CN217832096U - Precise die forging is with side cut equipment that can multiaspect process - Google Patents

Abstract

The utility model relates to a side cut equipment specifically is an accurate mould forges with side cut equipment that can multiaspect processing, which comprises a bracket, install the cylinder on the bottom plate of support, grip block under the output shaft one end fixedly connected with of cylinder, be fixed with the connecting rod on the roof of support, the bottom mounting of connecting rod has last grip block. The utility model discloses a mould that will need to cut edge and handle keeps flat under on the grip block, grip block rebound under rethread control cylinder's the output shaft drives, the grip block drives the mould and rises and can be fixed with last grip block when inconsistent, the cutting saw bit that lies in this moment on grip block top and the below position is even can be aligned with four limits of mould respectively, rethread drive assembly just can make even piece drive the cutting saw bit and cut along four limits of mould respectively, consequently, realized once only cutting simultaneously to four sides of mould, the efficiency of the process of cutting edge has been showing and has been improved.

Description

But precision die forges with side cut equipment of multiaspect processing

Technical Field

The utility model relates to a side cut equipment specifically is a precision die forges with side cut equipment that can multiaspect processing.

Background

The die usually needs to be trimmed after casting and forming, so that the end face of the die is flat and attractive.

When the existing trimming equipment is used for trimming the square die, one side of the die can be cut only once, the angle of the die needs to be adjusted after the cutting is finished, and other sides are cut, so that the efficiency of the trimming process is low.

SUMMERY OF THE UTILITY MODEL

Based on the weak point among the prior art that mentions among the above-mentioned background art, the utility model provides a but precision die forges edge cutting equipment with multiaspect processing.

The utility model discloses an adopt following technical scheme to overcome above technical problem, specifically be:

a multi-surface processing trimming device for precision die forging comprises a support, wherein a cylinder is mounted on a bottom plate of the support, a lower clamping block is fixedly connected to one end of an output shaft of the cylinder, a connecting rod is fixed on a top plate of the support, an upper clamping block is fixed at the bottom end of the connecting rod, two groups of connecting blocks are arranged above and below the upper clamping block in a sliding mode, and cutting saw blades are mounted on the connecting blocks;

the clamping device comprises a connecting block, a support and a driving assembly, wherein a guide assembly for the connecting block to slide is arranged between the connecting block and the support, the driving assembly acting on the connecting block is further arranged between the connecting block and the support, and an adsorption assembly is arranged between the support and the lower clamping block.

As a further aspect of the present invention: the guide assembly comprises a sliding rod fixedly connected to the support and a sliding sleeve which is sleeved on the sliding rod in a sliding mode and is fixedly connected with the connecting block respectively.

As a further aspect of the present invention: the driving assembly comprises two groups of screw rods which are arranged on one sides of the two groups of connecting blocks and are rotationally connected with the bracket, and screw sleeves which are in threaded connection with the screw rods and are respectively and fixedly connected with the two groups of connecting blocks;

the screw thread direction of two sets of screw rods is opposite, is provided with between two sets of screw rods and the lateral wall of support and acts on two sets of power component of screw rod.

As a further aspect of the present invention: the power assembly comprises a servo motor arranged on the support, a first gear sleeved at one end of an output shaft of the servo motor, a second gear sleeved at one end of the two sets of screw rods, and a transmission gear belt arranged between the first gear and the second gear.

As a further aspect of the present invention: the adsorption component comprises a cavity arranged in the lower clamping block, a through hole which is arranged on the surface of the lower clamping block and communicated with the cavity, a vacuum pump arranged on the support base plate, and a hose arranged between the vacuum pump and the cavity.

As a further aspect of the present invention: four groups of laser lamps are arranged on the top plate of the support, and the four groups of laser lamps are all installed on the top plate of the support downwards and symmetrically.

After the structure more than adopting, the utility model discloses compare in prior art, possess following advantage:

keep flat on the grip block under through the mould that will carry out the side cut processing, grip block rebound under the output shaft of rethread control cylinder drives, the grip block drives the mould and rises and can be fixed when inconsistent with last grip block down, the dicing saw piece that lies in on the grip block top and the lower position at this moment and even on the piece can be aligned with four limits of mould respectively, rethread drive assembly just can make even the piece drive the dicing saw piece and cut along four limits of mould respectively, consequently, realized once only cutting four sides of mould simultaneously, the efficiency of side cut process has been showing and has been improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the upper clamping block and the cutting saw blade of the present invention.

Fig. 3 is the schematic structural view of the lower clamping block and the laser lamp of the present invention.

Fig. 4 is a schematic structural view of the middle adsorption assembly of the present invention.

In the figure: 1. a support; 2. a cylinder; 3. a lower clamping block; 4. a connecting rod; 5. an upper clamping block; 6. connecting blocks; 7. cutting the saw blade; 8. a slide rod; 9. a sliding sleeve; 10. a screw; 11. a threaded sleeve; 12. a servo motor; 13. a first gear; 14. a second gear; 15. a drive gear belt; 16. a cavity; 17. a through hole; 18. a vacuum pump; 19. a hose; 20. and a laser lamp.

Detailed Description

Referring to fig. 1 to 4, in an embodiment of the present invention, an edge cutting apparatus capable of performing multi-surface processing for precision die forging includes a support 1, and is characterized in that a cylinder 2 is installed on a bottom plate of the support 1, a lower clamping block 3 is fixedly connected to one end of an output shaft of the cylinder 2, a connecting rod 4 is fixed on a top plate of the support 1, an upper clamping block 5 is fixed at a bottom end of the connecting rod 4, two sets of connecting blocks 6 are slidably arranged above and below the upper clamping block 5, and a cutting saw blade 7 is installed on each connecting block 6;

a guide assembly for sliding the connecting block 6 is arranged between the connecting block 6 and the support 1, a driving assembly acting on the connecting block 6 is further arranged between the connecting block 6 and the support 1, and an adsorption assembly is arranged between the support 1 and the lower clamping block 3;

the mould that will carry out the side cut processing is kept flat under on grip block 3, grip block 3 rebound under the output shaft drive through control cylinder 2, in the process of rising, can be with firm absorption on grip block 3 under with the mould through adsorption component, prevent that the mould from rocking and producing the displacement, grip block 3 drives the mould and rises and can receive the fixed effect of centre gripping when inconsistent with last grip block 5 down, the cutting saw bit 7 that is located on grip block 5 top and below position link 6 can be aligned with the four sides of mould respectively, cutting saw bit 7 can carry out high-speed rotation after starting cutting saw bit 7 this moment, rethread control drive assembly can make two sets of links 6 of last grip block 5 top position and below position receive reverse drive effect respectively simultaneously, and then make the cutting saw bit 7 that aligns with the four sides of mould carry out horizontal migration simultaneously along the direction of direction subassembly and carry out high-speed rotation simultaneously, thereby can cut four sides of mould simultaneously, the efficiency of side cut is showing and improving, simultaneously because the two sets of cutting saw bit 7 that are located the top position and the two sets of cutting saw bit 7 that are located the below position remove the direction and can not contact each other.

In an embodiment of the present invention, the guiding assembly includes a sliding rod 8 fixedly connected to the bracket 1, and sliding sleeves 9 slidably sleeved on the sliding rod 8 and fixedly connected to the connecting blocks 6 respectively;

when the link 6 is driven, the sliding sleeve 9 is driven by the link 6 to slide horizontally along the surface of the sliding rod 8, and the link 6 drives the cutting blade 7 to move horizontally under the restriction of the sliding rod 8 and the sliding sleeve 9.

In another embodiment of the present invention, the driving assembly includes two sets of screws 10 disposed at one side of the two sets of connecting blocks 6 and rotatably connected to the bracket 1, and screw sleeves 11 threadedly connected to the screws 10 and fixedly connected to the two sets of connecting blocks 6, respectively;

the thread directions of the two groups of screws 10 are opposite, and a power assembly acting on the two groups of screws 10 is arranged between the two groups of screws 10 and the side wall of the bracket 1;

the power assembly can make two sets of screws 10 carry out synchronous rotation, because the screw thread opposite direction of two sets of screws 10, can produce reverse drive effect to two sets of swivel nut 11 when two sets of screws 10 carry out synchronous rotation, and then can make two sets of even pieces 6 receive reverse drive effect simultaneously under the drive of swivel nut 11.

In another embodiment of the present invention, the power assembly includes a servo motor 12 installed on the bracket 1, a first gear 13 sleeved on one end of an output shaft of the servo motor 12, a second gear 14 sleeved on one end of two sets of the screws 10, and a transmission gear belt 15 disposed between the first gear 13 and the second gear 14;

the output shaft of the servo motor 12 can drive the first gear 13 to rotate, the first gear 13 can drive the second gears 14 at the ends of the two sets of screws 10 to synchronously rotate under the transmission action of the transmission gear belt 15 while rotating, and then the two sets of screws 10 can synchronously rotate under the drive of the second gears 14 respectively.

In another embodiment of the present invention, the adsorption assembly comprises a cavity 16 disposed inside the lower clamping block 3, a through hole 17 opened on the surface of the lower clamping block 3 and communicated with the cavity 16, a vacuum pump 18 mounted on the bottom plate of the bracket 1, and a hose 19 disposed between the vacuum pump 18 and the cavity 16;

when the mold is placed on the lower clamping block 3, the vacuum pump 18 is started to enable the vacuum pump 18 to pump air into the cavity 16 through the hose 19, so that the air pressure inside the cavity 16 is reduced, the low pressure inside the cavity 16 can absorb the mold through the through hole 17, and the mold can be firmly absorbed on the lower clamping block 3.

In another embodiment of the present invention, four sets of laser lamps 20 are disposed on the top plate of the bracket 1, and the four sets of laser lamps 20 are all installed on the top plate of the bracket 1 in a downward direction and symmetrically;

the light that four sets of laser lamps 20 towards the below produced can shine and form the facula on placing the mould surface on lower grip block 3, and the mould just in time puts in the central point of lower grip block 3 to it when the facula is located the four corners of mould, thereby can avoid the mould to place crooked influence side cut.

Claims (6)

1. The trimming equipment capable of machining multiple surfaces for precision die forging comprises a support (1) and is characterized in that a cylinder (2) is mounted on a bottom plate of the support (1), a lower clamping block (3) is fixedly connected to one end of an output shaft of the cylinder (2), a connecting rod (4) is fixed on a top plate of the support (1), an upper clamping block (5) is fixed at the bottom end of the connecting rod (4), two groups of connecting blocks (6) are arranged above and below the upper clamping block (5) in a sliding mode, and cutting saw blades (7) are mounted on the connecting blocks (6);

the clamping device is characterized in that a guide assembly for sliding the connecting block (6) is arranged between the connecting block (6) and the support (1), a driving assembly acting on the connecting block (6) is further arranged between the connecting block (6) and the support (1), and an adsorption assembly is arranged between the support (1) and the lower clamping block (3).

2. The multifaceted trimming apparatus for precision die forging according to claim 1, wherein the guiding assembly comprises a slide rod (8) fixedly connected to the support (1) and sliding sleeves (9) slidably sleeved on the slide rod (8) and respectively fixedly connected with the connecting blocks (6).

3. The multi-faceted trimming apparatus for precision die forging according to claim 1, wherein said driving assembly comprises two sets of screws (10) rotatably connected to said frame (1) and disposed at one side of said two sets of connecting blocks (6), and screw bosses (11) threadedly connected to said screws (10) and fixedly connected to said two sets of connecting blocks (6), respectively;

the thread directions of the two groups of screw rods (10) are opposite, and power components acting on the two groups of screw rods (10) are arranged between the two groups of screw rods (10) and the side wall of the support (1).

4. The edge cutting equipment capable of multi-surface processing for precision die forging according to claim 3, wherein the power assembly comprises a servo motor (12) mounted on the bracket (1), a first gear (13) sleeved at one end of an output shaft of the servo motor (12), a second gear (14) sleeved at one end of two sets of screws (10), and a transmission gear belt (15) arranged between the first gear (13) and the second gear (14).

5. The multifaceted trimming apparatus for precision die forging according to claim 1, wherein the adsorption assembly comprises a cavity (16) provided inside the lower clamping block (3), a through hole (17) opened on the surface of the lower clamping block (3) and communicating with the cavity (16), a vacuum pump (18) mounted on the bottom plate of the bracket (1), and a hose (19) provided between the vacuum pump (18) and the cavity (16).

6. The multifaceted trimming apparatus for precision die forging according to claim 1, wherein four sets of laser lamps (20) are arranged on the top plate of the support (1), and the four sets of laser lamps (20) are all installed on the top plate of the support (1) in a downward direction and symmetrically.

Images