CN109454158B

CN109454158B - Stamping device for molded plate

Info

Publication number: CN109454158B
Application number: CN201811325982.6A
Authority: CN
Inventors: 徐亚华
Original assignee: Jiangsu Fuya Water Supply And Drainage Technology Co Ltd
Current assignee: Jiangsu Fuya Water Supply And Drainage Technology Co Ltd
Priority date: 2018-11-08
Filing date: 2018-11-08
Publication date: 2020-01-17
Anticipated expiration: 2038-11-08
Also published as: CN109454158A

Abstract

The invention discloses a molded plate stamping device which comprises a conveying device, a first stamping device, a plurality of die stamping devices and a placing table, wherein the conveying device is arranged on one side of the first stamping device, the die stamping devices are respectively arranged between the first stamping device and the placing table, two sides of each placing table are respectively provided with an angle steel processing device, the conveying device comprises a first supporting seat and a conveying mechanism, the conveying mechanism is arranged on the first supporting seat, and the first stamping device comprises a supporting table, a first shearing mechanism and a second shearing mechanism. The stamping plate stamping device is reasonable in structural design, automatic stamping operation in the production process of the stamping plate can be effectively realized, stamping efficiency is greatly improved, leftover materials in production can be processed into angle steel, production cost is reduced, and the stamping plate stamping device has high practicability.

Description

Stamping device for molded plate

Technical Field

The invention relates to the technical field of molded plate processing, in particular to a molded plate stamping device.

Background

With the progress and development of science and technology, the price of urban land is also the ship height that rises with water, and the case pump integration water tank in the past in the market is mostly built subaerial because reasons such as weather, artificial, has not only increased the loss of water tank, and construction cost is higher simultaneously, has still lost a large amount of land resources.

The water tank generally utilizes the moulded board of unidimensional not to assemble to this obtains our required integration water tank, in the production process about the moulded board on the market in the past, mostly only has conveying and punching press two operations, not only safety can not be ensured, and punching press is inefficient, and the leftover bits after the punching press also do not obtain properly utilizing simultaneously, has caused very big waste.

In view of the above circumstances, a stamping plate stamping device needs to be designed, and the structure of the design needs to improve the stamping efficiency, reduce the waste of leftover materials in the production process, and reduce the cost, which is a problem to be solved urgently.

Disclosure of Invention

The invention aims to provide a stamping plate stamping device to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a moulded board stamping device, moulded board stamping device includes conveyor, first stamping device, a plurality of molding device and places the platform, conveyor installs in first stamping device one side, a plurality of molding device install respectively first stamping device, place between the platform, every place a both sides and be equipped with angle steel processingequipment respectively.

Further, the conveying device comprises a first supporting seat and a conveying mechanism, and the conveying mechanism is installed on the first supporting seat; the first stamping device comprises a supporting table, a first shearing mechanism and a second shearing mechanism, the first shearing mechanism and the second shearing mechanism are respectively installed on the supporting table, the first shearing mechanism is located on one side of the conveying mechanism, and the first shearing mechanism and the second shearing mechanism are installed oppositely; each mould pressing device comprises a second supporting seat, a first supporting plate and a pressing plate, wherein the first supporting plate is arranged on the second supporting seat, a first mould is arranged on the first supporting plate, the pressing plate is arranged on the first mould, a second mould is arranged at the lower end of the pressing plate, and a first lifting mechanism is arranged on the pressing plate; the angle steel processing device comprises a second supporting seat, a forming device and a plurality of second stamping devices, wherein the forming device and the second stamping devices are respectively installed on the second supporting seat, the forming device is installed on two sides of the placing table, and the second stamping devices are respectively installed at the output ends of the forming device.

The stainless steel plate stamping device is characterized in that components such as a conveying device and a first stamping device are designed, wherein a conveying mechanism in the conveying device can effectively drag the stainless steel plate to the first stamping device, a first shearing mechanism and a second shearing mechanism which are identical in structure are designed in the first stamping device, the stainless steel plate is longitudinally stamped through the cooperation of the first shearing mechanism and the second shearing mechanism, and is divided into strips, so that the subsequent die pressing device can conveniently perform transverse stamping; in the die pressing device, the lifting of the pressing plate is completed through the first lifting mechanism, and meanwhile, the second die at the lower end of the pressing plate is matched with the first die on the first supporting plate to perform transverse punching, so that the steel plate after being stripped is punched into a required length, and the die pressing plate with the required size is obtained.

The forming device in the angle steel processing device can process the leftover materials left after the die pressing of the die pressing device into the required angle steel and punch the angle steel into the required length through the second punching device.

Furthermore, the first shearing mechanism and the second shearing mechanism have the same structure, the first shearing mechanism comprises a second support plate, a third support plate, a first stamping shaft and a second stamping shaft, the second support plate and the third support plate are respectively installed on the support table, one side of the second support plate of the first shearing mechanism and one side of the second support plate of the second shearing mechanism are respectively provided with a first motor, one end of each first stamping shaft respectively penetrates through the second support plate to be fixed with the output shaft of the corresponding first motor, and the other end of each first stamping shaft is respectively fixed with the third support plate; two ends of the second stamping shaft are respectively fixed with the second supporting plate and the third supporting plate; the third backup pad outside lower part of first shearing mechanism is provided with first gear, the third backup pad outside lower part of second shearing mechanism is provided with the second gear, the brace table below is provided with the second motor, the output of second motor is provided with third gear and chain, the chain forms closed chain ring around first gear, second gear and third gear in proper order.

Furthermore, the first stamping shaft and the second stamping shaft have the same structure, the first stamping shaft comprises a connecting rod, a shaft body and a plurality of iron rings, one end of the connecting rod of the first stamping shaft penetrates through the second supporting plate to be fixed with the output shaft of the first motor, and the other end of the connecting rod of the first stamping shaft is fixed with the third supporting plate; one end of a connecting rod of the second stamping shaft is fixed with the second supporting plate, the other end of the connecting rod of the second stamping shaft penetrates through the third supporting plate to be fixed with the first gear and the second gear respectively, the shaft bodies are sleeved on the connecting rod, the iron rings are sleeved on the shaft bodies respectively, rubber rollers are arranged on two sides of each iron ring respectively, and the rubber rollers are sleeved on the shaft bodies.

According to the invention, a first motor can respectively drive a first stamping shaft of a first shearing mechanism and a first stamping shaft of a second shearing mechanism to rotate, a second motor can drive a third gear to move and then drive a first gear and a second gear to move through a chain so as to drive two second stamping shafts to rotate, rubber rollers and iron rings are respectively designed on the first stamping shaft and the second stamping shaft, when a stainless steel plate enters between the first stamping shaft and the second stamping shaft, the position of the iron ring can be adjusted, and stamping is carried out through the mutual staggering of the iron ring of the first stamping shaft and the iron ring of the second stamping shaft, and the rubber rollers on the two sides of the iron ring also play a role of conveying, so that the stainless steel plate is conveyed to a die pressing device; the design of the second shearing mechanism can ensure the smooth operation of the stamping operation, and when the first shearing mechanism breaks down or is incompletely sheared, the second shearing mechanism can replace the first shearing mechanism to finish the shearing operation.

Furthermore, the mould pressing device comprises a top seat and a plurality of first supporting shafts, the top seat is arranged on the first lifting mechanism, one ends of the first supporting shafts are respectively fixed on the first supporting plates, and the other ends of the first supporting shafts are respectively fixed at the bottom ends of the top seat; the pressing plate, the first mould and the second mould are respectively sleeved on the first supporting shaft; the first lifting mechanism comprises a third motor and a first oil cylinder, the third motor is installed on the top seat, the third motor controls the first oil cylinder to move, one end of the first oil cylinder is fixed to the bottom end of the top seat, and the other end of the first oil cylinder is fixed to the upper end of the pressing plate.

According to the invention, the first lifting mechanism is designed in the die pressing device, the first oil cylinder is controlled to stretch by the third motor so as to drive the pressing plate to lift, the first die and the second die are designed to play a role in forming and stamping, and the first supporting plate can provide supporting force for the whole die pressing device so as to ensure the smooth operation of the stamping device.

Furthermore, the forming device comprises a fourth supporting plate, a fifth supporting plate, a fourth motor, a fifth motor, a first fixing shaft and a second fixing shaft, wherein the fourth supporting plate, the fifth supporting plate, the fourth motor and the fifth motor are respectively installed on the second supporting seat, the fourth motor and the fifth motor are respectively installed on one side of the fifth supporting plate, one end of the first fixing shaft is fixed with the fourth supporting plate, and the other end of the first fixing shaft penetrates through the fifth supporting plate and is fixed with an output shaft of the fourth motor; one end of the second fixed shaft is fixed with the fourth supporting plate, and the other end of the second fixed shaft penetrates through the fifth supporting plate and is fixed with an output shaft of a fifth motor; the forming device also comprises a cam and a concave wheel, the cam is sleeved in the middle of the first fixed shaft, and the concave wheel is sleeved in the middle of the second fixed shaft; the second stamping device comprises a second supporting shaft, a second lifting mechanism and a shearing blade, wherein one end of the second supporting shaft is fixed with the second supporting seat, and the other end of the second supporting shaft is fixed with the second lifting mechanism; the lower end of the second lifting mechanism is fixed with the shearing blade.

The angle steel processing device is also provided with a forming device, wherein a fourth motor and a fifth motor respectively provide the motion power of the first fixed shaft and the second fixed shaft, the first fixed shaft is provided with a cam, the second fixed shaft is provided with a concave wheel, and the concave wheel and the cam are matched to process the leftover materials left after stamping into angle steel; meanwhile, the second lifting mechanism is utilized to lift the shearing blade in the second punching device, the lower end of the shearing blade is regular in sawtooth shape, a plurality of angle steels can be punched at one time, the punching efficiency is improved, the punching device is effective and practical, the seventh motor and the second oil cylinder are designed in the second lifting mechanism, the seventh motor controls the stretching of the second oil cylinder, and the shearing blade 423 is driven to lift.

Further, the conveying mechanism comprises a driving wheel, a driven wheel and a conveying belt, the driving wheel and the driven wheel are respectively installed on the first supporting seat, a sixth motor is arranged on one side of the driving wheel, and one end of the driving wheel is fixed with an output shaft of the sixth motor; the driving wheel is connected with the driven wheel through the conveying belt, a plurality of first tooth grooves are formed in the outer wall of the driving wheel and the outer wall of the driven wheel respectively, second tooth grooves are formed in the end faces, in contact with the driving wheel and the driven wheel, of the conveying belt, the conveying belt moves with the driving wheel and the driven wheel through the first tooth grooves and the second tooth grooves in a matched mode respectively, and a third tooth groove is formed in the upper end face of the conveying belt.

According to the invention, the sixth motor drives the driving wheel to move, and the driven wheel is driven to be matched through the conveyer belt, wherein the matching of the driving wheel and the conveyer belt as well as the matching of the driven wheel and the conveyer belt can be effectively improved through the design of the first tooth groove and the second tooth groove, so that the effective operation of the conveying mechanism is ensured, meanwhile, the third tooth groove is also designed on the upper end surface of the conveyer belt, when the stainless steel plate is conveyed to the conveyer belt, the third tooth groove can improve the movement resistance of the stainless steel plate, so that the stainless steel plate is ensured not to slide off the conveyer belt, and the overall safety of the.

Furthermore, the second lifting mechanism comprises a seventh motor and a second oil cylinder, the seventh motor of the second lifting mechanism is mounted at the top end of the second support shaft, the second oil cylinder is mounted at the lower end of the seventh motor, the seventh motor controls the movement of the second oil cylinder, and the lower end of the second oil cylinder is fixedly mounted with the shearing blade.

The first oil cylinder and the second oil cylinder are both hydraulic oil cylinders, and the hydraulic system driving device is driven to operate by the motor.

Compared with the prior art, the invention has the beneficial effects that: when the device is used, firstly, a conveying mechanism in the conveying device can convey the conveying device to a first stamping device through a conveying belt, and the conveying device can cut through a first cutting mechanism and a second cutting mechanism, so that the positions of iron rings on a first stamping shaft and a second stamping shaft can be adjusted during cutting, the stamping width is determined, and stamping is finished through staggering of an upper iron ring and a lower iron ring; after the punching press was accomplished, the stainless steel sheet after the branch was sent to the molding device through the rubber roll at iron ring both ends, and the steel sheet reachs first backup pad, and first elevating system control clamp plate descends simultaneously, and the second mould of clamp plate lower extreme cooperates with the first mould in the first backup pad, becomes required length with the steel sheet punching press, obtains the moulded board of required size, and the angle steel processingequipment is carried out to the leftover bits that appear after the mould pressing operation this moment, and the moulded board is placed and is being placed the bench.

After angle steel processing equipment is carried out on the leftover materials, compression molding is carried out through a forming device, the cam on the first fixing shaft is matched with the concave wheel on the second fixing shaft, the leftover materials are pressed into angle steel, punching is carried out through the second punching device, the second lifting mechanism controls the lifting of the shearing blade, the molded angle steel is sheared into required length, and subsequent use is facilitated.

The stamping plate stamping device is reasonable in structural design, automatic stamping operation in the production process of the stamping plate can be effectively realized, stamping efficiency is greatly improved, leftover materials in production can be processed into angle steel, production cost is reduced, and the stamping plate stamping device has high practicability.

Drawings

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

FIG. 1 is a schematic view showing an overall apparatus flow of a die press plate stamping apparatus according to the present invention;

FIG. 2 is a first schematic view of the working state of a stamping device for stamping plates according to the present invention;

FIG. 3 is a schematic view of a second working state of the stamping device for stamping plates according to the present invention;

FIG. 4 is a third schematic view of the working state of the stamping device for stamping plates according to the present invention;

FIG. 5 is a schematic view of a conveying apparatus of a stamping apparatus for stamping plates according to the present invention;

FIG. 6 is a side view of a first stamping device of a stamped plate stamping device of the present invention;

fig. 7 is a perspective view showing a first press apparatus of a die press plate press apparatus according to the present invention;

FIG. 8 is a schematic view showing the construction of a first press shaft of the die press apparatus according to the present invention;

FIG. 9 is a perspective view of a molding device of a molded plate punching device according to the present invention;

FIG. 10 is a schematic view of a forming apparatus of a die press plate punching apparatus according to the present invention;

fig. 11 is a schematic structural view of a second punching device of the die pressing plate punching device of the present invention.

In the figure: 1-conveying device, 11-first supporting seat, 12-conveying mechanism, 121-driving wheel, 122-conveying belt, 123-driven wheel, 124-sixth motor, 125-first tooth groove, 126-third tooth groove, 127-second tooth groove, 2-first stamping device, 21-supporting table, 22-first shearing mechanism, 221-first stamping shaft, 2211-connecting rod, 2212-shaft body, 2213-rubber roller, 2214-iron ring, 222-second supporting plate, 223-first motor, 224-second stamping shaft, 225-third supporting plate, 226-first gear, 23-second shearing mechanism, 231-second gear, 24-second motor, 25-chain, 26-third gear, 3-molding device, 31-a second supporting seat, 32-a first supporting plate, 33-a first mould, 34-a first supporting shaft, 35-a second mould, 36-a pressing plate, 37-a top seat, 38-a first lifting mechanism, 381-a third motor, 382-a first oil cylinder, a 4-angle steel processing device, 41-a forming device, 411-a fourth supporting plate and 412-a first fixed shaft, 413-cam, 414-fifth supporting plate, 415-fourth motor, 416-fifth motor, 417-second fixed shaft, 418-concave wheel, 42-second punching device, 421-second supporting shaft, 422-second lifting mechanism, 4121-seventh motor, 4122-second oil cylinder, 423-shearing blade, 43-third supporting seat and 5-placing table.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the molded plate stamping device comprises a conveying device 1, a first stamping device 2, a plurality of molding devices 3 and a placing table 5, wherein the conveying device 1 is installed on one side of the first stamping device 2, the molding devices 3 are respectively installed between the first stamping device 2 and the placing table 5, and two sides of each placing table 5 are respectively provided with an angle steel processing device 4.

As shown in fig. 2, 3 and 4, the conveying device 1 includes a first supporting seat 11 and a conveying mechanism 12, wherein the conveying mechanism 12 is mounted on the first supporting seat 11; the first stamping device 2 comprises a supporting table 21, a first shearing mechanism 22 and a second shearing mechanism 23, the first shearing mechanism 22 and the second shearing mechanism 23 are respectively installed on the supporting table 21, the first shearing mechanism 22 is located on one side of the conveying mechanism 12, and the first shearing mechanism 22 and the second shearing mechanism 23 are installed oppositely; each of the molding devices 3 comprises a second support seat 31, a first support plate 32 and a pressing plate 36, the first support plate 32 is mounted on the second support seat 31, a first mold 33 is mounted on the first support plate 32, the pressing plate 36 is mounted on the first mold 33, a second mold 35 is mounted at the lower end of the pressing plate 36, and a first lifting mechanism 38 is arranged on the pressing plate 36; the angle steel processing device 4 comprises a second supporting seat 43, a forming device 41 and a plurality of second stamping devices 42, wherein the forming device 41 and the second stamping devices 42 are respectively installed on the second supporting seat 43, the forming device 41 is installed on two sides of the placing table 5, and the second stamping devices 42 are respectively installed at the output ends of the forming device 41.

The components such as the conveying device 1 and the first stamping device 2 are designed, wherein the conveying mechanism 12 in the conveying device 1 can effectively pull the stainless steel plate to the first stamping device 2, the first stamping device 2 is internally provided with the first shearing mechanism 22 and the second shearing mechanism 23 which are identical in structure, the stainless steel plate is longitudinally stamped through the cooperation of the first shearing mechanism 22 and the second shearing mechanism 23, and is divided into strips, so that the subsequent die pressing device 3 can conveniently transversely stamp; in the die pressing device 3, the first lifting mechanism 38 is used for completing the lifting of the pressing plate 36, and meanwhile, the second die 35 at the lower end of the pressing plate 36 is matched with the first die 33 on the first supporting plate 32 for transverse punching, so that the steel plate after being split into strips is punched into required length, and the die pressing plate with required size is obtained.

The forming device 41 in the angle steel processing device 4 can process the leftover materials left after the die pressing of the die pressing device 3 into the required angle steel and punch the angle steel into the required length through the second punching device 42.

As shown in fig. 6 and 7, the first shearing mechanism 22 and the second shearing mechanism 23 have the same structure, the first shearing mechanism 22 includes a second support plate 222, a third support plate 225, a first stamping shaft 221 and a second stamping shaft 224, the second support plate 222 and the third support plate 225 are respectively mounted on the support table 21, one side of the second support plate 222 of the first shearing mechanism 22 and one side of the second support plate 222 of the second shearing mechanism 23 are respectively provided with a first motor 223, one end of each first stamping shaft 221 respectively penetrates through the second support plate 222 to be fixed with an output shaft of the corresponding first motor 223, and the other end is respectively fixed with the third support plate 225; two ends of the second stamping shaft 224 are respectively fixed with a second support plate 222 and a third support plate 225; a first gear 226 is arranged on the lower portion of the outer side of the third support plate 225 of the first shearing mechanism 22, a second gear 231 is arranged on the lower portion of the outer side of the third support plate 225 of the second shearing mechanism 23, a second motor 24 is arranged below the support table 21, a third gear 26 and a chain 25 are arranged at the output end of the second motor 24, and the chain 25 sequentially bypasses the first gear 226, the second gear 231 and the third gear 26 to form a closed chain ring.

As shown in fig. 8, the first pressing shaft 221 and the second pressing shaft 224 have the same structure, the first pressing shaft 221 includes a connecting rod 2211, a shaft body 2212 and a plurality of iron rings 2214, one end of the connecting rod 2211 of the first pressing shaft 221 passes through the second support plate 222 to be fixed with the output shaft of the first motor 223, and the other end is fixed with the third support plate 225; one end of a connecting rod 2211 of the second stamping shaft 224 is fixed with the second support plate 222, the other end of the connecting rod 2211 of the second stamping shaft 224 passes through a third support plate 225 and is fixed with the first gear 226 and the second gear 231 respectively, the shaft bodies 2212 are sleeved on the connecting rod 2211, the iron rings 2214 are sleeved on the shaft bodies 2212 respectively, rubber rollers 2213 are arranged on two sides of each iron ring 2214 respectively, and the rubber rollers 2213 are sleeved on the shaft bodies 2212.

According to the invention, a first motor 223 can respectively drive a first stamping shaft 221 of a first shearing mechanism 22 and a first stamping shaft 221 of a second shearing mechanism 23 to rotate, a second motor 24 can drive a third gear 26 to move, and then a chain 25 drives a first gear 226 and a second gear 231 to move, so as to drive two second stamping shafts 224 to rotate, rubber covered rollers 2213 and iron rings 2214 are respectively designed on the first stamping shaft 221 and the second stamping shaft 224, when a stainless steel plate enters between the first stamping shaft 221 and the second stamping shaft 224, the position of the iron ring 2214 can be adjusted, and stamping is carried out through the mutual staggering of the iron rings 2214 of the first stamping shaft 221 and the iron rings 2214 of the second stamping shaft 224, and the rubber covered rollers 2213 at two sides of the iron ring 2214 also play a role in conveying, so as to convey the stainless steel plate to a die pressing device 3; the design of the second shearing mechanism 23 in the invention can ensure the smooth operation of the stamping operation, and when the first shearing mechanism 22 breaks down or the shearing is incomplete, the second shearing mechanism 23 can replace the first shearing mechanism 22 to complete the shearing operation.

As shown in fig. 9, the molding device 3 includes a top seat 37 and a plurality of first supporting shafts 34, the top seat 37 is mounted on a first lifting mechanism 38, one end of each of the first supporting shafts 34 is fixed on the first supporting plate 32, and the other end is fixed at the bottom end of the top seat 37; the pressing plate 36, the first mold 33 and the second mold 35 are respectively sleeved on the first support shaft 34; the first lifting mechanism 38 comprises a third motor 381 and a first oil cylinder 382, the third motor 381 is installed on the top base 37, the third motor 381 controls the movement of the first oil cylinder 382, one end of the first oil cylinder 382 is fixed to the bottom end of the top base 37, and the other end of the first oil cylinder 382 is fixed to the upper end of the pressing plate 36.

According to the invention, the first lifting mechanism 38 is designed in the die pressing device 3, the third motor 381 is used for controlling the extension and retraction of the first oil cylinder 382, so that the lifting of the pressing plate 36 is driven, the first die 33 and the second die 35 are designed to play a role in forming and stamping, and the first supporting plate 32 can provide supporting force for the whole die pressing device 3, so that the smooth operation of the die pressing device is ensured.

As shown in fig. 10 and 11, the molding device 41 includes a fourth support plate 411, a fifth support plate 414, a fourth motor 415, a fifth motor 416, a first fixed shaft 412 and a second fixed shaft 417, the fourth support plate 411, the fifth support plate 414, the fourth motor 415 and the fifth motor 416 are respectively mounted on the second support seat 43, the fourth motor 415 and the fifth motor 416 are respectively mounted on one side of the fifth support plate 414, one end of the first fixed shaft 412 is fixed to the fourth support plate 411, and the other end thereof passes through the fifth support plate 414 and is fixed to an output shaft of the fourth motor 415; one end of the second fixed shaft 417 is fixed to the fourth support plate 411, and the other end thereof passes through the fifth support plate 414 and is fixed to an output shaft of the fifth motor 416; the forming device 41 further comprises a cam 413 and a concave wheel 418, wherein the cam 413 is sleeved in the middle of the first fixing shaft 412, and the concave wheel 418 is sleeved in the middle of the second fixing shaft 417; the second punching device 42 comprises a second supporting shaft 421, a second lifting mechanism 422 and a cutting edge 423, wherein one end of the second supporting shaft 421 is fixed with the second supporting seat 43, and the other end is fixed with the second lifting mechanism 422; the lower end of the second elevating mechanism 422 is fixed to the cutting blade 423.

The angle steel processing device 4 is also provided with a forming device 41, wherein a fourth motor 415 and a fifth motor 416 respectively provide movement power of a first fixed shaft 412 and a second fixed shaft 417, the first fixed shaft 412 is provided with a cam 413, the second fixed shaft 417 is provided with a concave wheel 418, and the residual leftover materials after stamping can be processed into angle steel through the matching of the concave wheel 418 and the cam 413, so that the angle steel processing device can play a role of fixing and supporting when a stamping plate is installed, the cost is greatly reduced, and the angle steel processing device has extremely high economic benefit; meanwhile, the second lifting mechanism 422 is utilized in the second punching device 42 to lift the shearing blade 423, the lower end of the shearing blade 423 is regularly serrated, a plurality of angle steels can be punched at one time, the punching efficiency is improved, the punching device is effective and practical, the seventh motor 4121 and the second oil cylinder 4122 are designed in the second lifting mechanism 422, the seventh motor 4121 controls the second oil cylinder 4122 to stretch and retract, and the lifting of the shearing blade 423 is driven.

As shown in fig. 5, the conveying mechanism 12 includes a driving wheel 121, a driven wheel 123 and a conveying belt 122, the driving wheel 121 and the driven wheel 123 are respectively installed on the first supporting seat 11, a sixth motor 124 is arranged on one side of the driving wheel 121, and one end of the driving wheel 121 is fixed to an output shaft of the sixth motor 124; the driving wheel 121 and the driven wheel 123 are connected through a transmission belt 122, a plurality of first tooth grooves 125 are respectively formed in the outer wall of the driving wheel 121 and the outer wall of the driven wheel 123, second tooth grooves 127 are formed in the end faces, in contact with the driving wheel 121 and the driven wheel 123, of the transmission belt 122, the driving wheel 121 and the driven wheel 123 move in a matched mode through the first tooth grooves 125 and the second tooth grooves 127, and a third tooth groove 126 is formed in the upper end face of the transmission belt 122.

According to the invention, the sixth motor 124 drives the driving wheel 121 to move, and the driving wheel 123 is driven to be matched through the conveyor belt 122, wherein the first tooth groove 125 and the second tooth groove 127 are designed to effectively improve the matching between the driving wheel 121 and the conveyor belt 122, and between the driven wheel 123 and the conveyor belt 122, so that the effective operation of the conveying mechanism 12 is ensured, meanwhile, the third tooth groove 126 is also designed on the upper end surface of the conveyor belt 122, when the stainless steel plate is conveyed onto the conveyor belt 122, the third tooth groove 126 can improve the movement resistance of the stainless steel plate, so that the stainless steel plate is ensured not to slide off the conveyor belt 122, and the overall safety of the device is improved.

The second lifting mechanism 422 comprises a seventh motor 4121 and a second oil cylinder 4122, the seventh motor 4121 of the second lifting mechanism 422 is mounted at the top end of the second supporting shaft 421, the second oil cylinder 4122 is mounted at the lower end of the seventh motor 4121, the seventh motor 4121 controls the movement of the second oil cylinder 4122, and the lower end of the second oil cylinder 4122 is fixedly mounted with the cutting blade 423.

When the invention is used, firstly, the conveying mechanism 12 in the conveying device 1 can convey the steel plate to the first stamping device 2 through the conveying belt 122, the steel plate is sheared through the first shearing mechanism 22 and the second shearing mechanism 23, the positions of the iron rings 2214 on the first stamping shaft 221 and the second stamping shaft 224 can be adjusted during shearing, the stamping width is determined, and stamping is completed through the staggering of the upper iron ring 2214 and the lower iron ring 2214; after the punching press is accomplished, the stainless steel sheet after the branch strip passes through the rubber roll 2213 conveying of iron ring 2214 both ends to molding device 3, the steel sheet reaches first backup pad 32, first elevating system 38 control clamp plate 36 descends simultaneously, second mould 35 of clamp plate 36 lower extreme cooperates with first mould 33 on the first backup pad 32, become required length with the steel sheet punching press, obtain the moulded board of required size, the leftover bits that appear after the mould pressing operation at this moment carry out angle steel processingequipment 4, and the moulded board is placed on placing platform 5.

After the angle steel processing device 4 is carried out on the leftover materials, the leftover materials are subjected to compression molding through the molding device 41, the cam 413 on the first fixing shaft 412 is matched with the concave wheel 418 on the second fixing shaft 417 to press the leftover materials into angle steel, the angle steel is punched through the second punching device 42, the second lifting mechanism 422 controls the lifting of the shearing blade 423, and the molded angle steel is sheared into required length so as to be convenient for subsequent use.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A moulded board stamping device which characterized in that: the stamping plate stamping device comprises a conveying device (1), a first stamping device (2), a plurality of stamping devices (3) and a placing table (5), wherein the conveying device (1) is installed on one side of the first stamping device (2), the plurality of stamping devices (3) are respectively installed between the first stamping device (2) and the placing table (5), each of two sides of the placing table (5) is respectively provided with an angle steel processing device (4), and the angle steel processing devices (4) can process production leftover materials into angle steel.

2. The die press plate stamping device according to claim 1, wherein: the conveying device (1) comprises a first supporting seat (11) and a conveying mechanism (12), wherein the conveying mechanism (12) is installed on the first supporting seat (11); the first stamping device (2) comprises a supporting table (21), a first shearing mechanism (22) and a second shearing mechanism (23), the first shearing mechanism (22) and the second shearing mechanism (23) are respectively installed on the supporting table (21), the first shearing mechanism (22) is located on one side of the conveying mechanism (12), and the first shearing mechanism (22) and the second shearing mechanism (23) are installed oppositely; each mould pressing device (3) comprises a second supporting seat (31), a first supporting plate (32) and a pressing plate (36), the first supporting plate (32) is installed on the second supporting seat (31), a first mould (33) is installed on the first supporting plate (32), the pressing plate (36) is installed on the first mould (33), a second mould (35) is installed at the lower end of the pressing plate (36), and a first lifting mechanism (38) is arranged on the pressing plate (36); the angle steel processing device (4) comprises a second supporting seat (43), a forming device (41) and a plurality of second stamping devices (42), wherein the forming device (41) and the second stamping devices (42) are respectively installed on the second supporting seat (43), the forming device (41) is installed on two sides of the placing table (5), and the second stamping devices (42) are respectively installed at the output ends of the forming device (41).

3. The die press plate stamping device according to claim 2, wherein: the structure of the first shearing mechanism (22) is the same as that of the second shearing mechanism (23), the first shearing mechanism (22) comprises a second support plate (222), a third support plate (225), a first stamping shaft (221) and a second stamping shaft (224), the second support plate (222) and the third support plate (225) are respectively installed on the support table (21), one side of the second support plate (222) of the first shearing mechanism (22) and one side of the second support plate (222) of the second shearing mechanism (23) are respectively provided with a first motor (223), one end of each first stamping shaft (221) respectively penetrates through the second support plate (222) to be fixed with an output shaft of the corresponding first motor (223), and the other end of each first stamping shaft is respectively fixed with the third support plate (225); two ends of the second stamping shaft (224) are respectively fixed with a second supporting plate (222) and a third supporting plate (225); the utility model discloses a mechanism for cutting the chain, including first shearing mechanism (22), third backup pad (225) outside lower part is provided with first gear (226), the third backup pad (225) outside lower part of second shearing mechanism (23) is provided with second gear (231), brace table (21) below is provided with second motor (24), the output of second motor (24) is provided with third gear (26) and chain (25), chain (25) form closed chain ring around first gear (226), second gear (231) and third gear (26) in proper order.

4. The die press plate stamping device according to claim 3, wherein: the first stamping shaft (221) and the second stamping shaft (224) are identical in structure, the first stamping shaft (221) comprises a connecting rod (2211), a shaft body (2212) and a plurality of iron rings (2214), one end of the connecting rod (2211) of the first stamping shaft (221) penetrates through the second supporting plate (222) to be fixed with an output shaft of the first motor (223), and the other end of the connecting rod is fixed with the third supporting plate (225); one end of a connecting rod (2211) of the second stamping shaft (224) is fixed with the second supporting plate (222), the other end of the connecting rod (2211) of the second stamping shaft (224) penetrates through the third supporting plate (225) to be fixed with the first gear (226) and the second gear (231) respectively, the shaft bodies (2212) are sleeved on the connecting rod (2211), the iron rings (2214) are sleeved on the shaft bodies (2212) respectively, rubber rollers (2213) are arranged on two sides of each iron ring (2214) respectively, and the rubber rollers (2213) are sleeved on the shaft bodies (2212).

5. The die press plate stamping device according to claim 4, wherein: the mould pressing device (3) comprises a top seat (37) and a plurality of first supporting shafts (34), the top seat (37) is installed on a first lifting mechanism (38), one ends of the first supporting shafts (34) are respectively fixed on first supporting plates (32), and the other ends of the first supporting shafts are respectively fixed at the bottom ends of the top seat (37); the pressing plate (36), the first mold (33) and the second mold (35) are respectively sleeved on the first supporting shaft (34); first elevating system (38) includes third motor (381) and first hydro-cylinder (382), third motor (381) is installed on footstock (37), the motion of first hydro-cylinder (382) is controlled to third motor (381), first hydro-cylinder (382) one end and footstock (37) bottom mounting, the other end is fixed with clamp plate (36) upper end.

6. The die press plate stamping device according to claim 5, wherein: the forming device (41) comprises a fourth supporting plate (411), a fifth supporting plate (414), a fourth motor (415), a fifth motor (416), a first fixed shaft (412) and a second fixed shaft (417), wherein the fourth supporting plate (411), the fifth supporting plate (414), the fourth motor (415) and the fifth motor (416) are respectively installed on the second supporting seat (43), the fourth motor (415) and the fifth motor (416) are respectively installed on one side of the fifth supporting plate (414), one end of the first fixed shaft (412) is fixed with the fourth supporting plate (411), and the other end of the first fixed shaft penetrates through the fifth supporting plate (414) and is fixed with an output shaft of the fourth motor (415); one end of the second fixed shaft (417) is fixed with the fourth supporting plate (411), and the other end of the second fixed shaft passes through the fifth supporting plate (414) and is fixed with an output shaft of the fifth motor (416); the forming device (41) further comprises a cam (413) and a concave wheel (418), the cam (413) is sleeved in the middle of the first fixing shaft (412), and the concave wheel (418) is sleeved in the middle of the second fixing shaft (417); the second stamping device (42) comprises a second supporting shaft (421), a second lifting mechanism (422) and a shearing blade (423), one end of the second supporting shaft (421) is fixed with the second supporting seat (43), and the other end of the second supporting shaft is fixed with the second lifting mechanism (422); the lower end of the second lifting mechanism (422) is fixed with the shearing blade (423).

7. The die press plate stamping device according to claim 6, wherein: the conveying mechanism (12) comprises a driving wheel (121), a driven wheel (123) and a conveying belt (122), the driving wheel (121) and the driven wheel (123) are respectively installed on the first supporting seat (11), a sixth motor (124) is arranged on one side of the driving wheel (121), and one end of the driving wheel (121) is fixed with an output shaft of the sixth motor (124); the driving wheel (121) and the driven wheel (123) are connected through a conveying belt (122), a plurality of first tooth grooves (125) are formed in the outer wall of the driving wheel (121) and the outer wall of the driven wheel (123), a second tooth groove (127) is formed in the end face, in contact with the driving wheel (121) and the driven wheel (123), of the conveying belt (122), the driving wheel (121) and the driven wheel (123) move in a matched mode through the first tooth grooves (125) and the second tooth grooves (127), and a third tooth groove (126) is formed in the upper end face of the conveying belt (122).

8. The die press plate stamping device according to claim 7, wherein: the second lifting mechanism (422) comprises a seventh motor (4121) and a second oil cylinder (4122), the seventh motor (4121) of the second lifting mechanism (422) is installed at the top end of the second supporting shaft (421), the second oil cylinder (4122) is installed at the lower end of the seventh motor (4121), the seventh motor (4121) controls the movement of the second oil cylinder (4122), and the lower end of the second oil cylinder (4122) is fixedly installed with the shearing blade (423).