CN221472092U - Multistage reducing mechanism is used in black talcum production - Google Patents

Abstract

The utility model relates to the technical field of black talc processing, in particular to a multistage grinding device for black talc production, which comprises a processing box, a controller, a first-stage grinding mechanism, a second-stage grinding mechanism and a screening mechanism, wherein the first-stage grinding mechanism comprises a feeding shell, an electric control assembly and two first compression rollers, the second-stage grinding mechanism comprises a receiving shell, a transmission assembly and two second compression rollers, and the screening mechanism comprises a filtering frame, a driving assembly and two sliding assemblies. The multistage grinding device for producing the black talc can synchronously perform secondary grinding on the screened large-particle black talc while performing primary grinding on the black talc, improves the grinding effect, and can reduce the use number of driving sources of the device and reduce the power consumption, thereby reducing the grinding cost, and being beneficial to reducing the overall structure of the device and reducing the manufacturing cost.

Description

Multistage reducing mechanism is used in black talcum production

Technical Field

The utility model relates to the technical field of black talc processing, in particular to a multistage crushing device for black talc production.

Background

The black talcum is a general term for black and gray black talcum, the organic matters are contained as main reasons for blackening, the main mineral in the black talcum is talcum, and the black talcum cannot be widely applied due to low whiteness of the black talcum, but can be applied to ceramics, rubber and the like in industries, in order to enlarge the application field of the black talcum, proper measures are required to improve the whiteness of the black talcum, and calcination is an effective method, and the black talcum is required to be crushed during processing.

The existing multi-stage crushing device has the following defects:

1. The primary crushing mechanism and the secondary crushing mechanism are driven by separate driving sources respectively, and cannot realize linkage, so that the power consumption of the whole device is large, and the reduction of the crushing cost is not facilitated.

2. The designed filter plate is generally fixedly installed, cannot vibrate, and is easy to block after being used for a period of time, so that screening efficiency is affected.

Disclosure of utility model

The utility model aims to provide a multistage crushing device for producing black talc.

To achieve the purpose, the utility model adopts the following technical scheme:

Providing a multistage crushing device for producing black talc, comprising a treatment box;

The device also comprises a controller, a primary crushing mechanism, a secondary crushing mechanism and a screening mechanism;

The first-stage crushing mechanism is arranged at one end of the top of the treatment box and comprises a feeding shell, an electric control assembly and two first compression rollers, wherein the feeding shell side is integrally formed at one end of the top of the treatment box, the electric control assembly is arranged on the feeding shell, and the two first compression rollers are both arranged in the feeding shell in a rotating way through a first rotating shaft;

The second-stage crushing mechanism is arranged at the other end of the treatment box and comprises a material receiving shell, a transmission assembly and two second press rolls, a feeding port is formed in one end, far away from the first press roll, of the treatment box, the material receiving shell is fixedly arranged on the feeding port, the two second press rolls are all rotatably arranged in the material receiving shell through second rotating shafts, and the transmission assembly is arranged between the driving assembly and the two second press rolls;

the screening mechanism is established in the inside of handling the case, and screening mechanism includes filter frame, drive assembly and two slip subassembly, and filter frame slides through four sliders and establishes in the inside of handling the case, and filter frame is the slope, and drive assembly establishes on the outer wall of handling the case, and two slip subassemblies are the symmetry and set up on handling the both ends outer wall of case, filter frame and two slip subassembly fixed connection, and electric control assembly and drive assembly and controller are electric connection.

Preferably, the driving assembly comprises a first motor, a first synchronous belt, two cams, two rotating rods and three synchronous wheels, wherein the first motor is fixedly arranged on the outer wall of the treatment box, the two rotating rods are all rotationally arranged on the outer wall of the treatment box, the three synchronous wheels are respectively fixedly arranged at the output end of the first motor and one ends of the two rotating rods, the first synchronous belt is sleeved between the three synchronous wheels, each cam is fixedly arranged at one end of one rotating rod far away from the synchronous wheel, and the first motor is electrically connected with the controller.

Preferably, every slip subassembly all includes slide, gyro wheel and reset spring, all be equipped with the spout on the both ends outer wall of handling the case, the inside at one of them spout is established in the slide slip, the bottom one end of handling the case is kept away from to the gyro wheel rotation and is established at the slide, and the outer wall of gyro wheel is contradicted with the outer fringe of cam, the side of every spout is all fixed and is equipped with the guide arm, reset spring cover is established on the outer wall of one of them guide arm, slide and guide arm sliding connection, the one end fixed connection of gyro wheel is kept away from with two slides to the both ends of filter frame, all fixed be equipped with the organ protection casing between the top of the inboard top of spout and inboard bottom and the top and the bottom of slide.

Preferably, the electric control assembly comprises a second motor and two first gears, each first gear is fixedly arranged on one first rotating shaft, the second motor is fixedly arranged on the outer wall of the processing box, the output end of the second motor is fixedly connected with the end part of one first rotating shaft, the two first gears are meshed and connected, and the second motor is electrically connected with the controller.

Preferably, the transmission assembly comprises a second synchronous belt, two belt wheels and two second gears, wherein the two belt wheels are respectively fixedly arranged on one of the first rotating shafts and one of the second rotating shafts, the second synchronous belt is sleeved between the two belt wheels, each second gear is fixedly arranged on one of the second rotating shafts, and the two second gears are in meshed connection.

Preferably, the bottom of the receiving shell is provided with a discharging opening, the outer wall of one end of the treatment box, which is close to the receiving shell, is provided with a receiving opening, a feeding slideway is fixedly arranged between the discharging opening and the receiving opening, the bottom of the inner side of the treatment box is of a slope structure, and the outer wall of the bottom of the treatment box is provided with a discharging opening.

The utility model has the beneficial effects that:

1. According to the utility model, the first-stage crushing mechanism and the second-stage crushing mechanism are linked through the transmission assembly, and the black talcum is crushed at one stage, and simultaneously, the screened large-particle black talcum is crushed at the second stage, so that the crushing effect is improved, the number of driving sources of the device can be reduced, the power consumption is reduced, the crushing cost is reduced, the integral structure of the device is reduced, and the manufacturing cost is reduced.

2. According to the utility model, the screening mechanism, namely the filter frame, the driving component and the two sliding components, can drive the two sliding components to slide back and forth after the black talc is subjected to primary crushing, so that the vertical vibration of the filter frame is realized, the quick screening of the black talc with the size particles after primary crushing is realized, the screening rate is improved, the secondary crushing is convenient, meanwhile, certain particles of the black talc blocked in the filter holes of the filter frame can be shaken off in a vibration filter frame mode, the blocking is prevented, the cleaning burden of the filter frame is reduced, and the service life of the filter frame is prolonged.

3. According to the utility model, through designing the feeding port, the discharging port, the receiving port, the feeding slideway and the discharging port, the integrated processing of feeding, primary crushing, screening, secondary crushing and discharging of the black talc is realized, so that the automation degree of the device is improved, and the labor cost is saved.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the following description briefly describes the drawings in the embodiments of the present invention.

FIG. 1 is a schematic perspective view of the present utility model;

Fig. 2 is an enlarged view at a in fig. 1;

FIG. 3 is a schematic diagram of a second perspective structure of the present utility model;

FIG. 4 is a cut-away view of the treatment box, receiving shell and feed chute of the present utility model;

FIG. 5 is a plan cross-sectional view of the treatment tank, receiving shell and feed chute of the present utility model;

in the figure: the device comprises a treatment box 1, a feeding shell 2, an electric control assembly 3, a first compression roller 4, a receiving shell 5, a transmission assembly 6, a second compression roller 7, a feeding port 8, a filter frame 9, a driving assembly 10, a sliding assembly 11, a first motor 12, a first synchronous belt 13, a cam 14, a rotating rod 15, a synchronous wheel 16, a sliding plate 17, a roller 18, a return spring 19, an organ protection cover 20, a second motor 21, a first gear 22, a second synchronous belt 23, a belt wheel 24, a second gear 25, a feeding port 26, a receiving port 27, a feeding slideway 28 and a discharge port 29.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced in size and do not represent the actual product dimensions.

Referring to fig. 1 to 5, a multi-stage pulverizing apparatus for producing black talc includes a treatment tank 1;

The device also comprises a controller, a primary crushing mechanism, a secondary crushing mechanism and a screening mechanism;

The first-stage crushing mechanism is arranged at one end of the top of the processing box 1 and comprises a feeding shell 2, an electric control assembly 3 and two first compression rollers 4, wherein the feeding shell 2 is integrally formed at one end of the top of the processing box 1, the electric control assembly 3 is arranged on the feeding shell 2, and the two first compression rollers 4 are both arranged in the feeding shell 2 through rotation of a first rotating shaft;

The secondary crushing mechanism is arranged at the other end of the treatment box 1 and comprises a material receiving shell 5, a transmission assembly 6 and two second press rollers 7, a feeding port 8 is formed in one end, far away from the first press roller 4, of the treatment box 1, the material receiving shell 5 is fixedly arranged on the feeding port 8, the two second press rollers 7 are both rotatably arranged in the material receiving shell 5 through second rotating shafts, and the transmission assembly 6 is arranged between a driving assembly 10 and the two second press rollers 7;

The screening mechanism is established in the inside of handling case 1, and the screening mechanism includes filter frame 9, drive assembly 10 and two slip subassembly 11, and filter frame 9 slides through four sliders and establishes in the inside of handling case 1, and filter frame 9 is the slope, and drive assembly 10 is established on the outer wall of handling case 1, and two slip subassemblies 11 are the symmetry and set up on the both ends outer wall of handling case 1, filter frame 9 and two slip subassembly 11 fixed connection, and automatically controlled subassembly 3 and drive assembly 10 are electric connection with the controller.

Referring to fig. 1 to 5, the driving assembly 10 includes a first motor 12, a first synchronous belt 13, two cams 14, two rotating rods 15 and three synchronous wheels 16, the first motor 12 is fixedly arranged on the outer wall of the processing box 1, the two rotating rods 15 are all rotatably arranged on the outer wall of the processing box 1, the three synchronous wheels 16 are respectively fixedly arranged at the output end of the first motor 12 and one end of the two rotating rods 15, the first synchronous belt 13 is sleeved between the three synchronous wheels 16, each cam 14 is fixedly arranged at one end of one rotating rod 15 far away from the synchronous wheel 16, the first motor 12 is electrically connected with a controller, and when the multistage crushing work is performed, the first motor 12 is started through the controller, because the three synchronous wheels 16 are respectively fixedly connected with the output end of the first motor 12 and one end of the two rotating rods 15, the three synchronous wheels 16 are sleeved through the first synchronous belt 13, each cam 14 is fixedly connected with one end of one rotating rod 15 far away from the synchronous wheels 16, so that the two cams 14 are driven to rotate.

Referring to fig. 1 to 5, each sliding component 11 includes a sliding plate 17, rollers 18 and a return spring 19, sliding grooves are formed in the outer walls of two ends of the treatment box 1, the sliding plate 17 is slidably arranged in one sliding groove, the rollers 18 are rotatably arranged at one end of the sliding plate 17 away from the bottom of the treatment box 1, the outer walls of the rollers 18 are abutted against the outer edges of the cams 14, guide rods are fixedly arranged at the side of each sliding groove, the return spring 19 is sleeved on the outer wall of one of the guide rods, the sliding plate 17 is slidably connected with the guide rods, two ends of the filter frame 9 are fixedly connected with one end of the two sliding plates 17 away from the rollers 18, an organ protective cover 20 is fixedly arranged between the top and the bottom of the inner side of each sliding groove and the top and the bottom of the sliding plate 17, when the cams 14 rotate, the outer edges of the rollers 18 are abutted against the outer walls of the rollers 18, the sliding plate 17 are rotatably connected with the sliding grooves through a transfer block, the sliding plate 17 are slidably connected with the sliding grooves, so that the sliding plates 17 are slidably connected with the guide rods, the contact force generated by the rollers 18 when the cams 14 rotate, the sliding plates 17 are driven to lift the sliding plates 17 in the inner sides of the sliding grooves and cause the sliding grooves to shrink the return springs 19, and drive the filter frame 9 to lift once, the filter frame 9 to be rotatably, the inner sides of the sliding plates are in a state, the filter frame is rotatably and the filter frame is driven to be in a state, and the filter frame is in a state of being convenient to be in a circulating state after the filter frame is in a state and the state.

Referring to fig. 1 to 5, the electric control assembly 3 includes a second motor 21 and two first gears 22, each first gear 22 is fixedly disposed on a first rotating shaft, the second motor 21 is fixedly disposed on an outer wall of the processing box 1, an output end of the second motor is fixedly connected with an end portion of one of the first rotating shafts, the two first gears 22 are engaged and connected, the second motor 21 is electrically connected with the controller, when the filter frame 9 slides reciprocally, the second motor 21 is started by the controller, since each first gear 22 is fixedly connected with one first rotating shaft, an output end of the second motor 21 is fixedly connected with an end portion of one of the first rotating shafts, the two first gears 22 are engaged and connected, thereby driving the two first press rollers 4 to rotate inwards from outside, and then throwing the black talc between the first press rollers 4 for primary crushing, the crushed black talc particles drop into the vibrating filter frame 9, and since the filter frame 9 is inclined towards the receiving shell 5, the black talc particles larger than the filter holes fall into the filter frame 5 and slide towards the bottom of the filter frame 1.

Referring to fig. 1 to 5, the transmission assembly 6 includes a second synchronous belt 23, two pulleys 24 and two second gears 25, the two pulleys 24 are respectively fixedly arranged on one of the first rotating shafts and one of the second rotating shafts, the second synchronous belt 23 is sleeved between the two pulleys 24, each of the second gears 25 is fixedly arranged on one of the second rotating shafts, the two second gears 25 are in meshed connection, and when the first rotating shaft drives one of the first press rollers 4 to rotate clockwise to crush the black talc, as the two pulleys 24 are respectively fixedly connected with one of the first rotating shafts and one of the second rotating shafts, the two pulleys 24 are sleeved through the second synchronous belt 23, each of the second gears 25 is fixedly connected with one of the second rotating shafts, the two second gears 25 are in meshed connection, and further the two second press rollers 7 are driven to rotate from outside to inside, so that the large-particle black talc sliding from the filter frame 9 is crushed and conveyed to the blanking opening 26.

Referring to fig. 1 to 5, a blanking opening 26 is formed in the bottom of the receiving shell 5, a receiving opening 27 is formed in the outer wall of one end, close to the receiving shell 5, of the treatment box 1, a feeding slideway 28 is fixedly arranged between the blanking opening 26 and the receiving opening 27, the inner bottom of the treatment box 1 is of a slope structure, a discharge opening 29 is formed in the outer wall of the bottom of the treatment box 1, after large-particle black talc is crushed and then conveyed into the blanking opening 26, the blanking opening 26 and the receiving opening 27 are communicated through the feeding slideway 28, the inner bottom of the treatment box 1 is of a slope structure, a discharge opening 29 is designed in the outer wall of the bottom of the treatment box 1, and further the secondarily crushed black talc is discharged from the discharge opening 29 together, so that blanking is realized.

Claims (6)

1. The utility model provides a black talcum production is with multistage reducing mechanism, includes processing case (1), its characterized in that:

The device also comprises a controller, a primary crushing mechanism, a secondary crushing mechanism and a screening mechanism;

The first-stage crushing mechanism is arranged at one end of the top of the processing box (1), and comprises a feeding shell (2), an electric control assembly (3) and two first compression rollers (4), wherein the feeding shell (2) is integrally formed at one end of the top of the processing box (1), the electric control assembly (3) is arranged on the feeding shell (2), and the two first compression rollers (4) are all arranged in the feeding shell (2) through rotation of a first rotating shaft;

the secondary crushing mechanism is arranged at the other end of the treatment box (1) and comprises a material receiving shell (5), a transmission assembly (6) and two second press rolls (7), a material feeding port (8) is formed in one end, far away from the first press roll (4), of the treatment box (1), the material receiving shell (5) is fixedly arranged on the material feeding port (8), the two second press rolls (7) are all arranged inside the material receiving shell (5) in a rotating mode through second rotating shafts, and the transmission assembly (6) is arranged between a driving assembly (10) and the two second press rolls (7);

Screening mechanism establishes the inside at processing case (1), screening mechanism includes filter frame (9), drive assembly (10) and two slip subassembly (11), filter frame (9) are established in the inside of processing case (1) through four slider slides, and filter frame (9) are the slope, drive assembly (10) are established on the outer wall of processing case (1), two slip subassembly (11) are the symmetry and set up on the both ends outer wall of processing case (1), filter frame (9) and two slip subassembly (11) fixed connection, electrical component (3) and drive assembly (10) are electric connection with the controller.

2. The multistage grinding device for producing black talc according to claim 1, wherein: the driving assembly (10) comprises a first motor (12), a first synchronous belt (13), two cams (14), two rotating rods (15) and three synchronous wheels (16), wherein the first motor (12) is fixedly arranged on the outer wall of the treatment box (1), the two rotating rods (15) are all rotatably arranged on the outer wall of the treatment box (1), the three synchronous wheels (16) are respectively fixedly arranged at the output end of the first motor (12) and one end of the two rotating rods (15), the first synchronous belt (13) is sleeved between the three synchronous wheels (16), each cam (14) is fixedly arranged at one end, far away from the synchronous wheel (16), of one rotating rod (15), and the first motor (12) is electrically connected with the controller.

3. A multi-stage pulverizing apparatus for producing black talc according to claim 2, wherein: every slip subassembly (11) all includes slide (17), gyro wheel (18) and reset spring (19), all be equipped with the spout on the both ends outer wall of processing case (1), the inside at one of them spout is established in slide (17) slip, bottom one end of processing case (1) is kept away from in slide (17) is established in gyro wheel (18) rotation, and the outer wall of gyro wheel (18) is contradicted with the outer fringe of cam (14), the side of every spout is all fixed and is equipped with the guide arm, reset spring (19) cover is established on the outer wall of one of them guide arm, slide (17) and guide arm sliding connection, the one end fixed connection of gyro wheel (18) is kept away from with two slide (17) in both ends and two slide (17) of spout, inboard top and inboard bottom and the top and the bottom of slide (17) between all fixed organ (20) that are equipped with protection casing.

4. A multi-stage pulverizing apparatus for producing black talc according to claim 3, wherein: the electric control assembly (3) comprises a second motor (21) and two first gears (22), each first gear (22) is fixedly arranged on a first rotating shaft, the second motor (21) is fixedly arranged on the outer wall of the treatment box (1), the output end of the second motor is fixedly connected with the end part of one of the first rotating shafts, the two first gears (22) are in meshed connection, and the second motor (21) is electrically connected with the controller.

5. The multistage grinding device for producing black talc according to claim 4, wherein: the transmission assembly (6) comprises a second synchronous belt (23), two belt wheels (24) and two second gears (25), wherein the two belt wheels (24) are respectively fixedly arranged on one of the first rotating shafts and one of the second rotating shafts, the second synchronous belt (23) is sleeved between the two belt wheels (24), each second gear (25) is fixedly arranged on one of the second rotating shafts, and the two second gears (25) are in meshed connection.

6. The multistage grinding device for producing black talc according to claim 5, wherein: a blanking opening (26) is formed in the bottom of the receiving shell (5), a receiving opening (27) is formed in the outer wall of one end, close to the receiving shell (5), of the treatment box (1), a feeding slide way (28) is fixedly arranged between the blanking opening (26) and the receiving opening (27), the inner bottom of the treatment box (1) is of a slope structure, and a discharge opening (29) is formed in the outer wall of the bottom of the treatment box (1).