CN220593270U - Injection molding cutting device - Google Patents

Abstract

The utility model discloses an injection molding piece cutting device which comprises a supporting seat, wherein supporting legs are arranged at the bottom end of the supporting seat, a hydraulic machine is arranged on a top end pipe of the supporting seat, a hydraulic rod is arranged on the surface of the hydraulic machine, a cutter holder is arranged at the bottom end of the hydraulic rod, and a cutting knife is arranged at the bottom end of the cutter holder. According to the utility model, when the cutter is driven to cut downwards by the cutter holder, the cutter holder can drive the lifting module to synchronously move downwards by the lifting rod, then the pressing block can press and fix the injection molding piece preferentially when the cutter is cut, so that the cutting is convenient and fast, the translation module is driven to move in parallel by the threaded rod, then the translation module drives the two groups of moving modules to move close to each other, and then the fastening screw is loosened, so that the T-shaped block slides in the T-shaped chute at the bottom end of the lifting module, and the pressing position of the pressing block can be transversely and longitudinally moved to be adjusted, so that the weak part on the surface of the injection molding piece is prevented from being pressed and damaged.

Description

Injection molding cutting device

Technical Field

The utility model relates to the technical field of cutting, in particular to an injection molding piece cutting device.

Background

The injection molding piece is produced in the grinding tool through pouring, and generally a group of dies can produce a plurality of groups of connected injection molding pieces, so that the connected injection molding pieces are required to be cut into individual states for the purpose of facilitating subsequent processing of the injection molding pieces. The injection molding piece is required to be pressed and fixed during cutting, and then cutting is performed, so that the fixed injection molding piece can be prevented from generating position deviation during cutting, and cutting damage of the injection molding piece is prevented.

Traditional through injection molding cutting device, need to fix injection molding preferentially, then cut to make the time of fixed injection molding influence cutting efficiency, simultaneously cutting device's fixed subassembly is inconvenient to adjust, can't press the position according to injection molding's size regulation, leads to injection molding weak face to receive to press the back and caves in easily and damage, consequently need to design an injection molding cutting device.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides an injection molding piece cutting device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an injection molding cutting device, includes the supporting seat, the supporting leg is installed to the supporting seat bottom, the hydraulic press is installed to supporting seat top pipe, hydraulic press surface mounting has the hydraulic stem, the blade holder is installed to hydraulic stem bottom, the cutter is installed to the blade holder bottom, the movable module is installed on the supporting seat top, the translation module is installed to the movable module bottom, the movable module surface mounting has the lifting module, the lifting module orientation is towards one side of movable module surface installs the fixture block, install the lift pole between fixture block top fixed block and the blade holder side slotted hole inner wall;

the utility model discloses a lifting module, including lifting module, supporting seat, adjusting screw, dead lever is installed to lifting module bottom, the dead lever is installed to the dead lever bottom, press the pole bottom to install, adjusting screw installs pressing piece in the bottom, the inside drive assembly that is provided with of supporting seat.

Furthermore, a rectangular chute is formed in the mobile module, and the clamping block is slidably arranged in the rectangular chute in the mobile module.

Further, the fixed rod internally mounted has the pressing spring, the pressing rod in the inside one end of fixed rod installs the anticreep piece, just the screw thread groove has been seted up to the pressing rod inside, adjusting screw surface with press threaded connection between the inside screw thread groove of pressing rod.

Further, the T-shaped sliding groove is formed in the bottom of the lifting module, a T-shaped block is arranged in the T-shaped sliding groove in the bottom of the lifting module, a fastening screw is arranged on the side face of the lifting module, one end of the fastening screw in the T-shaped sliding groove in the bottom of the lifting module is hinged with a supporting block, and the bottom end of the T-shaped block is fixedly connected with the top end of the fixing rod.

Further, the driving assembly comprises a servo motor arranged on the right side of the top end of the supporting seat, a driving gear is arranged on an output shaft of the servo motor, a threaded rod is arranged in a groove in the supporting seat, a driven gear is arranged at one end of the threaded rod outside the supporting seat, and the top side of the driven gear is meshed with the bottom side of the driving gear.

Further, a thread groove is formed in the translation module, and the surface of the threaded rod is in threaded connection with the thread groove in the translation module.

The utility model has the beneficial effects that:

1. when the injection molding device is used, the lifting module and the lifting rod are arranged, so that when the cutter holder drives the cutting knife to cut downwards, the cutter holder can drive the lifting module to synchronously move downwards through the lifting rod, and then the pressing block can press and fix the injection molding piece preferentially when the cutting knife cuts, thereby being convenient and quick to fix and cut;

2. when the injection molding device is used, through the T-shaped block, the fastening screw, the translation module and the threaded rod, after the threaded rod is driven to rotate in a spiral mode, the translation module is driven to move in parallel through the threaded rod, then the translation module drives the two groups of moving modules to move close to each other, and then the fastening screw is loosened, so that the T-shaped block slides in the T-shaped sliding groove at the bottom end of the lifting module, the pressing position of the pressing block can be transversely and longitudinally moved and adjusted, and the weak pressing damage on the surface of the injection molding part is prevented.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the lifting module and the fixing rod of the present utility model;

fig. 3 is a schematic structural diagram of a driving assembly according to the present utility model.

Legend description:

1. a support base; 101. support legs; 2. a hydraulic press; 201. a hydraulic rod; 202. a tool apron; 203. a cutting knife; 3. a mobile module; 301. a translation module; 4. a lifting module; 401. a clamping block; 402. a lifting rod; 5. a fixed rod; 501. pressing a pressing rod; 502. adjusting a screw; 503. pressing the blocks; 504. pressing the spring; 505. an anti-falling block; 6. a T-shaped block; 601. fastening a screw; 602. abutting blocks; 7. a servo motor; 701. a drive gear; 702. a threaded rod; 703. a driven gear.

Detailed Description

Fig. 1 to 3 show, relate to a cutting device of injection molding, including supporting seat 1, supporting leg 101 is installed to supporting seat 1 bottom, hydraulic press 2 is installed to supporting seat 1 top pipe, hydraulic press 2 surface mount has hydraulic stem 201, blade holder 202 is installed to hydraulic stem 201 bottom, cutting knife 203 is installed to blade holder 202 bottom, movable module 3 is installed on supporting seat 1 top, translation module 301 is installed to movable module 3 bottom, lifting module 4 is installed to movable module 3 surface, fixture block 401 is installed to one side of lifting module 4 towards movable module 3 surface, install lift pole 402 between fixture block 401 top fixed block and the inner wall of side slotted hole of blade holder 202;

the dead lever 5 is installed to lifting module 4 bottom, and press the pole 501 to the dead lever 5 bottom, presses pole 501 bottom to install adjusting screw 502, presses briquetting 503 is installed to adjusting screw 502 bottom, and supporting seat 1 inside is provided with drive assembly.

As shown in fig. 1 and 2, a rectangular chute is formed inside the mobile module 3, and a clamping block 401 is slidably disposed in the rectangular chute inside the mobile module 3.

The lifting module 4 can slide up and down on the surface of the moving module 3, so that the cutting is convenient

As shown in fig. 2, a pressing spring 504 is installed inside the fixing rod 5, an anti-falling block 505 is installed at one end inside the fixing rod 5 on the pressing rod 501, a thread groove is formed inside the pressing rod 501, and the surface of the adjusting screw 502 is in threaded connection with the thread groove inside the pressing rod 501.

Through rotating adjusting screw 502 for adjusting screw 502 can be inside flexible at pressing rod 501, thereby adjusts pressing piece 503 height, does benefit to the regulation and presses the dynamics, is convenient for different injection molding surface presses the atress bearing.

As shown in fig. 2, a T-shaped chute is formed at the bottom of the lifting module 4, a T-shaped block 6 is mounted in the T-shaped chute at the bottom of the lifting module 4, a fastening screw 601 is mounted on the side surface of the lifting module 4, one end of the fastening screw 601 in the T-shaped chute at the bottom of the lifting module 4 is hinged with a supporting block 602, and the bottom end of the T-shaped block 6 is fixedly connected with the top end of the fixing rod 5.

After the fastening screw 601 is loosened through rotation, the fastening screw 601 can move to move away from the surface of the T-shaped block 6 along the abutting block 602, so that the limit effect on the T-shaped block 6 is relieved, the T-shaped block 6 slides in the T-shaped sliding groove at the bottom of the lifting module 4, and the pressing position is conveniently adjusted front and back according to the pressing block 503.

As shown in fig. 1 and 3, the driving assembly comprises a servo motor 7 installed on the right side of the top end of the supporting seat 1, a driving gear 701 is installed on an output shaft of the servo motor 7, a threaded rod 702 is installed in a groove inside the supporting seat 1, a driven gear 703 is installed at one end of the threaded rod 702 outside the supporting seat 1, and the top side of the driven gear 703 is meshed with the bottom side of the driving gear 701.

After the driving gear 701 is driven to rotate through the operation of the servo motor 7, the driven gear 703 meshed with the driving gear 701 is driven to rotate, and then the driven gear 703 drives the threaded rod 702 to rotate in a spiral manner, so that the threaded rod 702 can drive the translation module 301 to move in parallel, and the position adjustment of the translation module 3 is facilitated.

As shown in fig. 3, a thread groove is formed in the translation module 301, and the surface of the threaded rod 702 is in threaded connection with the thread groove in the translation module 301.

Through the setting of threaded rod 702 surface clockwise and anticlockwise double-thread structure for can drive two sets of 301 translation modules simultaneously and be close to each other and remove, thereby drive the parallel movement about the removal module 3 by translation module 301, do benefit to according to briquetting 503 lateral adjustment press fixed position.

When the injection molding piece is required to be cut, the injection molding piece is placed on the surface of the supporting seat 1, then the driving gear 701 is driven to rotate through the power-on operation of the servo motor 7, the driven gear 703 meshed with the driving gear 701 is driven to rotate, then the driven gear 703 drives the threaded rod 702 to rotate spirally, the threaded rod 702 can drive the two groups of translation modules 301 to move close to each other, the translation modules 301 are driven to move the moving module 3, the left and right lateral adjustment positions of the pressing blocks 503 can be achieved, the loosening fastening screw 601 is rotated again, the fastening screw 601 moves the pressing blocks 602 to release the clamping effect on the T-shaped blocks 6, the T-shaped blocks 6 can move in the T-shaped sliding grooves at the bottom ends of the lifting modules 4, the pressing blocks 503 can be adjusted to move in parallel, the pressing blocks 503 can avoid the weak position of the surface of the injection molding piece when the injection molding piece is pressed, the pressing blocks 503 are prevented from being damaged, the surface of the injection molding piece is prevented from being damaged, the tool apron 202 is controlled to move downwards through the hydraulic 201, the tool apron 202 can be driven to move downwards, and simultaneously the tool apron 202 can drive the cutting tool apron 203 to move downwards, the lifting rod 402 can drive the lifting blocks to move downwards, the lifting blocks 4 to move synchronously, the lifting blocks 503, the lifting blocks 203 can be pressed down by the lifting blocks, and the cutting piece 203 can be pressed by the elastic force, and the cutting piece can be pressed by pressing the cutting piece, and the cutting piece can be fixed conveniently, and the cutting piece can be pressed by the cutting tool can be pressed and the cutting tool can be easily.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. Injection molding cutting device, including supporting seat (1), its characterized in that: supporting legs (101) are arranged at the bottom ends of supporting seats (1), hydraulic presses (2) are arranged on top end pipes of the supporting seats (1), hydraulic rods (201) are arranged on the surfaces of the hydraulic presses (2), tool holders (202) are arranged at the bottom ends of the hydraulic rods (201), cutting tools (203) are arranged at the bottom ends of the tool holders (202), moving modules (3) are arranged at the top ends of the supporting seats (1), translation modules (301) are arranged at the bottom ends of the moving modules (3), lifting modules (4) are arranged on the surfaces of the moving modules (3), clamping blocks (401) are arranged on one sides, facing the surfaces of the moving modules (3), of the lifting modules (4), and lifting rods (402) are arranged between fixing blocks at the top ends of the clamping blocks (401) and inner walls of side slotted holes of the tool holders (202);

the lifting module is characterized in that a fixed rod (5) is arranged at the bottom end of the lifting module (4), a pressing rod (501) is arranged at the bottom end of the fixed rod (5), an adjusting screw (502) is arranged at the bottom end of the pressing rod (501), a pressing block (503) is arranged at the bottom end of the adjusting screw (502), and a driving assembly is arranged inside the supporting seat (1).

2. An injection molding cutting apparatus as claimed in claim 1, wherein: rectangular sliding grooves are formed in the moving module (3), and the clamping blocks (401) are slidably arranged in the rectangular sliding grooves in the moving module (3).

3. An injection molding cutting apparatus as claimed in claim 1, wherein: the utility model discloses a fixed rod, including dead lever (5) internally mounted, dead lever (5) internally mounted has presses spring (504), press lever (501) in dead lever (5) inside one end is installed anticreep piece (505), just press lever (501) inside has seted up the screw thread groove, adjusting screw (502) surface with press between the screw thread groove in the dead lever (501).

4. An injection molding cutting apparatus as claimed in claim 1, wherein: t-shaped sliding grooves are formed in the bottoms of the lifting modules (4), T-shaped blocks (6) are arranged in the T-shaped sliding grooves in the bottoms of the lifting modules (4), fastening screws (601) are arranged on the side faces of the lifting modules (4), abutting blocks (602) are hinged to one ends of the T-shaped sliding grooves in the bottoms of the lifting modules (4), and the bottoms of the T-shaped blocks (6) are fixedly connected with the top ends of the fixing rods (5).

5. An injection molding cutting apparatus as claimed in claim 1, wherein: the driving assembly comprises a servo motor (7) arranged on the right side of the top end of the supporting seat (1), a driving gear (701) is arranged on an output shaft of the servo motor (7), a threaded rod (702) is arranged in an inner groove of the supporting seat (1), a driven gear (703) is arranged at one end of the threaded rod (702) outside the supporting seat (1), and the top side of the driven gear (703) is meshed with the bottom side of the driving gear (701).

6. An injection molding cutting apparatus as defined in claim 5, wherein: the translation module (301) is internally provided with a thread groove, and the surface of the threaded rod (702) is in threaded connection with the thread groove in the translation module (301).