CN212469536U - Tapping device in mould - Google Patents

Abstract

The utility model relates to a tapping device in mould, including upper die base and die holder, be connected its characterized in that through at least a set of pneumatic cylinder between upper die base and the die holder: be equipped with on the upper die base and attack the tooth subassembly, the fixed left briquetting, middle briquetting and the right briquetting that is equipped with in upper die base below, the beneficial effects of the utility model reside in that: place the panel that will need the punching press on the die holder, then through starting the pneumatic cylinder, drive the die holder and move toward the die holder, left briquetting on the die holder, middle briquetting and right briquetting are down the left standing groove on the die holder, middle standing groove and right standing groove move, punch the product, after punching press is good, through starting tapping motor, tapping motor drives the tapping pole and rotates, then start lift cylinder and drive tapping motor and tapping pole downstream, attack the tooth to the product after punching press is good, the work efficiency is improved, when the tooth board carries out the motion in the drive of lift cylinder, left guide block and the right guide block of attacking the tooth board both ends slide respectively on left gib block and right gib block, the guide effect has been played.

Description

Tapping device in mould

Technical Field

The utility model belongs to the technical field of the mould, concretely relates to tapping device in mould.

Background

At present, the operations of stamping, tapping and the like on the hardware product are all carried out manually, the hardware product is stamped manually firstly, then the hardware product is tapped manually, and the stamping and tapping mode is low in efficiency.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides a tapping device in mould, includes upper die base and die holder, be connected its characterized in that through at least a set of pneumatic cylinder between upper die base and the die holder: the tapping mechanism is characterized in that a tapping component is arranged on the upper die base, a left pressing block, a middle pressing block and a right pressing block are fixedly arranged below the upper die base, a left standing groove, a middle standing groove and a right standing groove which correspond to the left pressing block, the middle pressing block and the right pressing block are formed in the lower die base, the tapping component comprises a left supporting rod and a right supporting rod which are fixedly arranged above the upper die base, the left supporting rod and the right supporting rod are fixedly connected through a connecting plate, a lifting cylinder is fixedly arranged above the connecting plate, a tapping plate is arranged below the connecting plate, a piston rod at the output end of the lifting cylinder is fixedly connected with the tapping plate, a tapping motor is arranged below the tapping plate, the tapping motor is fixedly arranged below the tapping plate through a screw rod, a tapping rod is arranged below the tapping motor, an output shaft of the tapping motor is fixedly connected with the tapping rod, and through holes are formed in the upper die base and, attack the tooth pole and be located the through-hole, attack respectively through left direction subassembly and right direction subassembly between dental lamina and the left branch vaulting pole and the right branch vaulting pole, left side direction subassembly is attacking the left guide block of dental lamina and the fixed left gib block that sets up on the left branch vaulting pole including fixed setting, left side guide block slides and sets up the right side at left gib block, right side direction subassembly is attacking the right guide block on dental lamina right side and the fixed right gib block that sets up on the right branch vaulting pole including fixed setting, right side guide block slides and sets up the left side at right gib block.

The utility model discloses further setting up to: the left placing groove and the right placing groove are internally provided with a left ejection assembly and a right ejection assembly which are identical in structure, and the middle placing groove is internally provided with a push-out assembly.

The utility model discloses further setting up to: the left ejection assembly comprises an installation groove formed in the lower die holder and an ejection plate movably arranged in the left placing groove, the installation groove is located below the left placing groove and communicated with the left placing groove, an ejection cylinder is fixedly arranged below the lower die holder, a piston rod of the output end of the ejection cylinder is fixedly connected with the ejection plate, and a piston rod of the output end of the ejection cylinder is located in the installation groove.

The utility model discloses further setting up to: the pushing assembly comprises a pushing groove formed in the lower die holder and a pushing plate movably arranged in the middle placing groove, the pushing groove is located below the middle placing groove and communicated with the middle placing groove, a pushing cylinder is fixedly arranged below the lower die holder, a piston rod of the output end of the pushing cylinder is fixedly connected with the pushing plate, and the piston rod of the output end of the pushing cylinder is located in the pushing groove.

The utility model discloses further setting up to: and at least two supporting blocks fixedly connected with the lower die base are arranged below the lower die base.

The utility model discloses further setting up to: the upper surface of the pushing plate is provided with an opening corresponding to the tapping rod.

The utility model discloses further setting up to: the left pressing block, the middle pressing block and the right pressing block are integrally formed with the upper die base.

The beneficial effects of the utility model reside in that: place the panel that will need the punching press on the die holder, then through starting the pneumatic cylinder, drive the die holder and move toward the die holder, left briquetting on the die holder, middle briquetting and right briquetting are down the left standing groove on the die holder, middle standing groove and right standing groove move, punch the product, after punching press is good, through starting tapping motor, tapping motor drives the tapping pole and rotates, then start lift cylinder and drive tapping motor and tapping pole downstream, attack the tooth to the product after punching press is good, the work efficiency is improved, when the tooth board carries out the motion in the drive of lift cylinder, left guide block and the right guide block of attacking the tooth board both ends slide respectively on left gib block and right gib block, the guide effect has been played.

Drawings

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

fig. 2 is a schematic structural view of the left ejection assembly, the right ejection assembly and the push-out assembly of the present utility arranged on the lower die base;

FIG. 3 is a schematic top view of the lower mold base of the present invention;

fig. 4 is the structure diagram of the left guide block and the right guide block of the present invention disposed on the left guide strip and the right guide strip.

Detailed Description

According to fig. 1-4, the embodiment discloses an in-mold tapping device, which comprises an upper mold base 1 and a lower mold base 2, wherein the upper mold base 1 is connected with the lower mold base 2 through at least one set of hydraulic cylinders 3, the upper mold base is conveniently driven to move towards the lower mold base through the hydraulic cylinders to punch products, the upper mold base 1 is provided with a tapping assembly 4, the punched products are conveniently tapped through the tapping assembly, a left pressing block 5, a middle pressing block 6 and a right pressing block 7 are fixedly arranged below the upper mold base 1, the lower mold base 2 is provided with a left placing groove 8, a middle placing groove 9 and a right placing groove 10 corresponding to the left pressing block 5, the middle pressing block 6 and the right pressing block 7, the tapping assembly 4 comprises a left support rod 11 and a right support rod 12 which are fixedly arranged above the upper mold base 1, the left support rod 11 and the right support rod 12 are fixedly connected through a connecting plate 13, a lifting cylinder 14 is fixedly arranged above the connecting plate 13, a tapping plate 15 is arranged below the connecting plate 13, a piston rod of an output end of the lifting cylinder 14 is fixedly connected with the tapping plate 15, a tapping motor 16 is arranged below the tapping plate 15, the tapping motor 16 is fixedly arranged below the tapping plate 15 through a screw, a tapping rod 17 is arranged below the tapping motor 16, an output shaft of the tapping motor 16 is fixedly connected with the tapping rod 17, through holes 18 are formed in the upper die base 1 and the middle press block 6, the tapping rod 17 is positioned in the through hole 18, a plate to be punched is placed on the lower die base, then the upper die base is driven to move towards the lower die base by starting a hydraulic cylinder, and a left press block, a middle press block and a right press block on the upper die base move towards a left standing groove, a middle standing groove and a right standing groove on the lower die base to punch a product, after punching, the tapping motor is started, the tapping motor drives the tapping rod to rotate, then the lifting cylinder is started to drive the tapping motor and the tapping rod to move downwards, tapping is carried out on a punched product, the working efficiency is improved, the tapping plate 15, the left support rod 11 and the right support rod 12 respectively pass through the left guide assembly 19 and the right guide assembly 20, the left guide assembly 19 comprises a left guide block 21 fixedly arranged on the left side of the tapping plate 15 and a left guide strip 22 fixedly arranged on the left support rod 11, the left guide block 21 is arranged on the right side of the left guide strip 22 in a sliding manner, the right guide assembly 20 comprises a right guide block 23 fixedly arranged on the right side of the tapping plate 15 and a right guide strip 24 fixedly arranged on the right support rod 12, the right guide block 23 is arranged on the left side of the right guide strip 24 in a sliding manner, and when the lifting cylinder drives the tapping plate to move, the left guide block and the right guide block at the two ends of the tapping plate respectively slide on the left guide strip and the right guide strip, and a guide effect is achieved.

The utility model discloses further setting up to: the left placing groove 8 and the right placing groove 10 are internally provided with a left ejection assembly 25 and a right ejection assembly 26 which are identical in structure, the middle placing groove 9 is internally provided with a push-out assembly 27, and after the plate is punched and tapped, the product after punching and tapping is pushed out of the lower die holder by starting the left ejection assembly, the right ejection assembly and the push-out assembly, so that the product can be conveniently demoulded.

The utility model discloses further setting up to: the left ejection assembly 25 comprises a mounting groove 28 formed in the lower die holder 2 and an ejection plate 29 movably arranged in the left placing groove 8, the mounting groove 28 is located below the left placing groove 8 and is communicated with the left placing groove 8, an ejection cylinder 30 is fixedly arranged below the lower die holder 2, a piston rod of an output end of the ejection cylinder 30 is fixedly connected with the ejection plate 29, a piston rod of an output end of the ejection cylinder 30 is located in the mounting groove 28, and after a plate is punched and tapped, the ejection cylinder of the left ejection assembly and the ejection cylinder of the right ejection assembly are started to drive the ejection plate to move so as to eject the product after punching and tapping out of the lower die holder.

The utility model discloses further setting up to: the pushing assembly 27 comprises a pushing groove 31 formed in the lower die holder 2 and a pushing plate 32 movably arranged in the middle placing groove 9, the pushing groove 31 is located below the middle placing groove 9 and is communicated with the middle placing groove 9, a pushing cylinder 33 is fixedly arranged below the lower die holder 2, a piston rod of an output end of the pushing cylinder 33 is fixedly connected with the pushing plate 32, a piston rod of an output end of the pushing cylinder 33 is located in the pushing groove 31, after the plate is punched and tapped, when the pushing cylinders of the left pushing assembly and the right pushing assembly are started, the pushing cylinders are started simultaneously, the pushing cylinders drive the pushing plate to move, and products after punching and tapping are pushed out of the lower die holder.

The utility model discloses further setting up to: at least two supporting blocks 34 fixedly connected with the lower die holder 2 are arranged below the lower die holder 2, and the lower die holder is supported.

The utility model discloses further setting up to: the upper surface of the pushing plate 32 is provided with an opening 35 corresponding to the tapping rod 17, and tapping is convenient for a product through the opening.

The utility model discloses further setting up to: the left pressing block 5, the middle pressing block 6 and the right pressing block 7 are integrally formed with the upper die base 1, so that firmness is enhanced.

The utility model discloses a theory of operation: placing a plate to be punched on a lower die base, driving an upper die base to move towards the lower die base by starting a hydraulic cylinder, driving a left pressing block, a middle pressing block and a right pressing block on the upper die base to move towards a left placing groove, a middle placing groove and a right placing groove on the lower die base, punching a product, driving a tapping rod to rotate by starting a tapping motor after punching, driving the tapping motor and the tapping rod to move downwards by starting a lifting cylinder, tapping the punched product, driving the tapping rod to move upwards by the lifting cylinder, enabling the tapping rod to be separated from the middle pressing block, then driving the upper die base to be far away from the lower die base by starting a hydraulic cylinder, then starting ejection cylinders of a left ejection assembly and a right ejection assembly, driving an ejection plate to move by the ejection cylinders, and when starting the ejection cylinders of the left ejection assembly and the right ejection assembly, and meanwhile, the pushing cylinder is started, drives the pushing plate to move, and pushes the punched and tapped product out of the lower die holder through the pushing plate and the pushing plate.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above embodiments, and any decoration, modification or equivalent replacement made by those skilled in the art according to the above description is within the protection scope of the present invention.

Claims (7)

1. The utility model provides a tapping device in mould, includes upper die base and die holder, be connected its characterized in that through at least a set of pneumatic cylinder between upper die base and the die holder: the tapping mechanism is characterized in that a tapping component is arranged on the upper die base, a left pressing block, a middle pressing block and a right pressing block are fixedly arranged below the upper die base, a left standing groove, a middle standing groove and a right standing groove which correspond to the left pressing block, the middle pressing block and the right pressing block are formed in the lower die base, the tapping component comprises a left supporting rod and a right supporting rod which are fixedly arranged above the upper die base, the left supporting rod and the right supporting rod are fixedly connected through a connecting plate, a lifting cylinder is fixedly arranged above the connecting plate, a tapping plate is arranged below the connecting plate, a piston rod at the output end of the lifting cylinder is fixedly connected with the tapping plate, a tapping motor is arranged below the tapping plate, the tapping motor is fixedly arranged below the tapping plate through a screw rod, a tapping rod is arranged below the tapping motor, an output shaft of the tapping motor is fixedly connected with the tapping rod, and through holes are formed in the upper die base and, attack the tooth pole and be located the through-hole, attack respectively through left direction subassembly and right direction subassembly between dental lamina and the left branch vaulting pole and the right branch vaulting pole, left side direction subassembly is attacking the left guide block of dental lamina and the fixed left gib block that sets up on the left branch vaulting pole including fixed setting, left side guide block slides and sets up the right side at left gib block, right side direction subassembly is attacking the right guide block on dental lamina right side and the fixed right gib block that sets up on the right branch vaulting pole including fixed setting, right side guide block slides and sets up the left side at right gib block.

2. The in-mold tapping device as claimed in claim 1, wherein: the left placing groove and the right placing groove are internally provided with a left ejection assembly and a right ejection assembly which are identical in structure, and the middle placing groove is internally provided with a push-out assembly.

3. The in-mold tapping device as claimed in claim 2, wherein: the left ejection assembly comprises an installation groove formed in the lower die holder and an ejection plate movably arranged in the left placing groove, the installation groove is located below the left placing groove and communicated with the left placing groove, an ejection cylinder is fixedly arranged below the lower die holder, a piston rod of the output end of the ejection cylinder is fixedly connected with the ejection plate, and a piston rod of the output end of the ejection cylinder is located in the installation groove.

4. The in-mold tapping device as claimed in claim 3, wherein: the pushing assembly comprises a pushing groove formed in the lower die holder and a pushing plate movably arranged in the middle placing groove, the pushing groove is located below the middle placing groove and communicated with the middle placing groove, a pushing cylinder is fixedly arranged below the lower die holder, a piston rod of the output end of the pushing cylinder is fixedly connected with the pushing plate, and the piston rod of the output end of the pushing cylinder is located in the pushing groove.

5. The in-mold tapping device as claimed in claim 4, wherein: and at least two supporting blocks fixedly connected with the lower die base are arranged below the lower die base.

6. The in-mold tapping device as claimed in claim 5, wherein: the upper surface of the pushing plate is provided with an opening corresponding to the tapping rod.

7. The in-mold tapping device as claimed in claim 6, wherein: the left pressing block, the middle pressing block and the right pressing block are integrally formed with the upper die base.

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