CN111482250A - Strip material shearing and crushing equipment - Google Patents

Abstract

The invention relates to shearing and crushing equipment, in particular to strip-shaped material shearing and crushing equipment which comprises a segmenting mechanism, a crushing mechanism and a compacting and discharging mechanism, wherein the equipment can carry out shearing treatment twice in the feeding process, can remove light substances in raw materials, can crush the raw materials, can prevent the light substances from flowing backwards, can compact the light substances and then discharge the light substances, and can safely operate.

Description

Strip material shearing and crushing equipment

Technical Field

The invention relates to shearing and crushing equipment, in particular to strip-shaped material shearing and crushing equipment.

Background

In traditional broken trade, to the more raw materials of some strip material content, traditional crushing apparatus can not reach good crushing effect, and rectangular material carries out the equipment back very likely to disturb broken link, because long strip forms inside support form easily, influences the normal operation of equipment, so designed this kind of strip material and cut crushing apparatus.

Disclosure of Invention

The technical problem mainly solved by the invention is to provide strip-shaped material shearing and crushing equipment, which can perform shearing treatment twice in the feeding process, remove light substances in raw materials, crush the materials, prevent the light substances from flowing backwards, compact the light substances and discharge the compacted light substances, and can safely operate.

In order to solve the technical problem, the invention relates to a shearing and crushing device, in particular to a strip-shaped material shearing and crushing device which comprises a segmenting mechanism, a crushing mechanism and a compacting and discharging mechanism, wherein the device can carry out twice shearing treatment in the feeding process, can remove light substances in raw materials, can crush the light substances, can prevent the light substances from flowing backwards, can discharge the compacted light substances, and can safely operate.

The segmenting mechanism is connected with the crushing mechanism, the crushing mechanism is connected with the compaction discharging mechanism, and the compaction discharging mechanism is connected with the segmenting mechanism.

As a further optimization of the technical scheme, the segmenting mechanism of the strip-shaped material shearing and crushing equipment comprises a base, a special-shaped support, a reciprocating sliding mechanism, a belt pulley, a bearing seat, a driving motor, a motor gear, a transmission shaft, a connecting seat, an inlet hopper, an inlet port, an outlet, a cutting square angle, a step groove and a matching sliding hole, wherein the base is connected with the special-shaped support, the special-shaped support is connected with the reciprocating sliding mechanism, the reciprocating sliding mechanism is in friction connection with the belt, the belt is in friction connection with the belt pulley, the belt pulley is connected with the transmission shaft, the transmission shaft is connected with the bearing seat in a bearing connection mode, the bearing seat is connected with the special-shaped support, the transmission shaft is connected with the transmission gear, the transmission gear is meshed with the motor gear, the motor, the connecting seat is connected with the inlet hopper, an inlet is arranged on the inlet hopper, the inlet is communicated with the outlet, the outlet is arranged on the inlet hopper, a cutting square angle is arranged on the inlet hopper, the inlet hopper is contacted with the reciprocating sliding mechanism, the stepped groove is arranged on the special-shaped support, the reciprocating sliding mechanism is in sliding connection with the stepped groove, the matching sliding hole is arranged on the special-shaped support, and the matching sliding hole is in sliding connection with the reciprocating sliding mechanism; reciprocating slide mechanism includes reciprocal movable seat, the passageway, trapezoidal material stopping block, the spout, the slide bar, the ladder slider, the articulated arm, the rolling disc, driving pulley I, transmission shaft A, be equipped with the passageway on the reciprocal movable seat, trapezoidal material stopping block links to each other with reciprocal movable seat, the spout is opened on reciprocal movable seat, reciprocal movable seat links to each other with the slide bar, slide bar and cooperation sliding hole sliding connection, the slide bar links to each other with the ladder slider, ladder slider and ladder groove sliding connection, the ladder slider is articulated mutually with the articulated arm, the articulated arm is articulated mutually with the rolling disc, the rolling disc links to each other with transmission shaft A, transmission shaft A links to each other with driving pulley I, driving pulley I and belt frictional connection, the connected mode of transmission shaft A and bearing frame is the bearing and is.

As a further optimization of the technical scheme, the crushing mechanism of the strip material shearing and crushing equipment comprises a supporting leg, a motor A, a coupling I, a belt pulley A, a transmission belt A, an impeller belt pulley, an impeller bearing seat, a belt shaft impeller, a fixed knife, a crushing box, a crushing inlet, an anti-backflow box body, a rotating wheel motor, a coupling II, a rotating wheel shaft A, a rotating wheel A, a cleaning opening, a discharge port A, a grid discharge port and a belt shaft crushing wheel, wherein the supporting leg is connected with a base, the supporting leg is connected with the crushing box, the crushing box is connected with the impeller bearing seat, the impeller bearing seat is connected with the motor A, the motor A is connected with the belt shaft crushing wheel through the coupling I, the belt shaft crushing wheel is connected with the belt pulley A, the belt pulley A is in friction connection with the transmission belt A, the transmission belt A is in friction connection with the impeller belt pulley, and the impeller, the impeller with the shaft is connected with the impeller bearing seat through a bearing, the fixed cutter is connected with the crushing box, the crushing inlet is arranged on the crushing box, the backflow prevention box body is connected with the rotating wheel motor, the rotating wheel motor is connected with the rotating wheel shaft A through the coupler II, the rotating wheel shaft A is connected with the backflow prevention box body through the bearing, the rotating wheel shaft A is connected with the rotating wheel A, the cleaning opening is formed in the backflow prevention box body, the discharge opening A is formed in the backflow prevention box body, the grid discharge opening is formed in the crushing box, and the fixed cutter is connected with the sliding groove in a sliding mode.

As a further optimization of the technical scheme, the compaction discharging mechanism of the strip material shearing and crushing equipment comprises a supporting leg a, a compaction box, a bearing seat a, a sliding door with a protrusion, a hinged arm a, a rotary driving disc, a compaction driving motor, an L type bearing seat, a bevel gear with a shaft, a coupling B, an opening and closing motor, a special-shaped bearing seat, a step sliding support, a base, a hydraulic cylinder, a step fit sliding groove, a compaction inlet, a compaction outlet, a hydraulic rod, a compaction coupling, a screw, a sliding groove a, wherein the supporting leg a is connected with the compaction box, the compaction box is connected with the bearing seat a, the sliding groove a is connected with the sliding door with the protrusion, the sliding door with the protrusion is hinged with the hinged arm a, the hinged arm a is hinged with the rotary driving disc, the rotary driving disc is connected with the bevel gear with the shaft L type bearing, the L type shaft is connected with the compaction box, the compaction driving motor is connected with the screw through the compaction coupling, the screw is connected with the screw through the bearing seat, the special-shaped shaft bevel gear is connected with the compaction box base, the special-shaped bearing seat is connected with the hydraulic cylinder, the special-shaped bearing seat is connected with the hydraulic cylinder, the compaction box sliding support base, the special-shaped sliding support sliding shaft sliding seat, the compaction box is connected with the compaction box base, the hydraulic cylinder, the special-shaped sliding support base, the special-shaped sliding support sliding shaft sliding support base, the special-shaped sliding shaft bearing seat.

As a further optimization of the technical scheme, the anti-backflow box body of the strip-shaped material shearing and crushing equipment is communicated with the crushing box, and a groove communicated with the backflow box body is formed in the crushing box.

The strip-shaped material shearing and crushing equipment has the beneficial effects that:

according to the strip material shearing and crushing equipment, the equipment can perform shearing treatment twice in the feeding process, light materials in raw materials can be removed by the equipment, the equipment can crush the materials, the light materials can be prevented from flowing backwards by the equipment, the light materials can be discharged after being compacted by the equipment, and the equipment can operate safely.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a strip-shaped material shearing and crushing device in the invention.

Fig. 2 is a schematic structural diagram of a strip-shaped material shearing and crushing device of the invention.

Fig. 3 is a schematic structural diagram three of the strip-shaped material shearing and crushing device of the invention.

Fig. 4 is a first structural schematic diagram of a segmenting mechanism 1 of the strip material shearing and crushing device of the invention.

Fig. 5 is a structural schematic diagram of a segmenting mechanism 1 of the strip-shaped material shearing and crushing device of the invention.

Fig. 6 is a third schematic structural diagram of the segmenting mechanism 1 of the strip material shearing and crushing device of the invention.

Fig. 7 is a schematic structural diagram of a reciprocating sliding mechanism 1-3 of the strip material shearing and crushing equipment of the invention.

Fig. 8 is a first structural schematic diagram of the crushing mechanism 2 of the strip material shearing and crushing device of the invention.

Fig. 9 is a second structural schematic diagram of the crushing mechanism 2 of the strip material shearing and crushing device of the invention.

Fig. 10 is a third schematic structural diagram of the crushing mechanism 2 of the strip material shearing and crushing device of the invention.

Fig. 11 is a fourth schematic structural diagram of the crushing mechanism 2 of the strip material shearing and crushing device of the invention.

Fig. 12 is a schematic structural diagram of a compacting and discharging mechanism 3 of a strip material shearing and crushing device of the invention.

Fig. 13 is a schematic structural diagram of a compaction and discharge mechanism 3 of the strip material shearing and crushing device of the invention.

Fig. 14 is a schematic structural diagram three of a compaction and discharge mechanism 3 of the strip material shearing and crushing equipment.

Fig. 15 is a schematic structural diagram of a compacting and discharging mechanism 3 of a strip material shearing and crushing device of the invention.

In the drawing, the crushing machine comprises a segmenting mechanism 1, a base 1-1, a special-shaped support 1-2, a reciprocating sliding mechanism 1-3, a reciprocating movable seat 1-3-1, a channel 1-3-2, a trapezoidal material blocking block 1-3-3, a sliding chute 1-3-4, a sliding rod 1-3-5, a stepped slider 1-3-6, a hinged arm 1-3-7, a rotating disc 1-3-8, a transmission belt pulley I1-3-9, a transmission shaft A1-3-10, a belt 1-4, a belt pulley 1-5, a bearing seat 1-6, a driving motor 1-7, a motor gear 1-8, a transmission gear 1-9, a transmission shaft 1-10, a connecting seat 1-11, an inlet hopper 1-12, an inlet port coupler 1-13, an outlet port 1-14, a cutting square angle 1-15, a stepped groove 1-16, a matching sliding hole 1-17, a crushing mechanism 2, a support leg 2-1, a motor A2-2, a motor I2-3, a coupler A464-4, a transmission belt pulley A7, A7-7, a fixed shaft coupler A, A7-3-7, a special-7, a sliding shaft coupler A, a special-7, a special-3-7, a special-7, a sliding shaft coupler, a special-7, a special-3, a special-7, a special-7-.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the present invention relates to a shearing and crushing apparatus, and more specifically, to a strip material shearing and crushing apparatus, including a segmenting mechanism 1, a crushing mechanism 2, and a compacting and discharging mechanism 3, the apparatus being capable of performing two times of shearing processes during a feeding process, removing light materials in a raw material, crushing, preventing backflow of light materials, compacting and discharging the light materials, and being capable of operating safely.

The segmenting mechanism 1 is connected with the crushing mechanism 2, the crushing mechanism 2 is connected with the compaction discharging mechanism 3, and the compaction discharging mechanism 3 is connected with the segmenting mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes the embodiment, where the segmenting mechanism 1 includes a base 1-1, a special-shaped support 1-2, a reciprocating sliding mechanism 1-3, a belt 1-4, a belt pulley 1-5, a bearing seat 1-6, a driving motor 1-7, a motor gear 1-8, a transmission gear 1-9, a transmission shaft 1-10, a connecting seat 1-11, an inlet bucket 1-12, an inlet port 1-13, an outlet port 1-14, a cutting square angle 1-15, a stepped groove 1-16, and a matching sliding hole 1-17, the base 1-1 is connected with the special-shaped support 1-2, the special-shaped support 1-2 is connected with the reciprocating sliding mechanism 1-3, the reciprocating sliding mechanism 1-3 is in friction connection with the belt 1-4, the belt 1-4 is in friction connection with the belt pulley 1-5, the belt pulley 1-5 is connected with the transmission shaft 1-10, the transmission shaft 1-10 is connected with the bearing seat 1-6 in a bearing connection mode, the bearing seat 1-6 is connected with the special-shaped support 1-2, the transmission shaft 1-10 is connected with the transmission gear 1-9, the transmission gear 1-9 is meshed with the motor gear 1-8, the motor gear 1-8 is connected with the driving motor 1-7, the driving motor 1-7 is connected with the special-shaped support 1-2, the special-shaped support 1-2 is connected with the connecting seat 1-11, the connecting seat 1-11 is connected with the inlet hopper 1, an inlet 1-13 is arranged on an inlet hopper 1-12, the inlet 1-13 is communicated with an outlet 1-14, the outlet 1-14 is arranged on the inlet hopper 1-12, a cutting square angle 1-15 is arranged on the inlet hopper 1-12, the inlet hopper 1-12 is contacted with a reciprocating sliding mechanism 1-3, a step groove 1-16 is arranged on a special-shaped support 1-2, the reciprocating sliding mechanism 1-3 is connected with the step groove 1-16 in a sliding manner, a matched sliding hole 1-17 is arranged on the special-shaped support 1-2, and the matched sliding hole 1-17 is connected with the reciprocating sliding mechanism 1-3 in a sliding manner; the reciprocating sliding mechanism 1-3 comprises a reciprocating movable seat 1-3-1, a channel 1-3-2, a trapezoidal material blocking block 1-3-3, a sliding chute 1-3-4, a sliding rod 1-3-5, a step sliding block 1-3-6, an articulated arm 1-3-7, a rotating disc 1-3-8, a transmission belt pulley I1-3-9 and a transmission shaft A1-3-10, wherein the reciprocating movable seat 1-3-1 is provided with the channel 1-3-2, the trapezoidal material blocking block 1-3-3 is connected with the reciprocating movable seat 1-3-1, the sliding chute 1-3-4 is arranged on the reciprocating movable seat 1-3-1, the reciprocating movable seat 1-3-1 is connected with the sliding rod 1-3-5, the sliding rod 1-3-5 is connected with the matching sliding hole 1-17 in a sliding manner, the sliding rod 1-3-5 is connected with the stepped sliding block 1-3-6, the stepped sliding block 1-3-6 is connected with the stepped slot 1-16 in a sliding manner, the stepped sliding block 1-3-6 is hinged with the hinged arm 1-3-7, the hinged arm 1-3-7 is hinged with the rotating disc 1-3-8, the rotating disc 1-3-8 is connected with the transmission shaft A1-3-10, the transmission shaft A1-3-10 is connected with the transmission belt pulley I1-3-9, the transmission belt pulley I1-3-9 is connected with the belt 1-4 in a friction manner, and the transmission shaft A1-3-10 is connected with the bearing seat 1-6 in a bearing manner, firstly, a driving motor 1-7 is operated to drive a motor gear 1-8 to rotate, the motor gear 1-8 rotates to drive a transmission gear 1-9 to rotate, the transmission gear 1-9 rotates to drive a transmission shaft 1-10 to rotate, the transmission shaft 1-10 rotates to drive a belt pulley 1-5 to rotate, the belt pulley 1-5 rotates to drive a transmission belt pulley I1-3-9 to rotate through a belt 1-4, the transmission belt pulley I1-3-9 rotates to drive a transmission shaft A1-3-10 to rotate, the transmission shaft A1-3-10 rotates to drive a rotating disc 1-3-8 to rotate, the rotating disc 1-3-8 rotates to drive a stepped sliding block 1-3-6 to reciprocate through an articulated arm 1-3-7, the step sliding block 1-3-6 drives the reciprocating movable seat 1-3-1 to reciprocate through the sliding rod 1-3-5, materials to be crushed are put in from the inlet 1-13 and then discharged from the outlet 1-14, when the materials are discharged from the outlet 1-14, the materials can be sheared by the relative motion of the reciprocating movable seat 1-3-1 and the cutting square angle 1-15 because the reciprocating movable seat 1-3-1 reciprocates, the materials can be sheared for the first time, then the strip-shaped materials can be cut for the second time by the relative motion between the reciprocating movable seat 1-3-1 and the fixed knife 2-9 when sliding out of the channel 1-3-2, so that the strip-shaped materials can be changed into end block materials, and the subsequent crushing is facilitated.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes the embodiment, and the embodiment includes a leg support 2-1, a motor a2-2, a coupling I2-3, a pulley a2-4, a driving belt a2-5, an impeller pulley 2-6, an impeller bearing seat 2-7, a shaft-carrying impeller 2-8, a fixed knife 2-9, a crushing box 2-10, a crushing inlet 2-11, an anti-backflow box body 2-12, a rotating wheel motor 2-13, a coupling II2-14, a rotating wheel shaft a2-15, a rotating wheel a2-16, a cleaning opening 2-17, a discharge opening a2-18, a cleaning opening 2-17, a discharge opening b, 2-19 parts of grid discharge port, 2-20 parts of crushing wheel with shaft, 2-1 parts of support legs connected with 1-1 parts of base, 2-1 parts of support legs connected with 2-10 parts of crushing box, 2-10 parts of crushing box connected with 2-7 parts of bearing seat of impeller, 2-7 parts of bearing seat of impeller connected with 2-2 parts of motor A, 2-2 parts of motor A connected with 2-20 parts of crushing wheel with shaft through a coupling I2-3, 2-20 parts of crushing wheel with shaft connected with a belt pulley A2-4 parts of belt pulley A2-4 parts of belt pulley A connected with a driving belt A2-5 parts of belt pulley A2-5 parts of belt pulley 2-6 parts of belt pulley, 2-6 parts of impeller with shaft connected with 2-8 parts of impeller with shaft, 2-8 parts of impeller with shaft connected with 2-7 parts of bearing seat of impeller with shaft, the fixed knife 2-9 is connected with the crushing box 2-10, the crushing inlet 2-11 is arranged on the crushing box 2-10, the anti-reflux box body 2-12 is connected with the rotating wheel motor 2-13, the rotating wheel motor 2-13 is connected with the rotating wheel axle A2-15 through the coupling II2-14, the rotating wheel axle A2-15 is connected with the anti-reflux box body 2-12 through a bearing, the rotating wheel axle A2-15 is connected with the rotating wheel A2-16, the cleaning opening 2-17 is arranged on the anti-reflux box body 2-12, the discharge opening A2-18 is arranged on the anti-reflux box body 2-12, the grid discharge opening 2-19 is arranged on the crushing box 2-10, the fixed knife 2-9 is connected with the chute 1-3-4 in a sliding way, the running motor A2-2 drives the coupling I2-3 to rotate, the coupling I2-3 rotates to drive the belt pulley A2-4 to rotate, the belt pulley A2-4 rotates to drive the impeller belt pulley 2-6 to rotate through the transmission belt A2-5, the impeller belt pulley 2-6 rotates to drive the belt shaft impeller 2-8 to rotate, the belt shaft impeller 2-8 rotates to form forward pressure, light substances possibly contained in the materials are blown out before falling into the crushing inlet 2-11 under the drive of the pressure, the light substances enter the anti-backflow box body 2-12, the belt shaft crushing wheel 2-20 is driven to rotate when the coupling I2-3 rotates, the belt shaft crushing wheel 2-20 rotates to crush the materials, discharging the crushed materials from a grid discharge port 2-19; the equipment can prevent light substances from flowing backwards, the rotating wheel motor 2-13 is operated to drive the coupler II2-14 to rotate, the coupler II2-14 rotates to drive the rotating wheel shaft A2-15 to rotate, the rotating wheel shaft A2-15 rotates to drive the rotating wheel A2-16 to rotate, and the rotating wheel A2-16 rotates clockwise when viewed from the rotating wheel motor 2-13 to the rotating wheel A2-16, so that the light substances are separated between two adjacent blades, the situation that the materials are blown out reversely when airflow is reversed can be prevented, secondary pollution is caused, and the materials can smoothly enter the discharge port A2-18 to enter the compaction inlet port 3-18.

The fourth concrete implementation mode:

the compacting and discharging mechanism 3 comprises a leg A3-1, a compacting box 3-2, a bearing seat A3-3, a sliding door with a protrusion 3-4, a hinged arm A3-5, a rotary driving disk 3-6, a compacting driving motor 3-7, a bearing seat L type bearing seat 3-8, a bevel gear 3-9 with a shaft, a bevel gear 3-10 with a shaft, a coupler B3-11, an opening and closing motor 3-12, a bearing seat 3-13, a support leg 3-14, a stepped base 3-15, a hydraulic cylinder 3-16, a stepped fit sliding groove 3-17, a compacting inlet 3-18, a compacting outlet 3-19, a hydraulic rod 3-20, a coupler 3-21, a spiral compacting 3-22, a stepped support 3-14, a stepped base 3-15, a bevel gear 3-17, a compacting box 3-19, a bevel gear 3-7, a bevel gear 3-7, a bevel gear, a drive, a bevel gear 3-7, a bevel gear, a bevel gear 3-7, a bevel gear, a bevel gear 3-7, a drive, a drive, a bevel gear, a drive, a bevel gear, a drive, a bevel gear, a drive, a bevel gear, a drive, a gear, a gear, a bevel gear, a drive, a bevel gear, a drive, a coupler, a.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, and the present embodiment further describes the present embodiment, in which the anti-reverse flow box body 2-12 is communicated with the crushing box 2-10, and the crushing box 2-10 is provided with a groove therein, which is communicated with the reverse flow box body 2-12.

The working principle of the device is as follows: the equipment can carry out two times of shearing treatment in the feeding process, firstly, a driving motor 1-7 is operated to drive a motor gear 1-8 to rotate, the motor gear 1-8 rotates to drive a transmission gear 1-9 to rotate, the transmission gear 1-9 rotates to drive a transmission shaft 1-10 to rotate, the transmission shaft 1-10 rotates to drive a belt pulley 1-5 to rotate, the belt pulley 1-5 rotates to drive a transmission belt pulley I1-3-9 to rotate through a belt 1-4, the transmission belt pulley I1-3-9 rotates to drive a transmission shaft A1-3-10 to rotate, the transmission shaft A1-3-10 rotates to drive a rotating disc 1-3-8 to rotate, the rotating disc 1-3-8 rotates to drive a stepped sliding block through an articulated arm 1-3-7 1-3-6, the step slide block 1-3-6 drives the reciprocating movable seat 1-3-1 to reciprocate through the slide rod 1-3-5, the material to be crushed is put in from the inlet port 1-13 and then discharged from the outlet port 1-14, when the material is discharged from the outlet port 1-14, the material is sheared for the first time by the relative motion of the reciprocating movable seat 1-3-1 and the cutting square angle 1-15 when the material is discharged from the outlet port 1-14, and then the material is sheared for the second time by the relative motion between the reciprocating movable seat 1-3-1 and the fixed knife 2-9 when the material slides out from the channel 1-3-2, so that the strip material is changed into end block material, the subsequent crushing is facilitated; the equipment can remove light substances in raw materials, the running motor A2-2 drives the coupler I2-3 to rotate, the coupler I2-3 rotates to drive the belt pulley A2-4 to rotate, the belt pulley A2-4 rotates to drive the impeller belt pulley 2-6 to rotate through the transmission belt A2-5, the impeller belt pulley 2-6 rotates to drive the belt shaft impeller 2-8 to rotate, the belt shaft impeller 2-8 rotates to form forward pressure, under the drive of the pressure, the light substances possibly contained in the materials fall into the crushing inlet 2-11 and are blown out, and the light substances enter the anti-backflow box body 2-12; the device can crush, when the coupler I2-3 rotates, the shaft crushing wheels 2-20 can be driven to rotate, the shaft crushing wheels 2-20 rotate to crush materials, and the crushed materials are discharged from the grid discharge holes 2-19; the equipment can prevent light substances from flowing backwards, the rotating wheel motor 2-13 is operated to drive the coupler II2-14 to rotate, the coupler II2-14 rotates to drive the rotating wheel shaft A2-15 to rotate, the rotating wheel shaft A2-15 rotates to drive the rotating wheel A2-16 to rotate, and the rotating wheel A2-16 rotates clockwise when viewed from the rotating wheel motor 2-13 to the rotating wheel A2-16, so that the light substances are separated between two adjacent blades, the situation that the materials are blown out reversely when airflow is reversed to cause secondary pollution can be prevented, and the materials can smoothly enter the discharge port A2-18 to enter the compaction inlet port 3-18; the equipment can discharge light substances after being compacted, the compacting coupling 3-21 is driven to rotate by the compacting driving motor 3-7, the compacting coupling 3-21 rotates to drive the screw 3-22 to rotate, the screw 3-22 rotates to drive the light substances to move towards the compacting outlet 3-19, the materials can be compacted along with the increase of the quantity of the collected light substances in the moving process, after being compacted, the opening and closing motor 3-12 is operated to drive the coupling B3-11 to rotate, the coupling B3-11 rotates to drive the belt shaft driving bevel gear 3-10 to rotate, the belt shaft driving bevel gear 3-10 rotates to drive the belt shaft bevel gear 3-9 to rotate, the belt shaft bevel gear 3-9 rotates to drive the rotating driving disc 3-6 to rotate, the rotary driving disc 3-6 rotates to drive the sliding door 3-4 with the bulge to reciprocate through the hinge arm A3-5, so that the materials fall out of the compaction outlet 3-19 to finish unloading; the equipment can run safely, the hydraulic cylinders 3-16 are in a locked state in the ordinary state, when the emergency stop is needed, the locked state of the hydraulic cylinders 3-16 can be released, the step sliding supports 3-14 slide downwards along the step matching sliding grooves 3-17 in an inclined mode under the action of gravity, the bevel gears 3-9 with the shafts can be disengaged from the bevel gears 3-10 driven by the shafts, and the unloading stop is completed.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a strip material shearing crushing apparatus, includes segmentation mechanism (1), rubbing crusher structure (2), compaction discharge mechanism (3), its characterized in that: the segmenting mechanism (1) is connected with the crushing mechanism (2), the crushing mechanism (2) is connected with the compaction and discharge mechanism (3), and the compaction and discharge mechanism (3) is connected with the segmenting mechanism (1).

2. The strip-shaped material shearing and crushing equipment as claimed in claim 1, wherein the equipment comprises: the segmenting mechanism (1) comprises a base (1-1), a special-shaped support (1-2), a reciprocating sliding mechanism (1-3), a belt (1-4), a belt pulley (1-5), a bearing seat (1-6), a driving motor (1-7), a motor gear (1-8), a transmission gear (1-9), a transmission shaft (1-10), a connecting seat (1-11), an inlet hopper (1-12), an inlet port (1-13), an outlet port (1-14), a cutting square angle (1-15), a stepped groove (1-16) and a matching sliding hole (1-17), wherein the base (1-1) is connected with the special-shaped support (1-2), the special-shaped support (1-2) is connected with the reciprocating sliding mechanism (1-3), the reciprocating sliding mechanism (1-3) is in friction connection with a belt (1-4), the belt (1-4) is in friction connection with a belt pulley (1-5), the belt pulley (1-5) is connected with a transmission shaft (1-10), the transmission shaft (1-10) is connected with a bearing seat (1-6) in a bearing connection mode, the bearing seat (1-6) is connected with a special-shaped support (1-2), the transmission shaft (1-10) is connected with a transmission gear (1-9), the transmission gear (1-9) is meshed with a motor gear (1-8), the motor gear (1-8) is connected with a driving motor (1-7), the driving motor (1-7) is connected with the special-shaped support (1-2), the special-shaped support (1-2) is connected with a connecting seat (1-11), the connecting seat (1-11) is connected with the inlet hopper (1-12), the inlet hopper (1-12) is provided with an inlet (1-13), the inlet (1-13) is communicated with an outlet (1-14), the outlet (1-14) is arranged on the inlet hopper (1-12), the inlet hopper (1-12) is provided with a cutting square angle (1-15), the inlet hopper (1-12) is contacted with the reciprocating sliding mechanism (1-3), the stepped groove (1-16) is arranged on the special-shaped support (1-2), the reciprocating sliding mechanism (1-3) is in sliding connection with the stepped groove (1-16), the matched sliding hole (1-17) is arranged on the special-shaped support (1-2), and the matched sliding hole (1-17) is in sliding connection with the reciprocating sliding mechanism (1-3); the reciprocating sliding mechanism (1-3) comprises a reciprocating movable seat (1-3-1), a channel (1-3-2), a trapezoidal material blocking block (1-3-3), a sliding chute (1-3-4), a sliding rod (1-3-5), a stepped sliding block (1-3-6), an articulated arm (1-3-7), a rotating disc (1-3-8), a transmission belt pulley I (1-3-9) and a transmission shaft A (1-3-10), the reciprocating movable seat (1-3-1) is provided with the channel (1-3-2), the trapezoidal material blocking block (1-3-3) is connected with the reciprocating movable seat (1-3-1), the sliding chute (1-3-4) is arranged on the reciprocating movable seat (1-3-1), the reciprocating movable seat (1-3-1) is connected with a sliding rod (1-3-5), the sliding rod (1-3-5) is connected with a matched sliding hole (1-17) in a sliding manner, the sliding rod (1-3-5) is connected with a step sliding block (1-3-6), the step sliding block (1-3-6) is connected with a step groove (1-16) in a sliding manner, the step sliding block (1-3-6) is hinged with an articulated arm (1-3-7), the articulated arm (1-3-7) is hinged with a rotating disc (1-3-8), the rotating disc (1-3-8) is connected with a transmission shaft A (1-3-10), and the transmission shaft A (1-3-10) is connected with a transmission belt pulley I (1-3-9), the transmission belt pulley I (1-3-9) is in friction connection with the belt (1-4), and the transmission shaft A (1-3-10) is in bearing connection with the bearing block (1-6).

3. The strip-shaped material shearing and crushing equipment as claimed in claim 1, wherein the equipment comprises: the crushing mechanism (2) comprises supporting legs (2-1), a motor A (2-2), a coupling I (2-3), a belt pulley A (2-4), a transmission belt A (2-5), an impeller belt pulley (2-6), an impeller bearing seat (2-7), a shaft-carrying impeller (2-8), a fixed cutter (2-9), a crushing box (2-10), a crushing inlet (2-11), an anti-backflow box body (2-12), a rotating wheel motor (2-13), a coupling II (2-14), a rotating wheel shaft A (2-15), a rotating wheel A (2-16), a cleaning opening (2-17), a discharging opening A (2-18), a grid discharging opening (2-19) and a shaft-carrying crushing wheel (2-20), wherein the supporting legs (2-1) are connected with a base (1-1), the supporting legs (2-1) are connected with a crushing box (2-10), the crushing box (2-10) is connected with an impeller bearing seat (2-7), the impeller bearing seat (2-7) is connected with a motor A (2-2), the motor A (2-2) is connected with a crushing wheel with a shaft (2-20) through a coupling I (2-3), the crushing wheel with a shaft (2-20) is connected with a belt pulley A (2-4), the belt pulley A (2-4) is in friction connection with a transmission belt A (2-5), the transmission belt A (2-5) is in friction connection with an impeller belt pulley (2-6), the impeller belt pulley (2-6) is connected with an impeller with a shaft (2-8), the impeller with a shaft (2-8) is in bearing connection with the impeller bearing seat (2-7), the fixed knife (2-9) is connected with the crushing box (2-10), the crushing inlet (2-11) is arranged on the crushing box (2-10), the anti-reflux box body (2-12) is connected with the rotating wheel motor (2-13), the rotating wheel motor (2-13) is connected with the rotating wheel shaft A (2-15) through the coupler II (2-14), the rotating wheel shaft A (2-15) is connected with the anti-reflux box body (2-12) in a bearing way, the rotating wheel shaft A (2-15) is connected with the rotating wheel A (2-16), the cleaning opening (2-17) is arranged on the anti-reflux box body (2-12), the discharge opening A (2-18) is arranged on the anti-reflux box body (2-12), the grid discharge port (2-19) is arranged on the crushing box (2-10), and the fixed knife (2-9) is connected with the chute (1-3-4) in a sliding way.

4. The strip material shearing and crushing equipment as claimed in claim 1 is characterized in that the compaction and discharge mechanism (3) comprises a support leg A (3-1), a compaction box (3-2), a bearing seat A (3-3), a sliding door (3-4) with a protrusion, a hinged arm A (3-5), a rotating driving disc (3-6), a compaction driving motor (3-7), a L type bearing seat (3-8), a bevel gear with a shaft (3-9), a bevel gear with a shaft (3-10), a coupler B (3-11), an opening and closing motor (3-12), a special-shaped bearing seat (3-13), a stepped sliding support (3-14), a base (3-15), a hydraulic cylinder (3-16), a sliding groove (3-17) with a stepped fit, a compaction inlet port (3-18), a compaction outlet (3-19), a hydraulic rod (3-20), a compaction coupler (3-21), a spiral groove A (3-23) and a chute A (3-23), the compaction box (3-1) is connected with a compaction box (3-2) through a sliding coupler A) and a spiral bevel gear shaft (3-2), the compaction box (3-2) is connected with a spiral bevel gear (3-7), the compaction box (3-2) and a spiral bevel gear (3-7), the compaction box (3-7) is connected with a spindle (3-6), the compaction box (3-6), the bearing seat (3-2) and a spindle (3-7) through a spindle-6), the bearing seat (3-6), the drive bearing seat (3-6), the bevel gear (3-6) and a spindle-6), the drive shaft (3-6), the bevel gear (3-6) are connected with a stepped sliding seat (3-6), the special-3-shaped bearing seat (3-6) and a stepped sliding bearing seat (3-6) are connected with a stepped sliding bearing seat (3-6), the stepped sliding bearing seat (3-6) and a stepped sliding bearing seat (3-6) and a stepped sliding support, the stepped sliding seat (3-7) are connected with a stepped sliding seat (3-6) and a stepped sliding bearing seat (3-7) and a spindle-7) and a stepped sliding support, the stepped sliding seat (3-6) are connected with a stepped sliding bearing seat (3-7) and a stepped sliding support, the stepped sliding seat (3-7) and a spindle (3-7) and a stepped sliding seat (3-7) are connected with a stepped sliding seat (3-7) and a stepped sliding support, the stepped sliding seat (3-7) are connected with a stepped sliding seat (3-7) and.

5. The strip-shaped material shearing and crushing equipment as claimed in claim 3, wherein the equipment comprises: the anti-backflow box body (2-12) is communicated with the crushing box (2-10), and a groove communicated with the backflow box body (2-12) is arranged in the crushing box (2-10).

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