CN112847921A - Impurity removing equipment for polyester chip production - Google Patents

Abstract

The invention relates to impurity removing equipment, in particular to impurity removing equipment for polyester chip production. The invention provides impurity removing equipment for producing polyester chips, which has the advantages of automatic conveying, automatic feeding and automatic impurity removing. An impurity removing equipment for producing polyester chips comprises: the device comprises a bottom frame and an impurity removing mechanism, wherein the bottom frame is provided with the impurity removing mechanism; the sieve plate is arranged on the impurity removing mechanism; the screen plate is provided with a baffle frame; the pushing block is arranged on the impurity removing mechanism; the material conveying mechanism is arranged on the bottom frame. According to the invention, qualified polyester chips fall off from the sieve plate, people collect the qualified polyester chips at the lower side of the sieve plate, and then people clean the unqualified polyester chips on the sieve plate, so that the screening effect is achieved.

Description

Impurity removing equipment for polyester chip production

Technical Field

The invention relates to impurity removing equipment, in particular to impurity removing equipment for polyester chip production.

Background

Polyester chip usually refers to the slice granule that polyester raw materials that polymerization production obtained generally processed into, when producing polyester chip, because factors such as air humidity can make polyester chip bond together, so can influence the consumption and the production of producer, still can produce some heteromorphic slices on the production line, current edulcoration mode is that the workman stands and removes impurity to polyester chip beside the production line, and this kind of mode consumes manpower and waste time, so need design an edulcoration equipment.

Because the production demand can not be satisfied to current mode, we need design the polyester chip production of an automatic conveying, autoloading and automatic edulcoration and use edulcoration equipment.

Disclosure of Invention

The invention aims to provide impurity removing equipment for producing polyester chips, which has the advantages of automatic conveying, automatic feeding and automatic impurity removing, and aims to overcome the defects that the conventional impurity removing mode provided in the background art consumes manpower and wastes time.

In order to achieve the purpose, the invention provides the following technical scheme: an impurity removing equipment for producing polyester chips comprises:

the device comprises a bottom frame and an impurity removing mechanism, wherein the bottom frame is provided with the impurity removing mechanism;

the sieve plate is arranged on the impurity removing mechanism;

the screen plate is provided with a baffle frame;

the pushing block is arranged on the impurity removing mechanism;

the material conveying mechanism is arranged on the bottom frame.

The invention is further configured to: edulcoration mechanism includes:

the first sliding sleeve is arranged on the underframe and connected with the sieve plate;

the first sliding frame is arranged on the first sliding sleeve in a sliding mode and connected with the push block;

the first connecting block is arranged on the first sliding frame and connected with the pushing block.

The invention is further configured to: pass the material mechanism and include:

the motor is arranged on the underframe;

the first support frame is arranged on the underframe;

the two sides of the first support frame are respectively provided with a first rotating shaft in a rotating mode, and an output shaft of the motor is connected with the first rotating shaft;

and the conveying belt is wound between the two first rotating shafts.

The invention is further configured to: still including pacifying the mechanism, pacify the mechanism and include:

the two sides of the first support frame are provided with the striker plates;

the sliding rail is connected between the two material baffle plates;

the two sides of the slide rail are both provided with inclined rods in a sliding manner, and the inclined rods are positioned above the other inclined rod;

the first springs are connected between the two inclined rods and the striker plate on the same side, and are wound on the slide rails;

the first connecting block is provided with a connecting frame;

the upper side of the connecting frame is provided with a connecting rod, the lower side of the connecting frame is provided with a connecting rod, and the connecting rod is connected with the connecting rod through a connecting rod;

a pushing block is arranged at the lower part of the diagonal rod.

The invention is further configured to: still including unloading mechanism, unloading mechanism includes:

the two sides of the first support frame are provided with second support frames;

the blanking frame is arranged between the two second supporting frames;

the blanking pipes are arranged between the two sides of the lower part of the blanking frame and the first support frame;

the dog, slidingtype is connected with the dog between two unloading pipes.

The invention is further configured to: still including accuse material mechanism, accuse material mechanism includes:

the telescopic assembly is arranged on the blanking frame;

the second sliding sleeve is arranged on the stop block and is connected with the telescopic assembly in a sliding manner;

the inclined rod is provided with a first wedge block;

the upper part of the second sliding sleeve is provided with a second connecting block;

and the second wedge block is arranged on the second connecting block and matched with the first wedge block.

The invention is further configured to: still including reciprocating mechanism, reciprocating mechanism includes:

the sliding rods are arranged on the two sides of the underframe and are connected with the sieve plate in a sliding manner;

third springs are connected between the two sides of the lower part of the sieve plate and the underframe and are wound on the sliding rods;

the lower part of the sieve plate is provided with an extrusion block;

the first rotating shaft is provided with a rotating block, and the rotating block is matched with the extrusion block;

the bottom frame is provided with a shaft sleeve;

the shaft sleeve is rotatably provided with a second rotating shaft;

the space cam is arranged on the second rotating shaft and is connected with the first sliding frame in a sliding manner;

and the rotating assembly is connected between the first rotating shaft and the second rotating shaft.

The invention is further configured to: the rotating block is oval.

The invention has the technical effects and advantages that: 1. according to the invention, qualified polyester chips are dropped from the sieve plate, people collect the qualified polyester chips at the lower side of the sieve plate, and then people clean the unqualified polyester chips on the sieve plate, so that the screening effect is achieved;

2. by starting the motor, the output shaft of the motor rotates to drive the first rotating shaft on the right side and the conveyor belt to rotate, so that the first rotating shaft on the left side is driven to rotate, and the conveying effect is achieved;

3. the rolling blocks rotate, the inclined rods on the front side and the rear side move inwards, the first springs are stretched, the pushing blocks further move inwards, the flattening effect is achieved, and the baffle plate prevents polyester chips from falling out in the flattening process;

4. the stop block is moved rightwards, so that the polyester chips fall on the conveying belt, and the effect of controlling materials is achieved;

5. the telescopic assembly is stretched by driving the second connecting block and the second sliding sleeve to move rightwards, so that the stop block moves rightwards, and the effect of automatic blanking is achieved;

6. the first rotating shaft on the right side rotates to drive the rotating block and the rotating assembly to rotate, so that the second rotating shaft and the space cam are driven to rotate, the first sliding frame reciprocates left and right, the effect of automatic impurity removal is achieved, the rotating block drives the extrusion block to move downwards, the sieve plate moves downwards, the third spring is compressed, and the effect of shaking materials is achieved.

Drawings

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

FIG. 2 is a schematic perspective view of the trash removal mechanism of the present invention.

Fig. 3 is a schematic perspective view of the material conveying mechanism of the present invention.

Fig. 4 is a schematic perspective view of the smoothing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 6 is a schematic perspective view of the material control mechanism of the present invention.

Fig. 7 is a schematic perspective view of the reciprocating mechanism of the present invention.

Number designation in the figures: 1. an underframe, 2, a sieve plate, 3, a blocking frame, 4, a pushing block, 5, an impurity removing mechanism, 51, a first connecting block, 52, a first sliding sleeve, 53, a first sliding frame, 6, a material conveying mechanism, 61, a motor, 62, a first supporting frame, 63, a first rotating shaft, 64, a conveying belt, 7, a smoothing mechanism, 71, a connecting frame, 72, a rolling block, 73, an inclined rod, 74, a sliding rail, 75, a first spring, 76, a pushing block, 77, a material baffle plate, 8, a material discharging mechanism, 81, a second supporting frame, 82, a material discharging frame, 83, a material discharging pipe, 84, a stop block, 9, a material controlling mechanism, 91, a first wedge-shaped block, 92, a second wedge-shaped block, 93, a second connecting block, 94, a telescopic assembly, 95, a second sliding sleeve, 10, a reciprocating mechanism, 101, a third spring, 102, a sliding rod, 103, a rotating block, 104, an extrusion block, 105, a rotating assembly, 106, a second rotating shaft, 107 and a space cam, 108. and a shaft sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "disposed," "mounted," "connected," "secured," and "coupled" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; the two elements can be directly connected or indirectly connected through an intermediate medium, and the two elements can be communicated with each other or the two elements can interact with each other, so that the specific meaning of the terms in the invention can be understood according to specific situations by a person skilled in the art.

Referring to fig. 1-7, the device comprises a bottom frame 1, a sieve plate 2, a blocking frame 3, a pushing block 4, an impurity removing mechanism 5 and a material conveying mechanism 6, wherein the impurity removing mechanism 5 is arranged on the right side of the bottom frame 1, the sieve plate 2 is arranged on the impurity removing mechanism 5, the blocking frame 3 is arranged on the right side of the sieve plate 2, the pushing block 4 is arranged on the impurity removing mechanism 5, and the material conveying mechanism 6 is arranged on the left side of the bottom frame 1.

The impurity removing mechanism 5 comprises a first connecting block 51, a first sliding sleeve 52 and a first sliding frame 53, the first sliding sleeve 52 is arranged on the upper right side of the underframe 1, the first sliding sleeve 52 is connected with the sieve plate 2, the first sliding sleeve 52 is slidably provided with the first sliding frame 53, the first sliding frame 53 is connected with the push block 4, the first connecting block 51 is arranged at the front part of the first sliding frame 53, and the first connecting block 51 is connected with the push block 4.

The material conveying mechanism 6 comprises a motor 61, a first support frame 62, a first rotating shaft 63 and a conveyor belt 64, the motor 61 is installed on the front side of the underframe 1, the first support frame 62 is arranged on the left side of the underframe 1, the first rotating shaft 63 is rotatably arranged on the left side and the right side of the first support frame 62, an output shaft of the motor 61 is connected with the first rotating shaft 63 on the right side, and the conveyor belt 64 is wound between the two first rotating shafts 63.

Still including smoothing mechanism 7, smoothing mechanism 7 is including link 71, rolling piece 72, down tube 73, slide rail 74, first spring 75, push away flat 76 and striker plate 77, first support frame 62 front and back both sides all are equipped with striker plate 77, be connected with slide rail 74 between two striker plate 77, slide rail 74 front and back both sides all slidingtype is equipped with down tube 73, front side down tube 73 is located the top of rear side down tube 73, all be connected with first spring 75 between two down tube 73 and the striker plate 77 of homonymy, first spring 75 winds on slide rail 74, be equipped with link 71 on the first link 51, link 71 upper and lower both sides homonymy is equipped with rolling piece 72, the rolling piece 72 of upside cooperates with the down tube 73 of front side, the rolling piece 72 of downside cooperates with the down tube 73 of rear side, down tube 73 lower part is equipped with and pushes away flat 76.

Still including unloading mechanism 8, unloading mechanism 8 is including second support frame 81, unloading frame 82, unloading pipe 83 and dog 84, and both sides all are equipped with second support frame 81 around the first support frame 62 left part, are equipped with unloading frame 82 between two second support frame 81 right parts, all are equipped with unloading pipe 83 between both sides and the first support frame 62 around the unloading frame 82 lower part, and slidingtype is connected with dog 84 between two unloading pipes 83.

Still including accuse material mechanism 9, accuse material mechanism 9 is including first wedge 91, second wedge 92, second connecting block 93, flexible subassembly 94 and second sliding sleeve 95, unloading frame 82 right part is equipped with flexible subassembly 94, flexible subassembly 94 is including telescopic link and spring, unloading frame 82 right part is equipped with the telescopic link, be equipped with second sliding sleeve 95 on the dog 84, second sliding sleeve 95 and telescopic link sliding type connection, be connected with the spring between second sliding sleeve 95 and the unloading frame 82, the spring is around on the telescopic link, the down tube 73 left part of rear side is equipped with first wedge 91, second sliding sleeve 95 upper portion is equipped with second connecting block 93, be equipped with second wedge 92 on the second connecting block 93, second wedge 92 and the cooperation of first wedge 91.

The reciprocating mechanism 10 comprises a third spring 101, a sliding rod 102, a rotating block 103, an extrusion block 104, a rotating assembly 105, a second rotating shaft 106, a space cam 107 and a shaft sleeve 108, wherein the sliding rod 102 is arranged on the front side and the rear side of the underframe 1, the sliding rod 102 is connected with the screen plate 2 in a sliding manner, the third spring 101 is connected between the front side and the rear side of the lower part of the screen plate 2 and the underframe 1, the third spring 101 is wound on the sliding rod 102, the extrusion block 104 is arranged on the front side of the lower part of the screen plate 2, the rotating block 103 is arranged on the front side of a first rotating shaft 63 on the right side, the rotating block 103 is matched with the extrusion block 104, the shaft sleeve 108 is arranged on the right side of the rear part of the underframe 1, the second rotating shaft 106 is arranged on the shaft sleeve 108 in a rotating manner, the space cam 107 is arranged on the right side of the second rotating shaft 106, the space, rotating assembly 105 is including scroll bar and turbine, and the first pivot 63 rear side on right side is connected with the scroll bar, and second pivot 106 left side is equipped with the turbine, and the turbine cooperates with the scroll bar.

When people need slice the polyester chip, can use this kind of impurity removal equipment for polyester chip production, at first people put the polyester chip that produces on passing material mechanism 6, people start passing material mechanism 6 afterwards, pass material mechanism 6 motion and drive the polyester chip and move right, when the polyester chip moves right to sieve 2, people's manual removal impurity mechanism 5 that moves, impurity mechanism 5 motion drives ejector pad 4 and moves, keep off frame 3 and has avoided the polyester chip to drop, ejector pad 4 moves and carries out the edulcoration to the polyester chip, qualified polyester chip falls down by sieve 2, people collect qualified polyester chip at sieve 2 downside, people clear up unqualified polyester chip on the sieve 2, when the screening is accomplished, people close passing material mechanism 6.

When the polyester chip moved to the right on the sieve plate 2, people moved the first sliding frame 53 to drive the first connecting block 51 and the push block 4 to move left and right, the push block 4 moved left and right to remove impurities from the polyester chip, the qualified polyester chip was dropped from the sieve plate 2, people collected the qualified polyester chip at the lower side of the sieve plate 2, and then people cleaned the unqualified polyester chip on the sieve plate 2, thereby achieving the screening effect.

People put the polyester chip on conveyer belt 64, people's starter motor 61 afterwards, and the rotation of motor 61 output shaft drives the first pivot 63 and the conveyer belt 64 rotation on right side to drive the rotation of left first pivot 63, reached the effect of conveying, people close motor 61 when the conveying is accomplished can.

First link 51 moves left and drives link 71 and move left to make the rolling piece 72 rotate, the down tube 73 of front and back both sides moves to the inboard, first spring 75 is stretched, and then the pushing block 76 moves to the inboard, the effect of pacifying has been reached, striker plate 77 has avoided falling out at the in-process polyester section of pacifying, first link 51 moves right and drives link 71 and rolling piece 72 and move right, thereby make first spring 75 reset and drive down tube 73 and pushing block 76 and reset.

People pour the polyester chip into the blanking frame 82, and when blanking is needed, people move the stop block 84 to the right, so that the polyester chip falls on the conveyor belt 64, the effect of material control is achieved, and when blanking is not needed, people move the stop block 84 to the left.

The down tube 73 of rear side moves to the inboard and drives first wedge 91 and move to the inboard, when first wedge 91 moved to the inboard and contacts second wedge 92, first wedge 91 drives second wedge 92 and moves to the right, thereby drive second connecting block 93 and second sliding sleeve 95 and move to the right, telescopic component 94 is stretched, and then dog 84 moves to the right, the effect of automatic unloading has been reached, the down tube 73 of rear side resets and drives first wedge 91 and reset, thereby make telescopic component 94 reset and drive second sliding sleeve 95 and second connecting block 93 and reset, and then second wedge 92 resets.

First pivot 63 on right side rotates and drives rotatory piece 103 and rotating assembly 105 and rotate, thereby drive second pivot 106 and space cam 107 and rotate, and then reciprocating motion about first carriage 53, the effect of automatic edulcoration has been reached, when rotatory piece 103 top contacts extrusion piece 104, rotatory piece 103 drives extrusion piece 104 and moves down, thereby make sieve 2 remove down, third spring 101 is compressed, when extrusion piece 104 is kept away from at rotatory piece 103 top, third spring 101 drives extrusion piece 104 and sieve 2 and resets, the effect of trembling the material has been reached.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An edulcoration equipment is used in polyester chip production, characterized by includes:

the device comprises an underframe (1) and an impurity removing mechanism (5), wherein the impurity removing mechanism (5) is arranged on the underframe (1);

the sieve plate (2) is arranged on the impurity removing mechanism (5);

the screen plate (2) is provided with a baffle frame (3);

the pushing block (4) is arranged on the impurity removing mechanism (5);

a material conveying mechanism (6), and the chassis (1) is provided with the material conveying mechanism (6).

2. An impurity removing apparatus for polyester chip production according to claim 1, wherein the impurity removing mechanism (5) comprises:

the first sliding sleeve (52) is arranged on the underframe (1), and the first sliding sleeve (52) is connected with the sieve plate (2);

the first sliding frame (53), the first sliding sleeve (52) is provided with the first sliding frame (53) in a sliding mode, and the first sliding frame (53) is connected with the push block (4);

the first connecting block (51) is arranged on the first sliding frame (53), and the first connecting block (51) is connected with the pushing block (4).

3. An impurity removing apparatus for polyester chip production according to claim 2, wherein the material transfer mechanism (6) comprises:

the motor (61), the motor (61) is installed on the chassis (1);

the first support frame (62) is arranged on the underframe (1);

the two sides of the first support frame (62) are respectively and rotatably provided with a first rotating shaft (63), and an output shaft of the motor (61) is connected with the first rotating shafts (63);

and the conveying belt (64) is wound between the two first rotating shafts (63).

4. An impurity removing device for polyester chip production according to claim 3, further comprising a smoothing mechanism (7), wherein the smoothing mechanism (7) comprises:

the material baffle plates (77) are arranged on two sides of the first support frame (62);

the sliding rail (74) is connected between the two material baffle plates (77);

the two sides of the sliding rail (74) are both provided with inclined rods (73) in a sliding manner, and each inclined rod (73) is positioned above the other inclined rod (73);

the first springs (75) are connected between the two inclined rods (73) and the striker plate (77) on the same side, and the first springs (75) are wound on the sliding rails (74);

the connecting frame (71) is arranged on the first connecting block (51);

the upper side and the lower side of the connecting frame (71) are respectively and rotatably provided with the rolling blocks (72), the rolling block (72) on the upper side is matched with the inclined rod (73), and the rolling block (72) on the lower side is matched with the inclined rod (73);

a push flat block (76), and the lower part of the inclined rod (73) is provided with the push flat block (76).

5. The impurity removing equipment for producing the polyester chips as claimed in claim 4, further comprising a blanking mechanism (8), wherein the blanking mechanism (8) comprises:

the second supporting frames (81) are arranged on two sides of the first supporting frame (62);

a blanking frame (82), wherein the blanking frame (82) is arranged between the two second supporting frames (81);

the blanking pipes (83) are arranged between the two sides of the lower part of the blanking frame (82) and the first support frame (62);

the stop block (84) is connected between the two discharging pipes (83) in a sliding manner.

6. An impurity removing device for polyester chip production according to claim 5, further comprising a material control mechanism (9), wherein the material control mechanism (9) comprises:

the telescopic assembly (94) is arranged on the blanking frame (82);

the second sliding sleeve (95) is arranged on the stop block (84), and the second sliding sleeve (95) is connected with the telescopic assembly (94) in a sliding manner;

the first wedge block (91) is arranged on the diagonal rod (73);

the upper part of the second sliding sleeve (95) is provided with a second connecting block (93);

and the second wedge block (92) is arranged on the second connecting block (93), and the second wedge block (92) is matched with the first wedge block (91).

7. An impurity removing device for polyester chip production according to claim 6, further comprising a reciprocating mechanism (10), wherein the reciprocating mechanism (10) comprises:

the two sides of the underframe (1) are both provided with sliding rods (102), and the sliding rods (102) are connected with the sieve plate (2) in a sliding manner;

the third springs (101) are connected between the two sides of the lower part of the sieve plate (2) and the underframe (1), and the third springs (101) are wound on the sliding rods (102);

the lower part of the sieve plate (2) is provided with an extrusion block (104);

the rotating block (103) is arranged on the first rotating shaft (63), and the rotating block (103) is matched with the extrusion block (104);

the chassis (1) is provided with a shaft sleeve (108);

the second rotating shaft (106) is rotatably arranged on the shaft sleeve (108);

the space cam (107) is arranged on the second rotating shaft (106), and the space cam (107) is connected with the first sliding frame (53) in a sliding manner;

and the rotating component (105) is connected between the first rotating shaft (63) and the second rotating shaft (106).

8. The impurity removing apparatus for polyester chip production according to claim 7, wherein the rotary block (103) has an elliptical shape.

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