CN212820086U - Coal mine lump coal processing device - Google Patents

Abstract

The utility model relates to a coal processing apparatus, more specifically the colliery bold coal processing apparatus that says so, including rubbing crusher constructs, dust removal mechanism, clamping mechanism, the feeding can be cushioned to the device, and the device can smash the grinding, and the device can press from both sides tightly and collect the bag, and the buggy can be collected to the device, and rubbing crusher constructs and links to each other with dust removal mechanism, and dust removal mechanism links to each other with clamping mechanism.

Description

Coal mine lump coal processing device

Technical Field

The utility model relates to a coal processing apparatus, more specifically the colliery bold coal processing apparatus that says so.

Background

After coal mining is finished, massive coal needs to be smashed into small pieces or pulverized coal to be utilized, functional modules of a traditional processing device are mutually split, a plurality of devices are needed to be coordinated and completed, the processing device is quite inconvenient, and material transfer efficiency is low, so that the processing device for the massive coal in the coal mine is designed.

Disclosure of Invention

The utility model provides a colliery bold coal processing apparatus, beneficial effect are that the device can cushion the feeding, and the device can smash the grinding, and the device can press from both sides tight collection bag, and the device can collect the buggy.

In order to solve the technical problem, the utility model relates to a coal processing apparatus, more specifically the colliery bold coal processing apparatus that says so, including rubbing crusher constructs, dust removal mechanism, clamping mechanism, the device can cushion the feeding, and the device can smash the grinding, and the device can press from both sides tight collection bag, and the device can collect the buggy.

The crushing mechanism comprises a baffle seat, a discharge pipe, a frame, a crushing machine body, a connecting seat, a sliding rod, a sliding hole, a first spring, a buffer plate, a feed inlet, a crushing cavity, an eccentric wheel, a belt pulley I, a connecting shaft, an air outlet opening, a transmission belt, a motor belt pulley, a motor, a moving wheel and a belt A, wherein the baffle seat is contacted with the discharge pipe, the discharge pipe is connected with the crushing machine body, the discharge pipe penetrates through the frame, the discharge pipe is connected with the frame, the frame is connected with the crushing machine body, the crushing machine body is provided with the sliding hole, the sliding hole is in sliding connection with the sliding rod, the sliding rod is connected with the connecting seat, the connecting seat is connected with the baffle seat, the first spring is sleeved on the sliding rod, the first spring abuts against the crushing machine body and the buffer plate, the buffer plate is connected with the sliding rod, the eccentric wheel is connected with a connecting shaft, the connecting shaft is connected with the crushing machine body in a bearing mode, the belt pulley and the belt pulley I are both connected with the connecting shaft, the belt pulley is in friction connection with a transmission belt, the transmission belt is in friction connection with a motor belt pulley, the motor belt pulley is connected with a motor, the motor is connected with a frame, an air outlet opening is formed in the crushing machine body, the air outlet opening is communicated with the crushing cavity, the frame is connected with a movable wheel, and the belt A is in friction connection with the belt pulley I;

the dust removing mechanism comprises supporting legs, an air box, a negative pressure wind wheel, a wind wheel belt pulley, a wind wheel shaft, a door-shaped support with grooves, a filter screen plate with racks, a gear with a shaft, a bearing seat, a brush with a bearing seat, a spare filter screen plate with racks, a coupler, a servo motor, a limiting slide hole, a slide groove and an air inlet pipe, wherein the supporting legs are connected with the crusher body, the supporting legs are connected with the air box, the negative pressure wind wheel is connected with the wind wheel shaft, the wind wheel shaft is connected with the air box in a bearing way, the wind wheel shaft is connected with the wind wheel belt pulley, the wind wheel belt pulley is in friction connection with a belt A, the air box is connected with the door-shaped support with grooves, the door-shaped support with grooves is in sliding connection with the filter screen plate with racks, the filter screen plate with the shafts is meshed with the gear with the shafts, the gear with the bearing seat is connected with the bearing, the servo motor is connected with the gear with the shaft through a coupler, the servo motor is connected with the air box, the limiting sliding hole is formed in the air box, the sliding groove is formed in the air box and is connected with the filter screen plate with the rack in a sliding mode, the air outlet pipe opening is formed in the air box, and the filter screen plate with the rack is meshed with the gear with the shaft for standby;

the clamping mechanism comprises a supporting leg A, a fixed seat, a guide rod matching hole, a second spring, a sliding block A, a wedge block, a handle rod, a driven wedge block, a soft pad, a spring A and a limiting rod I, wherein the supporting leg A is connected with the fixed seat, the guide rod matching hole is symmetrically formed in two sides of the fixed seat, the guide rod matching hole is in sliding connection with the guide rod, the guide rod is connected with the sliding block A, the second spring is sleeved on the guide rod, the second spring abuts against the fixed seat and the sliding block A, the sliding block A is connected with the handle rod, the handle rod is in sliding connection with the guide rod matching hole, the sliding block A is connected with the wedge block, the wedge block is in contact with the driven wedge block, the driven wedge block is connected with the soft pad, the driven wedge block is connected with the limiting rod I, the limiting rod I is in sliding connection with the limiting sliding hole;

the crushing mechanism is connected with the dust removing mechanism, and the dust removing mechanism is connected with the clamping mechanism.

As the further optimization of the technical scheme, the utility model relates to a colliery lump coal processing apparatus the material of eccentric wheel is high manganese steel.

The utility model relates to a colliery bold coal processing apparatus's beneficial effect does:

the utility model relates to a colliery bold coal processing apparatus, the feeding can be cushioned to the device, and the grinding can be smashed to the device, and the device can press from both sides tightly collects the bag, and the buggy can be collected to the device.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the utility model relates to an overall structure schematic diagram of a coal mine lump coal processing device.

Fig. 2 is the utility model relates to a structural schematic diagram I of the crushing mechanism 1 of the coal mine lump coal processing device.

Fig. 3 is the structural schematic diagram of the crushing mechanism 1 of the coal mine lump coal processing device of the utility model II.

Fig. 4 is the utility model relates to a dust removal mechanism 2 of coal mine lump coal processing apparatus.

Fig. 5 is a schematic structural diagram of the clamping mechanism 3 of the coal mine lump coal processing device of the present invention.

In the figure: a crushing mechanism 1; 1-1 of baffle seat; 1-2 parts of a discharge pipe; 1-3 of a vehicle frame; crushing machine bodies 1-4; 1-5 of a connecting seat; 1-6 slide bars; 1-7 of a slide hole; a first spring 1-8; 1-9 of a buffer plate; 1-10 parts of a feed inlet; 1-11 of a crushing cavity; 1-12 parts of an eccentric wheel; 1-13 of belt pulleys; pulley I1-14; connecting shafts 1-15; gas outlet openings 1-16; 1-17 of a transmission belt; 1-18 motor belt pulleys; motors 1-19; 1-20 of a moving wheel; belts A1-21; a dust removal mechanism 2; 2-1 of supporting legs; 2-2 of an air box; 2-3 of negative pressure wind wheel; 2-4 of a wind wheel belt pulley; 2-5 of a wind wheel shaft; 2-6 of slotted door type support; 2-7 parts of a filter screen plate with racks; 2-8 parts of a gear with a shaft; 2-9 of a bearing seat; 2-10 parts of hairbrush with bearing seat; 2-11 parts of a spare filter screen plate with racks; 2-12 parts of a coupler; 2-13 of servo motor; 2-14 of limiting slide holes; 2-15 of a sliding groove; 2-16 parts of an air inlet pipe; 2-17 parts of an air outlet pipe orifice; a clamping mechanism 3; leg A3-1; a fixed seat 3-2; 3-3 of a guide rod; 3-4 parts of a guide rod matching hole; 3-5 parts of a second spring; a slide block A3-6; 3-7 of a wedge block; 3-8 parts of a handle rod; 3-9 parts of a passive wedge block; 3-10 parts of cushion; spring A3-11; a limiting rod I3-12.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, and 5, and the present invention relates to a coal processing apparatus, and more specifically to a coal processing apparatus for coal mine, which includes a crushing mechanism 1, a dust removing mechanism 2, and a clamping mechanism 3, wherein the apparatus can buffer the feeding material, the apparatus can crush and grind, the apparatus can clamp the collecting bag, and the apparatus can collect the pulverized coal.

The crushing mechanism 1 comprises a baffle seat 1-1, a discharge pipe 1-2, a vehicle frame 1-3, a crushing machine body 1-4, a connecting seat 1-5, a slide rod 1-6, a slide hole 1-7, a first spring 1-8, a buffer plate 1-9, a feed inlet 1-10, a crushing cavity 1-11, an eccentric wheel 1-12, a belt pulley 1-13, a belt pulley I1-14, a connecting shaft 1-15, an air outlet opening 1-16, a transmission belt 1-17, a motor belt pulley 1-18, a motor 1-19, a moving wheel 1-20 and a belt A1-21, wherein the baffle seat 1-1 is contacted with the discharge pipe 1-2, the discharge pipe 1-2 is connected with the crushing machine body 1-4, the discharge pipe 1-2 penetrates through the vehicle frame 1-3, the discharging pipe 1-2 is connected with a vehicle frame 1-3, the vehicle frame 1-3 is connected with a crushing machine body 1-4, the crushing machine body 1-4 is provided with a sliding hole 1-7, the sliding hole 1-7 is connected with a sliding rod 1-6 in a sliding way, the sliding rod 1-6 is connected with a connecting seat 1-5, the connecting seat 1-5 is connected with a baffle seat 1-1, a first spring 1-8 is sleeved on the sliding rod 1-6, the first spring 1-8 is abutted against the crushing machine body 1-4 and a buffer plate 1-9, the buffer plate 1-9 is connected with the sliding rod 1-6, a feeding port 1-10 is arranged in the crushing machine body 1-4, a crushing cavity 1-11 is arranged in the crushing machine body 1-4, the feeding port 1-10 is communicated with the crushing cavity 1-11, an eccentric wheel 1-12 is arranged in the crushing cavity 1-11, the eccentric wheel 1-12 is connected with the connecting shaft 1-15, the connecting shaft 1-15 is connected with the crushing machine body 1-4 by a bearing, the belt pulley 1-13 and the belt pulley I1-14 are connected with the connecting shaft 1-15, the belt pulley 1-13 is connected with the transmission belt 1-17 in a friction way, the transmission belt 1-17 is connected with the motor belt pulley 1-18 in a friction way, the motor belt pulley 1-18 is connected with the motor 1-19, the motor 1-19 is connected with the vehicle frame 1-3, the air outlet opening 1-16 is arranged on the crushing machine body 1-4, the air outlet opening 1-16 is communicated with the crushing cavity 1-11, the vehicle frame 1-3 is connected with the moving wheel 1-20, the belt A1-21 is connected with the belt pulley I1-14 in a friction way, coal to be crushed is fed from the feeding port, the coal blocks can naturally fall down and fall onto the buffer plates 1-9, the buffer plates 1-9 can compress the first springs 1-8 downwards, then the first spring 1-8 rebounds upwards, which is convenient for smooth feeding and simultaneously prevents the damage of the material to the crushing machine body 1-4, and the baffle seat 1-1 moves up and down along with the buffer plate 1-9, the buffer plate 1-9 forms an intermittent discharging mode, therefore, the subsequent coal dust is convenient to collect, the motor 1-19 operates to drive the motor belt pulleys 1-18 to rotate anticlockwise, the motor belt pulleys 1-18 drive the belt pulleys 1-13 to rotate, the belt pulleys 1-13 drive the eccentric wheels 1-12 to rotate eccentrically anticlockwise through the connecting shafts 1-15, and the eccentric wheels 1-12 crush coal blocks and grind the coal blocks at the same time;

the dust removal mechanism 2 comprises supporting legs 2-1, an air box 2-2, a negative pressure wind wheel 2-3, a wind wheel belt pulley 2-4, a wind wheel shaft 2-5, a door-shaped support with grooves 2-6, a filter screen plate with racks 2-7, a gear with shaft 2-8, a bearing seat 2-9, a brush with bearing seat 2-10, a spare filter screen plate with racks 2-11, a coupler 2-12, a servo motor 2-13, a limiting slide hole 2-14, a slide groove 2-15, an air inlet pipe 2-16 and an air outlet pipe orifice 2-17, wherein the supporting legs 2-1 are connected with a crushing machine body 1-4, the supporting legs 2-1 are connected with the air box 2-2, the negative pressure wind wheel 2-3 is connected with the wind wheel shaft 2-5, the wind wheel shaft 2-5 is connected with the air box 2-2 in a bearing manner, a wind wheel shaft 2-5 is connected with a wind wheel belt pulley 2-4, the wind wheel belt pulley 2-4 is in friction connection with a belt A1-21, an air box 2-2 is connected with a door type support 2-6 with a slot, the door type support 2-6 with the slot is in sliding connection with a filter screen plate 2-7 with a rack, the filter screen plate 2-7 with the rack is meshed with a gear 2-8 with a shaft, the gear 2-8 with the shaft is connected with a bearing seat 2-9 in a bearing connection mode, a hairbrush 2-10 with the bearing seat is connected with the door type support 2-6 with the slot, a spare filter screen plate 2-11 with the rack is in sliding connection with the door type support 2-6 with the slot, a servo motor 2-13 is connected with the gear 2-8 with the shaft through a coupler 2-12, and the servo motor 2-13 is connected with the, the limiting slide holes 2-14 are arranged on the air box 2-2, the slide grooves 2-15 are connected with the filter screen plate with racks 2-7 in a sliding way, the air outlet pipe orifices 2-17 are arranged on the air box 2-2, the spare filter screen plate with racks 2-11 is meshed with the gears with shafts 2-8, when the filter screen plate with racks 2-7 accumulates more dirt, the servo motors 2-13 can be operated, the couplers 2-12 can drive the gears with shafts 2-8 to rotate clockwise through the couplers 2-12, the gears with shafts 2-8 can drive the filter screen plate with racks 2-7 to move upwards, the spare filter screen plate with racks 2-11 to move downwards, and the brushes with bearing seats 2-10 can clean the filter screen plate with racks 2-7 during movement, the standby filter screen plate with the rack 2-11 is inserted into the sliding groove 2-15 to be used as standby filtration;

the clamping mechanism 3 comprises a supporting leg A3-1, a fixed seat 3-2, a guide rod 3-3, a guide rod matching hole 3-4, a second spring 3-5, a sliding block A3-6, a wedge block 3-7, a handle rod 3-8, a driven wedge block 3-9, a soft cushion 3-10, a spring A3-11 and a limiting rod I3-12, wherein the supporting leg A3-1 is connected with the fixed seat 3-2, the guide rod matching holes 3-4 are symmetrically arranged on two sides of the fixed seat 3-2, the guide rod matching holes 3-4 are in sliding connection with the guide rod 3-3, the guide rod 3-3 is connected with the sliding block A3-6, the second spring 3-5 is sleeved on the guide rod 3-3, the second spring 3-5 is abutted against the fixed seat 3-2 and the sliding block A3-6, a slide block A3-6 is connected with a handle rod 3-8, the handle rod 3-8 is connected with a guide rod matching hole 3-4 in a sliding manner, a slide block A3-6 is connected with a wedge 3-7, the wedge 3-7 is contacted with a driven wedge 3-9, the driven wedge 3-9 is connected with a soft pad 3-10, the driven wedge 3-9 is connected with a limiting rod I3-12, a limiting rod I3-12 is connected with a limiting sliding hole 2-14 in a sliding manner, a spring A3-11 is sleeved on the limiting rod I3-12, a spring A3-11 is abutted against the driven wedge 3-9 and a bellows 2-2 to push the handle rod 3-8 to drive a slide block A3-6 to move leftwards, the slide block A3-6 can drive the wedge 3-7 to move, and thus the driven wedge 3-9 can move upwards under the elastic force of a spring A3-11, the driven wedge blocks 3-9 can drive the soft pads 3-10 to move upwards, the collection bag is sleeved on the air outlet pipe openings 2-17, then the handle rods 3-8 are loosened, the sliding blocks A3-6 drive the wedge blocks 3-7 to reset under the elastic action of the handle rods 3-8, the wedge blocks 3-7 can drive the soft pads 3-10 to reset through the driven wedge blocks 3-9, and the soft pads 3-10 can clamp the collection bag tightly;

the crushing mechanism 1 is connected with the dust removing mechanism 2, and the dust removing mechanism 2 is connected with the clamping mechanism 3.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1, 2, 3, 4 and 5, and the present embodiment further describes the first embodiment, wherein the material of the eccentric wheels 1 to 12 is high manganese steel.

The utility model discloses a theory of operation is: the device can buffer feeding, coal to be crushed can naturally fall from a feeding port 1-10 and fall onto a buffer plate 1-9, the buffer plate 1-9 can compress a first spring 1-8 downwards, then the first spring 1-8 can rebound upwards, the feeding is smooth, the damage of materials to a crushing machine body 1-4 is prevented, the baffle seat 1-1 moves up and down along with the buffer plate 1-9, and the buffer plate 1-9 forms an intermittent discharging mode, so that the collection of subsequent pulverized coal is facilitated; the device can crush and grind coal, the motor belt pulleys 1-18 are driven to rotate anticlockwise by the operation of the motors 1-19, the motor belt pulleys 1-18 drive the belt pulleys 1-13 to rotate, the belt pulleys 1-13 drive the eccentric wheels 1-12 to rotate eccentrically anticlockwise by the connecting shafts 1-15, and the eccentric wheels 1-12 crush and grind coal; the device can clamp a collection bag, the handle rod 3-8 is pushed to drive the sliding block A3-6 to move leftwards, the sliding block A3-6 drives the wedge block 3-7 to move, thus the driven wedge block 3-9 can move upwards under the elastic action of the spring A3-11, the driven wedge block 3-9 can drive the soft cushion 3-10 to move upwards, the collection bag is sleeved on the air outlet pipe opening 2-17, then the handle rod 3-8 is loosened, the sliding block A3-6 drives the wedge block 3-7 to reset under the elastic action of the handle rod 3-8, the wedge block 3-7 can drive the soft cushion 3-10 to reset through the driven wedge block 3-9, and the soft cushion 3-10 can clamp the collection bag; the device can collect coal dust, when a connecting shaft 1-15 rotates, a belt pulley I1-14 can be driven to rotate, a belt pulley I1-14 can drive a wind wheel belt pulley 2-4 to rotate through a belt A1-21, the wind wheel belt pulley 2-4 can drive a negative pressure wind wheel 2-3 to rotate through a wind wheel shaft 2-5, the negative pressure wind wheel 2-3 can form negative pressure, the formed coal dust is sucked into a wind box 2-2 from a crushing cavity 1-11 through an air outlet opening 1-16 and an air inlet pipe 2-16 and then enters a collecting bag from an air outlet pipe opening 2-17, the device can be used as a dust remover when no coal blocks are fed, when a rack-and-bar filter screen plate 2-7 accumulates more dirt, a servo motor 2-13 can be operated, a coupler 2-12 can drive a shaft-carrying gear 2-8 to rotate clockwise through a coupler 2-12, the gear 2-8 with the shaft can drive the filter screen plate 2-7 with the rack to move upwards, the spare filter screen plate 2-11 with the rack moves downwards, in the movement, the hairbrush 2-10 with the bearing seat can clean the filter screen plate 2-7 with the rack, and the spare filter screen plate 2-11 with the rack can be inserted into the sliding groove 2-15 to be used for spare filtering.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (2)

1. The utility model provides a colliery bold coal processing apparatus, includes rubbing crusher structure (1), dust removal mechanism (2), clamping mechanism (3), its characterized in that: the crushing mechanism (1) comprises a baffle seat (1-1), a discharge pipe (1-2), a frame (1-3), a crushing machine body (1-4), a connecting seat (1-5), a sliding rod (1-6), a sliding hole (1-7), a first spring (1-8), a buffer plate (1-9), a feeding hole (1-10), a crushing cavity (1-11), an eccentric wheel (1-12), a belt pulley (1-13), a belt pulley I (1-14), a connecting shaft (1-15), an air outlet opening (1-16), a transmission belt (1-17), a motor belt pulley (1-18), a motor (1-19), a moving wheel (1-20) and a belt A (1-21), wherein the baffle seat (1-1) is in contact with the discharge pipe (1-2), the discharge pipe (1-2) is connected with the crushing machine body (1-4), the discharge pipe (1-2) penetrates through the frame (1-3), the discharge pipe (1-2) is connected with the frame (1-3), the frame (1-3) is connected with the crushing machine body (1-4), a sliding hole (1-7) is formed in the crushing machine body (1-4), the sliding hole (1-7) is connected with the sliding rod (1-6) in a sliding mode, the sliding rod (1-6) is connected with the connecting seat (1-5), the connecting seat (1-5) is connected with the baffle seat (1-1), the first spring (1-8) is sleeved on the sliding rod (1-6), the first spring (1-8) abuts against the crushing machine body (1-4) and the buffer plate (1-9), the buffer plate (1-9) is connected with the sliding rod (1-6), the feed inlet (1-10) is arranged in the crushing machine body (1-4), the crushing cavity (1-11) is arranged in the crushing machine body (1-4), the feed inlet (1-10) is communicated with the crushing cavity (1-11), the eccentric wheel (1-12) is arranged in the crushing cavity (1-11), the eccentric wheel (1-12) is connected with the connecting shaft (1-15), the connecting shaft (1-15) is connected with the crushing machine body (1-4) in a bearing way, the belt pulley (1-13) and the belt pulley I (1-14) are both connected with the connecting shaft (1-15), the belt pulley (1-13) is in friction connection with the transmission belt (1-17), the transmission belt (1-17) is in friction connection with the motor belt pulley (1-18), the motor belt pulley (1-18) is connected with the motor (1-19), the motor (1-19) is connected with the frame (1-3), the air outlet opening (1-16) is arranged on the crushing machine body (1-4), the air outlet opening (1-16) is communicated with the crushing cavity (1-11), the frame (1-3) is connected with the movable wheel (1-20), and the belt A (1-21) is in friction connection with the belt pulley I (1-14);

the dust removal mechanism (2) comprises supporting legs (2-1), an air box (2-2), a negative pressure wind wheel (2-3), a wind wheel belt wheel (2-4), a wind wheel shaft (2-5), a door-shaped support (2-6) with a groove, a filter screen plate (2-7) with a rack, a gear (2-8) with a shaft, a bearing seat (2-9), a brush (2-10) with a bearing seat, a spare filter screen plate (2-11) with a rack, a coupler (2-12), a servo motor (2-13), a limiting slide hole (2-14), a slide groove (2-15), an air inlet pipe (2-16) and an air outlet pipe orifice (2-17), wherein the supporting legs (2-1) are connected with the crushing machine body (1-4), and the supporting legs (2-1) are connected with the air box (2-2), the negative pressure wind wheel (2-3) is connected with a wind wheel shaft (2-5), the wind wheel shaft (2-5) is connected with a wind box (2-2) through a bearing, the wind wheel shaft (2-5) is connected with a wind wheel belt pulley (2-4), the wind wheel belt pulley (2-4) is in friction connection with a belt A (1-21), the wind box (2-2) is connected with a door-shaped support (2-6) with a groove, the door-shaped support (2-6) with a groove is in sliding connection with a filter screen plate (2-7) with a rack, the filter screen plate (2-7) with the rack is meshed with a gear (2-8) with a shaft, the gear (2-8) with the shaft is connected with a bearing seat (2-9) through a bearing, a hairbrush bearing seat (2-10) with the shaft is connected with the door-shaped support (2-6) with a groove, the standby filter screen plate with the rack (2-11) is in sliding connection with the door-shaped support with the slot (2-6), a servo motor (2-13) is connected with a gear (2-8) with a shaft through a coupler (2-12), the servo motor (2-13) is connected with an air box (2-2), a limiting slide hole (2-14) is arranged on the air box (2-2), a slide groove (2-15) is arranged on the air box (2-2), the slide groove (2-15) is in sliding connection with the filter screen plate with the rack (2-7), an air outlet pipe orifice (2-17) is arranged on the air box (2-2), and the standby filter screen plate with the rack (2-11) is meshed with the gear (2-8) with the shaft;

the clamping mechanism (3) comprises a supporting leg A (3-1), a fixed seat (3-2), a guide rod (3-3), a guide rod matching hole (3-4), a second spring (3-5), a sliding block A (3-6), a wedge block (3-7), a handle rod (3-8), a driven wedge block (3-9), a cushion (3-10), a spring A (3-11) and a limiting rod I (3-12), wherein the supporting leg A (3-1) is connected with the fixed seat (3-2), the guide rod matching holes (3-4) are symmetrically arranged on two sides of the fixed seat (3-2), the guide rod matching hole (3-4) is in sliding connection with the guide rod (3-3), the guide rod (3-3) is connected with the sliding block A (3-6), the second spring (3-5) is sleeved on the guide rod (3-3), the second spring (3-5) is abutted against the fixed seat (3-2) and the sliding block A (3-6), the sliding block A (3-6) is connected with the handle rod (3-8), the handle rod (3-8) is in sliding connection with the guide rod matching hole (3-4), the sliding block A (3-6) is connected with the wedge block (3-7), the wedge block (3-7) is in contact with the driven wedge block (3-9), the driven wedge block (3-9) is connected with the soft cushion (3-10), the driven wedge block (3-9) is connected with the limiting rod I (3-12), the limiting rod I (3-12) is in sliding connection with the limiting sliding hole (2-14), the spring A (3-11) is sleeved on the limiting rod I (3-12), and the spring A (3-11) is abutted against the driven wedge block (3-9), The air box (2-2);

the crushing mechanism (1) is connected with the dust removing mechanism (2), and the dust removing mechanism (2) is connected with the clamping mechanism (3).

2. The coal mine lump coal processing apparatus of claim 1, wherein: the eccentric wheels (1-12) are made of high manganese steel.

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