CN216732125U - Die holder of die cutting machine - Google Patents

Abstract

The utility model provides a die holder of a die cutting machine, which comprises a die holder, a slotting yoke plate, a slotting taper plate, a pressure regulating taper plate, a shaft position pressurizing screw, a pressure regulating locknut, a slotting yoke plate pressure spring, a connecting assembly, a die backing plate, a die bottom plate and a pressure regulating assembly, wherein the die holder is provided with a plurality of slots; according to the cutter die holder, the cutter die base plate and the cutter die bottom plate are fixed on the slotting tapered plate, the slotting connecting plate, the slotting tapered plate and the pressure regulating tapered plate are fixedly connected into a whole through the connecting assembly, and the slotting connecting plate is fixedly installed at the bottom end of the die holder through the slotting connecting plate pressure spring, the axial position pressurizing screw and the pressure regulating anti-loosening nut; when utilizing the pressure regulating subassembly drive pressure regulating tapering board back-and-forth movement for the total thickness of stack between fluting tapering board and the pressure regulating tapering board produces the change, and then makes fluting tapering board pressure spring produce corresponding shrink and change, thereby makes cutting die backing plate and cutting die bottom plate produce the accurate parallel translation in the direction of height that corresponds, has changed the cross cutting degree of depth of cutting die promptly.

Description

Die holder of die cutting machine

Technical Field

The utility model relates to the technical field of die cutting equipment, in particular to a die holder of a die cutting machine.

Background

The die cutting machine is called a beer machine, a cutting machine and a numerical control punching machine, is mainly used for die cutting (full break and half break), indentation and gold stamping operation, fitting and automatic waste discharge of corresponding nonmetal materials, non-setting adhesive, EVA, double-sided adhesive, electrons, mobile phone rubber mats and the like, and utilizes a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) to apply certain pressure through an embossing plate to roll and cut a printed product or a paperboard into a certain shape, thereby being important equipment for packaging and processing forming after printing.

The cross cutting machine is in the use, often need adjust the cutting film degree of depth to satisfy the machining precision requirement of product, traditional cross cutting machine adjusts the relatively poor and structure comparatively complicated of precision.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide the die holder of the die cutting machine, which is stable in structure and high in adjustment precision.

The application provides a cross cutting die seat, the cutting die seat includes the die holder, the cutting die seat still includes:

the slotted yoke plate is arranged at the bottom end of the die holder;

the slotting tapered plate is arranged below the slotting connecting plate, and an inclined groove is formed between the slotting tapered plate and the slotting connecting plate;

the pressure-regulating taper plate is arranged in the chute;

the slotted link plate is fixedly connected with the die holder through the shaft position pressurizing screw;

the pressure-regulating locknut is arranged at the top end of the shaft position pressurizing screw;

the shaft position compression screw is sleeved on the outer end face of the shaft position compression screw, and the shaft position compression screw is installed between the pressure regulating locknut and the shaft position compression screw and used for applying a spring acting force to the shaft position compression screw;

the connecting assembly is used for fixedly connecting the slotted yoke plate, the pressure regulating taper plate and the slotted taper plate into a whole;

the cutting die base plate is fixedly arranged at the bottom end of the slotting tapered plate;

the cutting die base plate is arranged at the bottom end of the cutting die base plate;

and the pressure regulating assembly is connected with one side of the pressure regulating taper plate and is used for driving the pressure regulating taper plate to move along the end face of the slotting taper plate, so that the superposition thickness of the slotting taper plate and the pressure regulating taper plate changes.

Further, the pressure regulating subassembly includes pressure regulating screw rod and pressure regulating hand wheel, the one end of pressure regulating screw rod with one side of pressure regulating tapering board is fixed to be continuous, the other end of pressure regulating screw rod with the pressure regulating hand wheel links to each other.

Furthermore, a clamping assembly is arranged between the cutting die bottom plate and the slotting taper plate for clamping the cutting die bottom plate and the slotting taper plate, cam followers are fixedly arranged on two opposite sides of the cutting die bottom plate, a slotted sliding plate guide block, a slotted sliding plate, a sliding plate height adjusting screw and a sliding plate pressure spring are respectively arranged on two opposite sides of the slotted taper plate, the slotted sliding plate is fixedly arranged on the slotted taper plate, the bottom end of the slotted sliding plate is provided with a clamping groove, the cam follower is tightly clamped in the clamping groove, the slotted sliding plate guide block is slidably arranged in a sliding groove arranged on the slotted sliding plate, the sliding plate height adjusting screw is vertically arranged at the top end of the slotted sliding plate, the bottom end of the sliding plate height adjusting screw is fixedly connected with the slotted sliding plate guide block, and the sliding plate pressure spring is tightly clamped and installed between the bottom end of the slotted sliding plate and the top end of the slotted sliding plate guide block.

Furthermore, the clamping assembly comprises a dovetail plate arranged at the top end of the cutter die base plate and a dovetail groove arranged at the bottom of the slotted taper plate, and the dovetail plate is clamped and installed in the dovetail groove.

Further, the cutter die holder further comprises a self-control shaft position screw, the bottom end of the self-control shaft position screw sequentially penetrates through the die holder, the slotted link plate and the pressure-regulating taper plate, the self-control shaft position screw is in clearance fit with the die holder and the slotted link plate, the bottom end of the self-control shaft position screw is clamped at the bottom end of the pressure-regulating taper plate, the self-control shaft position screw is prevented from moving upwards from the pressure-regulating taper bottom plate, and a pressure locking nut is mounted at the top end of the self-control shaft position screw; and one side of the die holder is provided with a pair of angle adjusting nut plates, each angle adjusting nut plate is provided with a handle screw, one end of each handle screw is connected with the slotted yoke plate in an abutting mode, and when the handle screws are adjusted after the pressure locking nuts are loosened, the slotted yoke plate rotates by taking the self-control shaft position screw as a rotation center.

Further, coupling assembling includes fluting tapering board pressure spring and forcing screw, forcing screw one end fixed mounting in the fluting yoke plate, its other end fixed mounting be in fluting tapering board, fluting tapering board pressure spring suit is in on the forcing screw, fluting tapering board pressure spring chucking is installed between forcing screw and the fluting tapering board.

Furthermore, a slotted sliding plate cover plate is further arranged on the outer side of the slotted sliding plate guide block and fixedly installed on the slotted sliding plate.

Further, the cutting die holder still includes spacing board behind spacing board and the tapering board before the tapering board, spacing board fixed mounting is in before the tapering board fluting yoke plate one side, spacing board is fixed behind the tapering board the opposite side of fluting yoke plate, the pressure regulating tapering board is located between spacing board behind spacing board and the tapering board before the tapering board, wherein spacing board behind spacing board and the tapering board is used for right the back-and-forth movement distance of pressure regulating tapering board carries on spacingly.

Furthermore, four groups of connecting components are arranged between the slotted yoke plate and the slotted taper plate at intervals.

Furthermore, the pressure regulating assembly further comprises a screw bearing seat, the screw bearing seat is fixedly installed on the front limiting plate of the taper plate, and the pressure regulating screw is installed in the screw bearing seat.

The utility model has the beneficial effects that:

1. according to the cutter die holder, the cutter die base plate and the cutter die base plate are fixed on the slotting tapered plate, the slotting connecting plate, the slotting tapered plate and the pressure regulating tapered plate are fixedly connected into a whole through the connecting assembly, and the slotting connecting plate is fixedly arranged at the bottom end of the die holder through a slotting connecting plate pressure spring, a shaft position pressurizing screw and a pressure regulating locknut; when the pressure regulating assembly is used for driving the pressure regulating taper plate to move back and forth, the total superposed thickness between the slotting taper plate and the pressure regulating taper plate is changed, and further the slotting taper plate pressure spring is correspondingly contracted, so that the cutting die base plate and the cutting die bottom plate are correspondingly and accurately moved in parallel in the height direction, namely, the die cutting depth of the cutting die is changed;

2. the cam follower is arranged on the cutting die bottom plate, the slotted slide plate guide block, the slotted slide plate, the slide plate height adjusting screw and the slide plate pressure spring are arranged on two sides of the slotted taper plate, when the cutting die bottom plate is arranged on the slotted taper plate, the cam follower is tightly clamped in the clamping groove arranged at the bottom end of the slotted slide plate, and the cam follower applies a pull-down acting force to the slotted slide plate to enable the slide plate pressure spring to be in a pull-down stressed state, so that the slide plate pressure spring simultaneously applies an upward reaction force to the cam follower, the cutting die bottom plate is tightly attached to the bottom surface of the slotted taper plate, and the stable pressure-bearing and gapless performance are ensured;

3. through passing the self-control axle position screw through the die holder, the fluting yoke plate and the pressure regulating tapering board to the self-control axle position screw forms little clearance fit with die holder and fluting yoke plate, forms the center of rotation, installs angle modulation nut board and handle screw simultaneously on the die holder, during the regulation, when loosening pressure locking nut back adjustment handle screw, the fluting yoke plate will use the axis of self-control axle position screw to rotate as the center of rotation, thereby the spare part synchronous revolution of fluting yoke plate below reaches the purpose of rotatory cutter.

Drawings

Fig. 1 is a schematic perspective view of a die holder of a die cutting machine according to an embodiment of the present application.

Fig. 2 is a schematic top view of a die holder of the die cutting machine according to an embodiment of the present application.

Fig. 3 is a schematic sectional view taken along the line a-a in fig. 2.

Fig. 4 is a schematic view of the cross-sectional structure along the direction B-B in fig. 2.

In the figure:

1-a die holder, 2-a slotted yoke plate, 3-a pressure-regulating taper plate, 4-a slotted taper plate, 5-a taper plate rear limiting plate, 6-a taper plate front limiting plate, 7-a pressure-regulating screw, 8-a screw bearing seat, 9-a bearing lock nut, 10-a pressure-regulating hand wheel, 11-a self-made axial position screw, 12-a pressure lock nut, 13-a nut handle, 14-an axial position pressure screw, 15-a slotted yoke plate pressure spring, 16-a pressure-regulating locknut, 17-an angle-regulating nut plate, 18-a handle screw, 19-a front and rear limiting plate connecting rod, 20-a slotted taper plate pressure spring, 21-a pressure screw, 22-a die backing plate, 23-a die bottom plate, 24-a dovetail plate, 25-a cam follower, 26-a slotted slide plate guide block, 27-a slotted sliding plate, 28-a slotted sliding plate cover plate, 29-a sliding plate height adjusting screw and 30-a sliding plate pressure spring.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1 to 4, the embodiment provides a die holder of a die cutting machine, which includes a die holder 1, a slotted yoke plate 2, a slotted taper plate 4, a pressure-regulating taper plate 3, an axial compression screw 14, a pressure-regulating locknut 16, a slotted yoke plate pressure spring 15, a connecting assembly, a die backing plate 22, a die base plate 23, and a pressure-regulating assembly.

The die holder 1 is fixed on the die cutting machine main body, the slotting connecting plate 2 is installed at the bottom end of the die holder 1, the slotting taper plate 4 is installed below the slotting connecting plate 2, a chute is formed between the slotting taper plate 4 and the slotting connecting plate 2, and the pressure regulating taper plate 3 is installed in the chute. In this embodiment, 2 top surfaces of fluting yoke plate and bottom are straight planar structure, and the top surface of pressure regulating tapering board 3 is straight planar structure, and bottom surface one side of pressure regulating tapering board 3 is provided with downwardly extending's square, and the top surface of fluting tapering board 4 is the inclined plane structure that has the inclination, and the setting on inclined plane is so that when pressure regulating tapering board 3 moved along the inclined plane back-and-forth movement of fluting tapering board 4, the total stack thickness of fluting tapering board 4 and pressure regulating tapering board 3 produced the change. It can be understood that the external shapes of the slotting tapered plate 4 and the pressure regulating tapered plate 3 are not limited, as long as it is ensured that when the pressure regulating tapered plate 3 moves along the length direction of the slotting tapered plate 4, the total superposed thickness between the slotting tapered plate 4 and the pressure regulating tapered plate 3 generates corresponding changes.

The slotting link plate 2 is fixedly connected with the die holder 1 through an axial position pressurizing screw 14, the pressure regulating and preventing nut 16 is installed at the top end of the axial position pressurizing screw 14, the slotting link plate pressure spring 15 is sleeved on the outer end face of the axial position pressurizing screw 14, the slotting link plate pressure spring 15 is installed between the pressure regulating and preventing nut 16 and the slotting link plate 2 and is used for applying spring acting force to the slotting link plate 2 and preventing the slotting link plate 2 from falling down to generate a gap with the die holder 1 when the pressure regulating and preventing nut 16 loosens. The slotting yoke plate 2, the pressure-regulating taper plate 3 and the slotting taper plate 4 are fixedly connected into a whole through a connecting component. The cutting die backing plate 22 is fixedly arranged at the bottom end of the slotting taper plate 4, and the cutting die bottom plate 23 is arranged at the bottom end of the cutting die backing plate 22. The pressure regulating assembly is connected with one side of the pressure regulating taper plate 3 and is used for driving the pressure regulating taper plate 3 to move along the end face of the slotting taper plate 4, so that the overlapping thickness of the slotting taper plate 4 and the pressure regulating taper plate 3 changes.

In some embodiments, the connection assembly includes a slotted taper plate compression spring 20 and a compression screw 21, one end of the compression screw 21 is fixedly installed on the slotted yoke plate 2, the other end of the compression screw is fixedly installed on the slotted taper plate 4, the slotted taper plate compression spring 20 is sleeved on the compression screw 21, and the slotted taper plate compression spring 20 is tightly clamped between the compression screw 21 and the slotted taper plate 4. In other embodiments, in order to further ensure the connection tightness, the connecting assemblies are four groups, and the four groups of connecting assemblies are arranged between the slotted yoke plate 2 and the slotted taper plate 4 at intervals.

When the die cutting depth of the die holder 1 needs to be adjusted, the pressure adjusting assembly is utilized to drive the pressure adjusting taper plate 3 to move back and forth, so that the total thickness of the superposition between the slotting taper plate 4 and the pressure adjusting taper plate 3 is changed, and further the slotting taper plate pressure spring 20 is correspondingly contracted, so that the die base plate 22 and the die base plate 23 are correspondingly and accurately moved in the height direction, and the die cutting depth of the cutting die is changed. In addition, the adjustment precision can be further improved by modifying the conicity of the slotted taper plate 4 and the pressure-regulating taper plate 3 and modifying the pressure-regulating component (the thread pitch of the pressure-regulating screw 7).

In some embodiments, the pressure regulating assembly comprises a pressure regulating screw 7, a bearing locking nut 9, a screw bearing seat 8 and a pressure regulating hand wheel 10, one end of the pressure regulating screw 7 is fixedly connected with one side of the pressure regulating taper plate 3, and the other end of the pressure regulating screw 7 is connected with the pressure regulating hand wheel 10. The pressure regulating screw 7 is installed in a screw bearing seat 8, and two thrust bearings and a deep groove ball bearing are installed in the screw bearing seat 8 and are positioned by a bearing locking nut 9, so that the axial and radial positioning of the pressure regulating screw 7 is ensured. The pressure regulating screw 7 is screwed into the pressure regulating taper plate 3, and the rear screw bearing seat 8 is fixed on the taper plate front limiting plate 6. The pressure regulating hand wheel 10 which is rotationally connected with the pressure regulating screw 7 can drive the pressure regulating taper plate 3 to move back and forth between the taper plate rear limiting plate 5 and the taper plate front limiting plate 6, so that the total thickness of the grooved taper plate 4 and the pressure regulating taper plate 3 is changed. In some embodiments, the front tapered plate limiting plate 6 is fixedly installed at one side of the slotted link plate 2, the rear tapered plate limiting plate 5 is fixed at the other side of the slotted link plate 2, and the front tapered plate limiting plate 6 and the rear tapered plate limiting plate 5 are also fixedly connected through a front limiting plate connecting rod 19 and a rear limiting plate connecting rod 19 for further ensuring the stability of the distance therebetween.

The pressure regulating taper plate 3 is positioned between the front taper plate limiting plate 6 and the rear taper plate limiting plate 5, wherein the front taper plate limiting plate 6 and the rear taper plate limiting plate 5 are used for limiting the front-back movement distance of the pressure regulating taper plate 3.

In order to ensure the connection tightness between the cutting die base plate 23 and the slotted taper plate 4, in some embodiments, a clamping assembly is arranged between the cutting die base plate 23 and the slotted taper plate 4 for clamping the cutting die base plate 23 and the slotted taper plate 4, and the clamping assembly comprises a dovetail plate 24 arranged on the top surface of the cutting die base plate 23 and a dovetail groove arranged at the bottom end of the slotted taper plate 4. The cutting die bottom plate 23 is tightly clamped and installed in a dovetail groove on the slotted taper plate 4 through a dovetail plate 24 so as to position the cutting die bottom plate 23 and prevent the cutting die bottom plate from accidentally falling to hurt people. Cam followers 25 are mounted on the left side face and the right side face of the cutting die bottom plate 23, slotted slide plate guide blocks 26, slotted slide plates 27, slotted slide plate cover plates 28, slide plate height adjusting screws 29 and slide plate pressure springs 30 are mounted on the left side and the right side of the slotted taper plate 4, the slotted slide plates 27 are fixedly mounted on the slotted taper plate 4, clamping grooves are formed in the bottom ends of the slotted slide plates 27, the cam followers 25 are tightly clamped and mounted in the clamping grooves, the slotted slide plate guide blocks 26 are slidably mounted in sliding grooves formed in the slotted slide plates 27, the slide plate height adjusting screws 29 are vertically mounted on the top ends of the slotted slide plates 27, the bottom ends of the slide plate height adjusting screws 29 are fixedly connected with the slotted slide plate guide blocks 26, and the slide plate pressure springs 30 are tightly mounted between the bottom ends of the slotted slide plates 27 and the top ends of the slotted slide plate guide blocks 26. A slotted slide cover 28 is fixedly mounted at the outer side of the slotted slide 27 for shielding the slotted slide guide block 26.

When the cutting die bottom plate 23 is installed on the slotting taper plate 4, the cam follower 25 is tightly clamped in a clamping groove formed in the bottom end of the slotting sliding plate 27, the cam follower 25 applies a pull-down acting force to the slotting sliding plate 27, so that the sliding plate pressure spring 30 is in a pull-down stressed state, the sliding plate pressure spring 30 simultaneously applies an upward reacting force to the cam follower 25, the cutting die bottom plate 23 is tightly attached to the bottom surface of the slotting taper plate 4, and the condition that pressure bearing is stable and gapless is guaranteed.

In some embodiments, the tool holder further comprises a self-control shaft position screw 11 and a nut handle 13 installed on the self-control shaft position screw 11, the bottom end of the self-control shaft position screw 11 sequentially penetrates through the tool holder 1, the slotted yoke plate 2 and the pressure-regulating taper plate 3, the self-control shaft position screw 11 is in clearance fit with the tool holder 1 and the slotted yoke plate 2, and the bottom end of the self-control shaft position screw 11 is clamped at the bottom end of the pressure-regulating taper plate 3 to prevent the self-control shaft position screw 11 from moving upwards from the pressure-regulating taper bottom plate. The pressure regulating taper plate 3 is provided with a long hole, and the pressure regulating taper plate 3 can move back and forth due to the arrangement of the long hole. The top end of the self-made shaft position screw 11 is provided with a pressure locking nut 12; one side of the die holder 1 is provided with a pair of angle adjusting nut plates 17, each angle adjusting nut plate 17 is provided with a handle screw 18, one end of each handle screw 18 is connected with the slotted link plate 2 in a butting way, when the handle screws 18 are adjusted after the pressure locking nuts 12 are loosened, the slotted link plate 2 rotates by taking the self-control axial screws 11 as a rotation center, and parts below the slotted link plate 2 synchronously rotate so as to achieve the purpose of rotating the cutting die; the mode of this kind of rotatory cutting die, its simple structure, easy operation and improved the cross cutting precision.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is intended to include such modifications and variations.

Claims (10)

1. The utility model provides a cross cutting machine die holder, the die holder includes the die holder, its characterized in that, the die holder still includes:

the slotted yoke plate is arranged at the bottom end of the die holder;

the slotting tapered plate is arranged below the slotting connecting plate, and an inclined groove is formed between the slotting tapered plate and the slotting connecting plate;

the pressure-regulating taper plate is arranged in the chute;

the slotted link plate is fixedly connected with the die holder through the shaft position pressurizing screw;

the pressure-regulating locknut is arranged at the top end of the shaft position pressurizing screw;

the shaft position compression screw is sleeved on the outer end face of the shaft position compression screw, and the shaft position compression screw is installed between the pressure regulating locknut and the shaft position compression screw and used for applying a spring acting force to the shaft position compression screw;

the connecting assembly is used for fixedly connecting the slotted yoke plate, the pressure regulating taper plate and the slotted taper plate into a whole;

the cutting die base plate is fixedly arranged at the bottom end of the slotting tapered plate;

the cutting die base plate is arranged at the bottom end of the cutting die base plate;

and the pressure regulating assembly is connected with one side of the pressure regulating taper plate and is used for driving the pressure regulating taper plate to move along the end face of the slotting taper plate, so that the superposition thickness of the slotting taper plate and the pressure regulating taper plate changes.

2. The tool holder according to claim 1, wherein the pressure adjusting assembly comprises a pressure adjusting screw and a pressure adjusting hand wheel, one end of the pressure adjusting screw is fixedly connected with one side of the pressure adjusting taper plate, and the other end of the pressure adjusting screw is connected with the pressure adjusting hand wheel.

3. The die holder according to claim 1, wherein a clamping assembly is arranged between the die base plate and the slotted taper plate for clamping the die base plate and the slotted taper plate, cam followers are fixedly arranged on two opposite sides of the cutting die bottom plate, a slotted sliding plate guide block, a slotted sliding plate, a sliding plate height adjusting screw and a sliding plate pressure spring are respectively arranged on two opposite sides of the slotted taper plate, the slotted sliding plate is fixedly arranged on the slotted taper plate, the bottom end of the slotted sliding plate is provided with a clamping groove, the cam follower is tightly clamped and arranged in the clamping groove, the slotted sliding plate guide block is slidably arranged in a sliding groove arranged on the slotted sliding plate, the sliding plate height adjusting screw is vertically arranged at the top end of the slotted sliding plate, the bottom end of the sliding plate height adjusting screw is fixedly connected with the slotted sliding plate guide block, and the sliding plate pressure spring is tightly clamped and installed between the bottom end of the slotted sliding plate and the top end of the slotted sliding plate guide block.

4. The die holder according to claim 3 wherein the clamping assembly comprises a dovetail plate disposed at the top end of the die base plate and a dovetail slot disposed at the bottom of the slotted taper plate, the dovetail plate being clampingly mounted within the dovetail slot.

5. The tool holder according to claim 2, further comprising a self-made axial position screw, wherein the bottom end of the self-made axial position screw sequentially penetrates through the tool holder, the slotted yoke plate and the pressure-regulating taper plate, the self-made axial position screw is in clearance fit with the tool holder and the slotted yoke plate, the bottom end of the self-made axial position screw is clamped at the bottom end of the pressure-regulating taper plate to prevent the self-made axial position screw from moving upwards from the pressure-regulating taper bottom plate, and a pressure locking nut is mounted at the top end of the self-made axial position screw; and one side of the die holder is provided with a pair of angle adjusting nut plates, each angle adjusting nut plate is provided with a handle screw, one end of each handle screw is connected with the slotted yoke plate in an abutting mode, and when the handle screws are adjusted after the pressure locking nuts are loosened, the slotted yoke plate rotates by taking the self-control shaft position screw as a rotation center.

6. The die holder according to claim 1, wherein the connecting assembly comprises a slotted taper plate pressure spring and a pressure screw, one end of the pressure screw is fixedly installed on the slotted yoke plate, the other end of the pressure screw is fixedly installed on the slotted taper plate, the slotted taper plate pressure spring is sleeved on the pressure screw, and the slotted taper plate pressure spring is installed between the pressure screw and the slotted taper plate in a clamping manner.

7. The tool holder of claim 3 wherein the slotted slide guide block is further provided with a slotted slide cover plate on an outer side thereof, the slotted slide cover plate being fixedly mounted on the slotted slide.

8. The tool holder of claim 5, further comprising a front taper plate limiting plate and a rear taper plate limiting plate, wherein the front taper plate limiting plate is fixedly mounted on one side of the slotted link plate, the rear taper plate limiting plate is fixedly mounted on the other side of the slotted link plate, and the pressure-regulating taper plate is located between the front taper plate limiting plate and the rear taper plate limiting plate, wherein the front taper plate limiting plate and the rear taper plate limiting plate are used for limiting the forward and backward movement distance of the pressure-regulating taper plate.

9. The die holder according to claim 6 wherein the connecting assemblies are four sets, and the four sets of connecting assemblies are spaced apart between the slotted yoke plate and the slotted taper plate.

10. The knife holder of claim 8, wherein the pressure adjustment assembly further comprises a screw bearing seat fixedly mounted on the tapered plate front limiting plate, and the pressure adjustment screw is mounted in the screw bearing seat.

Images