CN115445922B - Sorting unit for organic pigment preparation - Google Patents

Abstract

The invention relates to the technical field of automatic sorting devices, in particular to a sorting device for preparing organic pigments. The invention provides a sorting device for preparing an organic pigment by automatic crushing. The sorting device for preparing the organic pigment comprises a supporting underframe, a fixed frame, a separating screen, a fixed frame, a first compression spring and the like; the top of the supporting underframe is connected with a fixed frame, fixed frames are connected with a fixed frame, a sub-screen is connected between the fixed frames in a sliding mode, the sub-screen is connected with the fixed frame in a sliding mode, a first compression spring is connected between the fixed frame and the sub-screen, and the first compression spring winds the rear side of the fixed frame. According to the invention, the sliding rod moves inwards along the second sliding groove, so that the telescopic frame and the guide sleeve move inwards, the sliding block moves inwards, and then the guide sleeve and the sliding block crush the massive organic pigment, thereby realizing the automatic crushing effect.

Description

Sorting unit for organic pigment preparation

Technical Field

The invention relates to the technical field of automatic sorting devices, in particular to a sorting device for preparing organic pigments.

Background

The pigment manufactured by taking the organic compound as the raw material is called organic pigment, the organic pigment is mainly prepared by smashing and refining massive pigment, water and additives, in the refining process, the condition of incomplete refining is easy to occur due to more pigment, and in order to carry out orderly production subsequently, people can sort the organic pigment after finishing refining the organic pigment, and the existing sorting device has the following problems when in use: when organic pigments are sorted, because the refining is incomplete, and larger organic pigments are mixed in the organic pigments, people are required to collect the blocky organic pigments for refining again, and thus the sorting efficiency is reduced.

The automatic crushing sorting device for preparing the organic pigment is designed, so that the problem that the existing sorting device is difficult to crush massive organic pigment in use is solved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a sorting device for preparing organic pigment by automatic crushing, which overcomes the defect that the existing sorting device is difficult to crush massive organic pigment during use.

In order to achieve the above object, the present invention is realized by the following scheme: a sorting device for preparing organic pigment, comprising:

the top of the supporting underframe is connected with the fixing frame;

the fixing frames are connected with the fixing frames;

the fixed frames are connected with the fixed frames in a sliding way, and the fixed frames are connected with the fixed frames in a sliding way;

the first compression springs are connected between the fixing frame and the sub-screen, and are wound on the rear side of the fixing frame;

the stirring mechanism is arranged between the upper side of the left part of the right supporting underframe and the separating screen, and is used for stirring the organic pigment;

the extrusion crushing mechanism is arranged between the screen separation net and the stirring mechanism and is used for crushing the massive organic pigment.

As an improvement of the above, the stirring mechanism includes:

the upper side of the left part of the right supporting underframe is connected with a first fixing rod;

the gear motor is arranged on the left side of the first fixed rod;

the output shaft of the speed reducing motor is connected with a rotating shaft which is rotationally connected with the separating screen;

the top of the rotating shaft is connected with a first rotating frame, a first chute is formed on the upper side of the separating screen, and the first rotating frame is connected with the first chute in a sliding manner;

the lower side of the rotating shaft is connected with a third rotating frame;

and the second rotating frame is connected with the lower side of the rotating shaft and is positioned at the lower side of the third rotating frame.

As an improvement of the scheme, the extrusion crushing mechanism comprises:

the front side and the rear side of the screen are respectively connected with a first fixed rod, the left side and the right side of the first fixed rod on the front side are respectively provided with a first chute, and the left side and the right side of the second fixed rod on the rear side are respectively provided with a second chute;

the sliding rod is connected between the second sliding grooves on the left side in a sliding manner, and the sliding rod is connected between the second sliding grooves on the right side in a sliding manner;

the left side of the top of the second rotating frame is connected with a third fixed rod, the right side of the top of the third rotating frame is connected with a third fixed rod, the third fixed rods are all connected with the first rotating frame, the sliding rods are all provided with third sliding grooves, the third fixed rod on the left side is connected with the third sliding grooves on the left side in a sliding mode, and the third fixed rod on the right side is connected with the third sliding grooves on the right side in a sliding mode;

the telescopic frames are connected to the front side and the rear side of the right part of the sliding rod on the left side;

the telescopic frames are connected with the guide sleeves;

the guide sleeve is connected with the sliding block in a sliding way.

As the improvement of above-mentioned scheme, still including being used for strengthening the crowded garrulous mechanism of garrulous effect to organic pigment, crowded garrulous mechanism including:

the sliding frames are connected to the third sliding grooves in a sliding manner;

the squeezers are connected to the sliding frames in a sliding manner;

the second compression springs are connected between the sliding frame and the squeezer sliding on the sliding frame, and the second compression springs are located inside the squeezer.

As the improvement of above-mentioned scheme, still including being used for the crowded garrulous subtended synchronization crushing mechanism of synchronization, subtended synchronization crushing mechanism includes:

the middle of the sliding rod is connected with a supporting rod;

the support rods are respectively and rotatably connected with gears;

the first racks are connected to the upper side of the sliding frame on the front side, the first racks on the left side are meshed with the gears on the left side, and the first racks on the right side are meshed with the gears on the right side;

the second racks are connected to the upper sides of the sliding frames on the rear sides, the second racks on the left sides are meshed with the gears on the left sides, and the second racks on the right sides are meshed with the gears on the right sides.

As the improvement of above-mentioned scheme, still including being used for adjusting the extrusion wide range adjustment mechanism to organic pigment extrusion wide range, extrusion wide range adjustment mechanism is including:

the guide sleeve is connected with the clamping pin in a sliding manner;

the third compression springs are connected between the guide sleeve and the clamping pins sliding in the guide sleeve, the third compression springs are wound on the clamping pins, and clamping grooves are uniformly formed in the sliding blocks.

As the improvement of above-mentioned scheme, still including being used for beating anti-clogging mechanism that divides the screen cloth, anti-clogging mechanism is including:

the rear side of the bottom of the separating screen is connected with a fixed shaft;

the fixed shaft is connected with the beater in a sliding manner;

and a fourth compression spring is connected between the beater and the fixed shaft and is wound on the lower side of the fixed shaft.

As an improvement of the scheme, a rubber sleeve is connected to the upper side of the rear part of the beater.

The invention has the advantages that: 1. according to the invention, the sliding rod moves inwards along the second sliding groove, so that the telescopic frame and the guide sleeve move inwards, the sliding block moves inwards, and then the guide sleeve and the sliding block crush massive organic pigment, thereby realizing the automatic crushing effect;

2. the bayonet lock is moved upwards manually by people, so that the third compression spring is stretched, then the slide block is moved adaptively according to the wide distance which is extruded manually by people, and then the bayonet lock is released by people, so that the bayonet lock is driven to move downwards by the reset of the third compression spring to clamp the slide block, and the adjusting effect is realized;

3. the beater is manually moved downwards by people, so that the fourth compression spring is compressed, then the beater is released by people, and the beater is driven to move upwards by the reset of the fourth compression spring to beat the split screen, so that the beating effect is achieved, and the organic pigment is prevented from being blocked on the split screen.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic view showing a first perspective structure of the stirring mechanism of the present invention.

Fig. 4 is a schematic view showing a second perspective structure of the stirring mechanism of the present invention.

Fig. 5 is a schematic perspective view of an extrusion crushing mechanism according to the present invention.

Fig. 6 is a schematic view of a first perspective structure of the crushing mechanism of the present invention.

Fig. 7 is a schematic view of a second perspective structure of the crushing mechanism of the present invention.

Fig. 8 is a schematic view of a first perspective structure of an opposite synchronous crushing mechanism according to the present invention.

Fig. 9 is a schematic diagram of a second perspective structure of the opposite synchronous crushing mechanism of the present invention.

Fig. 10 is a schematic perspective view of an extrusion wide-distance adjusting mechanism according to the present invention.

Fig. 11 is a schematic perspective view of an anti-blocking mechanism according to the present invention.

In the reference numerals: 1-supporting chassis, 2-fixing frame, 3-separating screen, 4-fixing frame, 5-first compression spring, 6-stirring mechanism, 61-first rotating frame, 62-first sliding groove, 63-second rotating frame, 64-third rotating frame, 65-rotating shaft, 66-gear motor, 67-first fixing rod, 7-extrusion crushing mechanism, 71-second fixing rod, 72-second sliding groove, 73-sliding rod, 74-third fixing rod, 75-expansion frame, 76-third sliding groove, 77-guide sleeve, 78-sliding block, 8-extrusion crushing mechanism, 81-sliding frame, 82-extruder, 83-second compression spring, 9-opposite synchronous crushing mechanism, 91-first rack, 92-gear, 93-supporting rod, 94-second rack, 10-extrusion wide distance adjusting mechanism, 101-bayonet, 102-third compression spring, 103-bayonet, 11-anti-blocking mechanism, 111-knock-out device, 112-fixing shaft, 113-fourth compression spring.

Detailed Description

The invention will be further described with reference to the accompanying drawings and detailed description below:

example 1

Referring to fig. 1 and 2, the sorting device for preparing organic pigment comprises a supporting underframe 1, a fixed frame 2, a branch screen 3, a fixed frame 4, a first compression spring 5, an agitating mechanism 6 and an extruding and crushing mechanism 7, wherein the two supporting underframe 1 are respectively welded with the fixed frame 2 at the top of the two supporting underframe 1, the fixed frames 2 are respectively connected with the fixed frame 4, the branch screen 3 is slidably connected between the two fixed frames 4, the branch screen 3 is slidably connected with the fixed frame 2, the first compression spring 5 is respectively connected between the two fixed frames 4 and the branch screen 3, the first compression spring 5 is wound on the rear side of the fixed frame 4, the agitating mechanism 6 is arranged between the left upper side of the supporting underframe 1 on the right side and the branch screen 3, and the extruding and crushing mechanism 7 is arranged between the branch screen 3 and the agitating mechanism 6.

Referring now to fig. 1, 3 and 4, the stirring mechanism 6 includes a first rotating frame 61, a second rotating frame 63, a third rotating frame 64, a rotating shaft 65, a gear motor 66 and a first fixing rod 67, a first fixing rod 67 is welded on the upper left side of the right side supporting chassis 1, the gear motor 66 is fixedly connected on the left side of the first fixing rod 67 through bolts, a rotating shaft 65 is connected on an output shaft of the gear motor 66, the rotating shaft 65 is rotatably connected with the sub-screen 3, the top of the rotating shaft 65 is connected with the first rotating frame 61, a first sliding groove 62 is opened on the upper side of the sub-screen 3, the first rotating frame 61 is slidably connected with the first sliding groove 62, a third rotating frame 64 is connected on the lower side of the rotating shaft 65, the second rotating frame 63 is connected on the lower side of the rotating shaft 65, and the second rotating frame 63 is positioned on the lower side of the third rotating frame 64.

Referring to fig. 1 and 5, the extruding and crushing mechanism 7 includes a second fixing rod 71, a sliding rod 73, a third fixing rod 74, a telescopic frame 75, a guide sleeve 77 and a sliding block 78, the second fixing rods 71 are welded on the front side and the rear side of the screen 3, the second sliding grooves 72 are respectively formed on the left side and the right side of the front side of the second fixing rod 71, the second sliding grooves 72 are respectively formed on the left side and the right side of the second fixing rod 71, the sliding rods 73 are slidably connected between the two second sliding grooves 72 on the left side, the sliding rods 73 are slidably connected between the two second sliding grooves 72 on the right side, the left side of the second rotating frame 63 is connected with the third fixing rod 74, the right side of the top of the third rotating frame 64 is connected with the third fixing rod 74, the two third fixing rods 74 are connected with the first rotating frame 61, the third sliding grooves 76 are respectively formed on the two sliding rods 73, the third fixing rod 74 on the left side is slidably connected with the third sliding grooves 76 on the left side, the sliding frame 77 is slidably connected with the guide sleeve 77 on the right side, the telescopic frame 75 is slidably connected with the four sliding frames on the right side, and the telescopic frame 75 is slidably connected with the four sliding frames on the left side and the two sides.

When one needs to sort the organic pigment, one can use this sort device for organic pigment preparation, first one places this sort device for organic pigment preparation in a proper position, then one places the collecting frame right under the sorting screen 3, pours the organic pigment to be sorted into the sorting screen 3, then one can manually move the guide sleeve 77 and the slide block 78 to a proper position according to the size of the organic pigment, so that the telescopic frame 75 is adaptively elongated or shortened, after the movement is completed, one starts the speed reduction motor 66, the output shaft rotation of the speed reduction motor 66 drives the rotation shaft 65 to rotate, so that the first rotating frame 61, the second rotating frame 63 and the third rotating frame 64 are rotated, so that the third fixing rod 74 is rotated, so that the slide rod 73 slides inward along the second slide groove 72, so that the telescopic frame 75 moves inward, so that the guide sleeve 77 and the slide block 78 move inward, when the guide sleeve 77 and the slide block 78 move inward to contact with the organic pigment, the expansion bracket 75 is adaptively shortened, and at the same time the guide sleeve 77 and the slide block 78 moving inward squeeze the organic pigment to crush the agglomerated organic pigment, when the first rotating bracket 61 rotates to a certain angle, one controls the output shaft of the speed reducing motor 66 to rotate reversely, so that the rotating shaft 65 rotates reversely, thereby rotating reversely the first rotating bracket 61, the second rotating bracket 63 and the third rotating bracket 64, rotating reversely the third fixing rod 74, and further moving the slide rod 73 outward along the second sliding groove 72, so that when the first rotating bracket 61 rotates reversely to a certain angle, one controls the output shaft of the speed reducing motor 66 to rotate forwardly again, so reciprocate, while the first rotating bracket 61 rotates, the first compression spring 5 is stretched by manually moving the sub-screen 3 forward, then the sub-screen 3 is loosened by people, so that the first compression spring 5 is reset to drive the sub-screen 3 to move backward, the qualified organic pigment falls into the collecting frame through the sub-screen 3 by stirring of the second rotating frame 63 and the third rotating frame 64, extrusion of the guide sleeve 77 and the sliding block 78 and shaking of the sub-screen 3, the sorting effect is realized, after sorting is finished, the reducing motor 66 is turned off by people, then the sub-screen 3 is cleaned by people, and the qualified organic pigment in the collecting frame is collected.

Example 2

On the basis of embodiment 1, referring to fig. 1, 6 and 7, the crushing mechanism 8 further comprises a crushing mechanism 8, the crushing mechanism 8 comprises a sliding frame 81, two crushers 82 and second compression springs 83, two sliding frames 81 are connected to two third sliding grooves 76 in a sliding mode, four sliding frames 81 are connected to two crushers 82 in a sliding mode, four crushers 82 are connected to four sliding frames 81 in a sliding mode, two second compression springs 83 are connected between the sliding frames 81 and the crushers 82 sliding on the sliding frames, eight second compression springs 83 are located inside the crushers 82, and the crushers 82 are in contact with the separating screen 3 after moving.

Referring to fig. 1, 8 and 9, the present invention further includes a facing synchronous crushing mechanism 9, where the facing synchronous crushing mechanism 9 includes a first rack 91, a gear 92, a supporting rod 93 and a second rack 94, the supporting rods 93 are welded between the two sliding rods 73, the two supporting rods 93 are respectively connected with the gear 92 in a rotating manner, the upper sides of the two sliding frames 81 on the front sides are respectively connected with the first rack 91, the first rack 91 on the left side is meshed with the gear 92 on the left side, the first rack 91 on the right side is meshed with the gear 92 on the right side, the upper sides of the two sliding frames 81 on the rear sides are respectively welded with the second rack 94, the second rack 94 on the left side is meshed with the gear 92 on the left side, and the second rack 94 on the right side is meshed with the gear 92 on the right side.

Referring to fig. 1 and 10, the present invention further includes an extrusion wide-distance adjusting mechanism 10, the extrusion wide-distance adjusting mechanism 10 includes a bayonet 101 and a third compression spring 102, the bayonet 101 and the third compression spring 102 are all slidably connected on the guide sleeve 77, four bayonet 101 are uniformly opened on the slide block 78, the third compression spring 102 is connected between the bayonet 101 on the front left and the guide sleeve 77 on the front left, the third compression spring 102 is connected between the bayonet 101 on the rear left and the guide sleeve 77 on the rear left, the third compression spring 102 is connected between the bayonet 101 on the front right and the guide sleeve 77 on the front right, the third compression spring 102 is wound around the bayonet 101, four bayonet 103 are uniformly opened on the slide block 78, sixteen bayonet 101 on the front left and the bayonet 103 are contacted with each other, the bayonet 101 on the rear left and the bayonet 103 are contacted with each other, and the bayonet 101 on the rear right and the bayonet 101 on the front right are contacted with each other.

Referring now to fig. 1 and 11, the anti-blocking device 11 further comprises an anti-blocking mechanism 11, the anti-blocking mechanism 11 comprises a beater 111, a fixed shaft 112 and a fourth compression spring 113, the fixed shaft 112 is welded at the rear side of the bottom of the sub-screen 3, the beater 111 is connected to the fixed shaft 112 in a sliding manner, the beater 111 is in contact with the sub-screen 3, a rubber sleeve is connected to the upper side of the rear part of the beater 111, the fourth compression spring 113 is connected between the beater 111 and the fixed shaft 112, and the fourth compression spring 113 is wound on the lower side of the fixed shaft 112.

The sliding rod 73 rotates to drive the rear sliding frame 81 to move outwards, so that the rear extruder 82 moves outwards, when the rear extruder 82 contacts with the organic pigment, the rear extruder 82 moves inwards adaptively to crush the organic pigment, the rear second compression spring 83 is compressed, after the rear extruder 82 crushes the organic pigment, the rear second compression spring 83 resets to drive the rear extruder 82 to move outwards to reset, the sliding rod 73 rotates reversely to drive the front sliding frame 81 to move outwards, so that the front extruder 82 moves outwards, when the front extruder 82 contacts with the organic pigment, the front extruder 82 moves inwards adaptively to crush the organic pigment, the front second compression spring 83 is compressed, after the front extruder 82 crushes the organic pigment, the front second compression spring 83 resets to drive the front extruder 82 to move outwards to reset, and therefore the crushing effect is achieved, and the sorting efficiency is quickened.

When the slide bar 73 rotates, the slide frame 81 at the rear side moves to the outside to drive the second rack 94 to move to the outside, so that the gear 92 rotates, the first rack 91 moves to the outside, the slide frame 81 at the front side moves to the outside, the front-side squeezer 82 moves to the outside, when the slide bar 73 rotates reversely, the slide frame 81 at the front side moves to the outside to drive the first rack 91 to move to the outside, the gear 92 rotates, the second rack 94 and the slide frame 81 move to the outside, thereby realizing the synchronous crushing effect, when sorting is completed, people can manually move the slide frame 81 at the front side to the rear, so that the first rack 91 and the front-side squeezer 82 move to the inside, the gear 92 rotates, and the second rack 94 and the slide frame 81 at the rear side move to the inside, so that the rear-side squeezer 82 moves to the inside.

When one needs to expand the extrusion width of the organic pigment, one can manually move the bayonet 101 upwards so that the third compression spring 102 is stretched, when the bayonet 101 moves upwards away from the bayonet 103, one can manually move the slide block 78 outwards, when the slide block 78 moves outwards to a proper position, one releases the bayonet 101, so that the third compression spring 102 resets to drive the bayonet 101 to move downwards into the bayonet 103, when one needs to reduce the extrusion width of the organic pigment, one moves the slide block 78 inwards manually after moving the bayonet 101 upwards according to the steps, and when the slide block 78 moves inwards to a proper position, one releases the bayonet 101, so that the adjusting effect is realized.

When people need to strike the split screen 3, people can manually move the beater 111 downwards, so that the fourth compression spring 113 is compressed, when the beater 111 moves downwards to a proper position, people loosen the beater 111, so that the fourth compression spring 113 resets to drive the beater 111 to move upwards to strike the split screen 3, the split screen 3 shakes, the effect of knocking is achieved, the organic pigment is prevented from blocking the split screen 3, and the qualified organic pigment falls downwards faster.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the invention as defined in the appended claims.

Claims (4)

1. A sorting apparatus for organic pigment preparation, comprising:

the device comprises a supporting underframe (1) and a fixed frame (2), wherein the top of the supporting underframe (1) is connected with the fixed frame (2);

the fixing frames (4) are connected with the fixing frames (4) in the fixing frames (2);

the separating screens (3) are connected between the fixing frames (4) in a sliding manner, and the separating screens (3) are connected with the fixing frames (2) in a sliding manner;

the first compression springs (5) are connected between the fixing frame (4) and the separating screen (3), and the first compression springs (5) are wound on the rear side of the fixing frame (4);

the stirring mechanism (6) is arranged between the upper side of the left part of the right supporting underframe (1) and the separating screen (3), and the stirring mechanism (6) is used for stirring the organic pigment;

the extrusion crushing mechanism (7) is arranged between the screen separating cloth (3) and the stirring mechanism (6), and the extrusion crushing mechanism (7) is used for crushing the massive organic pigment;

the stirring mechanism (6) comprises:

the upper side of the left part of the right supporting underframe (1) is connected with a first fixing rod (67);

a gear motor (66), wherein the gear motor (66) is arranged on the left side of the first fixed rod (67);

the rotating shaft (65) is connected with an output shaft of the gear motor (66), and the rotating shaft (65) is rotationally connected with the separating screen (3);

the top of the rotating shaft (65) is connected with the first rotating frame (61), the upper side of the sub-screen (3) is provided with a first chute (62), and the first rotating frame (61) is connected with the first chute (62) in a sliding way;

the lower side of the rotating shaft (65) is connected with a third rotating frame (64);

the second rotating frame (63), the lower side of the rotating shaft (65) is connected with the second rotating frame (63), and the second rotating frame (63) is positioned at the lower side of the third rotating frame (64);

the extrusion crushing mechanism (7) comprises:

the front side and the rear side of the screen separating cloth (3) are respectively connected with a second fixing rod (71), the left side and the right side of the second fixing rod (71) at the front side are respectively provided with a second chute (72), and the left side and the right side of the second fixing rod (71) at the rear side are respectively provided with a second chute (72);

the sliding rod (73), the sliding rod (73) is connected between the second sliding grooves (72) on the left side, and the sliding rod (73) is connected between the second sliding grooves (72) on the right side;

the left side of the top of the second rotating frame (63) is connected with a third fixed rod (74), the right side of the top of the third rotating frame (64) is connected with a third fixed rod (74), the third fixed rods (74) are connected with the first rotating frame (61), the sliding rods (73) are provided with third sliding grooves (76), the left side third fixed rod (74) is connected with the left side third sliding grooves (76) in a sliding mode, and the right side third fixed rod (74) is connected with the right side third sliding grooves (76) in a sliding mode;

the telescopic frames (75) are connected to the front side and the rear side of the right part of the sliding rod (73) on the left side, and the telescopic frames (75) are connected to the front side and the rear side of the left part of the sliding rod (73) on the right side;

the guide sleeves (77) are connected with the telescopic frames (75);

the guide sleeves (77) are connected with the sliding blocks (78) in a sliding manner;

still including being used for strengthening crowded garrulous mechanism (8) of effect to organic pigment, crowded garrulous mechanism (8) including:

the sliding frames (81) are connected with the third sliding grooves (76) in a sliding manner;

the squeezers (82) are connected with the sliding frames (81) in a sliding manner, and the squeezers (82) are connected to the sliding frames (81) in a sliding manner;

the second compression springs (83), the second compression springs (83) are connected between the sliding frame (81) and the squeezer (82) sliding on the sliding frame, and the second compression springs (83) are positioned inside the squeezer (82);

the device also comprises a counter synchronous crushing mechanism (9) for synchronous crushing, and the counter synchronous crushing mechanism (9) comprises:

the support rods (93) are connected with the middle of the sliding rods (73);

the gear (92) is rotatably connected with the support rods (93);

the first racks (91), the upper sides of the sliding frames (81) on the front side are connected with the first racks (91), the first racks (91) on the left side are meshed with the gears (92) on the left side, and the first racks (91) on the right side are meshed with the gears (92) on the right side;

and the upper sides of the sliding frames (81) at the rear sides are respectively connected with a second rack (94), the second racks (94) at the left sides are meshed with the gears (92) at the left sides, and the second racks (94) at the right sides are meshed with the gears (92) at the right sides.

2. The sorting apparatus for producing an organic pigment according to claim 1, further comprising an extrusion-width adjusting mechanism (10) for adjusting an extrusion-width of the organic pigment, wherein the extrusion-width adjusting mechanism (10) comprises:

the guide sleeves (77) are respectively connected with the clamping pins (101) in a sliding manner;

the third compression springs (102), the third compression springs (102) are connected between the guide sleeve (77) and the bayonet lock (101) sliding in the guide sleeve, the third compression springs (102) are wound on the bayonet lock (101), and the slide blocks (78) are uniformly provided with clamping grooves (103).

3. A sorting apparatus for organic pigment production according to claim 2, further comprising an anti-clogging mechanism (11) for knocking the screen (3), the anti-clogging mechanism (11) comprising:

a fixed shaft (112), the rear side of the bottom of the sub-screen (3) is connected with the fixed shaft (112);

a beater (111), wherein the beater (111) is connected to the fixed shaft (112) in a sliding manner;

and a fourth compression spring (113), wherein the fourth compression spring (113) is connected between the beater (111) and the fixed shaft (112), and the fourth compression spring (113) winds the lower side of the fixed shaft (112).

4. A sorting apparatus for organic pigment production according to claim 3, wherein a rubber sleeve is attached to the upper rear side of the beater (111).