CN218444156U - Color measuring device is used in masterbatch production - Google Patents

Abstract

The utility model relates to the color master batch production field, in particular to a color measuring device for color master batch production, which comprises a conveyor belt and a color measuring instrument; the automatic feeding and crushing device further comprises a first table body, a second table body, a material taking mechanism, a feeding mechanism, a crushing mechanism and a collecting box; the first table body and the second table body are both positioned at the same side of the conveyor belt, and the first table body is close to the second table body; the feeding mechanism is fixedly arranged on the first table body, an executing part of the feeding mechanism moves linearly in the horizontal direction, the crushing mechanism is fixedly arranged on the second table body, and the taking mechanism is fixedly arranged on the executing part of the feeding mechanism; the collecting box is fixedly arranged on one side of the second table body and used for receiving the materials crushed by the crushing mechanism; the color measuring instrument passes through mounting bracket fixed mounting in one side of the first table body, and the color measuring instrument is located the collecting box directly over and the sense terminal of color measuring instrument just to the collecting box, and feeding mechanism and feeding agencies that this application passed through mutually support, can prevent that the masterbatch from unrestrained at the pay-off in-process.

Description

Color measuring device is used in masterbatch production

Technical Field

The utility model relates to a masterbatch production field specifically relates to a color measuring device is used in masterbatch production.

Background

The color master batch is called color master batch and color seed, and is a novel special colorant for high polymer materials, also called pigment preparation. The color master is mainly used for plastics. The color concentrate is composed of pigment or dye, carrier and additive, and is an aggregate prepared by uniformly supporting an excessive amount of pigment in a resin, and can be called pigment concentrate, so that its coloring power is higher than that of the pigment itself, and when it is processed, it can be mixed with a small amount of color concentrate and uncolored resin to obtain the colored resin or product with designed pigment concentration.

The device for monitoring color masterbatch difference of plastic disclosed by Chinese patent CN213779866U has the following defects: it drives the sample spoon upset through the sample pivot and realizes sending the masterbatch to the shredding incasement, and in sample spoon upset process, the masterbatch can be unrestrained from the sample spoon, and then the influence detects.

Disclosure of Invention

To the problem that prior art exists, provide a color measuring device is used in masterbatch production, realize sending to rubbing crusher structure with the masterbatch is stable through feeding mechanism and feeding agencies mutually supporting in, avoid getting the material unrestrained, and then promote detection effect.

For solving the prior art problem, the utility model discloses a technical scheme be:

a color measuring device for producing color master batches comprises a conveying belt and a color measuring instrument;

the automatic feeding and crushing table further comprises a first table body, a second table body, a material taking mechanism, a feeding mechanism, a crushing mechanism and a collecting box;

the first table body and the second table body are both positioned on the same side of the conveying belt, the first table body is close to the second table body, and the height of the first table body is higher than that of the second table body;

the feeding mechanism is fixedly arranged on the first table body, an executing part of the feeding mechanism moves linearly in the horizontal direction, the crushing mechanism is fixedly arranged on the second table body, and the taking mechanism is fixedly arranged on the executing part of the feeding mechanism;

the collecting box is fixedly arranged on one side of the second table body and used for receiving the materials crushed by the crushing mechanism;

the color measuring instrument is fixedly arranged on one side of the first table body through the mounting frame, the color measuring instrument is positioned right above the collecting box, and the detection end of the color measuring instrument is opposite to the collecting box.

Preferably, the material taking mechanism comprises a bucket, a top plate, two strip-shaped mounting plates and two bottom plates;

the two strip-shaped mounting plates are symmetrically arranged on the executing part of the feeding mechanism and are both vertically arranged;

the two strip-shaped mounting plates are fixedly connected with the top plate, and the top plate is positioned at the upper end parts of the two strip-shaped mounting plates;

the two bottom plates are respectively and fixedly arranged at the lower end parts of the two strip-shaped mounting plates;

the upper end of each bottom plate is fixedly connected with two symmetrically arranged guide posts, and the upper end of each guide post is fixedly connected with the lower end of the top plate;

a sliding block is arranged between each bottom plate and each top plate, and the sliding blocks are sleeved on the guide posts and are in sliding connection with the guide posts;

each guide post is sleeved with a spring, and two ends of each spring are respectively abutted against the bottom plate and the sliding block;

opposite ends of the two sliding blocks are respectively inserted with a rocker, and the bucket is fixedly arranged at the lower end parts of the two rockers;

a pressing assembly for driving the sliding block to move downwards is arranged between the two sliding blocks and the top plate.

Preferably, the pushing assembly comprises a pressing plate and a linear cylinder, the linear cylinder is fixedly installed at the lower end of the top plate, the pressing plate is fixedly installed at the upper ends of the two sliding blocks, and the execution part of the linear cylinder abuts against the upper end of the pressing plate.

Preferably, through holes for sleeving the rocking bars are formed in the two sliding blocks;

one of the sliding blocks is fixedly provided with a first rotary driver, and an execution part of the first rotary driver is inserted into the through hole and fixedly connected with the rocker.

Preferably, the feeding mechanism comprises a support frame, a sliding seat, a sliding table, a screw rod, a support base and a second rotary driver, wherein the sliding table is an execution part of the feeding mechanism;

the support frame is fixedly arranged at the upper end of the first table body, the sliding seat is fixedly arranged at one side of the support frame close to the second table body, and the sliding table extends to the upper part of the conveying belt;

the sliding table is connected to one end of the sliding seat far away from the support frame in a sliding manner;

the second rotary driver is fixedly arranged on the sliding seat and is positioned right above the first table body;

the supporting base is fixedly arranged on the sliding seat and is positioned right above the conveyor belt;

the screw rod is in threaded connection with the sliding table, one end of the screw rod is fixedly connected with an output shaft of the second rotary driver through the coupler, and the other end of the screw rod is inserted into the support frame and is in rotary connection with the support frame.

Preferably, the crushing mechanism comprises a crushing box, a third rotary drive, two rollers and two gears;

the two rollers are positioned on the same horizontal plane and are rotatably connected in the crushing box, a plurality of uniformly distributed lugs are formed on the peripheries of the two rollers, and the two rollers are mutually meshed through the lugs;

the rotating shafts of the two rollers penetrate through the crushing box, the rotating shaft of each roller is fixedly connected with one gear, and the two gears are meshed with each other;

the third rotary driver is fixedly arranged at the outer side of the crushing box, and an output shaft of the third rotary driver is fixedly connected with a rotating shaft of one of the rollers;

the feed inlet has been seted up to the upper end of smashing the case, smashes one side that the case is close to the collecting box and has seted up the discharge gate.

Preferably, the bottom of the crushing box is provided with an inclined surface extending to the discharge port.

Compared with the prior art, the beneficial effect of this application is:

1. this application is through mutually supporting of feeding mechanism and extracting mechanism, and the stable masterbatch that will wait to detect is got material and is conveyed, avoids getting the material unrestrained.

2. This application can drive the rocker rotation through first rotary actuator, and the scraper bowl is followed the certain angle that can overturn of rocker, collects good look master batch at the scraper bowl after, and first rotary actuator drives the rocker and rotates slight angle for the open end slope of scraper bowl upwards sets up, has further increased the stability of pay-off in-process, prevents that the master batch from unrestrained.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a perspective view of a take off mechanism of the present application;

FIG. 3 is a perspective view of a take off mechanism of the present application;

FIG. 4 is a front view of a take off mechanism of the present application;

FIG. 5 is a perspective view of the feed mechanism of the present application;

FIG. 6 is a front view of the shredder mechanism of the present application;

FIG. 7 isbase:Sub>A cross-sectional view taken along section A-A of FIG. 6 of the present application;

the reference numbers in the figures are:

1-a conveyor belt;

2-a color measuring instrument;

3-a first table body;

4-a second table body;

5-a material taking mechanism; 5 a-a bucket; 5 b-a top plate; 5 c-linear drive; 5 d-a strip-shaped mounting plate; 5 e-a bottom plate; 5 f-a guide post; 5 g-a slide block; 5g 1-via; 5 h-a spring; 5 i-a rocker; 5 j-a hold down assembly; 5j 1-platen; 5j 2-linear cylinder; 5 k-a first rotary drive;

6-a feeding mechanism; 6 a-a support frame; 6 b-a slide; 6 c-a slipway; 6 d-a screw rod; 6 e-a support base; 6 f-a second rotary drive;

7-a crushing mechanism; 7 a-a crushing box; 7a 1-feed inlet; 7a 2-a discharge port; 7 b-a third rotary drive; 7 c-a roller; 7c 1-bumps; 7 d-gear;

and 8, collecting the box.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 7, a color measuring device for producing color master batches comprises a conveyor belt 1 and a color measuring instrument 2;

the table further comprises a first table body 3, a second table body 4, a material taking mechanism 5, a feeding mechanism 6, a crushing mechanism 7 and a collecting box 8;

the first table body 3 and the second table body 4 are both positioned at the same side of the conveyor belt 1, the first table body 3 is close to the second table body 4, and the height of the first table body 3 is higher than that of the second table body 4;

the feeding mechanism 6 is fixedly arranged on the first table body 3, the executing part of the feeding mechanism 6 moves linearly in the horizontal direction, the crushing mechanism 7 is fixedly arranged on the second table body 4, and the taking mechanism 5 is fixedly arranged on the executing part of the feeding mechanism 6;

the collecting box 8 is fixedly arranged on one side of the second table body 4 and used for receiving the materials crushed by the crushing mechanism 7;

the color measuring instrument 2 is fixedly arranged on one side of the first table body 3 through the mounting frame, the color measuring instrument 2 is positioned right above the collecting box 8, and the detection end of the color measuring instrument 2 is opposite to the collecting box 8.

During operation, color master batches are continuously conveyed to the next station through the conveyor belt 1, the feeding mechanism 6 operates to convey the material taking mechanism 5 to the position right above the conveyor belt, then a small amount of color master batches on the conveyor belt 1 are collected by the material taking mechanism 5, the material taking mechanism 5 conveys the collected color master batches to the crushing mechanism 7 at the position where the material taking mechanism 6 conveys the material taking mechanism 5 to the crushing mechanism 7, the color master batches are further crushed by the crushing mechanism 7, the detection accuracy is improved, the crushed color master batches are conveyed to the collecting box 8 through the crushing mechanism 7, then the crushed color master batches are detected by the color measuring instrument 2 above the collecting box 8, the purpose of accurately detecting the color master batches is achieved, the material taking device takes materials irregularly, color master batches in different batches can be detected, and the stability in the feeding process is guaranteed and the color master batches are prevented from being scattered in the feeding process due to the linear motion of the executing part of the feeding mechanism 6 in the horizontal direction.

Referring to fig. 1 to 4, the material taking mechanism 5 includes a bucket 5a, a top plate 5b, two strip-shaped mounting plates 5d, and two bottom plates 5e;

the two strip-shaped mounting plates 5d are symmetrically arranged on the execution part of the feeding mechanism 6, and the two strip-shaped mounting plates 5d are both vertically arranged;

the two strip-shaped mounting plates 5d are fixedly connected with the top plate 5b, and the top plate 5b is positioned at the upper end parts of the two strip-shaped mounting plates 5 d;

the two bottom plates 5e are respectively and fixedly arranged at the lower end parts of the two strip-shaped mounting plates 5 d;

the upper end of each bottom plate 5e is fixedly connected with two symmetrically arranged guide posts 5f, and the upper end of each guide post 5f is fixedly connected with the lower end of the top plate 5 b;

a sliding block 5g is arranged between each bottom plate 5e and the top plate 5b, and the sliding blocks 5g are sleeved on the guide posts 5f and are in sliding connection with the guide posts 5 f;

each guide post 5f is sleeved with a spring 5h, and two ends of each spring 5h are respectively abutted against the bottom plate 5e and the sliding block 5g;

opposite ends of the two sliding blocks 5g are respectively inserted with a rocker 5i, and the bucket 5a is fixedly arranged at the lower end parts of the two rockers 5 i;

a pressing assembly 5j for driving the slide 5g to move downwards is arranged between the two slides 5g and the top plate 5 b.

This application can drive two sliders 5g along the vertical downstream of guide post 5f through pushing down subassembly 5j, spring 5h is compressed, because two rockers 5i insert and establish on two sliders 5g, so two rockers 5i also take place the displacement downwards in vertical direction, thereby drive scraper bowl 5a and move down, when scraper bowl 5a gliding to being close to conveyer belt 1, the masterbatch on the conveyer belt 1 can deliver to scraper bowl 5a under the transportation of conveyer belt 1 in, at this moment, push down subassembly 5j resets, two sliders 5g just can be in the same direction as the vertical upward movement of guide post 5f under spring 5 h's resilience force effect, thereby drive scraper bowl 5a and reset to initial position, thereby accomplished getting of look master batch.

Referring to fig. 1 to 3, the pressing assembly 5j includes a pressing plate 5j1 and a linear cylinder 5j2, the linear cylinder 5j2 is fixedly installed at the lower end of the top plate 5b, the pressing plate 5j1 is fixedly installed at the upper ends of the two sliders 5g, and the actuating portion of the linear cylinder 5j2 abuts against the upper end of the pressing plate 5j 1.

This application is provided with clamp plate 5j1 and sharp cylinder 5j2, sharp cylinder 5j2 fixed mounting is at the lower extreme of roof 5b, clamp plate 5j1 fixed mounting is in the upper end of two sliders 5g, sharp cylinder 5j 2's execution portion butt is in clamp plate 5j 1's upper end, work through sharp cylinder 5j2 and promote clamp plate 5j1 downstream, thereby drive the vertical lapse of two sliders 5g, after sharp cylinder 5j2 resets, under the effect of spring-back force of spring 5h, clamp plate 5j1 shifts up to the execution portion of butt at sharp cylinder 5j2, thereby how the problem that pushes down subassembly 5j drove slider 5g gliding has been solved.

Referring to fig. 2 and 3, through holes 5g1 for sleeving the rockers 5i are formed on the two sliding blocks 5g;

one of the sliders 5g is fixedly provided with a first rotary driver 5k, and an execution part of the first rotary driver 5k is inserted into the through hole 5g1 and fixedly connected with the rocker 5 i.

This application is provided with first rotary actuator 5k, and all offer the through-hole 5g1 that is used for the cover to establish rocker 5i on two sliders 5g, the execution portion of first rotary actuator 5k inserts through-hole 5g1 and rocker 5i fixed connection, can drive rocker 5i rotatory through first rotary actuator 5k, scraper bowl 5a follows rocker 5i and can overturn certain angle, after scraper bowl 5a collects good look master batch, first rotary actuator 5k drives rocker 5i and rotates slight angle, make the slope of the open end of scraper bowl 5a upwards set up, then send extracting mechanism 5 to the top of rubbing crusher mechanism 7 by feeding mechanism 6 again, further increased the stability of pay-off in-process, prevent that the master batch from spilling, when needing to send the master batch in scraper bowl 5a into rubbing crusher 7 in, it is rotatory through first rotary actuator 5k, make the slope of the open end of scraper bowl 5a downwards, the master batch can be followed in scraper bowl 5a drops to rubbing crusher 7 in.

Referring to fig. 1 and 5, the feeding mechanism 6 includes a support frame 6a, a slide seat 6b, a sliding table 6c, a screw rod 6d, a support base 6e and a second rotary driver 6f, wherein the sliding table 6c is an executing part of the feeding mechanism 6;

the supporting frame 6a is fixedly arranged at the upper end of the first table body 3, the sliding seat 6b is fixedly arranged at one side of the supporting frame 6a close to the second table body 4, and the sliding table 6c extends to the upper part of the conveying belt 1;

the sliding table 6c is connected to one end of the sliding seat 6b far away from the supporting frame 6a in a sliding mode;

the second rotary driver 6f is fixedly arranged on the sliding seat 6b, and the second rotary driver 6f is positioned right above the first table body 3;

the supporting base 6e is fixedly arranged on the sliding seat 6b, and the supporting base 6e is positioned right above the conveyor belt 1;

the screw rod 6d is in threaded connection with the sliding table 6c, one end of the screw rod 6d is fixedly connected with an output shaft of the second rotary driver 6f through a coupler, and the other end of the screw rod 6d is inserted into the support frame 6a and is rotatably connected with the support frame 6 a.

This application can drive lead screw 6d rotatory through second rotary actuator 6f, lead screw 6d and slip table 6c threaded connection, thereby can drive slip table 6c reciprocating linear motion on the base, when extracting 5 gets the masterbatch on the conveying belt 1 at the feeding agencies, the output shaft of second rotary actuator 6f rotates, drive slip table 6c linear motion to the conveying belt 1 directly over, after getting the material and finishing, the output shaft reverse rotation of second rotary actuator 6f drives slip table 6c and moves to rubbing crusher 7 directly over.

Referring to fig. 1, 6 and 7, the crushing mechanism 7 includes a crushing box 7a, a third rotary drive 7b, two rollers 7c and two gears 7d;

the two rollers 7c are positioned on the same horizontal plane and are rotatably connected in the crushing box 7a, a plurality of uniformly distributed lugs 7c1 are formed on the peripheries of the two rollers 7c, and the two rollers 7c are mutually meshed through the lugs 7c 1;

the rotating shafts of the two rollers 7c penetrate through the crushing box 7a, the rotating shaft of each roller 7c is fixedly connected with a gear 7d, and the two gears 7d are meshed with each other;

the third rotary driver 7b is fixedly arranged at the outer side of the crushing box 7a, and the output shaft of the third rotary driver 7b is fixedly connected with the rotating shaft of one roller 7 c;

the upper end of the crushing box 7a is provided with a feed inlet 7a1, and one side of the crushing box 7a close to the collecting box 8 is provided with a discharge outlet 7a2.

This application has seted up feed inlet 7a1 in crushing case 7 a's upper end, smash case 7a and seted up discharge gate 7a2 near one side of collecting box 8 for the masterbatch can drop to crushing case 7a in from feed inlet 7a1, then third rotary actuator 7b is rotatory, drives two cylinders 7c through two gears 7d and rotates in opposite directions, and the masterbatch that drops is smashed to lug 7c1 on two cylinders 7c, then drops in the bottom of smashing case 7 a.

Referring to fig. 1 and 7, the bottom of the crushing box 7a is provided as an inclined surface extending to the discharge port 7a2.

This application sets up the inclined plane that sets up to extend to discharge gate 7a2 through the bottom with smashing case 7a, is favorable to the masterbatch after smashing can be smooth from the bottom flow of smashing case 7a to discharge gate 7a2, then drops in collecting box 8 by discharge gate 7a2, prevents that the masterbatch from being detained in the bottom of smashing case 7 a.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A color measuring device for producing color master batches comprises a conveying belt (1) and a color measuring instrument (2);

the table is characterized by further comprising a first table body (3), a second table body (4), a material taking mechanism (5), a feeding mechanism (6), a crushing mechanism (7) and a collecting box (8);

the first table body (3) and the second table body (4) are both positioned at the same side of the conveyor belt (1), the first table body (3) is close to the second table body (4), and the height of the first table body (3) is higher than that of the second table body (4);

the feeding mechanism (6) is fixedly arranged on the first table body (3), the executing part of the feeding mechanism (6) moves linearly in the horizontal direction, the crushing mechanism (7) is fixedly arranged on the second table body (4), and the taking mechanism (5) is fixedly arranged on the executing part of the feeding mechanism (6);

the collecting box (8) is fixedly arranged on one side of the second table body (4) and used for receiving the materials crushed by the crushing mechanism (7);

the color measuring instrument (2) is fixedly arranged on one side of the first table body (3) through the mounting frame, and the color measuring instrument (2) is positioned right above the collecting box (8) and the detection end of the color measuring instrument (2) is just opposite to the collecting box (8).

2. The color measuring device for masterbatch production according to claim 1, wherein the material taking mechanism (5) comprises a bucket (5 a), a top plate (5 b), two strip-shaped mounting plates (5 d) and two bottom plates (5 e);

the two strip-shaped mounting plates (5 d) are symmetrically arranged on the execution part of the feeding mechanism (6), and the two strip-shaped mounting plates (5 d) are both vertically arranged;

the two strip-shaped mounting plates (5 d) are fixedly connected with the top plate (5 b), and the top plate (5 b) is positioned at the upper end parts of the two strip-shaped mounting plates (5 d);

the two bottom plates (5 e) are respectively and fixedly arranged at the lower end parts of the two strip-shaped mounting plates (5 d);

the upper end of each bottom plate (5 e) is fixedly connected with two guide posts (5 f) which are symmetrically arranged, and the upper end of each guide post (5 f) is fixedly connected with the lower end of the top plate (5 b);

a sliding block (5 g) is arranged between each bottom plate (5 e) and the top plate (5 b), and the sliding block (5 g) is sleeved on the guide post (5 f) and is in sliding connection with the guide post (5 f);

each guide post (5 f) is sleeved with a spring (5 h), and two ends of each spring (5 h) are respectively abutted against the bottom plate (5 e) and the sliding block (5 g);

opposite ends of the two sliding blocks (5 g) are respectively inserted with a rocker (5 i), and the bucket (5 a) is fixedly arranged at the lower end parts of the two rockers (5 i);

a pressing component (5 j) for driving the sliding block (5 g) to move downwards is arranged between the two sliding blocks (5 g) and the top plate (5 b).

3. The color measuring device for color masterbatch production according to claim 2, wherein the pressing component (5 j) comprises a pressing plate (5 j 1) and a linear cylinder (5 j 2), the linear cylinder (5 j 2) is fixedly installed at the lower end of the top plate (5 b), the pressing plate (5 j 1) is fixedly installed at the upper ends of the two sliding blocks (5 g), and the execution part of the linear cylinder (5 j 2) abuts against the upper end of the pressing plate (5 j 1).

4. The color measuring device for producing color master batches according to claim 3, wherein through holes (5 g 1) for sleeving rocking bars (5 i) are formed in the two sliding blocks (5 g);

one of the sliding blocks (5 g) is fixedly provided with a first rotary driver (5 k), and an execution part of the first rotary driver (5 k) is inserted into the through hole (5 g 1) and is fixedly connected with the rocker (5 i).

5. The color measuring device for producing color masterbatch according to claim 1, wherein the feeding mechanism (6) comprises a supporting frame (6 a), a sliding seat (6 b), a sliding table (6 c), a screw rod (6 d), a supporting base (6 e) and a second rotary driver (6 f), and the sliding table (6 c) is an executing part of the feeding mechanism (6);

the support frame (6 a) is fixedly arranged at the upper end of the first table body (3), the sliding seat (6 b) is fixedly arranged at one side of the support frame (6 a) close to the second table body (4), and the sliding table (6 c) extends to the upper part of the conveyor belt (1);

the sliding table (6 c) is connected to one end, far away from the support frame (6 a), of the sliding seat (6 b) in a sliding manner;

the second rotary driver (6 f) is fixedly arranged on the sliding seat (6 b), and the second rotary driver (6 f) is positioned right above the first table body (3);

the supporting base (6 e) is fixedly arranged on the sliding seat (6 b), and the supporting base (6 e) is positioned right above the conveyor belt (1);

the screw rod (6 d) is in threaded connection with the sliding table (6 c), one end of the screw rod (6 d) is fixedly connected with an output shaft of the second rotary driver (6 f) through a coupler, and the other end of the screw rod (6 d) is inserted into the support frame (6 a) and is rotationally connected with the support frame (6 a).

6. A colour measuring device for the production of colour concentrates according to claim 1, characterised in that the crushing mechanism (7) comprises a crushing box (7 a), a third rotary drive (7 b), two rollers (7 c) and two gears (7 d);

the two rollers (7 c) are positioned on the same horizontal plane and are rotatably connected in the crushing box (7 a), a plurality of uniformly distributed lugs (7 c 1) are formed on the peripheries of the two rollers (7 c), and the two rollers (7 c) are mutually meshed through the lugs (7 c 1);

the rotating shafts of the two rollers (7 c) penetrate through the crushing box (7 a), the rotating shaft of each roller (7 c) is fixedly connected with a gear (7 d), and the two gears (7 d) are meshed with each other;

the third rotary driver (7 b) is fixedly arranged at the outer side of the crushing box (7 a), and an output shaft of the third rotary driver (7 b) is fixedly connected with a rotating shaft of one roller (7 c);

the upper end of the crushing box (7 a) is provided with a feed inlet (7 a 1), and one side of the crushing box (7 a) close to the collecting box (8) is provided with a discharge outlet (7 a 2).

7. The color measuring device for masterbatch production according to claim 5, wherein the bottom of the pulverizing box (7 a) is provided as an inclined surface extending to the discharge port (7 a 2).

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