CN116532183A

CN116532183A - Ore serialization breaker

Info

Publication number: CN116532183A
Application number: CN202310826287.2A
Authority: CN
Inventors: 冯磊; 沈彬彬; 王怀佳; 冯婕; 邢硕
Original assignee: Shandong Qianshun Mining And Metallurgy Science Co ltd
Current assignee: Shandong Qianshun Mining And Metallurgy Science Co ltd
Priority date: 2023-07-07
Filing date: 2023-07-07
Publication date: 2023-08-04

Abstract

The invention provides an ore continuous crushing device, which relates to the technical field of mining and comprises: the clamping groove structure is formed in one side of the L-shaped base, a movable storage vehicle is arranged on one side of the L-shaped base in a butt joint mode, four groups of universal wheels are assembled at the bottom of the movable storage vehicle, and the two groups of universal wheels are located in the clamping groove structure; a conveying pedestal fixedly arranged at the top of the L-shaped base; the protection cylinder is arranged, the effect of providing bidirectional conveying control in the crushing process is provided, the crushing motor is started to drive the transmission shaft to rotate, the transmission shaft drives the protection cylinder to rotate, then the conical extrusion die rotates, the ore is extruded by the eccentric structure of the conical extrusion die in the rotating process, the crushing effect is realized, the expansion and contraction of the electric cylinder are further controlled, the protection cylinder can keep the transmission of the conical extrusion die in the axial expansion process of the electric cylinder, and the problem that the conventional crushing device is inconvenient to maintain the effect of providing bidirectional conveying control in the crushing process is solved.

Description

Ore serialization breaker

Technical Field

The invention relates to the technical field of mining, in particular to an ore continuous crushing device.

Background

The crushing of ores is an indispensable material preparation stage before the beneficiation operation, most of ores treated by a beneficiation plant are useful minerals and gangue minerals which are closely connected together and often are embedded into fine particles or even fine particles, and the ores can be concentrated by the existing physical beneficiation method only by crushing the ores and fully dissociating the ores, and are crushed and crushed by extrusion in a rotary extrusion mode.

The crushing devices currently in use have the following drawbacks:

1. the existing crushing device mainly charges and crushes materials in a shaking mode, so that the effect of providing bidirectional conveying control is not convenient to maintain in the crushing process;

2. the lack of a continuous circulation conveying structure is inconvenient to re-crush large ores;

3. there is a lack of drive structure for the cycle.

Disclosure of Invention

In view of the above, the present invention provides an ore continuous crushing device, which has a protection cylinder, provides an effect of providing bidirectional conveying control during crushing, starts a crushing motor to drive a transmission shaft to rotate, and drives the transmission shaft to rotate, so that a tapered extrusion die rotates, an eccentric structure of the tapered extrusion die extrudes ore during rotation, a crushing effect is achieved, and further the expansion and contraction of an electric cylinder are controlled, the gap between the tapered extrusion die and an inner tapered die can be adjusted, the crushing effect is further adjusted, and the protection cylinder can maintain the transmission of the tapered extrusion die during the axial expansion of the electric cylinder.

The invention provides an ore continuous crushing device, which specifically comprises: the clamping groove structure is formed in one side of the L-shaped base, a movable storage vehicle is arranged on one side of the L-shaped base in a butt joint mode, four groups of universal wheels are assembled at the bottom of the movable storage vehicle, and the two groups of universal wheels are located in the clamping groove structure; a conveying pedestal fixedly arranged at the top of the L-shaped base; the lower conveying belt is rotatably arranged in the conveying pedestal in cooperation with the roller shaft; the crushing outer cylinder is fixedly communicated with the middle of the top of the conveying pedestal, and is positioned above the lower conveying belt; an inner transmission frame is fixedly arranged below the inner part of the crushing outer cylinder, the outer part of the inner transmission frame is of a triangular bracket structure, and a crushing motor is fixedly arranged at the inner side of the bottom of the inner transmission frame; the screening frame is fixedly arranged at the rear side of the top of the L-shaped base; and the communication frame is fixedly arranged at the rear right side of the conveying pedestal.

Optionally, the conveying pedestal further includes: the left side of the conveying pedestal is rotatably provided with a side transmission shaft which is in transmission connection with a bevel gear arranged on a rear side roller shaft of the lower conveying belt; the transmission motor is fixedly arranged at the front end of the left side of the conveying pedestal and is in transmission connection with the side transmission shaft; the mounting frames are fixedly arranged on two sides of the top of the conveying pedestal, and an upper conveying belt is arranged above the adjacent surfaces of the mounting frames on the two sides in a rotating manner by matching with the roller shafts; the folding frames are fixedly arranged above the adjacent surfaces of the mounting frames at the two sides in cooperation with the brackets, and the distance between the two groups of folding frames is gradually reduced from back to front; the left side of the mounting frame is rotatably provided with a side linkage shaft; the side linkage shaft is in transmission connection with the side transmission shaft and the roll shaft of the upper conveying belt through bevel gears.

Optionally, the conveying pedestal further includes: the right rear shaft end of the lower conveying belt is fixedly provided with a control wheel, and the right side of the control wheel is fixedly provided with an eccentric rod.

Optionally, the crushing outer cylinder further comprises: the top of the inner transmission frame is fixedly provided with an electric cylinder; the two sides of the top of the inner transmission frame are rotatably provided with two groups of transmission shafts, and the bottoms of the transmission shafts are meshed with a rotating shaft of the crushing motor through gears; the conical extrusion die is rotationally arranged at the outer part of the top end of the electric cylinder in cooperation with the conical roller bearing; an inner cone die is fixedly arranged above the inner part of the crushing outer cylinder, and a feed hopper is fixedly arranged at the top of the inner cone die; the expansion and contraction of the electric cylinder are controlled, the gap between the conical extrusion die and the inner conical die can be adjusted, the crushing effect is further adjusted, and the protection cylinder can keep transmission of the conical extrusion die in the axial expansion process of the electric cylinder.

Optionally, the bottom surface of the conical extrusion die is eccentrically arranged, and a protection cylinder is fixedly arranged outside the lower part of the conical extrusion die; the gear ring structure is arranged below the inside of the protection cylinder, and the gear is arranged at the top end of the transmission shaft and meshed with the gear ring structure.

Optionally, the screening frame includes: the fixed frame disc is fixedly provided with a connecting shaft in the middle of the rear side of the screening frame, the connecting shaft is rotatably arranged in the screening frame, and the connecting shaft is connected with the screening frame through a ratchet wheel; the front side of the fixed frame disk is fixedly provided with a screen ring, the front side of the screen ring is fixedly provided with a poking ring, and the front side of the poking ring is fixedly provided with a driven wedge block; the inside of dialling the board, the filter screen ring is fixed to be provided with and dialles the board, dials the board and set up for the slope.

Optionally, the communication frame includes: the air telescopic rod A is fixedly arranged at the rear side of the communication frame, a bar-shaped frame is fixedly arranged at the telescopic end of the air telescopic rod A, and the eccentric rod is arranged in the bar-shaped frame in a sliding manner; the right side of the top of the communication frame is fixedly provided with an air telescopic rod B, and the top of the air telescopic rod B is fixedly provided with a pushing seat; the front side of the pushing wedge block is fixedly provided with a spring rod, and the spring rod is sleeved with a spring and penetrates through the pushing seat.

Optionally, the air telescopic rod A is communicated with the air telescopic rod B, and the air telescopic rod B is contracted when the air telescopic rod A is extended; the inclined plane of the pushing wedge block can be attached to the inclined plane of the driven wedge block; when the air telescopic rod B is contracted, the pushing wedge block can be matched with the spring rod to automatically adapt, then the pushing wedge block penetrates through the driven wedge block, the connecting shaft is arranged through the inner ratchet wheel, unidirectional movement can be guaranteed, and then pushing transmission of the rotary screening frame is completed.

The beneficial effects of the invention are as follows:

1. the protection cylinder is arranged, the effect of providing bidirectional conveying control is provided in the crushing process, the crushing motor is started to drive the transmission shaft to rotate, the transmission shaft drives the protection cylinder to rotate, the tapered extrusion die is rotated, the ore is extruded by the eccentric structure of the tapered extrusion die in the rotating process, the crushing effect is achieved, the electric cylinder is controlled to stretch out and draw back, the gap between the tapered extrusion die and the inner tapered die can be adjusted, the crushing effect is further adjusted, and the protection cylinder can keep transmission to the tapered extrusion die in the axial stretching process of the electric cylinder.

2. The filter screen ring is arranged, a continuous circulating conveying structure is provided, ores filtered by the filter screen ring fall into the movable storage vehicle, ores which cannot pass through the filter screen ring rise along with the rotation of the stirring ring and are finally thrown above the upper conveying belt, fall into the feed hopper along with the upper conveying belt again, and are repeatedly crushed; the folding frame can gather ores borne by the upper conveying belt, so that the ores are guaranteed to fall into the feeding hopper.

3. Set up gas telescopic link B, provided circulation and used the drive structure, gas telescopic link B extends when gas telescopic link A contracts, and then upwards rise and impel the voussoir, utilize impelling the voussoir to drive driven voussoir and remove, and then rotate the filter screen ring, when gas telescopic link B contracts, impel the voussoir and can cooperate the spring beam automatic adaptation, and then pass driven voussoir, the connecting axle passes through interior ratchet setting, can guarantee unidirectional movement, and then accomplishes the impelling transmission of rotatory screening frame, and then realizes the circulation drive.

Drawings

Fig. 1 shows a schematic perspective view of an embodiment according to the present invention;

FIG. 2 shows a schematic diagram of a front axle-measurement structure according to an embodiment of the invention;

FIG. 3 illustrates a rear axle-measurement schematic diagram in accordance with an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a pitch-back structure according to an embodiment of the invention;

FIG. 5 shows a schematic perspective cross-sectional structure according to an embodiment of the invention;

fig. 6 shows a schematic perspective view of a crushing outer cylinder according to an embodiment of the present invention;

FIG. 7 shows a schematic cross-sectional structural view of a crushing outer drum according to an embodiment of the present invention;

fig. 8 shows an a partial enlarged structural schematic diagram according to an embodiment of the present invention.

List of reference numerals

1. An L-shaped base; 101. a movable storage vehicle; 2. a conveying pedestal; 201. a lower conveyor belt; 202. a side drive shaft; 203. a drive motor; 204. a mounting frame; 205. an upper conveyor belt; 206. folding the frame; 207. a side linkage shaft; 208. a control wheel; 209. an eccentric rod; 3. crushing an outer cylinder; 301. an inner transmission frame; 302. a crushing motor; 303. an electric cylinder; 304. a transmission shaft; 305. a conical extrusion die; 306. a protective cylinder; 307. an inner cone type die; 308. a feed hopper; 4. a screening frame; 401. a fixing rack disc; 402. a connecting shaft; 403. a filter screen ring; 404. a dial ring; 405. a driven wedge; 406. a poking plate; 5. a communication frame; 501. an air telescopic rod A; 502. a bar frame; 503. an air telescopic rod B; 504. a propulsion seat; 505. advancing the wedge; 506. a spring rod.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Examples: please refer to fig. 1 to 8:

the invention provides an ore continuous crushing device, which comprises: the device comprises an L-shaped base 1, wherein a clamping groove structure is formed in one side of the L-shaped base 1, a movable storage vehicle 101 is arranged on one side of the L-shaped base 1 in a butt joint mode, four groups of universal wheels are arranged at the bottom of the movable storage vehicle 101 in an assembling mode, and the two groups of universal wheels are located in the clamping groove structure; a conveying pedestal 2, wherein the conveying pedestal 2 is fixedly arranged at the top of the L-shaped base 1; the lower conveyer belt 201 is rotatably arranged in the conveying pedestal 2 by matching with a roll shaft; a crushing outer cylinder 3, wherein the crushing outer cylinder 3 is fixedly communicated with the middle of the top of the conveying pedestal 2, and the crushing outer cylinder 3 is positioned above the lower conveying belt 201; an inner transmission frame 301 is fixedly arranged below the inner part of the crushing outer cylinder 3, the outer part of the inner transmission frame 301 is of a triangular bracket structure, and a crushing motor 302 is fixedly arranged on the inner side of the bottom of the inner transmission frame 301; the screening frame 4 is fixedly arranged at the rear side of the top of the L-shaped base 1; and a communication frame 5, wherein the communication frame 5 is fixedly arranged at the rear right side of the conveying pedestal 2.

Wherein, carry pedestal 2 still includes: a side transmission shaft 202, wherein the side transmission shaft 202 is rotatably arranged on the left side of the conveying pedestal 2, and the side transmission shaft 202 is in transmission connection with a bevel gear arranged on a rear side roller shaft of the lower conveying belt 201; a transmission motor 203, wherein the transmission motor 203 is fixedly arranged at the front end of the left side of the conveying pedestal 2, and the transmission motor 203 is in transmission connection with the side transmission shaft 202; the mounting frames 204 are fixedly arranged on two sides of the top of the conveying pedestal 2, and upper conveying belts 205 are rotatably arranged above adjacent surfaces of the mounting frames 204 on two sides in cooperation with the roller shafts; the folding frames 206 are fixedly arranged above the adjacent surfaces of the mounting frames 204 on the two sides in cooperation with the brackets, and the distance between the two groups of folding frames 206 is gradually reduced from back to front; a side linkage shaft 207, and the left side of the mounting frame 204 is rotatably provided with the side linkage shaft 207; the side linkage shaft 207 is in bevel gear drive connection with the side drive shaft 202 and the roller shaft of the upper conveyor belt 205.

Wherein, carry pedestal 2 still includes: the control wheel 208, the fixed control wheel 208 that is provided with in right rear axle end of lower conveyer belt 201, the fixed eccentric rod 209 that is provided with in control wheel 208 right side drives bar frame 502 reciprocating motion through eccentric rod 209, and then push-and-pull gas telescopic link A501 repeatedly, gas telescopic link B503 stretches when gas telescopic link A501 contracts, and then upwards rise advance wedge 505, utilize advance wedge 505 to drive driven wedge 405 and remove, and then rotate filter screen ring 403, filter screen ring 403 filterable ore falls into movable storage cart 101, can't pass filter screen ring 403's ore and follow the rotatory rising of plectrum 404, finally throw into the top of last conveyer belt 205, follow the conveyer belt 205 and fall into feeder hopper 308 again, repeatedly break.

Wherein, broken urceolus 3 still includes: the electric cylinder 303 is fixedly arranged on the top of the inner transmission frame 301; the transmission shafts 304, two groups of transmission shafts 304 are rotatably arranged on two sides of the top of the inner transmission frame 301, and the bottoms of the transmission shafts 304 are meshed with a rotating shaft of the crushing motor 302 through gears; a tapered extrusion die 305, wherein the tapered extrusion die 305 is rotatably provided on the outside of the tip of the electric cylinder 303 in cooperation with a tapered roller bearing; an inner cone die 307, wherein the inner cone die 307 is fixedly arranged above the inside of the crushing outer cylinder 3, and a feed hopper 308 is fixedly arranged at the top of the inner cone die 307; the clearance between the tapered extrusion die 305 and the inner tapered die 307 can be adjusted by controlling the expansion and contraction of the electric cylinder 303, the crushing effect can be further adjusted, and the protective cylinder 306 can keep driving the tapered extrusion die 305 during the axial extension of the electric cylinder 303.

Wherein, the bottom surface of the conical extrusion die 305 is eccentrically arranged, and a protection barrel 306 is fixedly arranged outside the lower part of the conical extrusion die 305; below the interior of the protective barrel 306 is a gear ring structure, and the top end of the transfer shaft 304 is provided with a gear wheel engaged with the gear ring structure.

Wherein, screening frame 4 is including: the fixed frame plate 401 is fixedly provided with a connecting shaft 402 in the middle of the rear side of the screening frame 4, the connecting shaft 402 is rotatably arranged in the screening frame 4, and the connecting shaft 402 is connected with the screening frame 4 by a ratchet wheel; a filter screen ring 403, wherein the filter screen ring 403 is fixedly arranged outside the front side of the fixed frame disk 401, a poking ring 404 is fixedly arranged on the front side of the filter screen ring 403, and a driven wedge 405 is fixedly arranged on the front side of the poking ring 404; the shifting plate 406, the inside of filter screen ring 403 can be fixed and be provided with shifting plate 406, shifting plate 406 is the slope setting.

Wherein, the intercommunication frame 5 is including: the air telescopic rod A501 is fixedly arranged at the rear side of the communication frame 5, the telescopic end of the air telescopic rod A501 is fixedly provided with a bar frame 502, and the eccentric rod 209 is slidably arranged in the bar frame 502; the right side of the top of the communication frame 5 is fixedly provided with an air telescopic rod B503, and the top of the air telescopic rod B503 is fixedly provided with a pushing seat 504; the pushing wedge 505, the front side of the pushing wedge 505 is fixedly provided with a spring rod 506, and the spring rod 506 is sleeved with a spring and penetrates through the pushing seat 504.

Wherein, the air telescopic rod A501 is communicated with the air telescopic rod B503, and the air telescopic rod B503 is contracted when the air telescopic rod A501 is extended; the inclined surface of the push wedge 505 can engage the inclined surface of the driven wedge 405; when the air telescopic rod B503 is contracted, the pushing wedge block 505 can be matched with the spring rod 506 to automatically adapt, then the driven wedge block 405 is penetrated, the connecting shaft 402 is arranged through the inner ratchet wheel, unidirectional movement can be ensured, and then pushing transmission of the rotary screening frame 4 is completed.

Specific use and action of the embodiment: in the invention, the transmission motor 203 is started, the transmission motor 203 drives the side transmission shaft 202 to rotate, and the side transmission shaft 202 is matched with the bevel gear to drive the side linkage shaft 207 to rotate, so that the lower conveying belt 201 and the upper conveying belt 205 synchronously rotate, and a conveying effect is provided;

putting ore into a feed hopper 308, starting a crushing motor 302 to drive a transmission shaft 304 to rotate, and driving a protection barrel 306 to rotate by the transmission shaft 304, so that a conical extrusion die 305 rotates, and the eccentric structure of the conical extrusion die 305 extrudes the ore in the rotating process to realize the crushing effect, so that the crushed ore falls on the top of a lower conveying belt 201 and is conveyed into a filter screen ring 403 along with the lower conveying belt 201;

simultaneously, the control wheel 208 and the eccentric rod 209 rotate, the eccentric rod 209 drives the bar frame 502 to reciprocate, the air telescopic rod A501 is repeatedly pushed and pulled, the air telescopic rod B503 extends when the air telescopic rod A501 contracts, the pushing wedge 505 is lifted upwards, the pushing wedge 505 is utilized to drive the driven wedge 405 to move, the filter screen ring 403 rotates, ore filtered by the filter screen ring 403 falls into the movable storage vehicle 101, the ore which cannot pass through the filter screen ring 403 rises along with the rotation of the stirring ring 404, and finally is thrown above the upper conveying belt 205, and falls into the feed hopper 308 again along with the upper conveying belt 205, and crushing is repeated; the folding rack 206 can gather the ores carried by the upper conveying belt 205, so as to ensure that the ores fall into the feeding hopper 308;

the expansion and contraction of the electric cylinder 303 are controlled, the gap between the conical extrusion die 305 and the inner conical die 307 can be adjusted, the crushing effect is further adjusted, and the protection cylinder 306 can keep transmission to the conical extrusion die 305 in the axial stretching process of the electric cylinder 303;

when the air telescopic rod B503 is contracted, the pushing wedge block 505 can be matched with the spring rod 506 to automatically adapt, so that the air telescopic rod passes through the driven wedge block 405, the connecting shaft 402 is arranged through the inner ratchet wheel, unidirectional movement can be ensured, and further the pushing transmission of the rotary screening frame 4 is completed;

the tapered extrusion die 305 and the inner tapered die 307 are replaceable, which can facilitate replacement maintenance or remolding after long-term crushing operations.

Claims

1. An ore continuous crushing device, characterized by comprising: the device comprises an L-shaped base (1), wherein a clamping groove structure is formed in one side of the L-shaped base (1), a movable storage vehicle (101) is arranged on one side of the L-shaped base (1) in a butt joint mode, four groups of universal wheels are assembled at the bottom of the movable storage vehicle (101), and the two groups of universal wheels are located in the clamping groove structure; a conveying pedestal (2), wherein the conveying pedestal (2) is fixedly arranged at the top of the L-shaped base (1); a lower conveying belt (201) is rotatably arranged in the conveying pedestal (2) by matching with a roller shaft; the crushing outer cylinder (3), the crushing outer cylinder (3) is fixedly communicated with the middle of the top of the conveying pedestal (2), and the crushing outer cylinder (3) is positioned above the lower conveying belt (201); an inner transmission frame (301) is fixedly arranged below the inner part of the crushing outer cylinder (3), the outer part of the inner transmission frame (301) is of a triangular bracket structure, and a crushing motor (302) is fixedly arranged at the inner side of the bottom of the inner transmission frame (301); the screening frame (4) is fixedly arranged at the rear side of the top of the L-shaped base (1); and the communication frame (5) is fixedly arranged at the rear right side of the conveying pedestal (2).

2. An ore continuous crushing apparatus as claimed in claim 1, wherein the conveying table (2) further comprises:

the left side of the conveying pedestal (2) is rotatably provided with a side transmission shaft (202), and the side transmission shaft (202) is in transmission connection with a bevel gear arranged on a rear side roller shaft of the lower conveying belt (201);

a transmission motor (203), wherein the transmission motor (203) is fixedly arranged at the front end of the left side of the conveying pedestal (2), and the transmission motor (203) is in transmission connection with the side transmission shaft (202);

the two sides of the top of the conveying pedestal (2) are fixedly provided with the mounting frames (204), and upper conveying belts (205) are rotatably arranged above adjacent surfaces of the mounting frames (204) on the two sides in cooperation with the roller shafts;

the folding frames (206) are fixedly arranged above the adjacent surfaces of the mounting frames (204) at the two sides in cooperation with the brackets, and the distance between the two groups of folding frames (206) is gradually reduced from back to front;

a side linkage shaft (207), wherein the side linkage shaft (207) is rotatably arranged on the left side of the mounting frame (204); the side linkage shaft (207) is in bevel gear transmission connection with a roller shaft of the side transmission shaft (202) and the upper conveying belt (205).

3. An ore continuous crushing apparatus as claimed in claim 1, wherein the conveying table (2) further comprises:

the right rear shaft end of the lower conveying belt (201) is fixedly provided with a control wheel (208), and the right side of the control wheel (208) is fixedly provided with an eccentric rod (209).

4. An ore continuous crushing device according to claim 1, characterized in that the crushing outer cylinder (3) further comprises:

the top of the inner transmission frame (301) is fixedly provided with an electric cylinder (303);

the two sides of the top of the inner transmission frame (301) are rotatably provided with two groups of transmission shafts (304), and the bottom of the transmission shafts (304) is meshed with a rotating shaft of the crushing motor (302) through gears;

a tapered extrusion die (305), wherein the tapered extrusion die (305) is rotatably arranged on the outer part of the top end of the electric cylinder (303) in cooperation with a tapered roller bearing;

the inner cone type die (307) is fixedly arranged above the inside of the crushing outer cylinder (3), and a feed hopper (308) is fixedly arranged at the top of the inner cone type die (307).

5. The ore continuous crushing device according to claim 4, wherein the bottom surface of the conical extrusion die (305) is eccentrically arranged, and a protection cylinder (306) is fixedly arranged outside the lower part of the conical extrusion die (305); the gear ring structure is arranged below the inside of the protection barrel (306), and a gear is arranged at the top end of the transmission shaft (304) and meshed with the gear ring structure.

6. An ore continuous crushing device according to claim 1, characterized in that the screening frame (4) comprises:

a connecting shaft (402) is fixedly arranged in the middle of the rear side of the screening frame (4), the connecting shaft (402) is rotatably arranged in the screening frame (4), and the connecting shaft (402) is connected with the screening frame (4) through a ratchet wheel;

a filter screen ring (403), wherein the filter screen ring (403) is fixedly arranged outside the front side of the fixed frame disk (401), a poking ring (404) is fixedly arranged on the front side of the filter screen ring (403), and a driven wedge block (405) is fixedly arranged on the front side of the poking ring (404);

and the shifting plate (406) is fixedly arranged in the filter screen ring (403), and the shifting plate (406) is obliquely arranged.

7. An ore continuous crushing device according to claim 1, characterized in that the communication frame (5) comprises:

the air telescopic rod A (501) is fixedly arranged at the rear side of the communication frame (5), the strip-shaped frame (502) is fixedly arranged at the telescopic end of the air telescopic rod A (501), and the eccentric rod (209) is slidably arranged in the strip-shaped frame (502);

the right side of the top of the communication frame (5) is fixedly provided with an air telescopic rod B (503), and the top of the air telescopic rod B (503) is fixedly provided with a pushing seat (504);

the pushing wedge block (505), the front side of the pushing wedge block (505) is fixedly provided with a spring rod (506), and the spring rod (506) is sleeved with a spring and penetrates through the pushing seat (504).

8. The ore continuous crushing device according to claim 7, wherein the air telescopic rod A (501) is communicated with the air telescopic rod B (503), and the air telescopic rod B (503) is contracted when the air telescopic rod A (501) is extended; the inclined surface of the pushing wedge (505) can be attached to the inclined surface of the driven wedge (405).