CN110681435B

CN110681435B - Integral crushed stone feeding device

Info

Publication number: CN110681435B
Application number: CN201910995153.7A
Authority: CN
Inventors: 梁华国; 胡太国
Original assignee: Chongqing Beihengyuan Energy Saving Building Materials Co ltd
Current assignee: Chongqing Beihengyuan Energy Saving Building Materials Co ltd
Priority date: 2019-10-18
Filing date: 2019-10-18
Publication date: 2023-08-22
Anticipated expiration: 2039-10-18
Also published as: CN110681435A

Abstract

The invention discloses a crushed stone feeding integrated device, which comprises a support frame, wherein a crushing structure, a screening structure, a carrying structure and a waste recycling structure are arranged on the support frame; the crushing structure mainly comprises: the crushing box, a pair of crushing shafts with the same structure, two crushing bearings with the same structure and a pair of crushing drivers with the same structure. The invention has the beneficial effects that the crushed stones are crushed through the crushing structure, the crushed stones are screened through the screening structure, the oversized stones are conveyed into the waste circulation structure through the screening structure, the qualified stones are conveyed into the carrying structure through the screening structure, the stones in the waste circulation structure are reintroduced into the crushing structure for crushing again, the oversized stones are avoided, the structure is simple, and the practicability is strong.

Description

Integral crushed stone feeding device

Technical Field

The invention relates to the technical field of building raw material processing, in particular to a broken stone feeding integrated device.

Background

In the rubble for building, the beating device of stone crusher can't smash stone into the stone that the size is the same, need do certain hierarchical screening and just can use, and in current sieving mechanism, the screening is inhomogeneous, the inefficiency or the higher equipment structure of efficiency is complicated, the purchase cost is high, be unfavorable for popularizing and using, neglect a little massive rubble impurity simultaneously, make the quality of rubble break down greatly, but current stone crusher for ore exploitation still has certain defect when using, because only can control the crushing degree of rubble through the rotational speed and the crushing time of the crushing wheel of control rubble when the rubble, so the condition that the crushing degree control is inaccurate appears easily, and current screening is most to screen cloth in the simple setting of bottom of crushing case discharge gate, however, such screening mode screening effect is relatively poor, often appear that a big piece of rubble is piled up on the screen cloth, thereby lead to the screen cloth to block up, can not make the stone crusher carry out normal crushing and screening, the ore crushing and screening work of giving people brings very big inconvenience, in view of this, the above-mentioned problem has been studied deeply.

Disclosure of Invention

The invention aims to solve the problems, and designs a crushed stone feeding integrated device.

The technical scheme of the invention for achieving the aim is that the crushed stone feeding integrated device comprises a supporting frame, wherein the supporting frame is provided with a crushing structure, a screening structure, a carrying structure and a waste recycling structure;

the crushing structure mainly comprises: the crushing box, a pair of crushing shafts with the same structure, two crushing bearings with the same structure and a pair of crushing drivers with the same structure;

the crushing box is arranged on the supporting frame, two pairs of crushing bearings are respectively horizontally and parallelly arranged on two sides of the crushing box, a pair of crushing shafts are respectively horizontally and parallelly inserted on the two pairs of crushing bearings, a pair of crushing driving machines are arranged on two sides of the crushing box, and driving ends of the crushing driving machines are respectively connected to the pair of crushing shafts.

Preferably, the screening structure mainly comprises: the screening box, a plurality of screening shafts with the same structure, a plurality of screening bearings with the same structure, a plurality of screening sleeves with the same structure and a screening conveying assembly;

the screening box is installed on the support frame, just screening box is located crushing case bottom, a plurality of screening bearing horizontal parallel installation respectively on screening box both sides, a plurality of screening axle horizontal parallel installation respectively on a plurality of screening bearing, a plurality of screening sleeve installs respectively on a plurality of screening axle, screening conveying subassembly installs on a plurality of screening axle, be provided with the same screening hole of a plurality of structure on the screening sleeve.

Preferably, the screening and transmitting assembly mainly comprises: a plurality of screening gears, screening chains and screening driving machines with the same structure;

the screening gears are respectively arranged on the screening shafts, the screening chains are sleeved on the screening gears, the screening driving machine is arranged on the screening box, and the driving end of the screening driving machine is connected to the screening shafts.

Preferably, the carrying structure mainly includes: the device comprises a carrying box, a plurality of carrying shafts with the same structure, a plurality of carrying bearings with the same structure, a plurality of carrying gears with the same structure, a carrying belt and a carrying driver;

the carrying box is arranged on the supporting frame, the carrying box is positioned at the bottom end of the screening box, a plurality of carrying bearings are respectively horizontally and parallelly arranged on two sides of the carrying box, a plurality of carrying shafts are respectively horizontally and parallelly arranged on a plurality of carrying bearings, a plurality of carrying gears are respectively arranged on a plurality of carrying shafts, a gear groove is formed in the inner side of the carrying belt, the carrying belt is sleeved on a plurality of carrying gears, the carrying belt is meshed with a plurality of carrying gears, a carrying driving machine is arranged on the carrying box, and the driving end of the carrying driving machine is connected on the carrying shafts.

Preferably, the waste recycling structure mainly includes: the device comprises a collecting box, two lifting machines with the same structure, a pair of screw rod modules with the same structure and a fixing plate;

the pair of screw modules are horizontally and parallelly arranged on the support frame, the fixing plate is arranged on the pair of screw modules, the two pairs of cranes are arranged on the fixing plate in a pairwise parallel manner, and the collecting box is arranged on the lifting ropes of the two pairs of cranes.

Preferably, the bottom end of the crushing box is provided with a horn slideway.

Preferably, the screening box bottom is provided with a screening slide, and the screening slide is located at the top of the carrying box.

Preferably, a waste slideway is arranged on the side wall of the screening box.

Preferably, the supporting frame is provided with a raw material box, and the raw material box is positioned at the top end of the crushing box.

Preferably, the smashing driver, the screening driver and the conveying driver are provided with anti-smashing boxes on the outer sides.

The stone material feeding integrated device manufactured by the technical scheme of the invention is used for crushing stone materials through the crushing structure, screening the crushed stone materials through the screening structure, conveying oversized stone materials into the waste material circulating structure through the screening structure, conveying qualified stone materials into the carrying structure through the screening structure, reintroducing the stone materials into the crushing structure, and crushing the stone materials again, thereby avoiding the occurrence of the phenomenon of oversized stone materials, and having the advantages of simple structure and strong practicability.

Drawings

FIG. 1 is a front cross-sectional view of an integrated rock breaking and feeding apparatus according to the present invention;

FIG. 2 is a top cross-sectional view of the crushed stone feeding integrated device of the present invention;

FIG. 3 is a schematic diagram of a screening structure of the crushed stone feeding integrated device according to the invention;

FIG. 4 is a schematic view of a crushing structure of the crushed stone feeding integrated device according to the present invention;

FIG. 5 is a schematic view of the handling structure of the crushed stone feeding integrated device according to the present invention;

FIG. 6 is a schematic top view of a screening structure of the crushed stone feeding integrated device of the invention;

FIG. 7 is a schematic top view of a handling structure of the integrated crushed stone feeding device according to the present invention;

FIG. 8 is a schematic top view of the crushing structure of the crushed stone feeding integrated device of the invention;

in the figure, 1, a supporting frame; 2. a crushing box; 3. a crushing shaft; 4. crushing a bearing; 5. a crushing driver; 6. a screening box; 7. screening shafts; 8. screening a bearing; 9. screening the sleeve; 10. screening holes; 11. screening gears; 12. screening a chain; 13. screening a driving machine; 14. a tote box; 15. a carrying shaft; 16. carrying a bearing; 17. carrying gears; 18. carrying a belt; 19. a carrying driver; 20. a gear groove; 21. a collection box; 22. a crane; 23. a screw module; 24. a fixing plate; 25. a horn slideway; 26. screening a slideway; 27. a waste chute; 28. a raw material box; 29. and (5) smashing prevention box.

Detailed Description

The invention is specifically described below with reference to the accompanying drawings, as shown in fig. 1, the crushed stone feeding integrated device comprises a support frame 1, wherein a crushing structure, a screening structure, a carrying structure and a waste recycling structure are arranged on the support frame 1; the crushing structure mainly comprises: a crushing box 2, a pair of crushing shafts 3 with the same structure, two crushing bearings 4 with the same structure and a pair of crushing drivers 5 with the same structure; the crushing box 2 is arranged on the supporting frame 1, two pairs of crushing bearings 4 are respectively and horizontally arranged on two sides of the crushing box 2 in parallel, a pair of crushing shafts 3 are respectively and horizontally inserted on the two pairs of crushing bearings 4 in parallel, a pair of crushing drivers 5 are arranged on two sides of the crushing box 2, and driving ends of the pair of crushing drivers 5 are respectively connected to the pair of crushing shafts 3; the screening structure mainly comprises: the screening box 6, a plurality of screening shafts 7 with the same structure, a plurality of screening bearings 8 with the same structure, a plurality of screening sleeves 9 with the same structure and a screening conveying assembly; the screening box 6 is arranged on the supporting frame 1, the screening box 6 is positioned at the bottom end of the crushing box 2, a plurality of screening bearings 8 are respectively horizontally and parallelly arranged on two sides of the screening box 6, a plurality of screening shafts 7 are respectively horizontally and parallelly arranged on a plurality of screening bearings 8, a plurality of screening sleeves 9 are respectively arranged on a plurality of screening shafts 7, a screening conveying assembly is arranged on a plurality of screening shafts 7, and a plurality of screening holes 10 with the same structure are formed in the screening sleeves 9; the screening and conveying assembly mainly comprises: a plurality of screening gears 11, screening chains 12 and screening driving machines 13 with the same structure; the screening gears 11 are respectively arranged on the screening shafts 7, the screening chains 12 are sleeved on the screening gears 11, the screening driving machine 13 is arranged on the screening box 6, and the driving end of the screening driving machine 13 is connected with the screening shafts 7; the carrying structure mainly comprises: a carrying case 14, a plurality of carrying shafts 15 having the same structure, a plurality of carrying bearings 16 having the same structure, a plurality of carrying gears 17 having the same structure, a carrying belt 18, and a carrying driver 19; the carrying box 14 is mounted on the supporting frame 1, the carrying box 14 is positioned at the bottom end of the screening box 6, a plurality of carrying bearings 16 are respectively mounted on two sides of the carrying box 14 horizontally in parallel, a plurality of carrying shafts 15 are respectively mounted on a plurality of carrying bearings 16 horizontally in parallel, a plurality of carrying gears 17 are respectively mounted on a plurality of carrying shafts 15, a gear groove 20 is formed in the inner side of a carrying belt 18, the carrying belt 18 is sleeved on the plurality of carrying gears 17, the carrying belt is in gear engagement with the plurality of carrying gears 17, a carrying driver 19 is mounted on the carrying box 14, and the driving end of the carrying driver 19 is connected to the carrying shafts 15; the waste recycling structure mainly comprises: the device comprises a collecting box 21, two lifting machines 22 with the same structure, a pair of screw rod modules 23 with the same structure and a fixing plate 24; the pair of screw rod modules 23 are horizontally and parallelly arranged on the support frame 1, the fixed plate 24 is arranged on the pair of screw rod modules 23, the two pairs of lifting machines 22 are arranged on the fixed plate 24 in pairs and in parallel, and the collecting box 21 is arranged on lifting ropes of the two pairs of lifting machines 22; the bottom end of the crushing box 2 is provided with a horn slideway 25; a screening slide way 26 is arranged at the bottom end of the screening box 6, and the screening slide way 26 is positioned at the top end of the carrying box 14; a waste slideway 27 is arranged on the side wall of the screening box 6; a raw material box 28 is arranged on the support frame 1, and the raw material box 28 is positioned at the top end of the crushing box 2; the outside of the crushing driver 5, the screening driver 13 and the carrying driver 19 is provided with a crashproof box 29.

The embodiment is characterized in that the support frame is provided with a crushing structure, a screening structure, a carrying structure and a waste recycling structure; the crushing structure mainly comprises: the crushing box, a pair of crushing shafts with the same structure, two crushing bearings with the same structure and a pair of crushing drivers with the same structure; the crushing box is installed on the support frame, two pairs of crushing bearings are respectively horizontally and parallelly installed on two sides of the crushing box, a pair of crushing shafts are respectively horizontally and parallelly inserted on the two pairs of crushing bearings, a pair of crushing driving machines are installed on two sides of the crushing box, and a pair of crushing driving machine driving ends are respectively connected on the pair of crushing shafts, stones are crushed through the crushing structure, crushed stones are screened through the screening structure, oversized stones are conveyed into the waste circulation structure through the screening structure, qualified stones are conveyed into the carrying structure through the screening structure, stones in the waste circulation structure are reintroduced into the crushing structure, and the phenomenon that stones are oversized is avoided.

In this embodiment, by pouring stone into the raw material box 28, the stone passes through the bottom end of the raw material box 28, the outlet is poured into the crushing box 2, the pair of crushing shafts 3 on the driving ends of the pair of crushing drives 5 are driven to rotate by the operation of the pair of crushing drives 5, the stone is crushed by the rotation of the pair of crushing shafts 3, the stone is extruded by the pair of crushing shafts 3 by referring to the principle of the crusher, the raw material is crushed by extrusion, the crushed stone falls down to the horn slide 25 on the bottom end of the crushing box 2, the crushed stone passes through the horn slide 25 to slide on the screening box 6, the screening shaft 7 on the driving end of the screening drive 13 is driven by the screening drive 13, the screening shaft 7 drives the screening gear 11 thereon to rotate, the discharging chain 12 meshed with the screening gear 11 is driven to rotate, the screening chain 12 drives the plurality of screening gears 11 meshed with the screening gear 11, the screening gears 11 drive the screening shafts 7 to rotate, the screening shafts 7 drive the screening sleeves 9 on the screening shafts 7 to rotate, the screening sleeves 9 drive crushed stones on the screening box 6 to rotate, when the crushed stones are smaller than the screening holes 10 on the screening sleeves 9, the crushed stones fall into the screening sleeves 9, the screening holes 10 at the bottom ends of the screening sleeves 9 fall into the screening slide ways 26, the stones larger than the screening holes 10 are transported to the waste slide ways 27 through the screening slide ways 26 and slide into the collecting box 21 through the waste slide ways 27, the waste is collected through the collecting box 21, after the collection is completed, the collecting box 21 is lifted through two pairs of lifting cranes 22 on the collecting box 21, through the operation of a pair of lead screw modules 23, the fixed plate 24 on a pair of lead screw modules 23 is driven to move, simultaneously, the two pairs of cranes 22 on the fixed plate 24 and the collecting box 21 on the cranes 22 are driven to move, the collecting box 21 is moved to the upper part of the raw material box 28, the cranes 22 on one side are controlled to pay off ropes, stones in the collecting box 21 are poured into the raw material box 28, then crushing treatment is carried out again, the stones which are screened fall onto the conveying belt 18, the conveying shaft 15 on the driving end of the conveying driving machine 19 is driven to rotate through the operation of the conveying driving machine 19, the conveying gear 17 on the conveying shaft 15 is driven to rotate, the conveying belt 18 meshed with the gear is driven, and the phenomenon of skidding caused by the fact that the inner side of the conveying belt 18 is provided with a gear groove 20, so that the phenomenon of skidding caused by the stones is avoided, and the phenomenon of skidding caused by the conveying belt 18 is avoided.

Preferably, the screening structure mainly includes: the screening box 6, a plurality of screening shafts 7 with the same structure, a plurality of screening bearings 8 with the same structure, a plurality of screening sleeves 9 with the same structure and a screening conveying assembly;

the screening box 6 is installed on support frame 1, just screening box 6 is located crushing case 2 bottom, a plurality of screening bearing 8 respectively horizontal parallel mount on screening box 6 both sides, a plurality of screening shaft 7 respectively horizontal parallel mount on a plurality of screening bearing 8, a plurality of screening sleeve 9 respectively install on a plurality of screening shaft 7, screening conveying subassembly installs on a plurality of screening shaft 7, be provided with the identical screening hole 10 of a plurality of structure on the screening sleeve 9, the optimization benefit is: the stone is conveniently classified and separated through the screening holes 10.

Preferably, the screening and transmitting assembly mainly comprises: a plurality of screening gears 11, screening chains 12 and screening driving machines 13 with the same structure;

the screening gears 11 are respectively arranged on the screening shafts 7, the screening chains 12 are sleeved on the screening gears 11, the screening driving machine 13 is arranged on the screening box 6, the driving end of the screening driving machine 13 is connected with the screening shafts 7, and the optimization benefits are that: the screening gear 11, the screening chain 12 and the screening driving machine 13 drive the screening shaft 7 to rotate, so that the shell is prevented from being blocked during rotation.

As a preferred solution, the handling structure mainly includes: a carrying case 14, a plurality of carrying shafts 15 having the same structure, a plurality of carrying bearings 16 having the same structure, a plurality of carrying gears 17 having the same structure, a carrying belt 18, and a carrying driver 19;

the carrier box 14 is installed on the support frame 1, just the carrier box 14 is located screening case 6 bottom, a plurality of carrier bearings 16 respectively horizontal parallel mount is on carrier box 14 both sides, a plurality of carrier shaft 15 respectively horizontal parallel mount is on a plurality of carrier bearings 16, a plurality of carrier gear 17 respectively is installed on a plurality of carrier shaft 15, carrier belt 18 inboard is provided with gear groove 20, just carrier belt 18 suit is on a plurality of carrier gear 17, and carrier belt and a plurality of carrier gear 17 gear engagement, carrier driving machine 19 installs on carrier box 14, just the conveyer 19 drive end is connected on carrier shaft 15, and the optimization benefit is: by providing the gear groove 20 inside the carrying belt 18, the phenomenon of skidding caused by overweight stones of the carrying belt 18 is avoided.

As a preferred solution, the waste recycling structure mainly comprises: the device comprises a collecting box 21, two lifting machines 22 with the same structure, a pair of screw rod modules 23 with the same structure and a fixing plate 24;

the pair of screw modules 23 are horizontally and parallelly arranged on the support frame 1, the fixing plate 24 is arranged on the pair of screw modules 23, the two pairs of cranes 22 are arranged on the fixing plate 24 in a pairwise parallel manner, and the collecting box 21 is arranged on lifting ropes of the two pairs of cranes 22, so that the optimization benefits are that: and (3) carrying out secondary crushing on the oversized stone through a waste recycling structure.

As a preferred scheme, still further, smashing case 2 bottom and being provided with loudspeaker slide 25, the optimization benefit is: the screening sleeve 9 is prevented from being crushed by excessive weight of stones.

As a preferred scheme, still further, screening case 6 bottom is provided with screening slide 26, just screening slide 26 is located the tote 14 top, and the optimization benefit is: preventing the stone from being excessively heavy and crashing into the tote box 14.

As a preferred solution, further, the side wall of the screening box 6 is provided with a waste slideway 27, which has the following optimization benefits: preventing the stone from being excessively crushed into the collecting box 21.

As a preferred scheme, still further, be provided with raw material tank 28 on the support frame 1, raw material tank 28 is located crushing case 2 top, and the optimization benefit is: the crushing box 2 is prevented from being crushed by excessive weight of stones in the collection box 21.

Preferably, the smashing drive machine 5, the screening drive machine 13 and the conveying drive machine 19 are provided with anti-smashing boxes 29 on the outer sides.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims

1. The crushed stone feeding integrated device comprises a support frame (1), and is characterized in that a crushing structure, a screening structure, a carrying structure and a waste recycling structure are arranged on the support frame (1);

the crushing structure mainly comprises: a crushing box (2), a pair of crushing shafts (3) with the same structure, two crushing bearings (4) with the same structure and a pair of crushing drivers (5) with the same structure;

the crushing box (2) is arranged on the supporting frame (1), two pairs of crushing bearings (4) are respectively arranged on two sides of the crushing box (2) in parallel, a pair of crushing shafts (3) are respectively inserted on the two pairs of crushing bearings (4) in parallel, a pair of crushing driving machines (5) are arranged on two sides of the crushing box (2), and driving ends of the pair of crushing driving machines (5) are respectively connected to the pair of crushing shafts (3);

the screening structure mainly comprises: the screening box (6), a plurality of screening shafts (7) with the same structure, a plurality of screening bearings (8) with the same structure, a plurality of screening sleeves (9) with the same structure and a screening conveying assembly;

the screening box (6) is arranged on the supporting frame (1), the screening box (6) is positioned at the bottom end of the crushing box (2), a plurality of screening bearings (8) are respectively horizontally and parallelly arranged on two sides of the screening box (6), a plurality of screening shafts (7) are respectively horizontally and parallelly arranged on a plurality of screening bearings (8), a plurality of screening sleeves (9) are respectively arranged on a plurality of screening shafts (7), a screening conveying assembly is arranged on a plurality of screening shafts (7), and a plurality of screening holes (10) with the same structure are formed in the screening sleeves (9);

the carrying structure mainly comprises: a carrying box (14), a plurality of carrying shafts (15) with the same structure, a plurality of carrying bearings (16) with the same structure, a plurality of carrying gears (17) with the same structure, a carrying belt (18) and a carrying driver (19);

the carrying box (14) is arranged on the supporting frame (1), the carrying box (14) is positioned at the bottom end of the screening box (6), a plurality of carrying bearings (16) are respectively horizontally and parallelly arranged on two sides of the carrying box (14), a plurality of carrying shafts (15) are respectively horizontally and parallelly arranged on a plurality of carrying bearings (16), a plurality of carrying gears (17) are respectively arranged on a plurality of carrying shafts (15), a gear groove (20) is formed in the inner side of a carrying belt (18), the carrying belt (18) is sleeved on a plurality of carrying gears (17), the carrying belt is meshed with a plurality of carrying gears (17) in a gear mode, a carrying driving machine (19) is arranged on the carrying box (14), and the driving end of the carrying driving machine (19) is connected to the carrying shafts (15);

the waste recycling structure mainly comprises: the device comprises a collecting box (21), two lifting machines (22) with the same structure, a pair of screw rod modules (23) with the same structure and a fixing plate (24);

the pair of screw rod modules (23) are horizontally and parallelly arranged on the support frame (1), the fixing plates (24) are arranged on the pair of screw rod modules (23), the two pairs of lifting machines (22) are arranged on the fixing plates (24) in a parallel mode, and the collecting box (21) is arranged on lifting ropes of the two pairs of lifting machines (22).

2. The stone feeding integrated device of claim 1, wherein the screening and conveying assembly mainly comprises: a plurality of screening gears (11), screening chains (12) and screening driving machines (13) with the same structure;

the screening gears (11) are respectively arranged on the screening shafts (7), the screening chains (12) are sleeved on the screening gears (11), the screening driving machine (13) is arranged on the screening box (6), and the driving end of the screening driving machine (13) is connected to the screening shafts (7).

3. The crushed stone feeding integrated device according to claim 1, wherein a horn slide way (25) is arranged at the bottom end of the crushing box (2).

4. The crushed stone feeding integrated device according to claim 1, wherein a screening slide (26) is arranged at the bottom end of the screening box (6), and the screening slide (26) is arranged at the top end of the carrying box (14).

5. The crushed stone feeding integrated device according to claim 4, characterized in that a waste chute (27) is provided on the side wall of the screening box (6).

6. The crushed stone feeding integrated device according to claim 1, wherein a raw material box (28) is arranged on the supporting frame (1), and the raw material box (28) is positioned at the top end of the crushing box (2).

7. The crushed stone feeding integrated device according to claim 1, characterized in that the crushing driver (5), the screening driver (13) and the carrying driver (19) are provided with a smash-proof box (29) outside.