout cylinder 343 in the knockout mechanism 34 is extended, and simultaneously, under the action of the connecting fixed shaft 47 on the pushing material driving mechanism 44, the knockout connecting plate 345 connected to the front end of the knockout cylinder 343 acts on the ejected product to push the product to the left, and the action direction is controlled by the motion direction of the synchronous belt. Subsequently, the knockout cylinder 343 retracts rapidly, and at the same time, the knockout cylinder 343 and the pushing connecting plate 344 move rapidly to the right under the action of the connecting fixing shaft 47 mounted on the pushing driving mechanism 44, and rise together with the punch lifting assembly 3 to return to the initial position. The connecting fixed shaft 47 of the pushing drive mechanism 44 is driven by a synchronous belt 443, and the synchronous belt 443 is controlled by a drive servo motor 446.

Regarding the pushing and turning mechanism 56, there are two main actions, one is moving left and right along the left and right moving guide rail 42 along with the connecting shaft on the pushing and driving mechanism 56, the other is turning the pushing and turning piece 435 along with the extension and retraction of the turning cylinder 432, when we want to push the semi-finished product forward, the turning rack 433 connected with the turning cylinder 432 is engaged with the turning gear 434 to control the angle position of the pushing and turning piece 435, one is vertical position, and the other is horizontal position, when we want to push the semi-finished product forward, the semi-finished product can be pushed, when we are in the horizontal position, the semi-finished product can be avoided and withdrawn along with the connecting shaft.

The present invention has been described in detail, and it should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

Claims

1. The utility model provides an automatic stamping device of miscellaneous jar, includes the transfer line subassembly, its characterized in that: the device comprises a die model rack for placing a semi-finished product, a stamping lifting assembly for performing secondary forming and pushing out on the semi-finished product, a pushing assembly for pushing the semi-finished product to the stamping lifting assembly and a pressing assembly for pressing and fixing the semi-finished product, wherein the pushing assembly is arranged on the rear side of a conveying line assembly, the die model rack is arranged on one side of the conveying line assembly, the stamping lifting assembly is arranged on the die model rack, the pressing assembly is arranged between the stamping lifting assembly and the die model rack, and the semi-finished product of the lid of the miscellaneous tank is subjected to automatic secondary stamping forming through the stamping lifting assembly, the pushing assembly and the pressing assembly;

the pressing assembly comprises a group of guiding pressing mechanisms, and the group of guiding pressing mechanisms are respectively and oppositely arranged on the die model frame and are positioned below the stamping lifting assembly; the guide pressing mechanism comprises a guide support, a clamping cylinder, a pressing mounting plate, a pressing cylinder and a guide pressing plate, one side of the guide support is fixed on one side of the mold model frame, the other side of the guide support extends to two sides of the middle of the mold model frame, the clamping cylinder is mounted on the guide support, the pressing mounting plate is arranged at one end of the clamping cylinder, the pressing cylinder is mounted on the pressing mounting plate, and the guide pressing plate is arranged at the end part of the pressing cylinder;

the stamping lifting assembly comprises a lifting frame, a stamping cylinder, a punch, a lifting guide rail and a knockout mechanism, wherein the stamping cylinder is arranged at the top of the lifting frame, the punch is arranged at the end part of the lifting frame, the lifting guide rail is arranged at one side of the lifting frame, and the knockout mechanism is slidably arranged on the lifting guide rail; the ramming mechanism comprises a ramming mounting plate, a cylinder transverse moving guide rail and a ramming cylinder, the ramming mounting plate is slidably mounted on the lifting guide rail, the cylinder transverse moving guide rail is slidably mounted on the ramming mounting plate, the ramming cylinder is slidably mounted on the cylinder transverse moving guide rail, a ramming connecting plate is arranged on one side of the ramming cylinder, and a ramming connecting plate is arranged on the other side of the ramming cylinder.

2. The automatic stamping device of miscellaneous jar according to claim 1, characterized in that: the pushing assembly comprises a pushing rack, a left-right moving guide rail, a pushing turnover mechanism and a pushing driving mechanism, wherein the pushing driving mechanism is installed on the pushing rack, the left-right moving guide rail is arranged on one side of the pushing rack, and the pushing turnover mechanism is arranged on the front side of the pushing rack and is slidably installed on the left-right moving guide rail.

3. The automatic stamping device of miscellaneous jar according to claim 2, characterized in that: the material pushing and overturning mechanism comprises a material pushing and overturning mounting plate, an overturning cylinder, an overturning rack and an overturning gear, wherein the material pushing and overturning mounting plate is slidably mounted on a left-right moving guide rail, the overturning cylinder is mounted on the material pushing and overturning mounting plate, the overturning rack is arranged on one side of the overturning cylinder, the overturning gear is fixed on the overturning cylinder, one side of the overturning gear is meshed with the overturning rack, and the other side of the overturning gear is provided with a material pushing rotating piece.

4. The automatic stamping device of miscellaneous jar according to claim 2, characterized in that: the material pushing driving mechanism comprises a driven synchronizing wheel, a driving synchronizing wheel, a synchronous belt, a driving guide rail, a driving sliding block and a driving servo motor, wherein the driven synchronizing wheel and the driving synchronizing wheel are relatively installed on the material pushing frame, the synchronous belt is sleeved on the driven synchronizing wheel and the driving synchronizing wheel, the driving guide rail is arranged on one side of the synchronous belt, the driving sliding block is installed on the driving guide rail in a sliding mode, and the driving servo motor is installed below the material pushing frame.

5. The automatic stamping device of miscellaneous jar according to claim 4, characterized in that: a synchronous belt pressing block is arranged inside one side of the synchronous belt and connected with the driving sliding block, and a tensioning wheel is arranged on the other side of the synchronous belt; the drive slider one side is equipped with the connecting block, the double-deck connecting plate is installed to the front side of connecting block, the double-deck connecting plate interlude is equipped with the connection fixed axle.