CN217069038U - Tailing stone crusher capable of separating silt - Google Patents

Abstract

The utility model discloses a tailing stone crusher of separable silt, including upper end open-ended organism, be provided with trapezoidal leak in the organism upper end, fixed mounting has the long pole axle in the organism, and the organism sliding sleeve is equipped with the filter, rotates outward the organism and installs the driven shaft, fixedly connected with and the driven bevel gear that the meshing of drive bevel gear is connected on the driven shaft. Put into trapezoidal leak with the tailing, two rubble rollers are rotatory in opposite directions, carry out the breakage with the tailing and become fine sand, later fall into on the filter, first belt pulley drives the axis of rotation rotatory, and the disc drives the stock and deflects and rotate to drive the filter rectilinear motion that makes a round trip, carry out the prescreening with fine sand, leave massive gravel and sand on the filter. The fine sand of prescreening falls into and strains a section of thick bamboo, and it is rotatory to drive through the second belt pulley to strain a section of thick bamboo, further throws away fine sand and strains outside the section of thick bamboo, falls to depositing husky chamber, falls tiny gravel and sand to depositing husky chamber, and great gravel and sand stays and strains a section of thick bamboo, places gravel and sand according to equidimension not.

Description

Tailing stone crusher capable of separating silt

Technical Field

The utility model relates to a stone material processing technology field especially relates to a tailing stone crusher of separable silt.

Background

The stone crusher, also called stone crusher, ore crusher, stone crusher, mainly uses the method of extrusion, splitting, bending, impact, rolling, etc. to crush the big rock into pieces, the common crusher has jaw, cone, hammer and roller type crusher.

The gravel and sand that the tailing was made at rubble in-process are not of uniform size, and current stone crusher adopts single broken and sorting structure for the broken processing effect to the rubble is limited, is difficult to distinguish not equidimension gravel and sand moreover, influences the follow-up result of use of gravel and sand, leads to unable efficient utilization not equidimension gravel and sand, very easily leads to the fact the waste of mineral resources.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the gravel and sand with different sizes produced by the gravel are difficult to separate in the prior art, and providing a tailing stone crusher capable of separating silt.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tailing stone crusher capable of separating silt comprises a machine body with an opening at the upper end, wherein a trapezoidal leakage opening is formed in the upper end of the machine body, the machine body is respectively and rotatably provided with a first crushed stone shaft and a second crushed stone shaft through the trapezoidal leakage opening, a first motor and a second motor which are used for driving the first crushed stone shaft and the second crushed stone shaft are respectively and fixedly arranged outside two sides of the machine body, the first crushed stone shaft and the second crushed stone shaft are respectively and fixedly sleeved with a crushed stone roller, a rotating shaft which is in transmission connection with the second crushed stone shaft is rotatably arranged in the machine body, the rotating shaft is fixedly connected with a disc, a long rod shaft is fixedly arranged in the machine body, a long rod which is movably pulled by the disc is rotatably connected onto the long rod shaft, a filter plate is slidably sleeved in the machine body, and a support rod which is movably pulled by the long rod is integrally connected to the lower end of the filter plate;

one end of the rotating shaft is fixedly connected with a driving bevel gear, a driven shaft is rotatably arranged outside the machine body, the driven shaft is fixedly connected with a driven bevel gear meshed with the driving bevel gear, a rotating shaft in transmission connection with the driven shaft is rotatably arranged at the bottom end of the machine body, a filter cylinder is fixedly connected onto the rotating shaft, and a sand storage cavity is formed in the machine body.

Preferably, first rubble axle and second rubble axle level correspond and set up in trapezoidal leak, and the axis of rotation level sets up the below position between first rubble axle and the second rubble axle, be connected with first belt pulley between second rubble axle and the axis of rotation.

Preferably, the disc is integrally connected with a short yoke, a first sliding groove for slidably sleeving the short yoke is formed in the middle end of the long rod, and a second sliding groove for slidably sleeving the supporting rod is formed in the top end of the long rod.

Preferably, a third sliding groove which is sleeved with the filter plate in a sliding manner is horizontally formed in the machine body, and the filter plate is positioned between the gravel roller and the rotating shaft.

Preferably, the rotating shaft and the driven shaft are respectively and longitudinally arranged at two sides inside and outside the machine body, and a second belt pulley is connected between the driven shaft and the rotating shaft.

Preferably, the sand storage cavity is positioned below the filter cylinder, and the filter cylinder with the uniformly-opened side wall is horizontally arranged below the filter plate.

Compared with the prior art, the utility model discloses possess following advantage:

1. the utility model discloses put into trapezoidal leak with the tailing, first motor drives first garrulous stone axle, the second motor drives the garrulous stone axle of second, two rubble rollers are rotatory in opposite directions, break into fine sand with the tailing, later fall into on the filter, first belt pulley drives the axis of rotation, the axis of rotation drives the disc, the disc drives the stock and deflects and rotates, and drive filter linear motion that makes a round trip, carry out the prescreening with fine sand, stay the filter with bold gravel on, help gravel further divides the sieve.

2. The utility model discloses the fine sand of prescreening falls into and strains a section of thick bamboo, and the axis of rotation drives initiative bevel gear and driven bevel gear transmission, and it is rotatory to drive the driven shaft, and it is rotatory to drive through the second belt pulley to strain a section of thick bamboo, further throws away fine sand and strains outside the section of thick bamboo, falls to depositing husky chamber, falls tiny gravel and sand to deposit husky chamber, and great gravel and sand stays and strains a section of thick bamboo, places gravel and sand according to equidimension not.

To sum up, the utility model discloses put into trapezoidal leak with the tailing, first motor drives first garrulous stone axle, and the second motor drives the garrulous stone axle of second, and two rubble rollers are rotatory in opposite directions, carry out breakage into fine sand with the tailing, later fall into on the filter, and first belt pulley drives the axis of rotation rotatory, and the axis of rotation drives the disc, and the disc drives the stock and deflects and rotate to drive filter straight-line motion that makes a round trip, carry out the prescreening with fine sand, stay on the filter with bold gravel, help gravel further divides the sieve. The fine sand of prescreening falls into and strains a section of thick bamboo, and the axis of rotation drives initiative bevel gear and driven bevel gear transmission, drives the driven shaft rotatory, drives through the second belt pulley and strains a section of thick bamboo rotatory, further throws away fine sand and strains outside the section of thick bamboo, falls to depositing husky chamber, falls tiny gravel and sand to deposit husky chamber, and great gravel and sand stays and strains a section of thick bamboo, places gravel and sand according to equidimension not.

Drawings

Fig. 1 is a schematic structural view of a tailing stone crusher capable of separating silt according to the present invention;

fig. 2 is a schematic structural view of a main sectional view of a tailing stone crusher capable of separating silt provided by the utility model;

fig. 3 is the utility model provides a left side cut-away view structural schematic diagram of tailing stone crusher of separable silt.

In the figure: 1 organism, 2 trapezoidal leaks, 3 first garrulous stone axle, 4 second garrulous stone axles, 5 first motors, 6 second motors, 7 garrulous stone rollers, 8 first belt pulleys, 9 axis of rotation, 10 discs, 11 long rod axles, 12 long poles, 13 first spout, 14 second spouts, 15 bracing pieces, 16 third spouts, 17 filter, 18 initiative bevel gear, 19 driven bevel gear, 20 driven shafts, 21 second belt pulleys, 22 rotation axis, 23 strain a section of thick bamboo, 24 deposit husky chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a tailings stone crusher capable of separating silt comprises a machine body 1 with an opening at the upper end, a trapezoidal leakage opening 2 is arranged in the upper end of the machine body 1, tailings are placed into the trapezoidal leakage opening 2 for crushing, the machine body 1 is respectively and rotatably provided with a first crushed stone shaft 3 and a second crushed stone shaft 4 through the trapezoidal leakage opening 2, the first crushed stone shaft 3 and the second crushed stone shaft 4 drive two crushed stone rollers 7 to rotate oppositely to crush the tailings into gravel, the gravel falls onto a filter plate 17, the two sides of the machine body 1 are respectively and fixedly provided with a first motor 5 and a second motor 6 for driving the first crushed stone shaft 3 and the second crushed stone shaft 4, the first motor 5 and the second motor 6 can select a servo motor with the product model of MSME-042G1, the first crushed stone shaft 3 and the second crushed stone shaft 4 are both fixedly sleeved with the crushed stone rollers 7, a rotating shaft 9 in transmission connection with the second crushed stone shaft 4 is rotatably arranged in the machine body 1, a disc 10 is fixedly connected with a rotating shaft 9, a long rod shaft 11 is fixedly installed in a machine body 1, a long rod 12 movably pulled by the disc 10 is rotatably connected to the long rod shaft 11, a filter plate 17 is sleeved in the machine body 1 in a sliding mode, a supporting rod 15 movably pulled by the long rod 12 is integrally connected to the lower end of the filter plate 17, the rotating shaft 9 drives the disc 10 to rotate, the disc 10 slides in a first sliding groove 13 and drives the long rod 12 to perform reciprocating left and right deflection motion by taking the long rod shaft 11 as a base point, the supporting rod 15 is further driven to slide in a second sliding groove 14, and meanwhile, the filter plate 17 is driven to perform reciprocating linear motion in a third sliding groove 16, so that the motion of sand stones on the filter plate 17 is accelerated, and the sand stones are primarily screened;

one end of the rotating shaft 9 is fixedly connected with a driving bevel gear 18, a driven shaft 20 is rotatably arranged outside the machine body 1, a driven bevel gear 19 in meshed connection with the driving bevel gear 18 is fixedly connected onto the driven shaft 20, a rotating shaft 22 in transmission connection with the driven shaft 20 is rotatably arranged at the bottom end of the machine body 1, a filter cartridge 23 is fixedly connected onto the rotating shaft 22, a sand storage cavity 24 is formed in the machine body 1, the rotating shaft 22 drives the filter cartridge 23 to rotate, and small sand and stones are thrown out of the filter cartridge 23 and fall into the sand storage cavity 24.

First garrulous stone axle 3 and the corresponding trapezoidal leak of 4 levels of second garrulous stone axle set up in 2, and the 9 levels of axis of rotation set up in the below position between first garrulous stone axle 3 and the garrulous stone axle of second 4, are connected with first belt pulley 8 between second garrulous stone axle 4 and the axis of rotation 9, and first garrulous stone axle 3 and the inside rotation of second garrulous stone axle 4 carry out rubble operation to the tailing.

As shown in the attached figure 3, a short yoke is integrally connected to the disc 10, a first sliding groove 13 for slidably sleeving the short yoke is formed in the middle end of the long rod 12, a second sliding groove 14 for slidably sleeving the supporting rod 15 is formed in the top end of the long rod 12, the short yoke rotates to drive the long rod 12 to deflect and drive the supporting rod 15 to move back and forth, and the supporting rod 15 pulls the filtering plate 17 to move back and forth in the horizontal direction to accelerate sand and stone separation.

The horizontal flat-open is equipped with the third spout 16 of slip suit filter 17 in organism 1, and filter 17 is located between garrulous stone roller 7 and axis of rotation 9, and third spout 16 is to the spacing direction of filter 17.

The rotating shaft 22 and the driven shaft 20 are respectively and longitudinally arranged at the inner side and the outer side of the machine body 1, a second belt pulley 21 is connected between the driven shaft 20 and the rotating shaft 22, and the driven shaft 20 drives the rotating shaft 22 to synchronously rotate through the second belt pulley 21.

The sand storage cavity 24 is located below the filter cylinder 23, and it should be noted that the sand storage cavity 24 can be set to be a horizontal telescopic structure so as to uniformly recover the crushed sand in the sand storage cavity 24, and the filter cylinder 23 with the uniformly opened side wall is horizontally arranged below the filter plate 17, so that fine sand and stone are thrown out of the filter cylinder 23 through the rotating filter cylinder 23.

The utility model discloses its functional principle is explained to the following mode of operation of accessible:

when the stone crusher needs to be started, tailings are put into the crusher body 1:

first, put the tailing in trapezoidal leak 2, open first motor 5 and second motor 6, first motor 5 output and the 6 output of second motor drive first garrulous stone axle 3 and the garrulous stone axle 4 of second, and first garrulous stone axle 3 drives two garrulous stone rollers 7 rotation in opposite directions with the garrulous stone axle 4 of second, carries out the breakage to the tailing and becomes gravel, drops on the filter 17 again:

secondly, the second gravel shaft 4 drives the rotating shaft 9 through the first belt pulley 8, the rotating shaft 9 drives the disc 10 to rotate, the disc 10 slides in the first chute 13 and drives the long rod 12 to rotate by taking the long rod shaft 11 as a base point, the supporting rod 15 slides in the second chute 14 and simultaneously drives the filter plate 17 to linearly move back and forth in the third chute 16, sand and stones are primarily screened, and fine sand and stones fall into the filter cylinder 23;

thirdly, the rotating shaft 9 drives the driving bevel gear 18, the driving bevel gear 18 is in meshed transmission with the driven bevel gear 19, the driven bevel gear 19 drives the driven shaft 20, the driven shaft 20 drives the rotating shaft 22 through the second belt pulley 21, the rotating shaft 22 drives the filter cartridge 23 to rotate, and small sand and stones are thrown out of the filter cartridge 23 and fall into the sand storage cavity 24.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The tailing stone crusher capable of separating silt comprises a machine body (1) with an opening at the upper end, and is characterized in that a trapezoidal leakage opening (2) is formed in the upper end of the machine body (1), the machine body (1) is respectively and rotatably provided with a first crushed stone shaft (3) and a second crushed stone shaft (4) through the trapezoidal leakage opening (2), a first motor (5) and a second motor (6) which are used for driving the first crushed stone shaft (3) and the second crushed stone shaft (4) are respectively and fixedly arranged outside two sides of the machine body (1), the first crushed stone shaft (3) and the second crushed stone shaft (4) are respectively and fixedly sleeved with a crushed stone roller (7), a rotating shaft (9) in transmission connection with the second crushed stone shaft (4) is rotatably arranged in the machine body (1), a disc (10) is fixedly connected with the rotating shaft (9), and a long rod shaft (11) is fixedly arranged in the machine body (1), the long rod shaft (11) is rotatably connected with a long rod (12) movably pulled by a disc (10), a filter plate (17) is sleeved in the machine body (1) in a sliding manner, and the lower end of the filter plate (17) is integrally connected with a support rod (15) movably pulled by the long rod (12);

the sand storage machine is characterized in that one end of the rotating shaft (9) is fixedly connected with a driving bevel gear (18), the machine body (1) is externally rotatably provided with a driven shaft (20), the driven shaft (20) is fixedly connected with a driven bevel gear (19) meshed with the driving bevel gear (18), the bottom end of the machine body (1) is rotatably provided with a rotating shaft (22) in transmission connection with the driven shaft (20), the rotating shaft (22) is fixedly connected with a filter cartridge (23), and a sand storage cavity (24) is formed in the machine body (1).

2. A tailing crusher capable of separating silt according to claim 1, wherein the first crushed stone shaft (3) and the second crushed stone shaft (4) are horizontally and correspondingly arranged in the trapezoidal leakage opening (2), the rotating shaft (9) is horizontally arranged at a lower position between the first crushed stone shaft (3) and the second crushed stone shaft (4), and a first belt pulley (8) is connected between the second crushed stone shaft (4) and the rotating shaft (9).

3. The tailings stone crusher capable of separating silt according to claim 2, wherein the disc (10) is integrally connected with a short yoke, a first sliding groove (13) which is slidably sleeved with the short yoke is formed in the middle end of the long rod (12), and a second sliding groove (14) which is slidably sleeved with the supporting rod (15) is formed in the top end of the long rod (12).

4. A gangue crusher capable of separating silt according to claim 3, characterized in that the machine body (1) is horizontally provided with a third chute (16) for slidably sleeving a filter plate (17), and the filter plate (17) is located between the stone crushing roller (7) and the rotating shaft (9).

5. A tailing crusher capable of separating silt according to claim 4, characterized in that the rotating shaft (22) and the driven shaft (20) are respectively and longitudinally arranged at the inner side and the outer side of the crusher body (1), and a second belt pulley (21) is connected between the driven shaft (20) and the rotating shaft (22).

6. A tailing crusher capable of separating silt according to claim 4, characterized in that the sand storage chamber (24) is located below the filter cartridge (23), and the filter cartridge (23) with the side wall being uniformly perforated is horizontally arranged below the filter plate (17).

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