CN111744630A - Smash into powder and collect integrative equipment - Google Patents

Abstract

The invention relates to a powder crushing device, in particular to a powder crushing and collecting integrated device which comprises a feeding mechanism, a powder crushing mechanism, a powder collecting mechanism and a steel frame supporting seat.

Description

Smash into powder and collect integrative equipment

Technical Field

The invention relates to a pulverized powder device, in particular to a pulverized powder collecting integrated device.

Background

In the chemical industry field, a lot of fragile raw materials all need smash, the crocus, traditional equipment is smashed, the crocus is the inefficiency that separately goes on, the powder is collected the difficulty, so designed this kind and smashed into powder and collected integrative equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing the integrated equipment for crushing into powder and collecting the powder, the equipment can smoothly feed the powder and uniformly grind the powder, the equipment can accurately recover the powder under negative pressure, and the equipment can collect the powder in a cloth bag and does not need to stop to take down the cloth bag.

In order to solve the technical problems, the invention relates to a pulverized powder collecting device, and particularly relates to a pulverized powder collecting integrated device which comprises a feeding mechanism, a pulverized powder collecting mechanism, a powder collecting mechanism and a steel frame supporting seat.

The feeding mechanism is connected with the powder crushing mechanism, the powder crushing mechanism is connected with the powder collecting mechanism, and the powder collecting mechanism is connected with the steel frame supporting seat.

As a further optimization of the technical scheme, the feeding mechanism of the integrated device for collecting the pulverized powder comprises a vibration feeding hopper, a supporting pulley, a stepped slider, a sliding hole, a vibration motor, a belt pulley, a belt, a transmission belt pulley, a connecting shaft, an eccentric block, a bearing seat, a feeding cavity, a material distribution port, a material discharge port, a rotating shaft and a special-shaped hole, wherein the vibration feeding hopper is connected with the supporting pulley, the stepped slider is connected with the vibration feeding hopper, the sliding hole is formed in the stepped slider, the vibration motor is connected with the vibration feeding hopper, the vibration motor is connected with the belt pulley, the belt pulley is in friction connection with the belt, the belt is in friction connection with the transmission belt pulley, the transmission belt pulley is connected with the connecting shaft, the connecting shaft is connected with the eccentric block, the connecting shaft is in bearing connection with the bearing seat, the bearing seat is connected with the vibration feeding hopper, the feeding, the material distributing opening is arranged on the vibration feeding hopper, the material distributing opening is communicated with the material outlet, the material outlet is arranged on the vibration feeding hopper, the rotating shaft is connected with the vibration feeding hopper through a bearing, and the special-shaped hole is formed in the rotating shaft.

As a further optimization of the technical scheme, the pulverized powder collecting integrated equipment comprises a pulverizing box mechanism, a transmission gear ring mechanism, a pulverizing wheel mechanism, a material separating wheel mechanism, a fixed stepped shaft, a fixed gear, a motor gear and a servo motor, wherein the pulverizing box mechanism is connected with the transmission gear ring mechanism in a bearing manner, the transmission gear ring mechanism is meshed with the pulverizing wheel mechanism, the pulverizing wheel mechanism is connected with the material separating wheel mechanism, the material separating wheel mechanism is connected with the fixed stepped shaft in a bearing manner, the fixed stepped shaft is connected with the pulverizing box mechanism, the fixed gear is connected with the fixed stepped shaft, the fixed gear is meshed with the pulverizing wheel mechanism, the motor gear is meshed with the transmission gear ring mechanism, the motor gear is connected with the servo motor, and the servo motor is connected with the pulverizing box mechanism; the crushing box mechanism comprises a crushing box body, a stepped groove, a bent feeding hole, a bearing seat I, a motor support, a powder outlet, an inner sliding rod and a vibration spring, wherein the stepped groove is formed in the crushing box body, the bent feeding hole is symmetrically formed in the crushing box body, the bearing seat I is arranged on the crushing box body, the motor support is connected with a servo motor, the powder outlet is formed in the crushing box body, the inner sliding rod is arranged in the stepped groove, the inner sliding rod is connected with the crushing box body, the vibration spring is sleeved on the inner sliding rod, the stepped sliding block is in sliding connection with the stepped groove, a sliding hole is in sliding connection with the inner sliding rod, two ends of the vibration spring are respectively abutted against the stepped sliding block and the crushing box body, and the crushing box body is contacted; the transmission gear ring mechanism comprises an inner gear ring and an outer gear ring, the inner gear ring is connected with the bearing seat I in a bearing connection mode, and the outer gear ring is meshed with the motor gear; the grinding wheel mechanism comprises a grinding head, a square column, a sliding disc, a grinding spring, a connecting column, an inner stepped hole, a mincing knife holder, a rotating cylinder, a driving sliding hole, an internal thread, a unthreaded hole, a protruding limit disc, a threaded column, a boss A, a connecting shaft with a protrusion, a gear A, a driving sliding rod, a bearing seat II and a connecting ring, wherein the grinding head is connected with the square column, the square column is connected with the sliding disc, the grinding spring is sleeved on the square column, the inner stepped hole is arranged in the connecting column and is in sliding connection with the sliding disc, the inner stepped hole is in sliding connection with the square column, the grinding spring is pressed on the sliding disc and the inner wall of the connecting column, the mincing knife is connected with the mincing knife holder, the mincing knife holder is connected with the rotating cylinder, the driving sliding hole is formed in the rotating cylinder, the internal thread is arranged on the rotating cylinder, the unthreaded hole is arranged on the rotating cylinder, the protruding limit disc, the threaded column is in threaded connection with the internal thread, the boss A is connected with the threaded column, the boss A is connected with the connecting shaft with the bulge, the gear A is meshed with the inner gear ring, the gear A is meshed with the fixed gear, the gear A is provided with a bearing seat II, the bearing seat II is connected with the connecting shaft with the bulge in a bearing mode, the connecting shaft with the bulge is in sliding connection with the special-shaped hole, the gear A is connected with the driving slide rod, the driving slide rod is in sliding connection with the driving slide hole, and the driving slide rod is connected with the connecting ring; the material distributing wheel mechanism comprises a special-shaped welding hole, a four-arm rotating seat, a bearing seat A, a protruding shaft with two sides and a stirring wheel, the special-shaped welding hole is formed in the four-arm rotating seat, the four-arm rotating seat is connected with the bearing seat A, the bearing seat A is connected with a fixed stepped shaft through a bearing, the four-arm rotating seat is connected with the protruding shaft with two sides, and the protruding shaft with two sides is connected with the stirring wheel.

As a further optimization of the technical scheme, the powder collecting mechanism of the integrated pulverized powder collecting device comprises a powder collecting box mechanism, a negative pressure mechanism, an intermittent driving mechanism, a cloth bag rotating wheel mechanism, a reverse limiting mechanism, a cloth bag clamping mechanism and a loosening mechanism, wherein the powder collecting box mechanism is connected with the negative pressure mechanism, the intermittent driving mechanism is connected with the powder collecting box mechanism, the cloth bag rotating wheel mechanism is in contact with the reverse limiting mechanism, the reverse limiting mechanism is connected with the powder collecting box mechanism, the cloth bag clamping mechanism is connected with the cloth bag rotating wheel mechanism, the loosening mechanism is connected with the powder collecting box mechanism, and the loosening mechanism is in contact with the cloth bag clamping mechanism; the powder collecting box mechanism comprises a powder collecting box body, an outlet I, a transfer pipe, a negative pressure box, a bearing seat B, a negative pressure rotating bearing seat, a base, a transfer seat, a bearing seat III, a square hole seat, a bearing seat IV and a discharge port II, wherein the powder collecting box body is connected with the crushing box body; the negative pressure mechanism comprises a wind wheel motor, a belt pulley I, a belt pulley with a shaft, a limiting disc A, a shaft with double convex protrusions, a compression spring, a rotating seat I, a driving strip triangle, a driven strip triangle block, a driven disc, a wind wheel shaft, a negative pressure wind wheel and an inner sliding hole, wherein the wind wheel motor is connected with a base, the wind wheel motor is connected with the belt pulley I, the belt pulley I is in friction connection with the belt I, the belt I is in friction connection with the belt pulley with the shaft, the belt pulley with the shaft is connected with the limiting disc A, the belt pulley with the shaft is connected with a bearing seat B in a bearing manner, the belt pulley with the limiting disc A is connected with the shaft with double convex protrusions, the compression spring is sleeved on the shaft with the double convex protrusions, the compression spring abuts against the limiting disc A and the rotating seat I, the rotating seat I is connected with the driving strip triangle, the driving strip triangle is in contact with the, the driven disc is connected with a wind wheel shaft, the wind wheel shaft is connected with a negative pressure wind wheel, the wind wheel shaft is connected with a negative pressure rotating bearing seat in a bearing connection mode, and the wind wheel shaft is arranged in a negative pressure box; the intermittent driving mechanism comprises a motor A, a coupler, a rotating shaft I, a step disc and a driving rod, wherein the motor A is connected with the rotating shaft I through the coupler, the rotating shaft I is connected with a bearing seat III through a bearing, the rotating shaft I is connected with the step disc, and the step disc is connected with the driving rod; the cloth bag rotating wheel mechanism comprises a support with a square hole, a cloth bag looping annular seat, a fixed seat I, a step groove A, a unthreaded hole I, a connecting shaft A, a ratchet wheel, a driving groove I, a rotating wheel I and a rotating wheel disc, wherein the support with the square hole is connected with the rotating wheel disc; the reverse limiting mechanism comprises a round seat, a square sliding column, a jacking spring and a belt reel wedge block, wherein the round seat is connected with the square sliding column, the square sliding column is connected with the belt reel wedge block, the square sliding column is slidably connected with a belt square hole seat, the jacking spring is sleeved on the square sliding column, the jacking spring abuts against the belt reel wedge block and the belt square hole seat, and the belt reel wedge block is contacted with the ratchet wheel; the cloth bag clamping mechanism comprises a pulley with a seat, a polished rod, a hinge block with a stepped seat, a hinge arm, a bent arm, a clamping spring and a cloth bag clamping seat, wherein the pulley with the seat is connected with the polished rod, the polished rod is connected with the hinge block with the stepped seat, the polished rod is in sliding connection with a polished hole I, the hinge block with the stepped seat is in sliding connection with a stepped groove A, the hinge block with the stepped seat is hinged with the hinge arm, the hinge arm is hinged with the bent arm, the bent arm is connected with the cloth bag clamping seat, the clamping spring is sleeved on the bent arm, the bent arm is in sliding connection with a square hole support, the clamping spring is abutted against the cloth bag clamping seat and the square hole support, and the cloth bag clamping seat is abutted against a cloth bag; the loosening mechanism comprises a loosening bulge, a connecting disc A, a loosening bulge A, a supporting column and a support A, the loosening bulge is connected with the connecting disc A, the connecting disc A is connected with the loosening bulge A, the supporting column is connected with the connecting disc A, the supporting column is connected with the support A, the support A is connected with the transfer seat, and the pulley with the seat is abutted to the connecting disc A.

As a further optimization of the technical scheme, when the driving rod of the integrated pulverized powder collecting device provided by the invention rotates for one circle along with the stepped disc, the driving rod slides into the driving groove I to drive the rotating wheel I to rotate for a quarter of a circle, and then slides out of the driving groove I.

As a further optimization of the technical scheme, the loosening protrusion, the connecting disc A and the loosening protrusion A which are crushed into the powder collecting integrated equipment are made of high manganese steel.

The integrated equipment for crushing and collecting the powder has the beneficial effects that:

according to the integrated equipment for crushing and collecting the powder, the equipment can feed the powder smoothly and uniformly, can crush the powder, can grind the powder, can accurately recover the powder under negative pressure, can collect the powder in the cloth bag, and does not need to be stopped to take down the cloth bag.

Drawings

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

FIG. 1 is a schematic structural view of an integrated device for collecting pulverized coal according to the present invention.

FIG. 2 is a schematic structural view of an integrated device for collecting pulverized coal according to the present invention.

FIG. 3 is a schematic structural view of an integrated device for collecting pulverized coal according to the present invention.

Fig. 4 is a first structural schematic diagram of a feeding mechanism 1 of the integrated pulverized powder collecting device according to the present invention.

Fig. 5 is a second structural schematic diagram of the feeding mechanism 1 of the integrated pulverized powder collecting device of the invention.

Fig. 6 is a first schematic structural diagram of a pulverizing and powdering mechanism 2 of an integrated pulverizing and powdering and collecting apparatus according to the present invention.

Fig. 7 is a second schematic structural diagram of the pulverizing and powdering mechanism 2 of the integrated pulverizing and powdering device of the present invention.

FIG. 8 is a first schematic structural diagram of a crushing box mechanism 2-1 of the integrated crushing and powder collecting device of the invention.

FIG. 9 is a second schematic structural diagram of a crushing box mechanism 2-1 of the integrated crushing and powder collecting device of the invention.

Fig. 10 is a schematic structural diagram of a transmission gear ring mechanism 2-2 of the integrated device for crushing and collecting powder.

FIG. 11 is a first schematic structural diagram of a pulverizing wheel mechanism 2-3 of the integrated pulverizing and powder collecting device of the present invention.

FIG. 12 is a second schematic structural diagram of a pulverizing wheel mechanism 2-3 of the integrated pulverizing and powder collecting device of the present invention.

FIG. 13 is a third schematic structural diagram of a pulverizing wheel mechanism 2-3 of the integrated pulverizing and powder collecting device of the present invention.

FIG. 14 is a fourth schematic structural diagram of a pulverizing wheel mechanism 2-3 of the integrated pulverizing and powder collecting device of the present invention.

Fig. 15 is a first structural schematic diagram of a powder collecting mechanism 3 of the integrated device for collecting and crushing the powder.

Fig. 16 is a second structural schematic diagram of the powder collecting mechanism 3 of the integrated device for collecting and crushing the powder.

Fig. 17 is a third schematic structural view of a powder collecting mechanism 3 of the integrated device for collecting and crushing the powder.

Fig. 18 is a first structural schematic diagram of a powder collecting box mechanism 3-1 of the integrated device for collecting and crushing the powder.

Fig. 19 is a second structural schematic diagram of a powder collecting box mechanism 3-1 of the integrated device for collecting and crushing the powder.

FIG. 20 is a first schematic structural view of a negative pressure mechanism 3-2 of the integrated pulverized powder collecting device of the present invention.

FIG. 21 is a second schematic structural view of a negative pressure mechanism 3-2 of the integrated pulverized powder collecting device of the present invention.

FIG. 22 is a schematic structural view of an intermittent drive mechanism 3-3 of the integrated device for collecting and pulverizing the pulverized powder of the present invention.

FIG. 23 is a schematic structural view of a cloth bag rotating wheel mechanism 3-4 of the integrated pulverized powder collecting device according to the present invention.

FIG. 24 is a schematic structural view of a reverse limiting mechanism 3-5 of the integrated device for collecting and pulverizing the powder.

FIG. 25 is a schematic structural view of a cloth bag clamping mechanism 3-6 of the integrated pulverized powder collecting device according to the present invention.

FIG. 26 is a schematic structural view of a loosening mechanism 3-7 of an integrated pulverized powder collecting device according to the present invention.

Fig. 27 is a schematic structural view of an integrated device for collecting pulverized coal according to the present invention.

In the figure: a feeding mechanism 1; vibrating a feeding hopper 1-1; a support pulley 1-2; 1-3 of a stepped slider; 1-4 of a slide hole; 1-5 of a vibration motor; 1-6 of belt pulleys; 1-7 of a belt; 1-8 parts of a transmission belt pulley; connecting shafts 1-9; 1-10 parts of eccentric block; 1-11 of a bearing seat; a feed chamber 1-12; material separating port 1-13; 1-14 parts of a discharge port; 1-15 parts of a rotating shaft; special-shaped holes 1-16; crushing into a powder mechanism 2; a crushing box mechanism 2-1; 2-1-1 of a crushing box body; 2-1-2 of a stepped groove; bending a feed inlet 2-1-3; bearing seats I2-1-4; the motor supports 2-1-5; 2-1-6 of a powder outlet; 2-1-7 parts of an inner sliding rod; 2-1-8 parts of a vibration spring; a transmission gear ring mechanism 2-2; 2-2-1 of an inner gear ring; 2-2-2 of an outer gear ring; a crushing wheel mechanism 2-3; 2-3-1 of a grinding head; 2-3-2 of a square column; 2-3-3 of a sliding disk; grinding the spring 2-3-4; 2-3-5 of a connecting column; 2-3-6 parts of inner stepped hole; 2-3-7 parts of a mincing knife; 2-3-8 parts of a crushing cutter seat; 2-3-9 of a rotary cylinder; 2-3-10 of a driving slide hole; 2-3-11 parts of internal threads; 2-3-12 of a light hole; 2-3-13 parts of a bump limiting disc; 2-3-14 parts of a threaded column; boss A2-3-15; connecting shafts 2-3-16 with bulges; gear A2-3-17; driving the slide bar 2-3-18; bearing seats II 2-3-19; 2-3-20 of a connecting ring; a material distributing wheel mechanism 2-4; 2-4-1 of a special-shaped welding hole; a four-arm rotating seat 2-4-2; bearing seat A2-4-3; 2-4-4 of a protruding shaft at two sides; 2-4-5 of a stirring wheel; fixing a stepped shaft 2-5; 2-6 of a fixed gear; 2-7 parts of a motor gear; 2-8 of a servo motor; a powder collecting mechanism 3; a powder collecting box mechanism 3-1; a powder collecting box body 3-1-1; an outlet I3-1-2; a transfer pipe 3-1-3; 3-1-4 parts of a negative pressure box; bearing seats B3-1-5; rotating the bearing seat 3-1-6 under negative pressure; 3-1-7 of a base; 3-1-8 of a transfer seat; bearing seats III 3-1-9; 3-1-10 of a square hole seat; bearing seats IV 3-1-11; a discharge port II 3-1-12; a negative pressure mechanism 3-2; 3-2-1 of a wind wheel motor; pulley I3-2-2; belt I3-2-3; belt pulley 3-2-4 with shaft; a limiting disc A3-2-5; 3-2-6 of a double-convex shaft; 3-2-7 of a compression spring; a rotating seat I3-2-8; driving the strip-shaped triangle 3-2-9; 3-2-10 parts of passive strip-shaped triangular blocks; a driven disc 3-2-11; 3-2-12 parts of a wind wheel shaft; 3-2-13 parts of negative pressure wind wheel; 3-2-14 parts of inner slide hole; 3-3 of an intermittent driving mechanism; motor A3-3-1; 3-3-2 of a coupler; a rotating shaft I3-3-3; 3-3-4 of a step disc; 3-3-5 of a driving rod; a cloth bag rotating wheel mechanism 3-4; 3-4-1 of a support with a square hole; 3-4-2 parts of a cloth bag looping ring seat; a fixed seat I3-4-3; the stepped groove A3-4-4; unthreaded hole I3-4-5; connecting shaft A3-4-6; 3-4-7 parts of ratchet wheel; a driving groove I3-4-8; a rotating wheel I3-4-9; 3-4-10 of a rotary wheel disc; 3-5 of a reverse limiting mechanism; 3-5-1 of a round seat; 3-5-2 parts of a square sliding column; 3-5-3 of a jacking spring; 3-5-4 of a disk wedge block; 3-6 parts of a cloth bag clamping mechanism; 3-6-1 of a pulley with a seat; 3-6-2 parts of a polished rod; 3-6-3 of a hinge block with a step seat; articulated arms 3-6-4; 3-6-5 of a bent arm; 3-6-6 parts of a clamping spring; 3-6-7 parts of a cloth bag clamping seat; 3-7 parts of a loosening mechanism; loosening the bulge 3-7-1; connecting disc A3-7-2; loosening the projection A3-7-3; 3-7-4 of a support column; support A3-7-5; a steel frame supporting seat 4.

Detailed Description

The first embodiment is as follows:

the present embodiment will be 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, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, and the present invention relates to a pulverizing device, and more specifically, to a pulverizing-powder-collecting integrated device including a feeding mechanism 1, a pulverizing-powder mechanism 2, a powder-collecting mechanism 3, and a support base 4, which can smoothly feed and uniformly collect powder, can grind with a steel frame, can accurately recover powder under negative pressure, and can collect powder in a cloth bag without stopping the device to take down the cloth bag.

The feeding mechanism 1 is connected with the powder crushing mechanism 2, the powder crushing mechanism 2 is connected with the powder collecting mechanism 3, and the powder collecting mechanism 3 is connected with the steel frame supporting seat 4.

The second embodiment is as follows:

the present embodiment will be further described 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, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, wherein the feeding mechanism 1 includes a vibration feeding hopper 1-1, a support pulley 1-2, a stepped slider 1-3, a slide hole 1-4, a vibration motor 1-5, a pulley 1-6, a belt 1-7, a transmission pulley 1-8, a connecting shaft 1-9, an eccentric block 1-10, a bearing seat 1-11, a feeding cavity 1-12, a material-dividing port 1-13, a material-discharging port 1-14, a rotating shaft 1-15, a material-dividing port 1-, A special-shaped hole 1-16, a vibration feeding hopper 1-1 is connected with a supporting pulley 1-2, a stepped sliding block 1-3 is connected with the vibration feeding hopper 1-1, a sliding hole 1-4 is arranged on the stepped sliding block 1-3, a vibration motor 1-5 is connected with the vibration feeding hopper 1-1, a vibration motor 1-5 is connected with a belt pulley 1-6, the belt pulley 1-6 is connected with a belt 1-7 in a friction way, the belt 1-7 is connected with a transmission belt pulley 1-8 in a friction way, the transmission belt pulley 1-8 is connected with a connecting shaft 1-9, the connecting shaft 1-9 is connected with an eccentric block 1-10, the connecting shaft 1-9 is connected with a bearing seat 1-11 in a bearing connection way, the bearing seat 1-11 is connected with the vibration feeding hopper 1-1, a feeding cavity 1-12 is arranged on the vibration feeding hopper 1-1, the feeding cavity 1-12 is communicated with a material distributing opening 1-13, the material distributing opening 1-13 is arranged on a vibration feeding hopper 1-1, the material distributing opening 1-13 is communicated with a material outlet 1-14, the material outlet 1-14 is arranged on the vibration feeding hopper 1-1, a rotating shaft 1-15 is connected with the vibration feeding hopper 1-1 by a bearing, a special-shaped hole 1-16 is formed on the rotating shaft 1-15, a belt pulley 1-6 is driven to rotate by the operation of a vibration motor 1-5, the belt pulley 1-6 drives a transmission belt pulley 1-8 to rotate by a belt 1-7, the transmission belt pulley 1-8 drives a connecting shaft 1-9 to rotate, the connecting shaft 1-9 drives an eccentric block 1-10 to rotate, the eccentric block 1-10 rotates to form a polarizing force, the vibration feeding hopper 1-1 vibrates in the up-down direction under the driving of the polarizing force, the vibration feeding hopper 1-1 moves downwards through the vibration spring 2-1-8, then the vibration feeding hopper 1-1 moves upwards under the action of the polarizing force and the elastic force of the vibration spring 2-1-8, and thus the vibration feeding hopper 1-1 vibrates continuously up and down, so that raw materials fed from the feeding cavity 1-12 can be discharged from the discharging port 1-14 smoothly through the material distributing port 1-13, and then enter the crushing box body 2-1-1 through the bent feeding port 2-1-3.

The third concrete implementation mode:

the present embodiment will be further described 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, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, in which the pulverizing and powdering mechanism 2 includes a pulverizing box mechanism 2-1, a transmission gear ring mechanism 2-2, a pulverizing wheel mechanism 2-3, a material separating wheel mechanism 2-4, a fixed stepped shaft 2-5, a fixed gear 2-6, a motor gear 2-7, and a servo motor 2-8, the pulverizing box mechanism 2-1 is connected to the transmission gear ring mechanism 2-2 by a bearing, the transmission gear ring mechanism 2-2 is engaged with the pulverizing wheel mechanism 2-3, the grinding wheel mechanism 2-3 is connected with the material distributing wheel mechanism 2-4, the material distributing wheel mechanism 2-4 is connected with the fixed stepped shaft 2-5 by a bearing, the fixed stepped shaft 2-5 is connected with the grinding box mechanism 2-1, the fixed gear 2-6 is connected with the fixed stepped shaft 2-5, the fixed gear 2-6 is meshed with the grinding wheel mechanism 2-3, the motor gear 2-7 is meshed with the transmission gear ring mechanism 2-2, the motor gear 2-7 is connected with the servo motor 2-8, and the servo motor 2-8 is connected with the grinding box mechanism 2-1; the crushing box mechanism 2-1 comprises a crushing box body 2-1-1, a stepped groove 2-1-2, a bent feed port 2-1-3, a bearing seat I2-1-4, a motor support 2-1-5, a powder outlet 2-1-6, an inner sliding rod 2-1-7 and a vibrating spring 2-1-8, wherein the stepped groove 2-1-2 is arranged on the crushing box body 2-1-1, the bent feed port 2-1-3 is symmetrically arranged on the crushing box body 2-1-1, the bearing seat I2-1-4 is arranged on the crushing box body 2-1-1, the motor support 2-1-5 is connected with a servo motor 2-8, the powder outlet 2-1-6 is arranged on the crushing box body 2-1-1, the inner sliding rod 2-1-7 is arranged in the stepped groove 2-1-2, the inner sliding rod 2-1-7 is connected with the crushing box body 2-1-1, the vibration spring 2-1-8 is sleeved on the inner sliding rod 2-1-7, the stepped sliding block 1-3 is connected with the stepped groove 2-1-2 in a sliding manner, the sliding hole 1-4 is connected with the inner sliding rod 2-1-7 in a sliding manner, two ends of the vibration spring 2-1-8 are respectively abutted against the stepped sliding block 1-3 and the crushing box body 2-1-1, and the crushing box body 2-1-1 is contacted with the supporting pulley 1-2; the transmission gear ring mechanism 2-2 comprises an inner gear ring 2-2-1 and an outer gear ring 2-2-2, the inner gear ring 2-2-1 is connected with the outer gear ring 2-2-2, the inner gear ring 2-2-1 is connected with a bearing seat I2-1-4 in a bearing connection mode, and the outer gear ring 2-2-2 is meshed with a motor gear 2-7; the grinding wheel mechanism 2-3 comprises a grinding head 2-3-1, a square column 2-3-2, a sliding disc 2-3-3, a grinding spring 2-3-4, a connecting column 2-3-5, an inner stepped hole 2-3-6, a mincing knife 2-3-7, a mincing knife holder 2-3-8, a rotating cylinder 2-3-9, a driving sliding hole 2-3-10, an internal thread 2-3-11, a smooth hole 2-3-12, a convex limiting disc 2-3-13, a threaded column 2-3-14, a boss A2-3-15, a connecting shaft with a protrusion 2-3-16, a gear A2-3-17, a driving sliding rod 2-3-18, a bearing seat II2-3-19, a grinding wheel mechanism 2-3-9, a grinding wheel seat 2-3-3, a grinding wheel seat, 2-3-20 of a connecting ring, 2-3-1 of a grinding head is connected with a square column 2-3-2, 2-3-2 of the square column is connected with a sliding disc 2-3-3, 2-3-4 of a grinding spring is sleeved on the square column 2-3-2, an inner stepped hole 2-3-6 is arranged in a connecting column 2-3-5, 2-3-6 of the inner stepped hole is connected with the sliding disc 2-3-3 in a sliding way, 2-3-6 of the inner stepped hole is connected with the square column 2-3-2 in a sliding way, 2-3-4 of the grinding spring is propped against the inner wall of the sliding disc 2-3-3 and the connecting column 2-3-5, 2-3-7 of a crushing cutter seat and 2-3-8 of a stirring cutter seat, 2-3-8 of the stirring cutter seat is connected with a rotating cylinder 2-3-9, the driving slide hole 2-3-10 is arranged on the rotary cylinder 2-3-9, the internal thread 2-3-11 is arranged on the rotary cylinder 2-3-9, the unthreaded hole 2-3-12 is arranged on the rotary cylinder 2-3-9, the convex limiting disc 2-3-13 is connected with the connecting column 2-3-5, the connecting column 2-3-5 is connected with the unthreaded hole 2-3-12 in a sliding way, the convex limiting disc 2-3-13 is connected with the threaded column 2-3-14, the threaded column 2-3-14 is connected with the internal thread 2-3-11 in a threaded way, the lug boss A2-3-15 is connected with the threaded column 2-3-14, the lug boss A2-3-15 is connected with the connecting shaft 2-3-16 with the convex, the gear A2-3-17 is meshed with an inner gear ring 2-2-1, the gear A2-3-17 is meshed with a fixed gear 2-6, a bearing seat II2-3-19 is arranged on the gear A2-3-17, the bearing seat II2-3-19 is connected with a connecting shaft 2-3-16 with a bulge in a bearing connection mode, the connecting shaft 2-3-16 with the bulge is in sliding connection with a special-shaped hole 1-16, the gear A2-3-17 is connected with a driving slide bar 2-3-18, the driving slide bar 2-3-18 is in sliding connection with a driving slide hole 2-3-10, and the driving slide bar 2-3-18 is connected with a connecting ring 2-3-20; the material distributing wheel mechanism 2-4 comprises a special-shaped welding hole 2-4-1, a four-arm rotating seat 2-4-2, a bearing seat A2-4-3, protruding shafts 2-4-4 on two sides of the belt and a stirring wheel 2-4-5, the special-shaped welding hole 2-4-1 is arranged on the four-arm rotating seat 2-4-2, the four-arm rotating seat 2-4-2 is connected with the bearing seat A2-4-3, the bearing seat A2-4-3 is connected with a fixed stepped shaft 2-5 in a bearing mode, the four-arm rotating seat 2-4-2 is connected with the protruding shafts 2-4-4 on two sides of the belt, the protruding shafts 2-4-4 on two sides of the belt are connected with the stirring wheel 2-4-5, a motor gear 2-7 is driven to rotate through the operation of a servo motor 2-8, the motor gear 2-7 rotates to drive the outer gear ring 2-2-2 to rotate, the outer gear ring 2-2-2 rotates to drive the inner gear ring 2-2-1 to rotate, the inner gear ring 2-2-1 rotates to drive the gear A2-3-17 to rotate, the gear A2-3-17 rotates to drive the gear A2-3-17 to rotate and to do circular motion around the fixed gear 2-6 through the meshing of the fixed gear 2-6, the gear A2-3-17 drives the four-arm rotating seat 2-4-2 to rotate during rotation, the four-arm rotating seat 2-4-2 rotates, the connecting shaft 2-3-16 with the protrusions can do circular motion along with the four-arm rotating seat 2-4-2, but the convex connecting shaft 2-3-16 does not rotate, the gear A2-3-17 rotates relative to the convex connecting shaft 2-3-16, the convex connecting shaft 2-3-16 drives the driving slide bar 2-3-18 to do circular motion when rotating, the driving slide bar 2-3-18 to do circular motion drives the rotating cylinder 2-3-9 to rotate through the matching of the driving slide hole 2-3-10, when the rotating cylinder 2-3-9 rotates, the rotating cylinder 2-3-9 rotates downwards along the threaded column 2-3-14 due to the matching of the internal thread 2-3-11 and the thread of the threaded column 2-3-14, the rotating cylinder 2-3-9 rotates when downwards, the rotating cylinder 2-3-9 can drive the mincing knife 2-3-7 to rotate and move downwards at the same time, so that the mincing knife 2-3-7 can rotate downwards within the length range of the threaded column 2-3-14 to enlarge the crushing range, then the servo motor 2-8 is operated reversely, the mincing knife 2-3-7 can rotate reversely and move upwards at the same time, so that in the forward and reverse switching of the servo motor 2-8, the mincing knife 2-3-7 can rotate forwardly and move downwards at the same time, then the mincing knife rotates reversely and moves upwards at the same time, the two states are repeatedly switched to enlarge the crushing range, and meanwhile, the four-arm rotating seat 2-4-2 can drive the mincing wheel 2-4-5 to rotate forward and backward through the shafts 2-4-4 with two side bulges, the stirring wheel 2-4-5 can repeatedly push the raw materials to the material distributing openings 1-13 at two sides when rotating, so that the materials can be uniformly separated, in the process, the protruding shafts 2-4-4 at two sides are in rotation, and the rotation of the protruding shafts 2-4-4 at two sides can drive the rotating shafts 1-15 to rotate due to the sliding connection with the special-shaped holes 1-16, but the vertical reciprocating motion of the rotating shafts 1-15 along with the vibration of the feeding hopper 1-1 cannot be influenced, so that the materials can be uniformly distributed and can be crushed.

The fourth concrete implementation mode:

the present embodiment will be further described 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, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, in which the powder collecting mechanism 3 includes a powder collecting box mechanism 3-1, a negative pressure mechanism 3-2, an intermittent drive mechanism 3-3, a cloth bag rotating wheel mechanism 3-4, a reverse negative pressure limit mechanism 3-5, a cloth bag clamping mechanism 3-6, and a loosening mechanism 3-7, the powder collecting box mechanism 3-1 is connected to the negative pressure mechanism 3-2, the intermittent drive mechanism 3-3 is connected to the powder collecting box mechanism 3-1, the cloth bag rotating wheel mechanism 3-4 is in contact with the reverse limit mechanism 3-5, the reverse limiting mechanism 3-5 is connected with the powder collecting box mechanism 3-1, the cloth bag clamping mechanism 3-6 is connected with the cloth bag rotating wheel mechanism 3-4, the loosening mechanism 3-7 is connected with the powder collecting box mechanism 3-1, and the loosening mechanism 3-7 is in contact with the cloth bag clamping mechanism 3-6; the powder collecting box mechanism 3-1 comprises a powder collecting box body 3-1-1, an outlet I3-1-2, a transfer pipe 3-1-3, a negative pressure box 3-1-4, a bearing seat B3-1-5, a negative pressure rotating bearing seat 3-1-6, a base 3-1-7, a transfer seat 3-1-8, a bearing seat III3-1-9, a seat with a square hole 3-1-10, a bearing seat IV3-1-11 and a discharge port II3-1-12, wherein the powder collecting box body 3-1-1 is connected with a crushing box body 2-1-1, the powder collecting box body 3-1-1 is connected with a steel frame supporting seat 4, the powder collecting box body 3-1-1 is provided with an outlet I3-1-2, the outlet I3-1-2 is communicated with a transfer pipe 3-1-3, the transfer pipe 3-1-3 is connected and communicated with a negative pressure box 3-1-4, the negative pressure box 3-1-4 is connected with a steel frame support seat 4, the negative pressure box 3-1-4 is connected with a bearing seat B3-1-5, a negative pressure rotating bearing seat 3-1-6 is connected with the negative pressure box 3-1-4, a base 3-1-7 is connected with the negative pressure box 3-1-4, a transfer seat 3-1-8 is connected with the negative pressure box 3-1-4, a bearing seat III3-1-9 is connected with a transfer seat 3-1-8, a seat 3-1-10 with a square hole is connected with the transfer seat 3-1-8, a bearing seat IV3-1-11 is connected with the transfer seat 3-1-8, the discharge port II3-1-12 is arranged on the transfer seat 3-1-8, and the discharge port II3-1-12 is communicated with the negative pressure box 3-1-4; the negative pressure mechanism 3-2 comprises a wind wheel motor 3-2-1, a belt pulley I3-2-2, a belt I3-2-3, a belt pulley with a shaft 3-2-4, a limiting disc A3-2-5, a shaft with double protrusions 3-2-6, a hold-down spring 3-2-7, a rotating seat I3-2-8, a driving strip triangle 3-2-9, a driven strip triangle 3-2-10, a driven disc 3-2-11, a wind wheel shaft 3-2-12, a negative pressure wind wheel 3-2-13 and an inner slide hole 3-2-14, the wind wheel motor 3-2-1 is connected with the base 3-1-7, the wind wheel motor 3-2-1 is connected with the belt pulley I3-2-2, the belt pulley I3-2-2 is in friction connection with a belt I3-2-3, the belt I3-2-3 is in friction connection with a belt shaft pulley 3-2-4, the belt shaft pulley 3-2-4 is connected with a limiting disc A3-2-5, the belt shaft pulley 3-2-4 is in bearing connection with a bearing seat B3-1-5, the belt shaft pulley 3-2-4 is connected with a limiting disc A3-2-5, the limiting disc A3-2-5 is connected with a double convex shaft 3-2-6, a pressing spring 3-2-7 is sleeved on the double convex shaft 3-2-6, the pressing spring 3-2-7 is abutted against the limiting disc A3-2-5 and a rotating seat I3-2-8, the rotating seat I3-2-8 is connected with the driving strip-shaped triangle 3-2-9, the driving strip-shaped triangle 3-2-9 is contacted with the driven strip-shaped triangle block 3-2-10, the driven strip-shaped triangle block 3-2-10 is connected with the driven disc 3-2-11, the driven disc 3-2-11 is connected with the wind wheel shaft 3-2-12, the wind wheel shaft 3-2-12 is connected with the negative pressure wind wheel 3-2-13, the wind wheel shaft 3-2-12 is connected with the negative pressure rotating bearing seat 3-1-6 by a bearing, the wind wheel shaft 3-2-12 is arranged in the negative pressure box 3-1-4, the belt pulley I3-2-2 is driven to rotate by the operation of the wind wheel motor 3-2-1, the belt pulley I3-2-2 drives the belt pulley 3-2-4 to rotate through a belt I3-2-3, the belt pulley 3-2-4 with a shaft can drive the strip-shaped triangle 3-2-9 to rotate through the limiting disc A3-2-5, the belt double-convex shaft 3-2-6 and the rotating seat I3-2-8, the driven disc 3-2-11 can be driven by the driven disc 3-2-9 to rotate through the driven disc 3-2-10, the driven disc 3-2-11 can drive the negative pressure wind wheel 3-2-13 to rotate to form negative pressure, ground powder can enter the powder collection box body 3-1-1 from the powder outlet 2-1-6 under the drive of the negative pressure, the powder enters the negative pressure box 3-1-4 through the transfer pipe 3-1-3 and is discharged from the discharge port II3-1-12, if the power supply of the wind wheel motor 3-2-1 is connected reversely to cause the wind wheel motor 3-2-1 to rotate reversely, the strip-shaped triangle 3-2-9 is driven to rotate reversely, the passive strip-shaped triangle block 3-2-10 cannot be pushed, the power moves upwards along the slope of the passive strip-shaped triangle block 3-2-10 to compress the compression spring 3-2-7, and the power cannot be transferred to the negative pressure wind wheel 3-2-13, so that faults can be found as soon as possible, reverse pressure cannot be formed, and the powder is blown out upwards from the crushing box body 2-1-1 to cause dust raising; the intermittent driving mechanism 3-3 comprises a motor A3-3-1, a coupler 3-3-2, a rotating shaft I3-3-3, a step disc 3-3-4 and a driving rod 3-3-5, wherein the motor A3-3-1 is connected with the rotating shaft I3-3-3 through the coupler 3-3-2, the rotating shaft I3-3-3 is connected with a bearing seat III3-1-9 through a bearing, the rotating shaft I3-3-3 is connected with the step disc 3-3-4, and the step disc 3-3-4 is connected with the driving rod 3-3-5; the cloth bag rotating wheel mechanism 3-4 comprises a square hole support 3-4-1, a cloth bag looping ring seat 3-4-2, a fixed seat I3-4-3, a step groove A3-4-4, a unthreaded hole I3-4-5, a connecting shaft A3-4-6, a ratchet wheel 3-4-7, a driving groove I3-4-8, a rotating wheel I3-4-9 and a rotating wheel disk 3-4-10, wherein the square hole support 3-4-1 is connected with the rotating wheel disk 3-4-10, the cloth bag looping ring seat 3-4-2 is connected with the rotating wheel disk 3-4-10, the fixed seat I3-4-3 is connected with the rotating wheel disk 3-4-10, the step groove A3-4-4 is arranged on the fixed seat I3-4-3, the unthreaded hole I3-4-5 is arranged on a fixed seat I3-4-3, a connecting shaft A3-4-6 is connected with a rotating wheel disc 3-4-10, the connecting shaft A3-4-6 is connected with a bearing seat IV3-1-11 in a bearing mode, the connecting shaft A3-4-6 is connected with a ratchet wheel 3-4-7, the connecting shaft A3-4-6 is connected with a rotating wheel I3-4-9, and a driving groove I3-4-8 is arranged on a rotating wheel I3-4-9; the reverse limiting mechanism 3-5 comprises a round seat 3-5-1, a square sliding column 3-5-2, a jacking spring 3-5-3 and a belt disc wedge 3-5-4, wherein the round seat 3-5-1 is connected with the square sliding column 3-5-2, the square sliding column 3-5-2 is connected with the belt disc wedge 3-5-4, the square sliding column 3-5-2 is connected with the belt square hole seat 3-1-10 in a sliding manner, the jacking spring 3-5-3 is sleeved on the square sliding column 3-5-2, the jacking spring 3-5-3 abuts against the belt disc wedge 3-5-4 and the belt square hole seat 3-1-10, and the wedge 3-5-4 is in contact with a ratchet wheel 3-4-7; the cloth bag clamping mechanism 3-6 comprises a pulley with a seat 3-6-1, a polish rod 3-6-2, a hinge block with a step seat 3-6-3, an articulated arm 3-6-4, a bent arm 3-6-5, a clamping spring 3-6-6 and a cloth bag clamping seat 3-6-7, the pulley with a seat 3-6-1 is connected with the polish rod 3-6-2, the polish rod 3-6-2 is connected with the hinge block with a step seat 3-6-3, the polish rod 3-6-2 is connected with a smooth hole I3-4-5 in a sliding way, the hinge block with a step seat 3-6-3 is connected with a step groove A3-4-4 in a sliding way, the hinge block with a step seat 3-6-3 is hinged with the articulated arm 3-6-4, the articulated arm 3-6-4 is hinged with the bent arm 3-6-5, the bent arm 3-6-5 is connected with the cloth bag clamping seat 3-6-7, the clamping spring 3-6-6 is sleeved on the bent arm 3-6-5, the bent arm 3-6-5 is in sliding connection with the square hole support 3-4-1, the clamping spring 3-6-6 is abutted against the cloth bag clamping seat 3-6-7 and the square hole support 3-4-1, and the cloth bag clamping seat 3-6-7 is abutted against the cloth bag looping annular seat 3-4-2; the loosening mechanism 3-7 comprises a loosening bulge 3-7-1, a connecting disc A3-7-2, a loosening bulge A3-7-3, a supporting column 3-7-4 and a support A3-7-5, the loosening bulge 3-7-1 is connected with the connecting disc A3-7-2, the connecting disc A3-7-2 is connected with the loosening bulge A3-7-3, the supporting column 3-7-4 is connected with the connecting disc A3-7-2, the supporting column 3-7-4 is connected with the support A3-7-5, the support A3-7-5 is connected with a transfer seat 3-1-8, a pulley with a seat 3-6-1 is abutted against the connecting disc A3-7-2, and the cloth bag is not required to be taken down by machine, firstly, a motor A3-3-1 is operated to drive a coupler 3-3-2 to rotate, the coupler 3-3-2 can drive a driving rod 3-3-5 to rotate, when the driving rod 3-3-5 rotates for one circle, the driving rod 3-3-5 can drive a rotating wheel I3-4-9 to rotate for one quarter of a circle by sliding into a driving groove I3-4-8, and then the driving rod 3-3-5 slides out of the driving groove I3-4-8, so that the rotating wheel I3-4-9 can drive a ratchet wheel 3-4-7 to rotate for one quarter of a circle clockwise when viewed from a cloth bag clamping mechanism 3-6 to an intermittent driving mechanism 3-3, in the process, when viewed from the cloth bag clamping mechanism 3-6 to the intermittent driving mechanism 3-3, when the cloth bag clamping mechanism 3-6 in the three-o' clock direction rotates one fourth of the way clockwise, the pulley 3-6-1 with the seat is pushed by the loosening bulge 3-7-1, the pulley 3-6-1 with the seat drives the articulated arm 3-6-4 to move through the transmission of the polished rod 3-6-2 and the articulated block 3-6-3 with the step seat, the articulated arm 3-6-4 pushes the cloth bag clamping seat 3-6-7 towards two sides, a gap is formed between the cloth bag clamping seat 3-6-7 and the cloth bag looping ring seat 3-4-2, a cloth bag opening can be placed in the gap between the cloth bag clamping seat 3-6-7 and the cloth bag looping ring seat 3-4-2, when the loosening bulge 3-7-1 rotates, after the pushing of the loose bulge 3-7-1 is lost, the cloth bag clamping seat 3-6-7 is pressed against the cloth bag looping annular seat 3-4-2 again to clamp the cloth bag, after the cloth bag rotates for a quarter of a circle, the clamped cloth bag receives powder blown out from the discharge port II3-1-12, the powder enters the cloth bag looping annular seat 3-4-2 through the discharge port II3-1-12 and then enters the cloth bag, the cloth bag which is well received can continue to rotate along with the rotating wheel disc 3-4-10 along with the continuous rotation of the motor A3-3-1, the arrangement of the disc wedge 3-5-4 can prevent the rotating wheel disc 3-4-10 from reversely rotating, because the powder in the cloth bag has weight, the rotating wheel disc 3-4-10 tends to reversely rotate, but the matching of the belt disc wedge 3-5-4 and the jacking spring 3-5-3 does not influence the viewing from the cloth bag clamping mechanism 3-6 to the intermittent driving mechanism 3-3, the rotating wheel disc 3-4-10 rotates clockwise, when the cloth bag which is well received moves to the loosening bulge A3-7-3, the loosening bulge A3-7-3 can push the belt seat pulley 3-6-1, and the belt seat pulley 3-6-1 can drive the cloth bag clamping seats 3-6-7 which clamp the cloth bag to separate from each other, so that the cloth bag which is well loaded can be taken down, and the operation is very convenient.

The fifth concrete implementation mode:

referring 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, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, the present embodiment further illustrates a first embodiment, in which when the driving rod 3-3-5 rotates along with the step disk 3-3-4 for one week, the driving rod 3-3-5 slides out of the driving slot I3-4-8 after the driving rod 3-3-5 slides into the driving slot I3-4-8 to drive the rotating wheel I3-4-9 for one quarter of a turn.

The sixth specific implementation mode:

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, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, fig. 24, fig. 25, fig. 26, and fig. 27, and further described in the present embodiment, the material of the loosening projections 3-7-1, the connecting disc A3-7-2, and the loosening projection A3-7-3 is high manganese steel.

The working principle of the device is as follows: the equipment can smoothly feed and uniformly disperse powder, the belt pulleys 1-6 are driven to rotate by the operation of the vibration motors 1-5, the belt pulleys 1-6 can drive the transmission belt pulleys 1-8 to rotate through the belts 1-7, the transmission belt pulleys 1-8 can drive the connecting shafts 1-9 to rotate, the connecting shafts 1-9 can drive the eccentric blocks 1-10 to rotate, the eccentric blocks 1-10 rotate to form a bias vibration force, the vibration hopper 1-1 can vibrate up and down under the drive of the bias vibration force, the vibration hopper 1-1 can move downwards through the vibration springs 2-1-8, and then the vibration hopper 1-1 can move upwards under the action of the polarization force and the elastic force of the vibration springs 2-1-8, the vibration feeding hopper 1-1 can vibrate up and down continuously, so that raw materials fed from the feeding cavity 1-12 can be discharged from the discharging hole 1-14 through the material distributing hole 1-13 smoothly, and then enter the crushing box body 2-1-1 through the bent feeding hole 2-1-3; the equipment can crush, the servo motor 2-8 is operated to drive the motor gear 2-7 to rotate, the motor gear 2-7 rotates to drive the outer gear ring 2-2-2 to rotate, the outer gear ring 2-2-2 rotates to drive the inner gear ring 2-2-1 to rotate, the inner gear ring 2-2-1 rotates to drive the gear A2-3-17 to rotate, the gear A2-3-17 rotates to drive the gear A2-3-17 to rotate and simultaneously make circular motion around the fixed gear 2-6 through meshing of the fixed gear 2-6, the gear A2-3-17 drives the four-arm rotating seat 2-4-2 to rotate when rotating, and when the four-arm rotating seat 2-4-2 rotates, the connecting shaft 2-3-16 with the bulge moves circularly along the four-arm rotating seat 2-4-2, but the bulge connecting shaft 2-3-16 does not rotate, the gear A2-3-17 rotates relative to the bulge connecting shaft 2-3-16, the bulge connecting shaft 2-3-16 drives the driving slide bar 2-3-18 to move circularly when rotating, the driving slide bar 2-3-18 drives the rotating cylinder 2-3-9 to rotate through the matching of the driving slide hole 2-3-10, when the rotating cylinder 2-3-9 rotates, the rotating cylinder 2-3-9 is driven to move downwards along the threaded columns 2-3-14 when rotating due to the matching of the internal threads 2-3-11 and the threads of the threaded columns 2-3-14, the rotating cylinder 2-3-9 rotates when moving downwards, the rotating cylinder 2-3-9 drives the mincing knife 2-3-7 to rotate and move downwards at the same time, so that the mincing knife 2-3-7 can rotate downwards within the length range of the threaded column 2-3-14, the crushing range is expanded, then the servo motor 2-8 is operated reversely, the mincing knife 2-3-7 rotates reversely and moves upwards at the same time, so that in the forward and reverse switching of the servo motor 2-8, the mincing knife 2-3-7 can carry out crushing of forward rotation and downward movement at the same time, then crushing of reverse rotation and upward movement is carried out at the same time, the two states are repeatedly switched, the crushing range is expanded, and meanwhile, the four-arm rotating seat 2-4-2 can drive the stirring wheel 2-4-5 to rotate forward and backward through the shafts 2-4-4 with two side bulges, the stirring wheel 2-4-5 can repeatedly push the raw materials to the material distributing openings 1-13 at two sides when rotating, so that the materials can be uniformly separated, in the process, the protruding shafts 2-4-4 with two sides rotate, and the protruding shafts 2-4-4 with two sides can drive the rotating shafts 1-15 to rotate due to sliding connection with the special-shaped holes 1-16, but the rotating shafts 1-15 cannot be influenced to do up-and-down reciprocating motion along with the vibration of the feeding hopper 1-1, so that the materials can be uniformly distributed and can be crushed; the equipment can carry out grinding, the grinding head 2-3-1 can carry out circular reciprocating rotation along with the connecting shaft 2-3-16 with the bulge, the crushed raw materials can be ground under the assistance of the grinding spring 2-3-4, and if an object which cannot be ground is met, the grinding spring 2-3-4 can keep a certain compression amount to prevent rigid collision; the equipment can accurately recover powder under negative pressure, the belt pulley I3-2-2 is driven to rotate by the operation of the wind wheel motor 3-2-1, the belt pulley I3-2-2 drives the belt pulley with a shaft 3-2-4 to rotate by the belt I3-2-3, the belt pulley with a shaft 3-2-4 can drive the strip-shaped triangle 3-2-9 to rotate by the limiting disc A3-2-5, the shaft with double bulges 3-2-6 and the rotating seat I3-2-8, the strip-shaped triangle 3-2-9 can be driven to rotate by the driven plate 3-2-11 by the driven plate 3-2-10, the negative pressure wind wheel 3-2-13 can be driven to rotate by the driven plate 3-2-11 to form negative pressure, under the drive of negative pressure, ground powder enters the powder collecting box body 3-1-1 from the powder outlet 2-1-6, enters the negative pressure box 3-1-4 through the transfer pipe 3-1-3 and is discharged from the discharge port II3-1-12, if the power supply of the wind wheel motor 3-2-1 is connected reversely, the wind wheel motor 3-2-1 is reversed, the strip-shaped triangle 3-2-9 is driven to be reversed, the driven strip-shaped triangle block 3-2-10 cannot be pushed, the power moves upwards along the slope of the driven strip-shaped triangle block 3-2-10 to compress the compression spring 3-2-7, the power cannot be transferred to the negative pressure wind wheel 3-2-13, so that faults can be found as soon as possible, and reverse pressure cannot be formed, blowing the powder upwards from the crushing box body 2-1-1 to cause dust; the equipment can collect powder in the cloth bag, the cloth bag is taken down without stopping the machine, firstly, the motor A3-3-1 is operated to drive the coupler 3-3-2 to rotate, the coupler 3-3-2 drives the driving rod 3-3-5 to rotate, when the driving rod 3-3-5 rotates for one circle, the driving rod 3-3-5 can drive the rotating wheel I3-4-9 to rotate for one fourth by sliding into the driving groove I3-4-8, then the driving rod 3-3-5 slides out from the driving groove I3-4-8, so that the rotating wheel I3-4-9 can drive the ratchet wheel 3-4-7 to rotate for one fourth of a clockwise circle when the rotating wheel I3-4-9 is viewed from the cloth bag clamping mechanism 3-6 to the intermittent driving mechanism 3-3, in the process, when the cloth bag clamping mechanism 3-6 in the three-o' clock direction rotates clockwise one fourth of the cycle from the cloth bag clamping mechanism 3-6 to the intermittent driving mechanism 3-3, the pulley 3-6-1 with the seat is pushed by the loosening bulge 3-7-1, the pulley 3-6-1 with the seat drives the articulated arm 3-6-4 to move through the transmission of the polished rod 3-6-2 and the articulated block 3-6-3 with the step seat, the articulated arm 3-6-4 pushes the cloth bag clamping seat 3-6-7 to two sides, a gap is formed between the cloth bag clamping seat 3-6-7 and the cloth bag looping ring seat 3-4-2, and a cloth bag opening can be placed in the gap between the cloth bag clamping seat 3-6-7 and the cloth bag looping ring seat 3-4-2, when the rotary wheel disc rotates over the loosening projection 3-7-1 and loses the pushing of the loosening projection 3-7-1, the cloth bag clamping seat 3-6-7 is pressed against the cloth bag looping ring seat 3-4-2 again to clamp the cloth bag, after the rotary wheel disc rotates for a quarter of a circle, the clamped cloth bag receives powder blown out from the discharge port II3-1-12, the powder enters the cloth bag looping ring seat 3-4-2 through the discharge port II3-1-12 and then enters the cloth bag, the cloth bag connected with the powder continuously rotates along with the rotary wheel disc 3-4-10 along with the continuous rotation of the motor A3-3-1, the arrangement of the disk disc wedge blocks 3-5-4 can prevent the rotary wheel disc 3-4-10 from reversely rotating, because the powder in the cloth bag has weight, the rotary wheel disc 3-4-10 tends to reversely rotate, but the matching of the belt disc wedge 3-5-4 and the jacking spring 3-5-3 does not influence the viewing from the cloth bag clamping mechanism 3-6 to the intermittent driving mechanism 3-3, the rotating wheel disc 3-4-10 rotates clockwise, when the cloth bag which is well received moves to the loosening bulge A3-7-3, the loosening bulge A3-7-3 can push the belt seat pulley 3-6-1, and the belt seat pulley 3-6-1 can drive the cloth bag clamping seats 3-6-7 which clamp the cloth bag to separate from each other, so that the cloth bag which is well loaded can be taken down, and the operation is very convenient.

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 (6)

1. The utility model provides a smash into powder and collect integrative equipment, includes feed mechanism (1), smashes into powder mechanism (2), collection powder mechanism (3), steelframe supporting seat (4), its characterized in that: the feeding mechanism (1) is connected with the powder crushing mechanism (2), the powder crushing mechanism (2) is connected with the powder collecting mechanism (3), and the powder collecting mechanism (3) is connected with the steel frame supporting seat (4).

2. The integrated pulverized-powder collecting apparatus as claimed in claim 1, wherein: the feeding mechanism (1) comprises a vibration feeding hopper (1-1), a supporting pulley (1-2), a step sliding block (1-3), a sliding hole (1-4), a vibration motor (1-5), a belt pulley (1-6), a belt (1-7), a transmission belt pulley (1-8), a connecting shaft (1-9), an eccentric block (1-10), a bearing seat (1-11), a feeding cavity (1-12), a material distribution port (1-13), a discharge port (1-14), a rotating shaft (1-15) and a special-shaped hole (1-16), the vibration feeding hopper (1-1) is connected with the supporting pulley (1-2), the step sliding block (1-3) is connected with the vibration feeding hopper (1-1), the sliding hole (1-4) is opened on the step sliding block (1-3), the vibration motor (1-5) is connected with the vibration feeding hopper (1-1), the vibration motor (1-5) is connected with the belt pulley (1-6), the belt pulley (1-6) is connected with the belt (1-7) in a friction mode, the belt (1-7) is connected with the transmission belt pulley (1-8) in a friction mode, the transmission belt pulley (1-8) is connected with the connecting shaft (1-9), the connecting shaft (1-9) is connected with the eccentric block (1-10), the connecting shaft (1-9) is connected with the bearing seat (1-11) in a bearing mode, the bearing seat (1-11) is connected with the vibration feeding hopper (1-1), the feeding cavity (1-12) is arranged on the vibration feeding hopper (1-1), and the feeding cavity (1-12) is communicated with the material distributing port (1-13), the material distribution ports (1-13) are arranged on the vibration feeding hopper (1-1), the material distribution ports (1-13) are communicated with the material outlet ports (1-14), the material outlet ports (1-14) are arranged on the vibration feeding hopper (1-1), the rotating shaft (1-15) is connected with the vibration feeding hopper (1-1) in a bearing mode, and the special-shaped holes (1-16) are formed in the rotating shaft (1-15).

3. The integrated pulverized-powder collecting apparatus as claimed in claim 1, wherein: the powder crushing mechanism (2) comprises a crushing box mechanism (2-1), a transmission gear ring mechanism (2-2), a crushing wheel mechanism (2-3), a material distributing wheel mechanism (2-4), a fixed stepped shaft (2-5), a fixed gear (2-6), a motor gear (2-7) and a servo motor (2-8), wherein the crushing box mechanism (2-1) is connected with the transmission gear ring mechanism (2-2) in a bearing manner, the transmission gear ring mechanism (2-2) is meshed with the crushing wheel mechanism (2-3), the crushing wheel mechanism (2-3) is connected with the material distributing wheel mechanism (2-4), the material distributing wheel mechanism (2-4) is connected with the fixed stepped shaft (2-5) in a bearing manner, the fixed stepped shaft (2-5) is connected with the crushing box mechanism (2-1), the fixed gear (2-6) is connected with the fixed stepped shaft (2-5), the fixed gear (2-6) is meshed with the crushing wheel mechanism (2-3), the motor gear (2-7) is meshed with the transmission gear ring mechanism (2-2), the motor gear (2-7) is connected with the servo motor (2-8), and the servo motor (2-8) is connected with the crushing box mechanism (2-1); the crushing box mechanism (2-1) comprises a crushing box body (2-1-1), a stepped groove (2-1-2), a bent feeding hole (2-1-3), a bearing seat I (2-1-4), a motor support (2-1-5), a powder outlet (2-1-6), an inner slide rod (2-1-7) and a vibration spring (2-1-8), wherein the stepped groove (2-1-2) is formed in the crushing box body (2-1-1), the bent feeding holes (2-1-3) are symmetrically formed in the crushing box body (2-1-1), the bearing seat I (2-1-4) is arranged on the crushing box body (2-1-1), the motor support (2-1-5) is connected with the crushing box body (2-1-1), the motor support (2-1-5) is connected with the servo motor (2-8), the powder outlet (2-1-6) is arranged on the crushing box body (2-1-1), the inner sliding rod (2-1-7) is arranged in the stepped groove (2-1-2), the inner sliding rod (2-1-7) is connected with the crushing box body (2-1-1), the vibration spring (2-1-8) is sleeved on the inner sliding rod (2-1-7), the stepped sliding block (1-3) is connected with the stepped groove (2-1-2) in a sliding mode, the sliding hole (1-4) is connected with the inner sliding rod (2-1-7) in a sliding mode, two ends of the vibration spring (2-1-8) are respectively abutted against the stepped sliding block (1-3), The crushing box body (2-1-1) is in contact with the supporting pulley (1-2); the transmission gear ring mechanism (2-2) comprises an inner gear ring (2-2-1) and an outer gear ring (2-2-2), the inner gear ring (2-2-1) is connected with the outer gear ring (2-2-2), the inner gear ring (2-2-1) is connected with a bearing seat I (2-1-4) in a bearing connection mode, and the outer gear ring (2-2-2) is meshed with a motor gear (2-7); the grinding wheel mechanism (2-3) comprises a grinding head (2-3-1), a square column (2-3-2), a sliding disc (2-3-3), a grinding spring (2-3-4), a connecting column (2-3-5), an inner stepped hole (2-3-6), a mincing knife (2-3-7), a mincing knife holder (2-3-8), a rotating cylinder (2-3-9), a driving sliding hole (2-3-10), an inner thread (2-3-11), a smooth hole (2-3-12), a protrusion limiting disc (2-3-13), a threaded column (2-3-14), a boss A (2-3-15), a connecting shaft with a protrusion (2-3-16), A gear A (2-3-17), a driving slide rod (2-3-18), a bearing seat II (2-3-19) and a connecting ring (2-3-20), wherein a grinding head (2-3-1) is connected with a square column (2-3-2), the square column (2-3-2) is connected with a sliding disc (2-3-3), a grinding spring (2-3-4) is sleeved on the square column (2-3-2), an inner stepped hole (2-3-6) is arranged in a connecting column (2-3-5), the inner stepped hole (2-3-6) is connected with the sliding disc (2-3-3) in a sliding manner, and the inner stepped hole (2-3-6) is connected with the square column (2-3-2) in a sliding manner, the grinding spring (2-3-4) is abutted against the inner walls of the sliding disc (2-3-3) and the connecting column (2-3-5), the mincing knife (2-3-7) and the mincing knife holder (2-3-8), the mincing knife holder (2-3-8) is connected with the rotating cylinder (2-3-9), the driving sliding hole (2-3-10) is formed on the rotating cylinder (2-3-9), the internal thread (2-3-11) is arranged on the rotating cylinder (2-3-9), the unthreaded hole (2-3-12) is arranged on the rotating cylinder (2-3-9), the convex limiting disc (2-3-13) is connected with the connecting column (2-3-5), the connecting column (2-3-5) is connected with the unthreaded hole (2-3-12) in a sliding manner, the convex limiting disc (2-3-13) is connected with the threaded column (2-3-14), the threaded column (2-3-14) is connected with the internal thread (2-3-11) in a threaded manner, the boss A (2-3-15) is connected with the threaded column (2-3-14), the boss A (2-3-15) is connected with the connecting shaft (2-3-16) with the convex, the gear A (2-3-17) is meshed with the inner gear ring (2-2-1), the gear A (2-3-17) is meshed with the fixed gear (2-6), the gear A (2-3-17) is provided with a bearing seat II (2-3-19), the connecting mode of the bearing seat II (2-3-19) and the connecting shaft (2-3-16) with the convex is bearing connection, the connecting shaft (2-3-16) with the bulge is connected with the special-shaped hole (1-16) in a sliding manner, the gear A (2-3-17) is connected with the driving slide bar (2-3-18), the driving slide bar (2-3-18) is connected with the driving slide hole (2-3-10) in a sliding manner, and the driving slide bar (2-3-18) is connected with the connecting ring (2-3-20); the material distributing wheel mechanism (2-4) comprises a special-shaped welding hole (2-4-1), a four-arm rotating seat (2-4-2), a bearing seat A (2-4-3), a protruding shaft (2-4-4) with two sides and a stirring wheel (2-4-5), the special-shaped welding holes (2-4-1) are formed in the four-arm rotating seat (2-4-2), the four-arm rotating seat (2-4-2) is connected with the bearing seat A (2-4-3), the bearing seat A (2-4-3) is connected with the fixed stepped shaft (2-5) in a bearing mode, the four-arm rotating seat (2-4-2) is connected with the shafts (2-4-4) with the two sides, and the shafts (2-4-4) with the two sides are connected with the stirring wheel (2-4-5).

4. The integrated pulverized-powder collecting apparatus as claimed in claim 1, wherein: the powder collecting mechanism (3) comprises a powder collecting box mechanism (3-1), a negative pressure mechanism (3-2), an intermittent driving mechanism (3-3), a cloth bag rotating wheel mechanism (3-4), a reverse limiting mechanism (3-5), a cloth bag clamping mechanism (3-6) and a loosening mechanism (3-7), wherein the powder collecting box mechanism (3-1) is connected with the negative pressure mechanism (3-2), the intermittent driving mechanism (3-3) is connected with the powder collecting box mechanism (3-1), the cloth bag rotating wheel mechanism (3-4) is contacted with the reverse limiting mechanism (3-5), the reverse limiting mechanism (3-5) is connected with the powder collecting box mechanism (3-1), the cloth bag clamping mechanism (3-6) is connected with the cloth bag rotating wheel mechanism (3-4), and the loosening mechanism (3-7) is connected with the powder collecting box mechanism (3-1), the loosening mechanism (3-7) is contacted with the cloth bag clamping mechanism (3-6); the powder collecting box mechanism (3-1) comprises a powder collecting box body (3-1-1), an outlet I (3-1-2), a transfer pipe (3-1-3), a negative pressure box (3-1-4), a bearing seat B (3-1-5), a negative pressure rotating bearing seat (3-1-6), a base (3-1-7), a transfer seat (3-1-8), a bearing seat III (3-1-9), a seat with a square hole (3-1-10), a bearing seat IV (3-1-11) and a discharge port II (3-1-12), wherein the powder collecting box body (3-1-1) is connected with the crushing box body (2-1-1), the powder collecting box body (3-1-1) is connected with a steel frame supporting seat (4), an outlet I (3-1-2) is arranged on the powder collecting box body (3-1-1), the outlet I (3-1-2) is communicated with a transfer pipe (3-1-3), the transfer pipe (3-1-3) is connected and communicated with a negative pressure box (3-1-4), the negative pressure box (3-1-4) is connected with a steel frame supporting seat (4), the negative pressure box (3-1-4) is connected with a bearing seat B (3-1-5), a negative pressure rotating bearing seat (3-1-6) is connected with the negative pressure box (3-1-4), a base (3-1-7) is connected with the negative pressure box (3-1-4), and a transfer seat (3-1-8) is connected with the negative pressure box (3-1-4), the bearing seat III (3-1-9) is connected with the transfer seat (3-1-8), the seat with the square hole (3-1-10) is connected with the transfer seat (3-1-8), the bearing seat IV (3-1-11) is connected with the transfer seat (3-1-8), the discharge port II (3-1-12) is arranged on the transfer seat (3-1-8), and the discharge port II (3-1-12) is communicated with the negative pressure box (3-1-4); the negative pressure mechanism (3-2) comprises a wind wheel motor (3-2-1), a belt pulley I (3-2-2), a belt I (3-2-3), a belt pulley with a shaft (3-2-4), a limiting disc A (3-2-5), a double convex shaft (3-2-6), a compression spring (3-2-7), a rotating seat I (3-2-8), a driving strip triangle (3-2-9), a driven strip triangle block (3-2-10), a driven disc (3-2-11), a wind wheel shaft (3-2-12), a negative pressure wind wheel (3-2-13) and an inner slide hole (3-2-14), wherein the wind wheel motor (3-2-1) is connected with a base (3-1-7), a wind wheel motor (3-2-1) is connected with a belt pulley I (3-2-2), the belt pulley I (3-2-2) is in friction connection with a belt I (3-2-3), the belt I (3-2-3) is in friction connection with a belt shaft belt pulley (3-2-4), the belt shaft belt pulley (3-2-4) is connected with a limiting disc A (3-2-5), the belt shaft belt pulley (3-2-4) is in bearing connection with a bearing seat B (3-1-5), the belt shaft belt pulley (3-2-4) is connected with a limiting disc A (3-2-5), the limiting disc A (3-2-5) is connected with a double convex shaft (3-2-6), a compression spring (3-2-7) is sleeved on the double convex shaft (3-2-6), the compression spring (3-2-7) is supported on the limiting disc A (3-2-5) and the rotating seat I (3-2-8), the rotating seat I (3-2-8) is connected with the driving strip-shaped triangle (3-2-9), the driving strip-shaped triangle (3-2-9) is in contact with the driven strip-shaped triangle block (3-2-10), the driven strip-shaped triangle block (3-2-10) is connected with the driven disc (3-2-11), the driven disc (3-2-11) is connected with the wind wheel shaft (3-2-12), the wind wheel shaft (3-2-12) is connected with the negative pressure wind wheel (3-2-13), the wind wheel shaft (3-2-12) is connected with the negative pressure rotating bearing seat (3-1-6) in a bearing way, the wind wheel shaft (3-2-12) is arranged in the negative pressure box (3-1-4); the intermittent driving mechanism (3-3) comprises a motor A (3-3-1), a coupler (3-3-2), a rotating shaft I (3-3-3), a step disc (3-3-4) and a driving rod (3-3-5), the motor A (3-3-1) is connected with the rotating shaft I (3-3-3) through the coupler (3-3-2), the rotating shaft I (3-3-3) is connected with a bearing seat III (3-1-9) through a bearing, the rotating shaft I (3-3-3) is connected with the step disc (3-3-4), and the step disc (3-3-4) is connected with the driving rod (3-3-5); the cloth bag rotating wheel mechanism (3-4) comprises a square hole support (3-4-1), a cloth bag looping ring seat (3-4-2), a fixed seat I (3-4-3), a step groove A (3-4-4), a unthreaded hole I (3-4-5), a connecting shaft A (3-4-6), a ratchet wheel (3-4-7), a driving groove I (3-4-8), a rotating wheel I (3-4-9) and a rotating wheel disc (3-4-10), the square hole support (3-4-1) is connected with the rotating wheel disc (3-4-10), the cloth bag looping ring seat (3-4-2) is connected with the rotating wheel disc (3-4-10), the fixed seat I (3-4-3) is connected with the rotating wheel disc (3-4-10), the stepped groove A (3-4-4) is formed in the fixed seat I (3-4-3), the unthreaded hole I (3-4-5) is formed in the fixed seat I (3-4-3), the connecting shaft A (3-4-6) is connected with the rotating wheel disc (3-4-10), the connecting shaft A (3-4-6) is connected with the bearing seat IV (3-1-11) in a bearing mode, the connecting shaft A (3-4-6) is connected with the ratchet wheel (3-4-7), the connecting shaft A (3-4-6) is connected with the rotating wheel I (3-4-9), and the driving groove I (3-4-8) is formed in the rotating wheel I (3-4-9); the reverse limiting mechanism (3-5) comprises a round seat (3-5-1), a square sliding column (3-5-2), a jacking spring (3-5-3) and a belt disc wedge block (3-5-4), the round seat (3-5-1) is connected with the square sliding column (3-5-2), the square sliding column (3-5-2) is connected with the belt disc wedge block (3-5-4), the square sliding column (3-5-2) is connected with a square hole seat (3-1-10) in a sliding manner, the jacking spring (3-5-3) is sleeved on the square sliding column (3-5-2), the jacking spring (3-5-3) is abutted against the belt disc wedge block (3-5-4) and the square hole seat (3-1-10), the tape spool wedge (3-5-4) is contacted with the ratchet wheel (3-4-7); the cloth bag clamping mechanism (3-6) comprises a pulley (3-6-1) with a seat, a polished rod (3-6-2), a hinge block (3-6-3) with a step seat, a hinge arm (3-6-4), a bent arm (3-6-5), a clamping spring (3-6-6), and a cloth bag clamping seat (3-6-7), wherein the pulley (3-6-1) with a seat is connected with the polished rod (3-6-2), the polished rod (3-6-2) is connected with the hinge block (3-6-3) with a step seat, the polished rod (3-6-2) is connected with the unthreaded hole I (3-4-5) in a sliding manner, the hinge block (3-6-3) with a step seat is connected with the step groove A (3-4-4) in a sliding manner, the hinge block (3-6-3) with the ladder seat is hinged with the hinge arm (3-6-4), the hinge arm (3-6-4) is hinged with the bent arm (3-6-5), the bent arm (3-6-5) is connected with the cloth bag clamping seat (3-6-7), the clamping spring (3-6-6) is sleeved on the bent arm (3-6-5), the bent arm (3-6-5) is connected with the support (3-4-1) with the square hole in a sliding way, the clamping spring (3-6-6) is propped against the cloth bag clamping seat (3-6-7), a cloth bag clamping seat (3-6-7) is propped against the cloth bag looping annular seat (3-4-2) on a support (3-4-1) with a square hole; the loosening mechanism (3-7) comprises a loosening bulge (3-7-1), a connecting disc A (3-7-2), a loosening bulge A (3-7-3), a supporting column (3-7-4) and a support A (3-7-5), the loosening bulge (3-7-1) is connected with the connecting disc A (3-7-2), the connecting disc A (3-7-2) is connected with the loosening bulge A (3-7-3), the supporting column (3-7-4) is connected with the connecting disc A (3-7-2), the supporting column (3-7-4) is connected with the support A (3-7-5), the support A (3-7-5) is connected with a transfer seat (3-1-8), the pulley (3-6-1) with the seat is pressed against the connecting disc A (3-7-2).

5. The integrated pulverized-powder collecting device as claimed in claim 4, wherein: when the driving rod (3-3-5) rotates for one circle along with the step disc (3-3-4), the driving rod (3-3-5) can slide into the driving groove I (3-4-8) to drive the rotating wheel I (3-4-9) to rotate for a quarter of a circle, and then the driving rod (3-3-5) slides out of the driving groove I (3-4-8).

6. The integrated pulverized-powder collecting device as claimed in claim 4, wherein: the loosening bulge (3-7-1), the connecting disc A (3-7-2) and the loosening bulge A (3-7-3) are made of high manganese steel.

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