CN113829506A

CN113829506A - Multi-stage filtration type slay is handled and is used reducing mechanism

Info

Publication number: CN113829506A
Application number: CN202111064933.3A
Authority: CN
Inventors: 吴小安; 李卫杰; 胡俊海; 杜敏捷; 陈长旺
Original assignee: Xinlongye Construction Engineering Co ltd
Current assignee: Liaocheng Huanuo Building Materials Co ltd
Priority date: 2021-09-11
Filing date: 2021-09-11
Publication date: 2021-12-24
Anticipated expiration: 2041-09-11
Also published as: CN113829506B

Abstract

The invention discloses a multistage filtering type crushing device for slag treatment, which comprises a frame main body and is characterized in that: the inner side of the frame main body is provided with a slag crushing device, the inner side of the frame main body is provided with a gypsum adding device, the inner side of the frame main body is provided with a cement proportioning device, the slag crushing device comprises a crushing groove, an inner side bearing of the crushing groove is connected with a main gear, the inner side bearing of the crushing groove is connected with a pinion, the main gear is meshed with the pinion and is connected with the gypsum adding device, the gypsum proportioning device comprises a gypsum cabin, the cement proportioning device comprises a proportioning wheel, induction plates are fixedly mounted on the periphery of the proportioning wheel, the cement mixing device comprises a mixing cabin, the inner side bearing of the mixing cabin is connected with a stirring wheel, and a transmission shaft is fixedly mounted on the inner side of the stirring wheel.

Description

Multi-stage filtration type slay is handled and is used reducing mechanism

Technical Field

The invention relates to the technical field of industry, in particular to a multistage filtering type crushing device for slag treatment.

Background

The residue of ore after mineral separation or smelting is called slag, which plays an important role in industrial production, and particularly, slag is made into slag cement, slag micro powder, slag portland cement, slag wool, blast furnace slag, granulated blast furnace slag powder, copper slag and slag vertical mill by using slag in heavy and large factories, so that the energy consumption is saved.

The slag portland cement called slag cement for short is composed of portland cement clinker, 20-70% of granulated blast furnace slag and a proper amount of gypsum, and most of the existing slag cement mixing devices need manual operation proportioning, so that a multistage filtering type slag processing crushing device with strong practicability and proportioning mixing is necessary to design.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems occurring in the prior art, and an object of the present invention is to provide a multistage filtration type slag treatment pulverizing apparatus.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a reducing mechanism is used in processing of multistage filter type slay, includes the frame main part, its characterized in that: the inboard of frame main part is provided with slay reducing mechanism, the inboard of frame main part is provided with the gypsum and adds the device, the inboard of frame main part is provided with cement proportioning device, the inboard of frame main part is provided with cement mixing arrangement.

According to the above technical scheme, slay reducing mechanism is including smashing the groove, the inboard bearing in smashing the groove is connected with the master gear, the inboard bearing in smashing the groove is connected with the pinion, the master gear is connected with the pinion meshing, the gypsum adds the device and includes the gypsum cabin, cement proportioning device is including the ratio wheel, equal fixed mounting all around of ratio wheel has the tablet.

According to the technical scheme, the cement mixing device comprises a mixing cabin, an inner side bearing of the mixing cabin is connected with a mixing wheel, a transmission shaft is fixedly mounted on the inner side of the mixing wheel, a transmission wheel is fixedly mounted on the outer side of the transmission shaft, transmission pistons are movably connected to the periphery of the transmission wheel, a plurality of groups of transmission pistons are movably connected to the inner side of the transmission pistons through bearings, an adjusting belt wheel is connected to one side of a main gear through a belt pulley, an extrusion air bag is fixedly mounted on the periphery of the mixing wheel, and the extrusion air bag is connected with a transmission wheel pipeline.

According to the technical scheme, the lower side bearing of the gypsum cabin is connected with the switch board, the switch air bag is fixedly mounted inside the lower side of the gypsum cabin, and the spring button is fixedly mounted at the lower end of the gypsum cabin.

According to the technical scheme, one side fixed mounting of ratio wheel has the oscillation wheel, the upside of oscillating the wheel is provided with vibrates groove two, the inboard swing joint who vibrates groove two has oscillation piston two, the inboard fixed mounting who smashes the groove has oscillation groove one, the inboard swing joint who vibrates groove one has oscillation piston one, oscillation groove one with vibrate two tube coupling in groove.

According to the technical scheme, the inboard fixed mounting of frame main part has the batching groove, the inboard fixed mounting of batching groove has the batching block, the lower extreme of smashing the groove is provided with down the silo, the inboard swing joint of silo has the unloading piston down, silo and batching groove tube coupling down.

According to the technical scheme, the guide plate is fixedly mounted on the inner side of the upper end of the mixing cabin, the switch baffle is connected with the inner side bearing of the upper end of the mixing cabin, the baffle airbag is fixedly mounted on the inner side of the guide plate, and the baffle airbag is connected with the discharge chute pipeline.

According to the technical scheme, the flow limiting groove is fixedly arranged on the inner side of the frame main body, and the inner side of the flow limiting groove is movably connected with the flow limiting block.

According to the technical scheme, the filter screen is fixedly arranged on the inner side of the crushing groove.

According to the technical scheme, the main gear and the auxiliary gear are made of hard alloy.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, through the matching of the gear and the proportioning wheel, slag can be crushed into fine particles by the slag crushing device, quantitative gypsum powder is added into the cement proportioning device by the gypsum adding device, and then the quantitative slag particles and the gypsum powder are conveyed into the cement mixing device together for stirring and mixing, so that the automatic proportioning and mixing capability of the slag and the gypsum powder is improved by the devices.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall elevational cross-sectional structural view of the present invention;

FIG. 2 is an enlarged schematic view of area A of the present invention;

FIG. 3 is an enlarged schematic view of area B of the present invention;

FIG. 4 is an enlarged schematic view of region C of the present invention;

FIG. 5 is an enlarged schematic view of region D of the present invention;

in the figure: 1. a frame body; 2. a crushing tank; 3. a pinion gear; 4. a main gear; 5. a belt pulley; 6. a filter screen; 7. a gypsum cabin; 8. a proportioning wheel; 9. an induction plate; 10. a vibrating wheel; 11. a mixing chamber; 12. a stirring wheel; 13. a drive shaft; 14. a driving wheel; 15. a drive piston; 16. adjusting the belt pulley; 17. extruding the air bag; 18. opening and closing the air bag; 19. a spring button; 20. a switch plate; 21. a first oscillation groove; 22. oscillating a first piston; 23. a second oscillation groove; 24. a second oscillating piston; 25. a discharging groove; 26. a blanking piston; 27. a batching tank; 28. a block of ingredient; 29. a switch baffle; 30. a guide plate; 31. a baffle air bag; 32. a flow limiting groove; 33. and a flow limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a reducing mechanism is used in processing of multistage filter type slay, includes frame main part 1, its characterized in that: the slag crushing device is arranged on the inner side of the frame main body 1, the gypsum adding device is arranged on the inner side of the frame main body 1, the cement proportioning device is arranged on the inner side of the frame main body 1, the cement mixing device is arranged on the inner side of the frame main body 1, slag is crushed into fine particles through the slag crushing device, a certain amount of gypsum powder is added into the cement proportioning device through the gypsum adding device, then the certain amount of slag particles and gypsum powder are conveyed into the cement mixing device together for stirring and mixing, and the automatic proportioning and mixing capacity of the slag particles and gypsum powder is improved through the devices;

the slag crushing device comprises a crushing groove 2, the inner side bearing of the crushing groove 2 is connected with a main gear 4, the inner side bearing of the crushing groove 2 is connected with a pinion 3, the main gear 4 is meshed with the pinion 3 and is connected, the gypsum adding device comprises a gypsum cabin 7, the cement proportioning device comprises a proportioning wheel 8, sensing plates 9 are fixedly arranged on the periphery of the proportioning wheel 8, gypsum powder falls onto the sensing plates 9 through the gypsum cabin 7, the sensing plates 9 move downwards under the influence of gravity to be disengaged from the gypsum cabin 7 to rotate clockwise when falling to a certain weight, when rotating to the upper position of the right side, slag is crushed through the meshing of the main gear 4 and the pinion 3 and then falls onto the sensing plates 9 through an outlet at the lower end of the crushing groove 2, when falling to a certain weight, the sensing plates 9 move downwards to be disengaged from a baffle to be engaged, the proportioning wheel 8 rotates again to rotate clockwise to drop the proportioned materials and mix the materials, the capability of quantitative mixing is improved;

the cement mixing device comprises a mixing cabin 11, the inner side of the mixing cabin 11 is connected with a mixing wheel 12 through a bearing, the inner side of the mixing wheel 12 is fixedly provided with a transmission shaft 13, the outer side of the transmission shaft 13 is fixedly provided with a transmission wheel 14, the periphery of the transmission wheel 14 is movably connected with transmission pistons 15, the inner sides of a plurality of groups of transmission pistons 15 are respectively connected with an adjusting belt wheel 16 through a bearing, one side of a main gear 4 is fixedly provided with a belt wheel 5, the periphery of the mixing wheel 12 is fixedly provided with an extrusion air bag 17, the extrusion air bag 17 is connected with the transmission wheel 14 through a pipeline, when materials are transported into the mixing cabin 11, the transmission shaft 13 is driven to rotate through a motor, the mixing wheel 12 rotates clockwise along with the transmission shaft 13 to mix the materials inside the mixing cabin 11, the adjusting belt wheel 16 is in belt connection with the belt wheel 5, when the materials in the mixing cabin 11 are more, the mixing wheel 12 rotates to enable the materials to generate higher pressure on the extrusion air bag 17 fixed on the mixing wheel 12, the extrusion air bag 17 is stressed to contract to generate pressure on the outer side of the transmission piston 15 through a pipeline, the transmission piston 15 is stressed to contract towards the inner side, so that the transmission diameter of the belt on one side of the adjusting belt wheel 16 is reduced, and under the condition that the rotating speed of the transmission shaft 13 is not changed, the rotating speed of the belt wheel 5 is relatively reduced, so that the speed of crushing slag is slowed down, the rotating speed of the proportioning wheel 8 is indirectly slowed down, the blockage caused by excessive materials in the mixing cabin 11 is prevented, and the working efficiency of the mixing cabin is improved;

a switch plate 20 is connected to a lower bearing of the gypsum cabin 7, a switch air bag 18 is fixedly installed inside the lower side of the gypsum cabin 7, a spring button 19 is fixedly installed at the lower end of the gypsum cabin 7, when the sensor plate 9 rotates to the position of the gypsum cabin 7, the sensor plate 9 generates pressure on the spring button 19 to enable the spring button to move inwards, the spring button 19 extrudes the inner gas to enter the switch air bag 18 through a pipeline to enable the inner gas to expand, the right side of the switch plate 20 is pushed to move upwards to enable the switch plate 20 to rotate anticlockwise around the axis to open an outlet of the gypsum cabin 7 to enable gypsum powder to fall onto the sensor plate 9, when the gypsum powder falls to a certain weight, the sensor plate 9 moves downwards to be disengaged from the spring button 19, the switch plate 20 rotates clockwise around the axis by the spring elasticity to close the outlet of the gypsum cabin 7, and the surplus gypsum powder is prevented from falling to influence the proportioning result;

one side of the proportioning wheel 8 is fixedly provided with a vibration wheel 10, the upper side of the vibration wheel 10 is provided with a vibration groove II 23, the inner side of the vibration groove II 23 is movably connected with a vibration piston II 24, the inner side of the crushing groove 2 is fixedly provided with a vibration groove I21, the inner side of the vibration groove I21 is movably connected with a vibration piston I22, the vibration groove I21 is connected with the vibration groove II 23 through a pipeline, when the proportioning wheel 8 rotates, the vibration wheel 10 is driven to rotate, the vibration piston II 24 is always in contact with the vibration wheel 10 under the influence of the spring pressure in the vibration groove II 23, the vibration wheel 10 rotates, the vibration piston II 24 moves up and down on the inner side of the vibration groove II 23, thereby the oil on the upper side is extruded to generate pulse pressure on the vibration groove I21 through the pipeline, the vibration piston I22 is driven to hit the inner side of the crushing groove 2 to generate vibration along with the rotation of the proportioning wheel 8, and slag particles attached to the main gear 4 and the pinion 3 are vibrated, the crushing efficiency is prevented from being influenced by blockage;

the inner side of the frame main body 1 is fixedly provided with a batching groove 27, the inner side of the batching groove 27 is fixedly provided with a batching block 28, the lower end of the crushing groove 2 is provided with a blanking groove 25, the inner side of the blanking groove 25 is movably connected with a blanking piston 26, the blanking groove 25 is connected with the batching groove 27 through a pipeline, when the proportioning wheel 8 drives the induction plate 9 to rotate to the position of the batching groove 27, pressure is generated on the batching block 28 to enable the batching block to move downwards, lower oil is extruded to enter the left side of the blanking groove 25 through the pipeline, the blanking piston 26 moves towards the right side under the action of the oil pressure, a hole on the blanking piston 26 is coincided with an outlet of the crushing groove 2, crushed slag can fall into the induction plate 9 from the hole of the blanking piston 26, when the material quality in the induction plate 9 reaches a specified value, the spring contracts to enable the induction plate 9 to be separated from the batching block 28 to rotate clockwise, and the batching block 28 is popped up by the spring elasticity, the blanking piston 26 moves towards the left side after losing the oil hydraulic pressure, the outlet of the crushing groove 2 is blocked, the slag is prevented from falling when the proportioning block 8 cannot rotate to the specified position, and the self-adaptive opening and closing capacity of the slag mixing device is improved;

a guide plate 30 is fixedly installed on the inner side of the upper end of the mixing cabin 11, an opening and closing baffle 29 is connected to the inner side bearing of the upper end of the mixing cabin 11, a baffle airbag 31 is fixedly installed on the inner side of the guide plate 30, the baffle airbag 31 is connected with the blanking groove 25 through a pipeline, when the proportioning wheel 8 rotates to enable the induction plate 9 to be disengaged from the batching block 28, the blanking piston 26 loses oil hydraulic pressure generated by the batching block 28, the blanking piston 26 moves leftwards under the spring force, the baffle airbag 31 in the guide plate 30 is contracted through the pipeline, the opening and closing baffle 29 rotates downwards under the influence of the spring force to enable an inlet of the mixing cabin 11 to be opened, the proportioning wheel 8 rotates to enable gypsum powder and slag powder to rotate to the upper side of the mixing cabin 11 to enter the mixing cabin 11 to be mixed and stirred under the influence of gravity, after the induction plate 9 presses down the batching block 28, the blanking piston 26 moves rightwards through the oil hydraulic pressure to extrude right-side gas to enter the baffle airbag 31 through the pipeline, the switch baffle 29 is rotated upwards under the pressure of the baffle airbag 31, the inlet of the mixing cabin 11 is closed, the materials are prevented from flying out of the mixing cabin 11 to pollute the frame main body 1 during stirring, and the sealing performance of the mixing cabin 11 is improved;

the flow limiting groove 32 is fixedly arranged on the inner side of the frame main body 1, the inner side of the flow limiting groove 32 is movably connected with the flow limiting block 33, gas in the lower trough 25 flows into the baffle air bag 31, the flow speed is reduced under the influence of the flow limiting block 33 when passing through the flow limiting groove 32, the expansion speed of the baffle air bag 31 is reduced, the closing speed of the switch baffle 29 is reduced, materials have enough time to fall into the mixing cabin 11, and the completeness of falling is ensured;

the filter screen 6 is fixedly arranged on the inner side of the crushing groove 2, qualified slag particles can be screened out through the filter screen 6 when the slag is crushed, and the incompletely crushed slag is conveyed to a meshing part again through the matching of the main gear 4, the pinion 3 and the filter screen 6 through tooth gaps for secondary crushing, so that the slag crushing quality is improved;

the main gear 4 and the pinion 3 are made of hard alloy, so that the hardness of the main gear 4 and the pinion 3 is improved, the main gear 4 and the pinion 3 are not easy to damage when slag is crushed, and the service life of the main gear 4 and the pinion 3 is prolonged.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a reducing mechanism is used in processing of multistage filter type slay, includes frame main part (1), its characterized in that: the inboard of frame main part (1) is provided with slay reducing mechanism, the inboard of frame main part (1) is provided with the gypsum and adds the device, the inboard of frame main part (1) is provided with cement proportioning device, the inboard of frame main part (1) is provided with cement mixing arrangement.

2. The slag-processing crushing apparatus of the multistage filtration type according to claim 1, wherein: slag reducing mechanism is including smashing groove (2), the interior side bearing of smashing groove (2) is connected with master gear (4), the interior side bearing of smashing groove (2) is connected with pinion (3), master gear (4) are connected with pinion (3) meshing, the gypsum adds the device and includes gypsum cabin (7), cement ratio device is including ratio wheel (8), equal fixed mounting all around of ratio wheel (8) has tablet (9).

3. The slag processing crushing apparatus of the multistage filtration type according to claim 2, wherein: the cement mixing device comprises a mixing cabin (11), wherein an inner side bearing of the mixing cabin (11) is connected with a mixing wheel (12), a transmission shaft (13) is fixedly arranged on the inner side of the mixing wheel (12), a transmission wheel (14) is fixedly arranged on the outer side of the transmission shaft (13), transmission pistons (15) and a plurality of groups are movably connected around the transmission wheel (14), an adjusting belt wheel (16) is connected to an inner side bearing of each transmission piston (15), a belt wheel (5) is fixedly arranged on one side of a main gear (4), an extrusion air bag (17) is fixedly arranged around the mixing wheel (12), and the extrusion air bag (17) is connected with the transmission wheel (14) through a pipeline.

4. The slag processing crushing apparatus of the multistage filtration type according to claim 3, wherein: the lower side bearing of gypsum cabin (7) is connected with switch board (20), the inside fixed mounting of downside in gypsum cabin (7) has switch gasbag (18), the lower extreme fixed mounting in gypsum cabin (7) has spring button (19).

5. The slag processing crushing apparatus of the multi-stage filtration type according to claim 4, wherein: one side fixed mounting of ratio wheel (8) has oscillation wheel (10), the upside of oscillating wheel (10) is provided with vibrates groove two (23), the inboard swing joint that vibrates groove two (23) has oscillation piston two (24), the inboard fixed mounting who smashes groove (2) has oscillation groove one (21), the inboard swing joint that vibrates groove one (21) has oscillation piston one (22), oscillation groove one (21) and oscillation groove two (23) tube coupling.

6. The slag processing crushing apparatus of the multistage filtration type according to claim 5, wherein: the inboard fixed mounting of frame main part (1) has proportioning bins (27), the inboard fixed mounting of proportioning bins (27) has batching block (28), the lower extreme of smashing groove (2) is provided with down silo (25), the inboard swing joint of silo (25) has unloading piston (26) down, silo (25) and proportioning bins (27) tube coupling down.

7. The slag processing crushing apparatus of claim 6, wherein: the inboard fixed mounting in upper end of mixing cabin (11) has deflector (30), the upper end inboard bearing of mixing cabin (11) is connected with switch baffle (29), the inboard fixed mounting of deflector (30) has baffle gasbag (31), baffle gasbag (31) and lower silo (25) tube coupling.

8. The slag processing crushing apparatus of claim 7, wherein: the inner side of the frame main body (1) is fixedly provided with a flow limiting groove (32), and the inner side of the flow limiting groove (32) is movably connected with a flow limiting block (33).

9. The slag processing crushing apparatus of claim 8, wherein: and a filter screen (6) is fixedly arranged on the inner side of the crushing groove (2).

10. The slag processing crushing apparatus of the multistage filtration type according to claim 9, wherein: the main gear (4) and the auxiliary gear (3) are made of hard alloy.