CN218476090U - Shearing blade assembly of horizontal particle shearing machine - Google Patents

Abstract

The utility model discloses a shearing blade component of a horizontal particle shearing machine, which comprises a fixed cutter component and a movable cutter component, wherein the fixed cutter component comprises a fixed cutter mounting base plate which is vertically arranged and a fixed cutter which is fixed at the lower position of the front side of the fixed cutter mounting base plate; the lower end of the fixed blade is provided with N rectangular block-shaped cutting teeth which are uniformly arranged at intervals, the front end of the movable blade mounting base plate extends forwards to be provided with N-1 guide strips which are uniformly arranged at intervals, and the upper plane of the movable blade mounting base plate is transversely provided with a blade mounting groove for mounting a strip-shaped movable blade; n block-shaped movable blades are transversely arranged on the movable blade mounting seat plate at intervals on the upper plane behind the strip-shaped movable blades; the block-shaped cutting teeth and the block-shaped movable blades are staggered in the front-back direction. The utility model discloses a continuous granule of old and useless steel is cuted.

Description

Shearing blade assembly of horizontal particle shearing machine

Technical Field

The utility model relates to a cutter technical field, concretely relates to horizontal granule cutter's shearing blade subassembly.

Background

The shearing machine is a mechanical device for shearing waste steel. The recycled waste steel is cut into materials with uniform specifications, so that the waste steel is greatly convenient to recycle.

A typical shearing machine in the prior art is a gantry shearing machine, which includes a gantry type frame, a guide rail disposed on the frame, and an upper tool apron and a lower tool apron disposed on the frame, wherein the lower tool apron is fixed on the frame, the upper tool apron is movably disposed on the guide rail and can move up and down along the guide rail by being driven by a shearing cylinder connected to the upper tool apron, and the upper tool apron and the lower tool apron are respectively provided with an upper shearing blade and a lower shearing blade. A material pressing oil cylinder is further arranged on a rack of the gantry shearing machine, a material box and a material pushing oil cylinder are further connected beside the rack, waste steel is placed in the material box in advance during operation, the waste steel is pushed into a position between the shearing blades of the upper cutter holder and the lower cutter holder through the material pushing oil cylinder and is fixed through the material pressing oil cylinder, then the upper cutter holder moves downwards under the action of the shearing oil cylinder, mutual opposite shearing of the upper shearing blade and the lower shearing blade is achieved, and therefore the waste steel is sheared.

However, the gantry shearing machine in the prior art has the following problems when in use: the size of the material cut by the gantry shearing machine is large, and the material cannot be sheared into a small particle shape, so that the recycling of the waste material is not facilitated.

Therefore, there is a need to develop a granule shearing machine and a shearing blade assembly capable of shearing waste steel into small granule materials to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a horizontal granule cutter's shearing blade subassembly aims at realizing the continuous particle shearing of old and useless steel. The specific technical scheme is as follows:

a shearing blade assembly of a horizontal particle shearing machine comprises a fixed blade assembly and a movable blade assembly, wherein the fixed blade assembly comprises a fixed blade mounting base plate which is vertically arranged and a fixed blade which is fixed at the lower part of the front face of the fixed blade mounting base plate, and the movable blade assembly comprises a movable blade mounting base plate which is horizontally arranged and a strip-shaped movable blade and N block-shaped movable blades which are arranged at the front part of the upper end face of the movable blade mounting base plate; the lower end of the fixed blade is provided with N rectangular block-shaped cutting teeth which are uniformly arranged at intervals, the front end of the movable blade mounting base plate extends forwards to be provided with N-1 guide bars which are uniformly arranged at intervals, a blade mounting groove is formed in the plane position, located on the rear end of each guide bar, of the movable blade mounting base plate, the blade mounting groove is transversely arranged relative to the guide bars, and the strip-shaped movable blade is mounted in the blade mounting groove; the N movable blade blocks are transversely arranged on the movable blade mounting seat plate at intervals on the plane behind the strip-shaped movable blade; the N block-shaped cutting teeth on the fixed blade and the N block-shaped movable blades are arranged in a staggered mode in the front-back direction, and the N block-shaped cutting teeth and the N block-shaped movable blades are arranged in an inserted mode in the front-back direction during cutting.

The utility model discloses in, mutual interpolation setting means moving the in-process that the sword subassembly moved forward and form the cutting action, and during its cubic movable blade can correspond the neutral gear that enters into between two adjacent cubic cutting teeth on the stationary blade, cubic cutting teeth on the stationary blade also can correspond and enter into the neutral gear between two adjacent cubic movable blades.

The utility model discloses in, the lower extreme interval of stationary knife installation bedplate is provided with N and leans on the piece, the back of the body lateral part position correspondence of N block form cutting teeth leans on the piece N leans on.

Preferably, the fixed knife installation base plate and the movable knife installation base plate are arranged perpendicular to each other, the lower end of the fixed knife installation base plate is close to the front end of the movable knife installation base plate, and the lower end cutting edges of the N block-shaped cutting teeth on the fixed knife installation base plate and the front end cutting edges of the strip-shaped movable knife blades on the movable knife installation base plate are located at the same height position and form a mutual opposite shearing state in the front-back direction during cutting.

The utility model discloses in, the up end rear portion position interval that moves sword installation bedplate is provided with N and supports and lean on the strip, N block form moves sword piece rear side position and corresponds respectively to support and lean on N supports and leans on the leading flank of strip.

The utility model discloses in, be provided with the screw hole on stationary blade, strip movable blade and the N cubic movable blade respectively, the stationary blade passes through the fix with screw on the stationary blade installation bedplate, strip movable blade and N cubic movable blade are respectively through the fix with screw on the movable blade installation bedplate.

The utility model discloses in, the back mounting of stationary knife installation bedplate is on the vertical support plate of horizontal granule cutter frame.

In the utility model, the lower end face of the movable cutter mounting base plate is movably arranged on a horizontal support plate of a horizontal particle shearing machine frame.

In the utility model, a discharge port is formed between the lower end of the vertical supporting plate and the upper end face of the horizontal supporting plate.

Preferably, a blanking plate is arranged on the frame of the horizontal type granule shearing machine, and the blanking plate is abutted against one end of the discharge hole of the horizontal support plate and is arranged in a downward inclination manner.

The utility model discloses in, the right angle step has been seted up to the positive lower part position of stationary knife installation bedplate set up the caulking groove of a plurality of quantity on the upper portion step face of right angle step, the upper end of stationary blade is provided with the cog of a plurality of quantity, the stationary blade is installed in the right angle step, just the cog of stationary blade is set in correspondingly in the caulking groove of stationary knife installation bedplate.

Preferably, the block-shaped movable blade is a block-shaped diamond-shaped movable blade.

Preferably, the front end cutting edge of the strip-shaped movable blade and the front end cutting edge of the block-shaped rhombic movable blade are inclined at a certain angle relative to the front face of the fixed blade in the horizontal direction so as to reduce cutting resistance.

The utility model discloses in, the quantity N of cubic cutting teeth on the stationary blade and the quantity N of cubic movable blade can be set for according to the size of cutter specification.

Preferably, N =3 to 10 may be set for a small and medium-sized horizontal particle cutter. More preferably, N =5 is set.

The utility model discloses in, move the rear end of sword installation bedplate 5 and fix on the sword row, the both sides of sword row are removed and are set up on the guide rail of horizontal granule cutter frame both sides, thereby the rear end of sword row is connected the realization with the power part on the horizontal granule cutter and moves the back-and-forth movement of sword subassembly.

The utility model discloses a use method as follows:

(1) Mounting the blade assembly: the fixed knife assembly in the shearing blade assembly is arranged on a vertical supporting plate of a horizontal type particle shearing machine frame, the movable knife assembly in the shearing blade assembly is arranged and connected to a power part of the horizontal type particle shearing machine, and the movable knife mounting base plate in the movable knife assembly is movably arranged on a horizontal supporting plate of the horizontal type particle shearing machine frame.

(2) Feeding: adding a waste steel plate into a feed hopper at the upper part of the horizontal particle shearing machine, so that the waste steel plate is inserted downwards along an inlet of the feed hopper and positioned into a cutting space formed by a fixed cutter assembly and a movable cutter assembly, one surface of the waste steel plate is abutted against the plane of the fixed cutter, and the lower side of the waste steel plate is abutted against the upper end face of the front part of the movable cutter mounting base plate;

(3) Primary particle shearing: the power part of the horizontal type particle shearing machine pushes the moving blade assembly to move forwards to shear the waste steel plate, N block-shaped moving blades on the moving blade assembly respectively cut into the waste steel plate, N small particle blocks are cut from the waste steel plate, N small particle blocks which are not cut and are arranged at intervals are left at the lower end of the waste steel plate, and N-1 neutral stops and a notch positioned on one side are formed among the N small particle blocks which are not cut;

(4) Blanking: after the first particle shearing is finished, the movable cutter component retreats and the lower end of the waste steel plate is opposite to the guide strip of the lower movable cutter component; the uncut waste steel plate moves downwards, so that N-1 neutral gears at the lower end of the waste steel plate straddle the N-1 guide strips below the waste steel plate;

(5) And (3) secondary particle shearing: the movable cutter component moves forward, and under the cutting action of the strip-shaped movable cutter blade at the front end of the movable cutter component, N small particle blocks which are not cut at the lower end of the waste steel plate are cut by the strip-shaped movable cutter blade;

(6) Continuous cyclic shearing: and (5) repeating the steps (3) to (5) to realize continuous circular shearing of the waste steel plate.

The utility model discloses in, the downstream of old and useless steel sheet is realized through the gravity of old and useless steel sheet self, perhaps realizes through cutter operating personnel's manual supplementary material operation that pushes away.

Preferably, a downward pushing mechanism can be arranged on the hopper to realize automatic pushing, so that the waste steel plate is moved downwards in a stepping manner.

The utility model discloses in, the cubic material of tiny particle that downcuts through shearing blade subassembly is exported from the discharge gate of cutter to in the blanking plate that sets up through the slope derives to the workbin.

The utility model has the advantages that: the shearing blade assembly structure with the special design realizes continuous particle shearing of the waste steel, overcomes the defects that the material sheared by the conventional gantry shearing machine has larger size and can not be sheared into small particle shapes, and is favorable for promoting the recycling of the waste steel.

Drawings

Fig. 1 is a schematic structural view (plan view) of a shear blade assembly of a horizontal pellet shearing machine according to the present invention;

fig. 2 is a schematic structural view (three-dimensional view) of a shear blade assembly of a horizontal pellet shearing machine according to the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 with the upper half removed;

fig. 4 is a schematic structural view of the stationary knife assembly in the upper half of fig. 2.

In the figure: 1. the fixed cutter assembly, 2, move the sword subassembly, 3, fixed cutter installation bedplate, 4, the stationary blade, 5, move sword installation bedplate, 6, strip movable blade, 7, cubic movable blade, 8, cubic cutting teeth, 9, the gib block, 10, the blade mounting groove, 11, the neutral stop, 12, lean on the piece, 13, support to lean on the strip, 14, the screw hole, 15, vertical support plate, 16, horizontal support plate, 17, the discharge gate, 18, blanking plate, 19, right angle step, 20, the caulking groove, 21, the cog.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Fig. 1 to 4 show an embodiment of a shearing blade assembly of a horizontal type particle shearing machine according to the present invention, which includes a stationary blade assembly 1 and a moving blade assembly 2, wherein the stationary blade assembly 1 includes a stationary blade mounting seat plate 3 vertically disposed and a stationary blade 4 fixed at a lower position of a front surface of the stationary blade mounting seat plate 3, and the moving blade assembly 2 includes a moving blade mounting seat plate 5 horizontally disposed and a strip-shaped moving blade 6 and N block-shaped moving blades 7 disposed at a front position of an upper end surface of the moving blade mounting seat plate 5; the lower end of the fixed blade 4 is provided with N rectangular block-shaped cutting teeth 8 which are uniformly arranged at intervals, the front end of the movable blade mounting seat plate 5 extends forwards to be provided with N-1 guide bars 9 which are uniformly arranged at intervals, a blade mounting groove 10 is formed in the upper plane position of the rear end of each guide bar 9 on the movable blade mounting seat plate 5, the blade mounting groove 10 is transversely arranged relative to the guide bars 9, and the strip-shaped movable blade 6 is mounted in the blade mounting groove 10; the movable blade mounting base plate 5 is provided with N movable blades 7 which are transversely arranged at intervals on the upper plane position behind the strip-shaped movable blade 6; the N block-shaped cutting teeth 8 on the fixed blade 4 and the N block-shaped movable blades 7 are staggered from each other in the front-back direction, and the N block-shaped cutting teeth 8 and the N block-shaped movable blades 7 are arranged in an interdigitating manner in the front-back direction during cutting.

In this embodiment, the mutually-inserted arrangement means that in the process that the movable blade assembly 2 moves forward to form a cutting action, the block-shaped movable blades 7 can correspondingly enter the hollow 11 between two adjacent block-shaped cutting teeth 8 on the fixed blade 4, and the block-shaped cutting teeth 8 on the fixed blade 4 can also correspondingly enter the hollow 11 between two adjacent block-shaped movable blades 6.

In this embodiment, the lower end of the fixed blade mounting seat plate 3 is provided with N abutment blocks 12 at intervals, and the back side portions of the N block-shaped cutting teeth 8 are correspondingly abutted against the N abutment blocks 12.

Preferably, the fixed knife installation seat plate 3 and the movable knife installation seat plate 5 are arranged in a mutually perpendicular mode, the lower end of the fixed knife installation seat plate 3 and the front end of the movable knife installation seat plate 5 are close to each other, and the lower end cutting edges of the N block-shaped cutting teeth 8 on the fixed knife installation seat plate 3 and the front end cutting edges of the strip-shaped movable knife blades 6 on the movable knife installation seat plate 5 are located at the same height position and form a mutual opposite shearing state in the front-back direction during cutting.

In this embodiment, N abutting strips 13 are arranged at intervals at the rear part of the upper end face of the movable blade mounting seat plate 5, and the rear parts of the N block-shaped movable blades 7 respectively abut against the front side faces of the N abutting strips 13.

In this embodiment, the fixed blade 4, the strip-shaped movable blade 6, and the N block-shaped movable blades 7 are respectively provided with a screw hole 14, the fixed blade 4 is fixed on the fixed blade mounting base plate 3 by screws, and the strip-shaped movable blade 6 and the N block-shaped movable blades 7 are respectively fixed on the movable blade mounting base plate 5 by screws.

In this embodiment, the back surface of the fixed cutter mounting seat plate 3 is mounted on a vertical support plate 15 of the horizontal particle shearing machine frame.

In this embodiment, the lower end surface of the movable blade mounting seat plate 5 is movably arranged on a horizontal support plate 16 of the horizontal type particle shearing machine frame.

In this embodiment, a discharge hole 17 is formed between the lower end of the vertical support plate 15 and the upper end surface of the horizontal support plate 16.

Preferably, a blanking plate 18 is arranged on the horizontal type granule shearing machine frame, and the blanking plate 18 is abutted against one end of the discharge hole 17 of the horizontal supporting plate 16 and is arranged downwards.

In this embodiment, a right-angle step 19 is formed at a lower position of the front surface of the fixed blade mounting seat plate 3, a plurality of caulking grooves 20 are formed on an upper step surface of the right-angle step 19, a plurality of caulking teeth 21 are formed at an upper end of the fixed blade 4, the fixed blade 4 is mounted in the right-angle step 19, and the caulking teeth 21 of the fixed blade 4 are correspondingly embedded in the caulking grooves 20 of the fixed blade mounting seat plate 3.

Preferably, the block-shaped movable blade 7 is a block-shaped diamond-shaped movable blade.

Preferably, the front end cutting edge of the strip-shaped movable blade 6 and the front end cutting edge of the block-shaped rhombic movable blade 7 are inclined at a certain angle relative to the front surface of the fixed blade 4 in the horizontal direction so as to reduce cutting resistance.

In this embodiment, the number N of the block-shaped cutting teeth 8 and the number N of the block-shaped movable blades 7 on the fixed blade 4 may be set according to the size of the specification of the shearing machine.

Preferably, N =3 to 10 may be set for a small and medium-sized horizontal type pellet cutter. More preferably, N =5 is set.

In the embodiment, the rear end of the moving blade mounting base plate 5 is fixed on the blade row, two sides of the blade row are movably arranged on guide rails on two sides of the horizontal type particle shearing machine frame, and the rear end of the blade row is connected with a power part on the horizontal type particle shearing machine so as to realize the forward and backward movement of the moving blade assembly.

The application method of the embodiment is as follows:

(1) Mounting the blade assembly: the fixed cutter assembly 1 in the shearing blade assembly is arranged on a vertical support plate 15 of a frame of the horizontal type particle shearing machine, the movable cutter assembly 2 in the shearing blade assembly is arranged and connected on a power part of the horizontal type particle shearing machine, and a movable cutter mounting seat plate 5 in the movable cutter assembly is movably arranged on a horizontal support plate 16 of the frame of the horizontal type particle shearing machine.

(2) Feeding: waste steel plates are added from a feed hopper at the upper part of the horizontal particle shearing machine, so that the waste steel plates are inserted downwards along the inlet of the feed hopper and positioned in a cutting space formed by the fixed cutter assembly 1 and the movable cutter assembly 2, one surface of each waste steel plate is abutted against the plane of the fixed cutter 4, and the lower side of each waste steel plate is abutted against the upper end face of the front part of the movable cutter mounting base plate 5;

(3) Primary particle shearing: the power part of the horizontal type particle shearing machine pushes the movable cutter component 2 to move forwards to shear the waste steel plate, N blocks of movable cutters 7 on the movable cutter component 2 are respectively cut into the waste steel plate, N small particle blocks are cut from the waste steel plate, N small particle blocks which are not cut are left at the lower end of the waste steel plate at intervals, and N-1 neutral blocks and a gap positioned on one side are formed among the N small particle blocks which are not cut;

(4) Blanking: after the first particle shearing is finished, the movable cutter component 2 retreats and the lower end of the waste steel plate is opposite to 9 guide strips of the lower movable cutter component 2; the uncut waste steel plate moves downwards, so that N-1 neutral gears at the lower end of the waste steel plate straddle the N-1 guide strips 9 below the waste steel plate;

(5) And (3) secondary particle shearing: the movable cutter component 2 moves forward, and under the cutting action of the strip-shaped movable cutter blade 6 at the front end of the movable cutter component 2, N small particle blocks which are not cut at the lower end of the waste steel plate are cut by the strip-shaped movable cutter blade 6;

(6) Continuous cyclic shearing: and (5) repeating the steps (3) to (5) to realize continuous circular shearing of the waste steel plate.

In this embodiment, the downward movement of the waste steel plate is realized by the gravity of the waste steel plate itself, or by the manual auxiliary pushing operation of the shearing machine operator.

Preferably, a downward pushing mechanism can be arranged on the hopper to realize automatic pushing, so that the waste steel plates can move downwards in a stepping manner.

In this embodiment, the small-particle block materials cut by the shearing blade assembly are output from the discharge port 17 of the shearing machine and are led out to the bin through the blanking plate 18 which is arranged obliquely.

The beneficial effect of this embodiment is: the shearing blade assembly structure with the special design realizes continuous particle shearing of the waste steel, overcomes the defects that the material sheared by the conventional gantry shearing machine has larger size and can not be sheared into small particle shapes, and is favorable for promoting the recycling of the waste steel.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A shearing blade assembly of a horizontal particle shearing machine is characterized by comprising a fixed blade assembly and a movable blade assembly, wherein the fixed blade assembly comprises a fixed blade mounting base plate which is vertically arranged and a fixed blade which is fixed at the lower part of the front surface of the fixed blade mounting base plate; the lower end of the fixed blade is provided with N rectangular block-shaped cutting teeth which are uniformly arranged at intervals, the front end of the movable blade mounting base plate extends forwards to be provided with N-1 guide bars which are uniformly arranged at intervals, a blade mounting groove is formed in the upper plane position of the rear end of each guide bar on the movable blade mounting base plate, the blade mounting groove is transversely arranged relative to the guide bars, and the strip-shaped movable blade is mounted in the blade mounting groove; the N block-shaped movable blades are transversely arranged on the movable blade mounting base plate at intervals on the plane position behind the strip-shaped movable blade; the N block-shaped cutting teeth on the fixed blade and the N block-shaped movable blades are arranged in a staggered mode in the front-back direction, and the N block-shaped cutting teeth and the N block-shaped movable blades are arranged in an inserted mode in the front-back direction during cutting.

2. The shear blade assembly of a horizontal type particle shearing machine as claimed in claim 1, wherein the lower end of the fixed blade mounting seat plate is provided with N abutment blocks at intervals, and the back side parts of the N block-shaped cutting teeth are correspondingly abutted against the N abutment blocks.

3. The shearing blade assembly of the horizontal type particle shearing machine as claimed in claim 2, wherein the fixed blade mounting seat plate and the movable blade mounting seat plate are arranged perpendicular to each other, the lower end of the fixed blade mounting seat plate and the front end of the movable blade mounting seat plate are close to each other, and the cutting edges of the lower ends of the N block-shaped cutting teeth on the fixed blade mounting seat plate and the front end cutting edges of the strip-shaped movable blades on the movable blade mounting seat plate are located at the same height position and form a front-back mutual opposite shearing state during cutting.

4. The shearing blade assembly of the horizontal type pellet shearing machine as claimed in claim 1, wherein N abutting strips are arranged at intervals at the rear part of the upper end face of the moving blade mounting base plate, and the rear side parts of the N block-shaped moving blades respectively and correspondingly abut against the front side faces of the N abutting strips.

5. The shearing blade assembly of the horizontal type particle shearing machine as claimed in claim 1, wherein the fixed blade, the strip-shaped movable blade and the N blocks of movable blades are respectively provided with a screw hole, the fixed blade is fixed on the fixed blade mounting base plate through a screw, and the strip-shaped movable blade and the N blocks of movable blades are respectively fixed on the movable blade mounting base plate through screws.

6. The shear blade assembly of a horizontal pellet shears as claimed in claim 1, wherein the back of the stationary blade mounting plate is mounted on a vertical support plate of the horizontal pellet shears frame.

7. The shear blade assembly of a horizontal type granule shearing machine according to claim 6, wherein the lower end face of the movable blade mounting seat plate is movably arranged on a horizontal support plate of a frame of the horizontal type granule shearing machine.

8. The shear blade assembly of a horizontal pellet shears according to claim 7, wherein a discharge port is formed between the lower end of the vertical support plate and the upper end surface of the horizontal support plate.

9. The shear blade assembly of a horizontal type pellet shearing machine as claimed in claim 8, wherein a blanking plate is arranged on the frame of the horizontal type pellet shearing machine, and the blanking plate abuts against one end of the discharge port of the horizontal supporting plate and is arranged in a downward inclination manner.

10. The shearing blade assembly of the horizontal granule shearing machine as claimed in claim 1, wherein the lower part of the front surface of the fixed blade mounting seat plate is provided with a right-angle step, the upper step surface of the right-angle step is provided with a plurality of caulking grooves, the upper end of the fixed blade is provided with a plurality of cogs, the fixed blade is mounted in the right-angle step, and the cogs of the fixed blade are correspondingly embedded in the caulking grooves of the fixed blade mounting seat plate.

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