CN115228350A

CN115228350A - Mixing arrangement is used in DCB production

Info

Publication number: CN115228350A
Application number: CN202211163462.6A
Authority: CN
Inventors: 查燕技; 张丹; 杨俊琪; 李时斌; 胡厚锋
Original assignee: Jiangsu Renxin Chemical Co ltd
Current assignee: Jiangsu Renxin Chemical Co ltd
Priority date: 2022-09-23
Filing date: 2022-09-23
Publication date: 2022-10-25

Abstract

The invention is suitable for the DCB production field, has provided a DCB production to use the mixing arrangement, including the work level, and fixed first shoe plate and second shoe plate on the work level, rotate and connect with the mixing box that is connected with second shoe plate rotation on the said first shoe plate, also include: powder feed case, mixing main shaft and mixing vane, still install the support frame on the table surface. Drop into mixing box and powder feed incasement respectively with quantitative solution and tectorial membrane raw materials, the mixed main shaft reciprocating rotation of drive assembly drive, mixed main shaft drives mixing vane reciprocating rotation, it drives mixing box and mixed main shaft reverse rocking to rock the subassembly through the drive mode of mixing main shaft reciprocating rotation, powder raw materials intermittent type nature in the intermittent type feed subassembly rocks the mode through the mixing box is supplied with to the mixing box in with the mixing box, and then make the even drop-in mixing box of powder raw materials, improve the effect of mixing, prevent that a large amount of powder raw materials from dropping into in the solution and agglomerating.

Description

Mixing arrangement is used in DCB production

Technical Field

The invention belongs to the field of DCB production, and particularly relates to a mixing device for DCB production.

Background

3,3' -dichlorobenzidine hydrochloride is called DCB for short, is an important pigment intermediate and is used for medium-high grade bisarylamine azo pigments such as pigment yellow 12, 13, 14, 17, 35, 55, pigment orange 13, pigment red 38 and the like. The solution and powder need to be mixed during the preparation of 3,3' -dichlorobenzidine hydrochloride.

In the high-efficiency mixing device for the raw materials of 3,3' -dichlorobenzidine salt, which is disclosed in the prior application number of 201921574326.X, in order to increase the mixing effect of solution and powder, a stirring rod consists of a first stirring plate and a second stirring plate which form an angle with each other, and then the raw materials are contacted for many times during stirring, so that the mixing effect is enhanced.

When mixing, powder and solution with a certain proportion are generally put into a mixing box at one time, and when a large amount of powder and solution are mixed, the caking phenomenon exists, and at the moment, the uneven mixing condition still exists only by changing the shape of a stirring rod.

Disclosure of Invention

The embodiment of the invention aims to provide a mixing device for DCB production, which aims to solve the problem that when a large amount of powder and solution are mixed, the powder and the solution are agglomerated, and at the moment, the mixing is not uniform even if the shape of a stirring rod is changed.

The invention is realized in this way, a mixing arrangement for DCB production, including the table surface, and fixed first backup pad and second backup pad on the table surface, rotate on the said first backup pad and connect with the mixing box that rotates and connects with second backup pad, also include:

the powder feeding box is fixed on the supporting frame, the mixing main shaft is rotatably connected to the second supporting plate and penetrates through the mixing main shaft, the mixing blade is fixed on the mixing main shaft, and the mixing blade is arranged in the mixing box;

the driving assembly is used for driving the mixing main shaft to rotate in a reciprocating mode and arranged on the second supporting plate;

the shaking assembly drives the mixing box to shake reversely with the mixing main shaft by driving the mixing main shaft to rotate in a reciprocating manner, and is arranged on the second supporting plate;

intermittent type feed subassembly, the mode of rocking through the mixing box is supplied with the powder raw materials intermittent type nature in with the mixing box in to the mixing box, intermittent type feed subassembly sets up on the powder feed box.

Further technical scheme, drive assembly includes motor, carousel, curved toothed plate and drive gear, the motor is fixed in one side of second backup pad, the carousel rotates the opposite side of connecting in the second backup pad, and the rotation end and the carousel of motor are connected, be fixed with the promotion axle on the carousel, curved toothed plate rotates to be connected in the second backup pad, be provided with on the curved toothed plate and promote an sliding fit's direction slot hole, drive gear fixes on mixing the main shaft, and drive gear and curved toothed plate meshing cooperation.

Further technical scheme, it includes first gear, second gear, arc ring gear, transmission shaft, third gear and fourth gear to rock the subassembly, first gear is fixed on mixing the main shaft, the second gear rotates to be connected in the second backup pad, the arc ring gear is fixed on the mixing box, the transmission shaft rotates to be connected in the second backup pad, third gear and fourth gear are all fixed on the transmission shaft, the second gear simultaneously with first gear and third gear meshing cooperation, fourth gear and arc ring gear meshing cooperation.

According to the technical scheme, an arc-shaped groove is formed in the mixing box, an arc-shaped sliding block is connected in the arc-shaped groove in a sliding mode, and the mixing main shaft is connected to the arc-shaped sliding block in a rotating mode.

A further technical scheme, intermittent type feed subassembly includes feed axle, feed impeller, fixed push shaft, feed gear, slurcam, pinion rack, first extension spring and limiting plate, feed axle swivelling joint is in the export of powder feed case, the feed impeller is fixed at the feed epaxially, fixed push shaft is fixed on the mixing box, the feed gear is fixed at the feed epaxially, the slurcam sliding connection is on the mixing box, pinion rack and limiting plate are all fixed on the slurcam, feed gear and pinion rack meshing cooperation, the both ends of first extension spring respectively with the lateral wall and the limiting plate connection of powder feed case.

Further technical scheme, still be provided with the vibration subassembly on the powder feed case, the mode that the vibration subassembly removed through the limiting plate makes the vibration of powder feed case.

According to a further technical scheme, the vibration assembly comprises an L-shaped connecting plate, a beating block, a second tension spring, a push plate and a third tension spring, the L-shaped connecting plate is rotatably connected to the powder feeding box, the beating block is fixed to one end of the L-shaped connecting plate, two ends of the second tension spring are respectively connected with the L-shaped connecting plate and the powder feeding box, the push plate is rotatably connected to the limiting plate, and two ends of the third tension spring are respectively connected with the limiting plate and the push plate.

According to the mixing device for DCB production, provided by the embodiment of the invention, quantitative solution and film-coated raw materials are respectively put into the mixing box and the powder feeding box, the driving component drives the mixing main shaft to rotate in a reciprocating manner, the mixing main shaft drives the mixing blades to rotate in a reciprocating manner, the shaking component drives the mixing box to shake in a reverse direction with the mixing main shaft in a manner of driving the mixing main shaft to rotate in a reciprocating manner, the intermittent feeding component supplies the powder raw materials in the mixing box into the mixing box in an intermittent manner in a shaking manner of the mixing box, so that the powder raw materials are uniformly put into the mixing box, the mixing effect is improved, and a large amount of powder raw materials are prevented from being put into the solution and being agglomerated.

Drawings

Fig. 1 is a schematic structural diagram of a mixing device for DCB production according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the right side structure of FIG. 1 according to an embodiment of the present invention;

FIG. 3 isbase:Sub>A schematic diagram of the structure A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the structure B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged structural diagram of C in FIG. 3 according to an embodiment of the present invention;

FIG. 6 is an enlarged structural diagram of D in FIG. 5 according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of the mixing box in fig. 1 according to an embodiment of the present invention.

In the drawings: the powder feeding device comprises a worktable 101, a first support plate 102, a second support plate 103, a mixing box 104, a support frame 105, a powder feeding box 106, a mixing spindle 107, a mixing blade 108, a driving assembly 2, a motor 201, a rotating disc 202, an arc-shaped toothed plate 203, a pushing shaft 204, a guide long hole 205, a driving gear 206, a shaking assembly 3, a first gear 301, a second gear 302, an arc-shaped toothed ring 303, a transmission shaft 304, a third gear 305, a fourth gear 306, an arc-shaped groove 307, an arc-shaped sliding block 308, an intermittent feeding assembly 4, a feeding shaft 401, a feeding impeller 402, a fixed pushing shaft 403, a feeding gear 404, a pushing plate 405, a toothed plate 406, a first tension spring 407, a limiting plate 408, a vibrating assembly 5, an L-shaped connecting plate 501, a beating block 502, a second tension spring 503, a pushing plate 504 and a third tension spring 505.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 and fig. 2, a mixing device for DCB production provided for one embodiment of the present invention includes a working table 101, and a first supporting plate 102 and a second supporting plate 103 fixed on the working table 101, wherein a mixing box 104 rotatably connected to the second supporting plate 103 is rotatably connected to the first supporting plate 102, and further includes:

the powder feeding device comprises a powder feeding box 106, a mixing spindle 107 and a mixing blade 108, wherein a supporting frame 105 is further installed on the worktable 101, the powder feeding box 106 is fixed on the supporting frame 105, the mixing spindle 107 is rotatably connected on the second supporting plate 103, the mixing spindle 107 penetrates through the mixing spindle 107, the mixing blade 108 is fixed on the mixing spindle 107, and the mixing blade 108 is arranged in the mixing box 104;

a driving assembly 2 for driving the mixing main shaft 107 to rotate reciprocally, the driving assembly 2 being disposed on the second support plate 103;

the shaking assembly 3 drives the mixing box 104 to shake reversely with the mixing main shaft 107 by driving the mixing main shaft 107 to rotate in a reciprocating manner, and the shaking assembly 3 is arranged on the second supporting plate 103;

and an intermittent feed unit 4 for intermittently feeding the powder material in the mixing tank 104 into the mixing tank 104 by shaking the mixing tank 104, wherein the intermittent feed unit 4 is provided on the powder feed tank 106.

In the embodiment of the invention, a certain amount of solution and coating raw material are respectively put into the mixing box 104 and the powder feeding box 106, the driving component 2 drives the mixing main shaft 107 to rotate in a reciprocating manner, the mixing main shaft 107 drives the mixing blade 108 to rotate in a reciprocating manner, the shaking component 3 drives the mixing box 104 and the mixing main shaft 107 to shake in a reverse direction by driving the mixing main shaft 107 to rotate in a reciprocating manner, the intermittent feeding component 4 intermittently supplies the powder raw material in the mixing box 104 into the mixing box 104 by means of shaking of the mixing box 104, and then the powder raw material is uniformly put into the mixing box 104, so that the mixing effect is improved, and a large amount of powder raw material is prevented from being put into the solution and blocking.

As shown in fig. 1 to 3, as a preferred embodiment of the present invention, the driving assembly 2 includes a motor 201, a rotating disk 202, an arc-shaped toothed plate 203 and a driving gear 206, the motor 201 is fixed on one side of the second support plate 103, the rotating disk 202 is rotatably connected on the other side of the second support plate 103, the rotating end of the motor 201 is connected with the rotating disk 202, a pushing shaft 204 is fixed on the rotating disk 202, the arc-shaped toothed plate 203 is rotatably connected on the second support plate 103, a guiding long hole 205 slidably engaged with the pushing shaft 204 is arranged on the arc-shaped toothed plate 203, the driving gear 206 is fixed on the mixing main shaft 107, and the driving gear 206 is engaged with the arc-shaped toothed plate 203.

In the embodiment of the present invention, the motor 201 drives the rotating disc 202 to rotate, the rotating disc 202 drives the pushing shaft 204 to rotate, the pushing shaft 204 drives the arc-shaped toothed plate 203 to rotate reciprocally through the guiding long hole 205, and the arc-shaped toothed plate 203 drives the mixing main shaft 107 to rotate reciprocally through the driving gear 206.

As shown in fig. 1-4, as a preferred embodiment of the present invention, the swaying assembly 3 includes a first gear 301, a second gear 302, an arc-shaped gear ring 303, a transmission shaft 304, a third gear 305 and a fourth gear 306, the first gear 301 is fixed on the mixing spindle 107, the second gear 302 is rotatably connected to the second support plate 103, the arc-shaped gear ring 303 is fixed on the mixing box 104, the transmission shaft 304 is rotatably connected to the second support plate 103, the third gear 305 and the fourth gear 306 are both fixed on the transmission shaft 304, the second gear 302 is simultaneously engaged with the first gear 301 and the third gear 305, the fourth gear 306 is engaged with the arc-shaped gear ring 303, the mixing box 104 is provided with an arc-shaped groove 307, an arc-shaped slider 308 is slidably connected in the arc-shaped groove 307, and the mixing spindle 107 is rotatably connected to the arc-shaped slider 308.

In the embodiment of the invention, the mixing main shaft 107 drives the first gear 301 to rotate, the first gear 301 drives the third gear 305 to rotate through the second gear 302, the third gear 305 drives the fourth gear 306 to rotate through the transmission shaft 304, the fourth gear 306 drives the mixing box 104 to rotate reversely through the arc-shaped toothed ring 303, when the mixing main shaft 107 rotates reversely, the mixing box 104 rotates to enable the mixing box 104 to shake in a reciprocating manner, so that the mixing effect of materials is improved, meanwhile, the rotating direction of the mixing box 104 is opposite to the direction of the mixing main shaft 107, so that the mixing box 104 and the mixing blades 108 rotate reversely, so that the mixing efficiency is further improved, when the mixing box 104 shakes, an arc-shaped through hole is arranged in the middle of the arc-shaped groove 307 and used for providing a space for the movement of the mixing main shaft 107, and the arc-shaped sliding block 308 slides in the arc-shaped groove 307, so that the side wall of the mixing box 104 is sealed.

As shown in fig. 2 to 6, as a preferred embodiment of the present invention, the intermittent feeding assembly 4 includes a feeding shaft 401, a feeding impeller 402, a fixed pushing shaft 403, a feeding gear 404, a pushing plate 405, a toothed plate 406, a first tension spring 407, and a limiting plate 408, wherein the feeding shaft 401 is rotatably connected in the outlet of the powder feeding tank 106, the feeding impeller 402 is fixed on the feeding shaft 401, the fixed pushing shaft 403 is fixed on the mixing tank 104, the feeding gear 404 is fixed on the feeding shaft 401, the pushing plate 405 is slidably connected on the mixing tank 104, the toothed plate 406 and the limiting plate 408 are fixed on the pushing plate 405, the feeding gear 404 is in meshing engagement with the toothed plate 406, and two ends of the first tension spring 407 are respectively connected with the side wall of the powder feeding tank 106 and the limiting plate 408.

In the embodiment of the present invention, when the mixing box 104 shakes, the fixed pushing shaft 403 may push the pushing plate 405 to move, the pushing plate 405 may drive the toothed plate 406 and the limiting plate 408 to move, the toothed plate 406 may drive the feeding shaft 401 to rotate through the feeding gear 404, the feeding shaft 401 may drive the feeding impeller 402 to rotate, the powder in the powder feeding box 106 may be taken out when the feeding impeller 402 rotates, when the fixed pushing shaft 403 is not in contact with the pushing plate 405, the first tension spring 407 may pull the pushing plate 405 to move in a reverse direction, the pushing plate 405 may drive the toothed plate 406 and the limiting plate 408 to move in a reverse direction, the toothed plate 406 may drive the feeding shaft 401 to rotate in a reverse direction through the gear 404, the feeding shaft 401 may drive the feeding impeller 402 to rotate in a reverse direction, the powder in the powder feeding box 106 may be taken out when the feeding impeller 402 rotates in a reverse direction, and the material in the powder feeding box 106 may be slowly put into the mixing box 104 in a shaking manner, so as to prevent a large amount of powder material from contacting with the solution and agglomerating, and to improve uniformity of mixing.

As shown in fig. 2 to 6, as a preferred embodiment of the present invention, a vibration assembly 5 is further disposed on the powder feeding box 106, the vibration assembly 5 vibrates the powder feeding box 106 by moving the limiting plate 408, the vibration assembly 5 includes an L-shaped connecting plate 501, a beating block 502, a second tension spring 503, a pushing plate 504 and a third tension spring 505, the L-shaped connecting plate 501 is rotatably connected to the powder feeding box 106, the beating block 502 is fixed at one end of the L-shaped connecting plate 501, two ends of the second tension spring 503 are respectively connected to the L-shaped connecting plate 501 and the powder feeding box 106, the pushing plate 504 is rotatably connected to the limiting plate 408, and two ends of the third tension spring 505 are respectively connected to the limiting plate 408 and the pushing plate 504.

In the embodiment of the present invention, when the limiting plate 408 moves leftward, the limiting plate 408 drives the push plate 504 to move leftward, the L-shaped connecting plate 501 drives the push plate 504 to rotate clockwise, until the L-shaped connecting plate 501 does not contact with the push plate 504, the third tension spring 505 drives the push plate 504 to rotate reversely and reset, when the limiting plate 408 moves rightward, the limiting plate 408 drives the push plate 504 to move rightward, the push plate 504 drives the L-shaped connecting plate 501 to rotate, until the L-shaped connecting plate 501 does not contact with the push plate 504, the second tension spring 503 pulls the L-shaped connecting plate 501 to rotate reversely and reset, at this time, the L-shaped connecting plate 501 drives the striking block 502 to strike the powder feeding box 106, so that the powder feeding box 106 vibrates, and powder raw materials are prevented from being stacked on the side wall of the powder feeding box 106.

The embodiment of the invention provides a mixing device for DCB production, which comprises a mixing box 104 and a powder feeding box 106, wherein a fixed amount of solution and coating raw materials are respectively fed into the mixing box 104 and the powder feeding box 106, a motor 201 drives a rotating disc 202 to rotate, the rotating disc 202 drives a pushing shaft 204 to rotate, the pushing shaft 204 drives an arc-shaped toothed plate 203 to rotate in a reciprocating manner through a guide long hole 205, the arc-shaped toothed plate 203 drives a mixing main shaft 107 to rotate in a reciprocating manner through a driving gear 206, the mixing main shaft 107 drives a mixing blade 108 to rotate in a reciprocating manner, the mixing main shaft 107 drives a first gear 301 to rotate, the first gear 301 drives a third gear 305 to rotate through a second gear 302, the third gear 305 drives a fourth gear 306 to rotate through a driving shaft 304, the fourth gear 306 drives the mixing box 104 to rotate in a reverse direction through an arc-shaped toothed ring 303, when the mixing main shaft 107 rotates in a reverse direction, the mixing box 104 rotates to shake in a reciprocating manner, so as to improve the mixing effect of the materials, the rotation direction of the mixing box 104 is opposite to the direction of the mixing main shaft 107, so that the mixing box 104 and the mixing blades 108 are reversed, the mixing efficiency is further improved, when the mixing box 104 shakes, the pushing plate 405 can be pushed to move by the fixed pushing shaft 403, the pushing plate 405 drives the toothed plate 406 and the limiting plate 408 to move, the toothed plate 406 drives the feeding shaft 401 to rotate by the feeding gear 404, the feeding shaft 401 drives the feeding impeller 402 to rotate, the powder in the powder feeding box 106 is taken out when the feeding impeller 402 rotates, when the fixed pushing shaft 403 is not in contact with the pushing plate 405, the pushing plate 405 is pulled by the first tension spring 407 to move in the reverse direction, the toothed plate 406 and the limiting plate 408 are driven by the pushing plate 405 to move in the reverse direction, the toothed plate 406 drives the feeding shaft 401 to reverse by the gear 404, the feeding shaft 401 drives the feeding impeller 402 to reverse, the powder in the powder feeding box 106 is taken out when the feeding impeller 402 reverses, and the material in the powder feeding box 106 is slowly thrown into the mixing box 104 by the shaking mode of the mixing box 104, prevent a large amount of powder material and solution contact and caking, improve the homogeneity of mixture, when limiting plate 408 moves left, limiting plate 408 drives push pedal 504 and moves left, L shape connecting plate 501 drives push pedal 504 and rotates clockwise, when not contacting with push pedal 504 with L shape connecting plate 501, third extension spring 505 drives push pedal 504 reversal and resets, when limiting plate 408 moves right, limiting plate 408 drives push pedal 504 and moves right, push pedal 504 drives L shape connecting plate 501 and rotates, when not contacting with push pedal 504 with L shape connecting plate 501, second extension spring 503 stimulates L shape connecting plate 501 reversal and resets, at this moment, L shape connecting plate 501 drives to strike piece 502 and strikes powder feed case 106, and then make powder feed case 106 vibrate, prevent that powder raw materials from piling up on the lateral wall of powder feed case 106.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a mixing arrangement is used in DCB production, includes table surface to and fixed first backup pad and second backup pad on the table surface, rotate on the first backup pad and be connected with the mixing box of being connected with the second backup pad rotation, its characterized in that still includes:

the shaking assembly drives the mixing box and the mixing main shaft to shake reversely by driving the mixing main shaft to rotate in a reciprocating manner, and is arranged on the second supporting plate;

intermittent type feed subassembly, the powder raw materials intermittent type nature that rocks the mode through the mixing box is supplied with to the mixing box in with the mixing box, intermittent type feed subassembly sets up on the powder feed box.

2. The mixing device for DCB production of claim 1, wherein the drive assembly comprises a motor, a rotating disc, an arc-shaped toothed plate and a drive gear, the motor is fixed on one side of the second support plate, the rotating disc is rotatably connected on the other side of the second support plate, the rotating end of the motor is connected with the rotating disc, a pushing shaft is fixed on the rotating disc, the arc-shaped toothed plate is rotatably connected on the second support plate, a guide long hole in sliding fit with the pushing shaft is formed in the arc-shaped toothed plate, the drive gear is fixed on the mixing main shaft, and the drive gear is meshed with the arc-shaped toothed plate.

3. The mixing device for DCB production of claim 2, wherein the wobble assembly comprises a first gear, a second gear, an arc-shaped gear ring, a transmission shaft, a third gear and a fourth gear, the first gear is fixed on the mixing spindle, the second gear is rotatably connected to the second support plate, the arc-shaped gear ring is fixed on the mixing box, the transmission shaft is rotatably connected to the second support plate, the third gear and the fourth gear are both fixed on the transmission shaft, the second gear is simultaneously engaged with the first gear and the third gear, and the fourth gear is engaged with the arc-shaped gear ring.

4. The mixing device for DCB production of claim 3, wherein an arc-shaped groove is arranged on the mixing box, an arc-shaped sliding block is slidably connected in the arc-shaped groove, and the mixing main shaft is rotatably connected to the arc-shaped sliding block.

5. The mixing device for DCB production according to claim 3, wherein said intermittent feeding assembly comprises a feeding shaft, a feeding impeller, a fixed pushing shaft, a feeding gear, a pushing plate, a toothed plate, a first tension spring and a limiting plate, said feeding shaft is rotatably connected in the outlet of the powder feeding tank, said feeding impeller is fixed on the feeding shaft, said fixed pushing shaft is fixed on the mixing tank, said feeding gear is fixed on the feeding shaft, said pushing plate is slidably connected on the mixing tank, said toothed plate and the limiting plate are both fixed on the pushing plate, said feeding gear is engaged with the toothed plate, and both ends of said first tension spring are respectively connected with the side wall and the limiting plate of the powder feeding tank.

6. The mixing device for DCB production according to claim 5, wherein said powder feeding tank is further provided with a vibration component, and said vibration component vibrates said powder feeding tank by means of the movement of the limiting plate.

7. The mixing device for DCB production of claim 6, wherein the vibration assembly comprises an L-shaped connecting plate, a beating block, a second tension spring, a push plate and a third tension spring, the L-shaped connecting plate is rotatably connected to the powder feeding box, the beating block is fixed to one end of the L-shaped connecting plate, two ends of the second tension spring are respectively connected to the L-shaped connecting plate and the powder feeding box, the push plate is rotatably connected to the limiting plate, and two ends of the third tension spring are respectively connected to the limiting plate and the push plate.