CN210647978U - Bearing washer processing is with punching press cutting equipment that has fixed knot to construct - Google Patents

Abstract

The utility model discloses a stamping and cutting device with a fixed structure for processing a bearing washer, which relates to the technical field of bearing washer processing and comprises a workbench and a stamping mechanism, wherein a support column is welded above the workbench, a top plate is fixed above the supporting column, the stamping mechanism is arranged above the top plate, a protection plate is arranged in front of the top plate, the stamping mechanism comprises a hydraulic cylinder, a lead screw and a stamping plate, the lead screw is arranged below the hydraulic cylinder, a stamping plate is arranged below the screw rod, a transparent protective cover is arranged in the middle of the protective plate and is connected with the protective plate through a hinge, a base is fixed below the workbench, and for the riveting between base and the workstation, the middle part top of workstation is provided with the shaping subassembly, and the below of shaping subassembly installs the removal subassembly, the beneficial effects of the utility model are that: the device is convenient for the installation and fixation of the stamping die through the arrangement of the clamping block and the clamping groove.

Description

Bearing washer processing is with punching press cutting equipment that has fixed knot to construct

Technical Field

The invention relates to the technical field of bearing washer processing, in particular to a stamping and cutting device with a fixing structure for processing a bearing washer.

Background

The bearing gasket is an annular part for the bearing, the stamping and cutting equipment is integrated processing equipment for stamping preparation and later cutting, along with the development of mechanization, the bearings of various types are widely used, the bearing gasket is an important part used by the bearing, and therefore the production and processing industry of the bearing gasket is gradually developed.

Although the internal tooth locking washer stamping device disclosed in chinese patent application publication CN 107470430 a can simultaneously stamp through the first internal tooth locking washer and the second internal tooth locking washer to accelerate the stamping efficiency of the first internal tooth locking washer and the second internal tooth locking washer, the washer stamping device does not have an effective buffering and limiting device in the stamping process, the stamping precision is not sufficient, and there is no corresponding stamping and cutting assembly, the edge of the stamping washer cannot be ensured to be neat, and the stamping quality is easily affected.

Disclosure of Invention

The invention aims to provide a punching and cutting device with a fixing structure for processing a bearing gasket, which aims to solve the problems that the gasket punching device provided by the background technology does not have an effective buffering and limiting device in the punching process, the punching precision is insufficient, a corresponding punching and cutting assembly is not provided, the edge of the punched gasket cannot be ensured to be neat, and the punching quality is easily influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a stamping and cutting device with a fixed structure for processing a bearing gasket comprises a workbench and a stamping mechanism, wherein a support column is welded above the workbench, a top plate is fixed above the support column, the stamping mechanism is installed above the top plate, a protection plate is installed in front of the top plate, the stamping mechanism comprises a hydraulic cylinder, a lead screw and a stamping plate, the lead screw is arranged below the hydraulic cylinder, the stamping plate is installed below the lead screw, a transparent protection cover is arranged in the middle of the protection plate, the transparent protection cover is connected with the protection plate through a hinge, a base is fixed below the workbench and riveted with the workbench, a forming assembly is arranged above the middle of the workbench, a moving assembly is installed below the forming assembly, a motor is installed on the other side above the top plate, and a hydraulic rod is fixed below the motor, cutting assembly is installed to the below of hydraulic stem, the top outside of shaping subassembly is provided with the bits groove, and the below in bits groove is fixed with the dead lever, the bottom of shaping subassembly is provided with the spacing subassembly of elasticity.

Preferably, the shaping subassembly is including stamping die, punching press chamber, layer board, electric putter, holding ring, anti-skidding flange, mount, fixture block and draw-in groove, stamping die's inboard is provided with the punching press chamber, and stamping die's below installs the layer board, the below of layer board is fixed with electric putter, the holding ring is installed in the middle part outside of shaping subassembly, and the below of holding ring is fixed with anti-skidding flange, the mount is installed on the right side of holding ring, stamping die's both sides are fixed with the fixture block, and the outside of fixture block is provided with the draw-in groove.

Preferably, the stamping die forms a clamping structure through the clamping block and the clamping groove, the clamping block and the clamping groove are identical in size, the symmetry center of the supporting plate is overlapped with the symmetry center of the stamping die, and the supporting plate forms a lifting structure through the electric push rod.

Preferably, the moving assembly comprises a moving base, a sliding block, a sliding groove, a fixed block and a positioning column, the sliding block is fixed below the moving base, the sliding groove is formed in the outer side of the lower portion of the sliding block, the fixed block is welded to the two sides of the moving base, and the positioning column is installed on one side of the upper portion of the moving base.

Preferably, the movable base forms a sliding structure through the sliding block and the sliding groove, and the positioning column above the movable base forms a detachable structure through the bolt and the fixed frame.

Preferably, the cutting assembly is including cutting knife rest, rotatory axle sleeve, fixed axle, locating plate, telescopic link, cutter arbor and cutting the sword, the below of cutting knife rest is fixed with rotatory axle sleeve, and installs the fixed axle below the inboard of rotatory axle sleeve, the bottom of fixed axle is fixed with the locating plate, the telescopic link is installed to the both sides of cutting knife rest, and the top welding of telescopic link has the cutter arbor, the below of cutter arbor is installed and is cut the sword.

Preferably, the telescopic rods are symmetrical about the vertical center line of the cutting knife rest, and the cutting knife rest forms a rotating structure through a hydraulic rod.

Preferably, the elastic limiting assembly comprises a limiting block and a telescopic spring, the limiting block is installed on the outer side of the lower portion of the forming assembly, and the telescopic spring is welded at the bottom of the forming assembly.

Preferably, the telescopic springs are equidistantly distributed at the bottom of the forming assembly, and the outer side of the lower part of the forming assembly is symmetrically and uniformly distributed with limiting blocks.

The invention provides a stamping and cutting device with a fixing structure for processing a bearing gasket, which has the following beneficial effects:

1. the clamping block and the clamping groove are arranged, so that the stamping die is convenient to mount and fix, the stamping die is convenient to mount and fix through the clamping structure formed between the clamping block and the clamping groove, the stamping die is prevented from being influenced by movement of the stamping die, the clamping block and the clamping groove are identical in size, and the stamping die is convenient to mount stably through the mutual matching between the clamping block and the clamping groove.

2. According to the invention, the supporting plate is convenient to lift and discharge the stamping die, the symmetric center of the supporting plate is superposed with the symmetric center of the stamping die, the stamping die is convenient to be supported by the supporting plate, the supporting plate forms a lifting structure through the electric push rod, and the supporting plate is convenient to be lifted through the electric push rod after the stamping is finished so as to take out the stamping die above the supporting plate.

3. The movable base is arranged to conveniently drive the position of the forming assembly to move, the movable base forms a sliding structure through the sliding block and the sliding groove, the sliding block and the sliding groove are matched with each other to drive the movable base to move, the positioning column forms a detachable structure through the bolt and the fixed frame, the fixed frame and the forming assembly and the movable assembly are conveniently detached through the bolt, and the fixed frame and the forming assembly and the movable assembly are convenient to disassemble, assemble and maintain.

4. According to the invention, the telescopic rods are arranged to conveniently adjust the positions of the cutter bar and the cutting knife so as to adapt to bearing gaskets with different diameters, the telescopic rods are symmetrical about the vertical central line of the cutting knife rest, so that the two groups of telescopic rods are conveniently and symmetrically installed, the cutting efficiency is accelerated, the cutting knife rest forms a rotating structure through the hydraulic rod, and the cutting knife rest and the cutting knife are conveniently driven to rotate through the rotation of the hydraulic rod, so that the outer side of the annular gasket is uniformly cut.

5. The forming assembly is convenient to buffer and the installation stability of the forming assembly is enhanced through the arrangement of the telescopic springs, the telescopic springs are equidistantly distributed at the bottom of the forming assembly, the telescopic springs are convenient to buffer the forming assembly, the bottom compression condition of the forming assembly is relieved, the vibration condition of the forming assembly in the use process is avoided, and the limiting blocks are symmetrically and uniformly distributed on the outer side below the forming assembly, so that the four groups of limiting blocks can limit the forming assembly, and the displacement of the forming assembly is prevented from influencing the stamping and cutting precision.

Drawings

FIG. 1 is a schematic structural diagram of a stamping and cutting apparatus with a fixing structure for processing a bearing washer according to the present invention in a front view;

FIG. 2 is a schematic structural diagram of the back of a stamping and cutting device with a fixing structure for processing a bearing gasket according to the present invention;

FIG. 3 is a schematic structural diagram of a cutting assembly of a punching and cutting apparatus with a fixing structure for processing a bearing washer according to the present invention;

FIG. 4 is a schematic structural diagram of a forming assembly of a stamping and cutting device with a fixing structure for processing a bearing gasket according to the present invention;

fig. 5 is a schematic partial enlarged structural view of a part a of the punching and cutting device with a fixing structure for processing the bearing washer.

In the figure: 1. a base; 2. a work table; 3. a support pillar; 4. a top plate; 5. a protection plate; 6. a transparent protective cover; 7. a stamping mechanism; 701. a hydraulic cylinder; 702. a lead screw; 703. stamping the plate; 8. a molding assembly; 801. a stamping die; 802. punching a cavity; 803. a support plate; 804. an electric push rod; 805. a positioning ring; 806. an anti-slip raised plate; 807. a fixed mount; 808. a clamping block; 809. a card slot; 9. a moving assembly; 901. a movable base; 902. a slider; 903. a chute; 904. a fixed block; 905. a positioning column; 10. an electric motor; 11. a hydraulic lever; 12. cutting the assembly; 1201. cutting the cutter frame; 1202. rotating the shaft sleeve; 1203. a fixed shaft; 1204. positioning a plate; 1205. a telescopic rod; 1206. a cutter bar; 1207. cutting knife; 13. a scrap groove; 14. fixing the rod; 15. an elastic limit component; 1501. a limiting block; 1502. a telescoping spring.

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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1-5, the present invention provides a technical solution: a punching and cutting device with a fixed structure for processing a bearing gasket comprises a base 1, a workbench 2, a supporting column 3, a top plate 4, a protection plate 5, a transparent protection cover 6, a punching mechanism 7, a hydraulic cylinder 701, a lead screw 702, a punching plate 703, a forming assembly 8, a punching die 801, a punching cavity 802, a supporting plate 803, an electric push rod 804, a positioning ring 805, an anti-skidding convex plate 806, a fixing frame 807, a clamping block, a clamping groove 809, a moving assembly 9, a moving base 901, a sliding block 902, a sliding groove 903, a fixing block 904, a positioning column 905, a motor 10, a hydraulic rod 11, a cutting assembly 12, a cutting knife rest 1201, a rotating shaft sleeve 1202, a fixing shaft 1203, a positioning plate 1204, a telescopic rod 1205, a knife bar 1206, a cutting knife 1207, a scrap groove 13, a fixing rod 14, an elastic limiting assembly 15, a limiting block 1501 and a telescopic spring 1502, wherein the supporting column 3 is welded on, the stamping mechanism 7 is arranged above the top plate 4, the protection plate 5 is arranged in front of the top plate 4, the stamping mechanism 7 comprises a hydraulic cylinder 701, a screw 702 and a stamping plate 703, the screw 702 is arranged below the hydraulic cylinder 701, and the stamping plate 703 is arranged below the screw 702;

the middle part of the protection plate 5 is provided with a transparent protection cover 6, the transparent protection cover 6 is connected with the protection plate 5 through a hinge, a base 1 is fixed below the workbench 2, the base 1 is riveted with the workbench 2, a forming assembly 8 is arranged above the middle part of the workbench 2, a moving assembly 9 is arranged below the forming assembly 8, the forming assembly 8 comprises a stamping die 801, a stamping cavity 802, a supporting plate 803, an electric push rod 804, a positioning ring 805, an anti-skid convex plate 806, a fixing frame 807, a clamping block 808 and a clamping groove 809, the stamping cavity 802 is arranged on the inner side of the stamping die 801, the supporting plate 803 is arranged below the stamping die 801, the electric push rod 804 is fixed below the supporting plate 803, the positioning ring 805 is arranged on the outer side of the middle part of the forming assembly 8, the anti-skid convex plate 806 is fixed below the positioning ring 805, the fixing frame 807 is arranged on the right side of the positioning ring 805, the clamping blocks 808, and a clamping groove 809 is arranged on the outer side of the clamping block 808;

the stamping die 801 forms a clamping structure through the clamping blocks 808 and the clamping grooves 809, the clamping structures between the clamping blocks 808 and the clamping grooves 809 are matched, the stamping die 801 is convenient to mount and fix through the clamping structures formed between the clamping blocks 808 and the clamping grooves 809, the clamping structures between the clamping blocks 808 and the clamping grooves 809 are convenient to mount and fix through the mutual matching between the clamping blocks 808 and the clamping grooves 809, the symmetry center of the supporting plate 803 is overlapped with the symmetry center of the stamping die 801, the supporting plate 803 forms a lifting structure through the electric push rod 804, the symmetry center of the supporting plate 803 is overlapped with the symmetry center of the stamping die 801 so as to support the stamping die 801 through the supporting plate 803, and the lifting structure formed through the electric push rod 804 is convenient to lift the supporting plate 803 through the electric push rod 804 after the stamping is completed so as to take out the stamping die 801 above the supporting plate;

the moving assembly 9 comprises a moving base 901, a sliding block 902, a sliding groove 903, a fixed block 904 and a positioning column 905, wherein the sliding block 902 is fixed below the moving base 901, the sliding groove 903 is arranged on the outer side below the sliding block 902, the fixed block 904 is welded on both sides of the moving base 901, the positioning column 905 is installed on one side above the moving base 901, the moving base 901 forms a sliding structure through the sliding block 902 and the sliding groove 903, the positioning column 905 above the moving base 901 forms a detachable structure through a bolt and a fixing frame 807, the moving base 901 forms the sliding structure through the sliding block 902 and the sliding groove 903 so as to drive the moving base 901 to move through the mutual matching between the sliding block 902 and the sliding groove 903, the positioning column 905 forms the detachable structure through the bolt and the fixing frame 807 so as to detach the fixing frame 807 together with the forming assembly 8 and the moving assembly, the disassembly, the assembly and the maintenance of the two are convenient;

a motor 10 is installed on the other side above the top plate 4, a hydraulic rod 11 is fixed below the motor 10, a cutting assembly 12 is installed below the hydraulic rod 11, the cutting assembly 12 comprises a cutting knife rest 1201, a rotating shaft sleeve 1202, a fixed shaft 1203, a positioning plate 1204, an expansion rod 1205, a knife bar 1206 and a cutting knife 1207, the rotating shaft sleeve 1202 is fixed below the cutting knife rest 1201, the fixed shaft 1203 is installed below the inner side of the rotating shaft sleeve 1202, the positioning plate 1204 is fixed at the bottom of the fixed shaft 1203, the expansion rods 1205 are installed on two sides of the cutting knife rest 1201, the knife bar 1206 is welded at the top end of the expansion rod 1205, the cutting knives 1207 are installed below the knife bar 1206, the expansion rods 1205 are symmetrical with respect to the vertical center line of the cutting knife rest 1201, the cutting knife rest 1201 forms a rotating structure through the hydraulic rod 11, and the two expansion rods 1205 are symmetrical with respect to the vertical center line of the cutting knife rest, the cutting efficiency is improved, the cutting knife rest 1201 forms a rotating structure through the hydraulic rod 11, so that the cutting knife rest 1201 and the cutting knife 1207 are driven to rotate through the rotation of the hydraulic rod 11, and the outer side of the annular gasket is cut uniformly;

chip grooves 13 are formed in the outer side of the upper portion of the forming assembly 8, fixing rods 14 are fixed below the chip grooves 13, an elastic limiting assembly 15 is arranged at the bottom of the forming assembly 8, the elastic limiting assembly 15 comprises a limiting block 1501 and a telescopic spring 1502, a limiting block 1501 is installed on the outer side of the lower portion of the forming assembly 8, the telescopic spring 1502 is welded at the bottom of the forming assembly 8, the telescopic spring 1502 is equidistantly distributed at the bottom of the forming assembly 8, the limiting blocks 1501 are symmetrically and uniformly distributed on the outer side of the lower portion of the forming assembly 8, the telescopic spring 1502 is equidistantly distributed at the bottom of the forming assembly 8, so that the telescopic spring 1502 can buffer the forming assembly 8, the bottom compression condition of the forming assembly 8 is reduced, meanwhile, the situation that the forming assembly 8 vibrates in the using process is avoided, the stability is enhanced, the limiting blocks 1501 are symmetrically and uniformly distributed on the outer side of the lower portion of the forming assembly 8, prevent that the displacement of shaping subassembly 8 from influencing punching press cutting accuracy.

To sum up, when the punching and cutting device with the fixing structure for processing the bearing washer is used, firstly, the punching material of the bearing washer can be arranged in the punching cavity 802 of the punching die 801, then the moving component 9 and the forming component 8 are moved to the position under the punching plate 703, the fixing block 904 of the moving component 9 is fixed on the workbench 2 through the bolt, then the hydraulic cylinder 701 is started, the hydraulic cylinder 701 drives the lead screw 702 to descend, so as to drive the punching plate 703 to punch the bearing washer, in the process, the positioning ring 805 and the fixing frame 807 can fix the forming component 8, meanwhile, the anti-skid convex plate 806 can prevent the positioning ring 805 from sliding downwards, the telescopic spring 1502 can play a buffering role on the forming component 8, the bottom compression situation of the forming component 8 is reduced, and the situation that the forming component 8 vibrates in the using process is avoided, the four sets of limiting blocks 1501 can limit the forming assembly 8, prevent the displacement of the forming assembly 8 from influencing the punching and cutting precision, after punching and forming, the displacement of the movable base 901 can be driven through the mutual cooperation between the sliding block 902 and the sliding groove 903, after the movable base 901 is moved to the position under the cutting assembly 12, the fixed block 904 of the movable assembly 9 is fixed on the workbench 2 through bolts again, then the length of the hydraulic rod 11 is adjusted, so that the positioning plate 1204 under the fixed shaft 1203 is tightly attached to the bearing washer, then the lengths of the two sets of telescopic rods 1205 are adjusted according to the diameter of the bearing washer, then the motor 10 is started, so that the motor 10 drives the hydraulic rod 11 to rotate, thereby driving the cutting assembly 12 and the cutting knife rest 1201 to rotate, and the knife bar 1206 and the cutting knife 1207 on the two sides of the cutting knife rest 1201 rotate to cut the edge, in the process, the rotating shaft sleeve 1202 can rotate relative to the fixed shaft 1203, that is, the cutting tool rest 1201 and the rotating shaft sleeve 1202 rotate, and the fixed shaft 1203 presses the bearing washer to keep a static state, so that the positioning plate 1204 always presses the bearing washer in the rotating process of the cutting tool rest 1201, the bearing washer is prevented from being offset, the cut of the bearing washer is ensured to be neat, the cutting quality is improved, after the cutting is finished, the electric push rod 804 can be started, the electric push rod 804 raises the supporting plate 803 so as to take out the stamping die 801 above the supporting plate 803, the chips generated by the cutting can enter the annular chip groove 13 on the outer side, after the use is finished, the fixed rod 14 and the chip groove 13 can be detached from the moving base 901 so as to clean the chips in the chip groove 13, and in the whole stamping and cutting process, the protection plate 5 and the transparent protection cover 6 can both protect workers, the fixing frame 807, the forming component 8 and the moving component 9 can be detached from each other through bolts, so that the fixing frame and the forming component 8 can be disassembled and maintained at regular intervals, and the using process of the whole punching and cutting equipment with the fixing structure for processing the bearing gasket is completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a bearing washer processing is with punching press cutting equipment that has fixed knot constructs, includes workstation (2) and punching press mechanism (7), its characterized in that: the upper part of the workbench (2) is welded with a support column (3), a top plate (4) is fixed above the support column (3), a stamping mechanism (7) is installed above the top plate (4), a protection plate (5) is installed in front of the top plate (4), the stamping mechanism (7) comprises a hydraulic cylinder (701), a lead screw (702) and a stamping plate (703), the lead screw (702) is arranged below the hydraulic cylinder (701), the stamping plate (703) is installed below the lead screw (702), the middle part of the protection plate (5) is provided with a transparent protection cover (6), the transparent protection cover (6) is connected with the protection plate (5) through a hinge, a base (1) is fixed below the workbench (2), the base (1) is riveted with the workbench (2), and a forming assembly (8) is arranged above the middle part of the workbench (2), and the below of shaping subassembly (8) is installed and is removed subassembly (9), motor (10) are installed to the top opposite side of roof (4), and the below of motor (10) is fixed with hydraulic stem (11), cutting components (12) are installed to the below of hydraulic stem (11), the top outside of shaping subassembly (8) is provided with chip groove (13), and the below of chip groove (13) is fixed with dead lever (14), the bottom of shaping subassembly (8) is provided with elasticity spacing subassembly (15).

2. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 1, wherein: the forming assembly (8) comprises a stamping die (801), a stamping cavity (802), a supporting plate (803), an electric push rod (804), a positioning ring (805), an anti-skidding convex plate (806), a fixing frame (807), a clamping block (808) and a clamping groove (809), wherein the stamping cavity (802) is arranged on the inner side of the stamping die (801), the supporting plate (803) is arranged below the stamping die (801), the electric push rod (804) is fixed below the supporting plate (803), the positioning ring (805) is arranged on the outer side of the middle of the forming assembly (8), the anti-skidding convex plate (806) is fixed below the positioning ring (805), the fixing frame (807) is arranged on the right side of the positioning ring (805), the clamping blocks (808) are fixed on two sides of the stamping die (801), and the clamping groove (809) is arranged on the outer side of the clamping block (808).

3. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 2, wherein: the stamping die (801) forms a clamping structure through the clamping blocks (808) and the clamping grooves (809), the clamping blocks (808) are matched with the clamping grooves (809) in size, the symmetric center of the supporting plate (803) is overlapped with the symmetric center of the stamping die (801), and the supporting plate (803) forms a lifting structure through the electric push rod (804).

4. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 1, wherein: the movable assembly (9) comprises a movable base (901), a sliding block (902), a sliding groove (903), a fixing block (904) and a positioning column (905), the sliding block (902) is fixed below the movable base (901), the sliding groove (903) is formed in the outer side of the lower portion of the sliding block (902), the fixing block (904) is welded to the two sides of the movable base (901), and the positioning column (905) is installed on one side of the upper portion of the movable base (901).

5. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 4, wherein: the movable base (901) forms a sliding structure with the sliding groove (903) through the sliding block (902), and a positioning column (905) above the movable base (901) forms a detachable structure with the fixed frame (807) through a bolt.

6. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 1, wherein: cutting subassembly (12) including cutting knife rest (1201), rotatory axle sleeve (1202), fixed axle (1203), locating plate (1204), telescopic link (1205), cutter arbor (1206) and cut sword (1207), the below of cutting knife rest (1201) is fixed with rotatory axle sleeve (1202), and installs fixed axle (1203) below the inboard of rotatory axle sleeve (1202), the bottom of fixed axle (1203) is fixed with locating plate (1204), telescopic link (1205) are installed to the both sides of cutting knife rest (1201), and the top welding of telescopic link (1205) has cutter arbor (1206), the below of cutter arbor (1206) is installed and is cut sword (1207).

7. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 6, wherein: the telescopic rods (1205) are symmetrical about the vertical center line of the cutting knife rest (1201), and the cutting knife rest (1201) forms a rotating structure through the hydraulic rod (11).

8. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 1, wherein: the elastic limiting assembly (15) comprises a limiting block (1501) and a telescopic spring (1502), the limiting block (1501) is installed on the outer side of the lower portion of the forming assembly (8), and the telescopic spring (1502) is welded at the bottom of the forming assembly (8).

9. The punching and cutting device with the fixing structure for processing the bearing gasket as claimed in claim 8, wherein: the telescopic springs (1502) are equidistantly distributed at the bottom of the forming assembly (8), and the outer sides of the lower part of the forming assembly (8) are symmetrically and uniformly distributed with limiting blocks (1501).

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