CN214132105U - A high-efficiency crushing device for geopolymer waste - Google Patents

Abstract

The utility model discloses a high-efficiency crushing device for geopolymer waste, comprising a preliminary crushing box, an unloading box and a finishing box. Support rods are installed on both ends of the top of the preliminary crushing box, and a top frame is installed on the top of the support rod. A hydraulic cylinder is installed in the middle of the top frame, a push plate is installed at the bottom of the hydraulic cylinder, a number of crushing nails are welded at the bottom of the push plate, a number of coarse crushing rollers are installed in the middle of the preliminary crushing box, and a A bearing seat, the crushing device can automatically feed the geopolymer waste, and can perform coarse and finely divided crushing processing of the geopolymer waste, which can make the crushing of the geopolymer waste more fine, and realize pipeline processing, improve efficiency and save money. Time, you can observe the crushed products each time, it can prevent the geopolymer from clogging during rough processing, so as to protect the motor, and will not affect the production, which is convenient for the production and processing of geopolymer, with strong flexibility and simple and convenient operation.

Description

High-efficient reducing mechanism of geopolymer waste material

Technical Field

The utility model relates to a geopolymer processing field specifically is a high-efficient reducing mechanism of geopolymer waste material.

Background

The geopolymer is an inorganic polymer with a three-dimensional network structure consisting of AlO4 and SiO4 tetrahedral structural units, has a chemical formula of Mn { - (SiO2) zAlO2} n.wH 2O, is amorphous to semi-crystalline, and belongs to a non-metallic material. The material has excellent mechanical performance, acid and alkali resistance, fire resistance and high temperature resistance, has the characteristics of replacing common portland cement and utilizing mineral waste and construction waste as raw materials, and has application in the aspects of building materials, high-strength materials, solid core and solid waste materials, sealing materials, high temperature resistant materials and the like. The geopolymer waste can be produced in the process of geopolymer processing production, the geopolymer waste needs to be crushed, but the existing crushing device is simpler, the function is single, the flexibility is poor, automatic feeding cannot be realized, and the geopolymer waste cannot be crushed for multiple times, so that the crushing requirement is met, and when the common crushing device is used for feeding, the phenomenon of blockage easily occurs, the crushing efficiency is low, the speed is low, a motor is easily burnt, the assembly line crushing cannot be realized, and the processing and the use are inconvenient.

Disclosure of Invention

The utility model aims at prior art's defect, provide a high-efficient reducing mechanism of geopolymer waste material to solve the problem that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency smashing device for geopolymer waste materials comprises a primary smashing box, a blanking box and a finish machining box, wherein supporting rods are mounted at two ends of the top of the primary smashing box, a top frame is mounted at the top of each supporting rod, a hydraulic cylinder is mounted in the middle of the top frame, a push plate is mounted at the bottom of the hydraulic cylinder, a plurality of smashing nails are welded at the bottom of the push plate, a plurality of coarse smashing rollers are mounted in the middle of the primary smashing box, a first bearing seat is mounted at one end of each coarse smashing roller, a first gear box is mounted at the other end of each coarse smashing roller, a third gear box is mounted at the bottom of the first gear box, a first motor is mounted on the third gear box, a first conveying belt is mounted on one side of the top of the primary smashing box, a first conveying belt motor is mounted at the bottom of the first conveying belt, the blanking box is mounted at the bottom of the other side of the primary smashing box, the second conveyer belt is installed to the one end of workbin down, the second conveyer belt motor is installed to the bottom of second conveyer belt, the finish machining case is installed to the one end of second conveyer belt, the top of finish machining case is equipped with into the hopper, the bottom vertically and horizontally cross arrangement that goes into the hopper installs the smart roller of smashing, the second gearbox is installed to the one end of smart roller of smashing, the second motor is installed to one side of second gearbox, the discharge gate has been seted up to bottom one side of finish machining case, install control switch on the workbin down.

As a preferred technical scheme of the utility model, the third gear box passes through the bolt and installs on the lower extreme of preliminary crushing case, first motor passes through the bolt and installs on the third gear box, the pivot on the third gear box passes through the hold-in range with the pivot on the first gear box and links to each other, the third gear box passes through the bolt and installs on the upper end of preliminary crushing case.

As a preferred technical scheme of the utility model, the one end of thick crushing roller links to each other with first bearing frame is fixed, the other end of thick crushing roller links to each other with the gear is fixed in the first gear box, the bracing piece welding is on the both ends of preliminary crushing case, the roof-rack welding is on the top of bracing piece, the pneumatic cylinder passes through the bolt and installs on the top of roof-rack, the push pedal passes through the bolt and links to each other with the pneumatic cylinder is fixed.

As a preferred technical scheme of the utility model, first conveyer belt passes through the bolt and installs on top one side of preliminary crushing case, first conveyer belt motor passes through the hold-in range and links to each other with the roller on the first conveyer belt.

As the utility model discloses a preferred technical scheme, the one end of workbin passes through the bolt with the discharge gate of preliminary crushing case and links to each other, the other end of workbin passes through the bolt with the second conveyer belt and links to each other, the bolt is passed through to the one end of second conveyer belt and installs on the top of finish machining case.

As a preferred technical scheme of the utility model, the one end of smart crushing roller links to each other with the gear is fixed in the second gear box, the second motor passes through the bolt and installs on the second gear box, the other end of smart crushing roller links to each other with the second bearing frame is fixed on the finish machining case, the installation distance between the smart crushing roller is less than the installation distance between the thick crushing roller.

As a preferred technical scheme of the utility model, control switch respectively with first motor, first conveyer belt motor, second conveyer belt motor and second motor electric connection.

As a preferred technical scheme of the utility model, the pneumatic cylinder passes through hydraulic pressure oil pipe and links to each other with hydraulic oil pump, hydraulic oil pump passes through hydraulic pressure oil pipe and links to each other with hydraulic tank.

The utility model has the advantages that: this reducing mechanism can carry out automatic feeding to the geopolymer waste material, can carry out the thickness to the geopolymer waste material and separately smash processing, can let the kibbling more meticulous of geopolymer waste material, realizes assembly line processing moreover, raises the efficiency, and save time can observe kibbling product at every turn, can prevent that the geopolymer from blockking up in rough machining to the protection motor can not influence production yet, and the geopolymer production and processing of being convenient for uses, and the flexibility is strong, and easy operation is convenient.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a sectional view of the coarse crushing roller of the present invention.

In the figure: 1. the automatic feeding device comprises a primary crushing box, 2, a discharging box, 3, a fine processing box, 4, a first conveying belt, 5, a coarse crushing roller, 6, a first bearing seat, 7, a first gear box, 8, a first motor, 9, a third gear box, 10, a first conveying belt motor, 11, a supporting rod, 12, a top frame, 13, a hydraulic cylinder, 14, a push plate, 15, a crushing nail, 16, a second conveying belt, 17, a second conveying belt motor, 18, a feeding hopper, 19, a fine crushing roller, 20, a second motor, 21, a second gear box, 22, a discharging port, 23 and a control switch.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and the protection scope of the present invention can be clearly and clearly defined.

Example (b): referring to fig. 1-2, the present invention provides a technical solution: a high-efficiency smashing device for geopolymer waste materials comprises a primary smashing box 1, a blanking box 2 and a finish machining box 3, supporting rods 11 are mounted at two ends of the top of the primary smashing box 1, a top frame 12 is mounted at the top of each supporting rod 11, a hydraulic cylinder 13 is mounted in the middle of each top frame 12, a push plate 14 is mounted at the bottom of each hydraulic cylinder 13, a plurality of crushing nails 15 are welded at the bottom of each push plate 14, a plurality of coarse smashing rollers 5 are mounted in the middle of the primary smashing box 1, a first bearing seat 6 is mounted at one end of each coarse smashing roller 5, a first gear box 7 is mounted at the other end of each coarse smashing roller 5, a third gear box 9 is mounted at the bottom of each first gear box 7, a first motor 8 is mounted on each third gear box 9, a first conveying belt 4 is mounted on one side of the top of the primary smashing box 1, a first conveying belt motor 10 is mounted at the bottom of each first conveying belt 4, the blanking box 2 is mounted at the bottom of the other side of the primary smashing box 1, second conveyer belt 16 is installed to the one end of workbin 2 down, second conveyer belt motor 17 is installed to the bottom of second conveyer belt 16, finish machining case 3 is installed to the one end of second conveyer belt 16, finish machining case 3's top is equipped with into hopper 18, the bottom criss-cross of going into hopper 18 installs finish crushing roller 19, second gearbox 21 is installed to finish crushing roller 19's one end, second motor 20 is installed to one side of second gearbox 21, discharge gate 22 has been seted up to bottom one side of finish machining case 3, install control switch 23 on the workbin 2 down.

Third gear box 9 passes through the bolt and installs on preliminary crushing case 1's lower extreme, and first motor 8 passes through the bolt and installs on third gear box 9, and the pivot on the third gear box 9 passes through the hold-in range with the pivot on the first gear box 7 and links to each other, and third gear box 9 passes through the bolt and installs on preliminary crushing case 1's upper end.

The one end of thick crushing roller 5 links to each other with first bearing frame 6 is fixed, and the other end of thick crushing roller 5 links to each other with the gear in the first gear box 7 is fixed, and bracing piece 11 welds on the both ends of preliminary crushing case 1, and roof-rack 12 welds on the top of bracing piece 11, and pneumatic cylinder 13 passes through the bolt and installs on the top of roof-rack 12, and push pedal 14 passes through the bolt and links to each other with pneumatic cylinder 13 is fixed.

The first conveyor belt 4 is installed on one side of the top of the preliminary crushing box 1 through bolts, and the first conveyor belt motor 10 is connected with the roller on the first conveyor belt 4 through a synchronous belt.

The one end of feed box 2 and the discharge gate of preliminary crushing case 1 pass through the bolt and link to each other, and the other end of feed box 2 passes through the bolt with second conveyer belt 16 and links to each other, and the bolt is passed through to the one end of second conveyer belt 16 and installs on the top of finish machining case 3.

One end of the fine crushing roller 19 is fixedly connected with a gear in a second gear box 21, a second motor 20 is installed on the second gear box 21 through a bolt, the other end of the fine crushing roller 19 is fixedly connected with a second bearing seat on the fine processing box 3, and the installation distance between the fine crushing rollers 19 is smaller than that between the coarse crushing rollers 5.

The control switch 23 is electrically connected to the first motor 8, the first belt conveyor motor 10, the second belt conveyor motor 17, and the second motor 20, respectively.

The hydraulic cylinder 13 is connected with a hydraulic oil pump through a hydraulic oil pipe, the hydraulic oil pump is connected with a hydraulic oil tank through a hydraulic oil pipe, and the hydraulic oil pump is electrically connected with the control switch 23.

The working principle is as follows: a high-efficiency smashing device for geopolymer waste materials comprises a primary smashing box 1, a blanking box 2 and a finish machining box 3, when the smashing device is used, a first motor 8, a first conveyor belt motor 10, a second conveyor belt motor 17 and a second motor 20 are connected through a control switch 23, the first conveyor belt motor 10 is enabled to brake and drive a first conveyor belt 4 to rotate, geopolymer waste materials are conveyed and conveyed to the top of the primary smashing box 1, the first motor 8 is enabled to brake and drive a gear in a third gear box 9 to rotate by connecting the power of the first motor 8, a rotating shaft on the third gear box 9 is driven to rotate, a rotating shaft on the first gear box 7 is driven to rotate, gears in the first gear box 7 are driven to rotate, a coarse smashing roller 5 is driven to rotate around a first bearing seat 6 by rotating the gears in the first gear box 7, and the geopolymer waste materials are smashed, the number of the coarse crushing rollers 5 is 5, the middle part is provided with one, the upper part and the lower part are provided with 2, the coarse crushing rollers can carry out rough machining on geopolymer waste materials rapidly, coarse crushing residues generated by rough machining are conveyed onto a second conveyor belt 16 through a blanking box 2, the second conveyor belt 16 is driven to brake through a second conveyor belt motor 17, so that rough machined products are conveyed into a feeding hopper 18 at the top of a fine machining box 3 slowly, then a gear in a second gear box 21 is driven to rotate through braking of a second motor 20, so that a fine crushing roller 19 is driven to rotate around a second bearing seat, so that the coarse materials are finely machined, the fine crushing roller 19 is provided with two pairs which are vertically and horizontally arranged in the fine machining box 3, the machining precision can be improved, after machining is finished, the coarse materials are discharged through a discharge port 22 and then collected, when the coarse machining occurs, when a phenomenon of large material blockage occurs, oil can be supplied to a hydraulic, thereby push pedal 14 is pushed down, lets broken nail 15 slowly descend and carry out the breakage to the geopolymer waste material, broken into the shape of fritter, and the jam can not appear in the rough machining of being convenient for, and the flexibility is strong, and easy operation is convenient, and assembly line processing improves machining efficiency height.

This reducing mechanism can carry out automatic feeding to the geopolymer waste material, can carry out the thickness to the geopolymer waste material and separately smash processing, can let the kibbling more meticulous of geopolymer waste material, realizes assembly line processing moreover, raises the efficiency, and save time can observe kibbling product at every turn, can prevent that the geopolymer waste material from blockking up in rough machining to the protection motor can not influence production yet, and the geopolymer production and processing of being convenient for uses, and the flexibility is strong, and easy operation is convenient.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (8)

1. A high-efficiency crushing device for geopolymer waste, comprising a preliminary crushing box (1), a lowering box (2) and a finishing box (3), characterized in that: the top two ends of the preliminary crushing box (1) A support rod (11) is installed on each of the support rods (11), a top frame (12) is installed on the top of the support rod (11), a hydraulic cylinder (13) is installed in the middle of the top frame (12), and the hydraulic cylinder (13) A push plate (14) is installed at the bottom of the push plate (14), a number of crushing nails (15) are welded to the bottom of the push plate (14), and a number of coarse crushing rollers (5) are installed in the middle of the preliminary crushing box (1), A first bearing seat (6) is installed at one end of the coarse crushing roller (5), and a first gear box (7) is installed at the other end of the coarse crushing roller (5). The first gear box (7) A third gear box (9) is installed at the bottom of the crusher, a first motor (8) is installed on the third gear box (9), and a first conveyor belt (4) is installed on the top side of the preliminary crushing box (1). ), a first conveyor motor (10) is installed at the bottom of the first conveyor belt (4), and a lowering box (2) is installed at the bottom of the other side of the preliminary crushing box (1). 2) A second conveyor belt (16) is installed at one end, a second conveyor belt motor (17) is installed at the bottom of the second conveyor belt (16), and a finishing box (3) is installed at one end of the second conveyor belt (16) ), the top of the finishing box (3) is provided with a feeding hopper (18), the bottom of the feeding hopper (18) is vertically and horizontally installed with a fine grinding roller (19), one end of the fine grinding roller (19) A second gear box (21) is installed, a second motor (20) is installed on one side of the second gear box (21), and a discharge port (22) is opened on one side of the bottom of the finishing box (3). ), a control switch (23) is installed on the unloading box (2). 2. A high-efficiency pulverizing device for geopolymer waste according to claim 1, characterized in that: the third gear box (9) is mounted on the lower end of the preliminary pulverizing box (1) by bolts, and the first The motor (8) is mounted on the third gear box (9) through bolts, the rotating shaft on the third gear box (9) is connected with the rotating shaft on the first gear box (7) through a timing belt, and the third gear box (9) is connected with the rotating shaft on the first gear box (7). The box (9) is mounted on the upper end of the preliminary crushing box (1) by bolts. 3. The high-efficiency pulverizing device for geopolymer waste according to claim 1, characterized in that: one end of the coarse pulverizing roller (5) is fixedly connected to the first bearing seat (6), and the coarse pulverizing roller ( 5) The other end is fixedly connected with the gear in the first gear box (7), the support rod (11) is welded on both ends of the preliminary crushing box (1), and the top frame (12) is welded on the support rod On the top of (11), the hydraulic cylinder (13) is mounted on the top of the top frame (12) through bolts, and the push plate (14) is fixedly connected to the hydraulic cylinder (13) through bolts. 4. A high-efficiency crushing device for geopolymer waste according to claim 1, characterized in that: the first conveyor belt (4) is installed on the top side of the preliminary crushing box (1) by bolts, and the first conveyor belt (4) A conveyor belt motor (10) is connected with the rollers on the first conveyor belt (4) through a timing belt. 5. The high-efficiency pulverizing device for geopolymer waste according to claim 1, characterized in that: one end of the unloading box (2) is connected with the discharge port of the preliminary pulverizing box (1) by bolts, and the The other end of the unloading box (2) is connected with the second conveyor belt (16) through bolts, and one end of the second conveyor belt (16) is mounted on the top of the finishing box (3) through bolts. 6. A high-efficiency pulverizing device for geopolymer waste according to claim 1, characterized in that: one end of the fine pulverizing roller (19) is fixedly connected with the gear in the second gear box (21), and the first The second motor (20) is mounted on the second gear box (21) through bolts, and the other end of the fine grinding roller (19) is fixedly connected to the second bearing seat on the finishing box (3). The installation distance between (19) is smaller than the installation distance between the coarse crushing rollers (5). 7 . The high-efficiency crushing device for geopolymer waste according to claim 1 , wherein the control switch ( 23 ) is respectively connected with the first motor ( 8 ), the first conveyor motor ( 10 ) and the second conveyor belt. 8 . The motor (17) is electrically connected with the second motor (20). 8 . The high-efficiency crushing device for geopolymer waste according to claim 1 , wherein the hydraulic cylinder ( 13 ) is connected to a hydraulic oil pump through a hydraulic oil pipe, and the hydraulic oil pump is connected to a hydraulic oil tank through a hydraulic oil pipe. 9 .

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