CN215619897U - Slide way blank distributing mechanism of bottle blowing machine - Google Patents

Abstract

The utility model belongs to the technical field of bottle blowing machines, and particularly relates to a slide way blank distribution mechanism of a bottle blowing machine, which comprises a conveying assembly, wherein a slide way is arranged on the conveying assembly and used for conveying bottle blanks; the blank separating assembly is transversely arranged on one side of the conveying assembly in a reciprocating mode; the blank feeding assembly is arranged on one side of the blank separating assembly; the blank separating assembly is arranged between the conveying assembly and the blank loading assembly and conveys the bottle blanks from the conveying assembly to the blank loading assembly; the blank distribution assembly is provided with at least two blank distribution grooves, and the blank feeding assembly is provided with at least two blank receiving grooves; when the slide way is communicated with the blank distribution groove, the bottle blanks are conveyed to the blank distribution assembly from the conveying assembly; when the blank distribution groove is communicated with the blank receiving groove, the bottle blanks are conveyed to the upper blank assembly from the blank distribution assembly. Therefore, the bottle blanks in the slide way are processed in batches by the transverse reciprocating motion of the blank separating groove, the blank receiving groove and the blank separating assembly, and the working efficiency of the slide way blank separating mechanism is improved.

Description

Slide way blank distributing mechanism of bottle blowing machine

Technical Field

The utility model relates to the technical field of bottle blowing machines, in particular to a slide way blank distribution mechanism of a bottle blowing machine.

Background

When the bottle hollow container is manufactured, a plastic bottle blowing machine is needed, when the bottle hollow container is produced, the bottle blanks are automatically conveyed to the blank distributing mechanism by the automatic blank arranging mechanism, and then the bottle blanks on the blank distributing mechanism are placed on the heating and conveying mechanism by the blank feeding mechanism, so that the bottle blanks are conveyed in the early stage.

The plastic bottle blowing machine thin-wall positioning ring bottle blank feeding mechanism with the Chinese patent application number of 202021012141.2 is characterized in that a U-shaped blank receiving groove corresponding to a blank clamping manipulator is formed in a flat plate and an inclined plate, a notch of the U-shaped blank receiving groove is matched with a slide way of a bottle blowing machine blank feeding mechanism, a thin-wall positioning ring bottle blank slides down to the bottom of the U-shaped blank receiving groove from the slide way and is clamped at the opening of the thin-wall positioning ring bottle blank by the blank clamping manipulator, and blank distribution is achieved. The defects that a single slide way only corresponds to one blank receiving groove, the efficiency is low, when the manipulator is not processed in time, the bottle blanks can be accumulated in the slide way, and the conveying of the bottle blanks is influenced, or the operation of the blank distributing mechanism of the slide way is influenced.

Disclosure of Invention

The utility model aims to provide a slide way blank distribution mechanism of a bottle blowing machine.

The purpose of the utility model is realized as follows:

a slide way blank distributing mechanism of a bottle blowing machine comprises

The conveying assembly is provided with a slide way for conveying the bottle blanks;

the blank separating assembly is transversely arranged on one side of the conveying assembly in a reciprocating mode; and

the blank feeding assembly is arranged on one side of the blank separating assembly;

the blank separating assembly is arranged between the conveying assembly and the blank loading assembly and conveys the bottle blanks from the conveying assembly to the blank loading assembly;

the blank distribution assembly is provided with at least two blank distribution grooves, and the blank feeding assembly is provided with at least two blank receiving grooves;

when the slide way is communicated with the blank distribution groove, the bottle blanks are conveyed to the blank distribution assembly from the conveying assembly;

when the blank distribution groove is communicated with the blank receiving groove, the bottle blanks are conveyed to the upper blank assembly from the blank distribution assembly.

Preferably, the embryo separating assembly comprises:

a drive source;

a guide rail fixedly disposed at one side of the driving source; and

the embryo separating block is arranged on the guide rail through a sliding block; the blank splitting block is connected with the driving source, and the driving source drives the blank splitting block to slide on the sliding rail;

the blank separating groove is formed in the blank separating block, openings are formed in the two sides of the blank separating groove and face the conveying assembly and the blank feeding assembly respectively.

Preferably, the embryo assembly comprises:

the placing piece is arranged on one side of the embryo separating block; the blank receiving groove is arranged on the placing piece, and the opening of the blank receiving groove faces the blank separating block;

the clamping piece is arranged on one side of the placing piece and used for clamping the bottle embryo in the embryo receiving groove.

Preferably, the number of the embryo separating grooves is two, the number of the embryo receiving grooves is three, and the distance between the embryo separating grooves is equal to the distance between the embryo receiving grooves.

Preferably, the embryo separating groove is a 'U' -shaped groove and penetrates through the embryo separating block along the width direction of the embryo separating block.

Compared with the prior art, the utility model has the outstanding and beneficial technical effects that:

1. the bottle embryo in the slideway on the conveying component is divided into groups equal to the number of the embryo receiving grooves by the embryo separating grooves of the embryo separating component, and all the embryo receiving grooves can still be sequentially filled by the embryo separating grooves while the number of the embryo separating grooves is less than that of the embryo receiving grooves by the transverse reciprocating motion of the embryo separating component. And then the bottle blanks in one slide way are processed in multiple batches by the transverse reciprocating motion of the blank separating groove, the blank receiving groove and the blank separating assembly, so that the working efficiency of the slide way blank separating mechanism is improved.

2. According to the bottle embryo picking device, the driving source drives the embryo separating block to reciprocate, so that the embryo separating groove and the slide way are indirectly communicated with each other, and the embryo separating groove and the embryo receiving groove are indirectly communicated with each other, so that bottle embryos can orderly enter the embryo separating groove from the slide way and then enter the embryo receiving groove, and finally, the embryo picking assembly can sequentially and orderly clamp the bottle embryos to perform embryo picking operation.

3. The embryo separating groove is preferably a U-shaped groove so as to be matched with the U-shaped bottle embryo, so that the contact between the bottle embryo and the U-shaped groove is reduced and the collision on the bottle embryo is reduced when the bottle embryo passes through the U-shaped groove. The blank dividing groove penetrates through the blank dividing block along the width direction of the blank dividing block, so that an opening of the blank dividing groove is formed, the two sides of the blank dividing block in the width direction are communicated, and bottle blanks can pass through the blank dividing groove conveniently.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an exploded view of the present invention.

FIG. 3 is a schematic structural diagram of the embryo separating assembly.

FIG. 4 is a schematic view of the structure of the upper blank assembly.

Reference numerals: 1. a delivery assembly; 2. a blank separating assembly; 3. a blank feeding assembly; 4. mounting a plate; 5. a slideway; 6. a embryo separating groove; 7. a blank receiving groove; 8. a drive source; 9. a guide rail; 10. dividing the embryo block; 11. a slider; 12. placing the piece; 13. a clamping member; 14. a motor; 15. a robot arm.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1-4, a slide way embryo distribution mechanism of a bottle blowing machine comprises a mounting plate 4, a conveying assembly 1, an embryo distribution assembly 2 and an embryo feeding assembly 3. Conveying assembly 1, divide embryo subassembly 2 and go up embryo subassembly 3 and all install on mounting panel 4, and mounting panel 4 is then fixed in the stationary plane, such as ground, mesa or desktop etc.. The conveying component 1 is provided with a slideway 5 for conveying bottle blanks. The blank distribution component 2 is transversely arranged on one side of the conveying component 1 in a reciprocating mode. The upper blank assembly 3 is arranged on one side of the blank separating assembly 2. Wherein, the blank distributing component 2 is arranged between the conveying component 1 and the upper blank component 3. Conveyor slope sets up to make the bottle embryo on the slide 5 can rely on gravity nature lapse down, make the bottle embryo carry to divide embryo subassembly 2, divide embryo subassembly 2 to divide the bottle embryo into a plurality of groups and carry the different positions of placing of last embryo subassembly 3 in proper order, then go up embryo subassembly 3 and carry the bottle embryo to next process can.

With reference to fig. 1 and 2, the blank separating assembly 2 is provided with at least two blank separating grooves 6, and the upper blank assembly 3 is provided with at least two blank receiving grooves 7. Therefore, when the blank distribution component 2 performs transverse reciprocating motion, an effective channel can be formed to convey the bottle blanks. When the blank distribution assembly 2 moves to the slide way 5 to be communicated with the blank distribution groove 6, the bottle blanks are conveyed from the conveying assembly 1 to the blank distribution assembly 2. When the blank distributing assembly 2 moves to the blank distributing groove 6 to be communicated with the blank receiving groove 7, the bottle blanks are conveyed into the upper blank assembly 3 from the blank distributing assembly 2.

Therefore, the bottle blanks in the slide rail 5 on the conveying assembly 1 are divided into groups equal to the number of the blank receiving grooves 7 through the blank dividing grooves 6 of the blank dividing assembly 2, and the transverse reciprocating motion of the blank dividing assembly 2 can enable the number of the blank dividing grooves 6 to be less than that of the blank receiving grooves 7 and simultaneously enable all the blank receiving grooves 7 to be sequentially filled through the blank dividing grooves 6. And further, the bottle blanks in the slide way 5 are processed in multiple batches through the transverse reciprocating motion of the blank distributing groove 6, the blank receiving groove 7 and the blank distributing assembly 2, so that the working efficiency of the slide way blank distributing mechanism is improved.

As shown in FIG. 3, the embryo separating assembly 2 comprises a driving source 8, a guide rail 9 and an embryo separating block 10. The driving source 8 is fixedly arranged on the mounting plate 4, and in the embodiment, the driving source 8 can be an air cylinder, an electric cylinder or a hydraulic cylinder and the like which can realize reciprocating motion. The guide rail 9 is also fixedly provided on the mounting plate 4 and is located on the side of the drive source 8. The embryo separating block 10 is arranged on the guide rail 9 through a slide block 11. The blank-separating block 10 is connected with the driving source 8, and the driving source 8 drives the blank-separating block 10 to slide on the slide rail. The blank separating groove 6 is formed in the blank separating block 10, openings are formed in two sides of the blank separating groove 6 and face the conveying assembly 1 and the blank feeding assembly 3 respectively. Thereby divide embryo piece 10 reciprocating motion through the drive of driving source 8 drive, realize dividing embryo groove 6 and slide 5 to and divide embryo groove 6 and connect the indirect intercommunication between embryo groove 7, thereby make things convenient for the bottle embryo to get into from slide 5 in an orderly manner and divide embryo groove 6, get into in an orderly manner again and connect embryo groove 7, finally make things convenient for blank subassembly 3 to get up and can get the bottle embryo in proper order the clamp in proper order and carry out the embryo operation.

As shown in FIG. 4, the upper blank assembly 3 comprises a placing member 12 and a clamping member 13. The placing part 12 is arranged on one side of the blank dividing block 10, the blank receiving groove 7 is arranged on the placing part 12, and the opening of the blank receiving groove faces the blank dividing block 10, so that bottle blanks conveyed from the blank dividing block 10 can be conveniently received and taken. The clamping piece 13 is arranged on one side of the placing piece 12, the placing piece 12 is located between the clamping piece 13 and the blank dividing block 10, the clamping piece 13 is used for clamping bottle blanks in the blank receiving groove 7, and then the bottle blanks are conveyed to a next procedure to finish feeding. In this embodiment, the clamping member 13 is preferably a motor 14 and a manipulator 15, so that after the bottle embryo is placed on the placing member 12, the manipulator 15 clamps the upper end of the bottle embryo, and then the motor 14 drives the manipulator 15 to rotate, so as to achieve embryo loading.

Further, as shown in fig. 1, in this embodiment, the number of the embryo separating grooves 6 is two, the number of the embryo receiving grooves 7 is three, and the distance between the embryo separating grooves 6 is equal to the distance between the embryo receiving grooves 7. Therefore, the blank separating mechanism can convey three bottle blanks at one time through the reciprocating motion of the blank separating block 10 and the distance arrangement between the blank separating groove 6 and the blank separating block 10, and the conveying efficiency of the bottle blanks is improved.

As shown in FIG. 3, the embryo separating groove 6 is preferably a U-shaped groove, so as to be matched with the U-shaped bottle embryo, thereby facilitating the contact between the bottle embryo and the U-shaped groove and reducing the collision of the bottle embryo when the bottle embryo passes through the U-shaped groove. The embryo separating groove 6 also penetrates through the embryo separating block 10 along the width direction of the embryo separating block 10, so that an opening of the embryo separating groove 6 is formed, two sides of the embryo separating block 10 in the width direction are communicated, and bottle embryos can pass through the opening conveniently.

The specific working process of the scheme is as follows:

in the initial state, two sides of the embryo separating groove 6 on the left side of the embryo separating block 10 are respectively aligned and communicated with the slide way 5 and the embryo receiving groove 7 in the middle of the placing piece 12. When the bottle embryo falls down in the slideway 5, the first bottle embryo enters the middle embryo receiving groove 7 through the embryo separating groove 6 on the left side.

The second bottle embryo is blocked by the first bottle embryo in the embryo separating groove 6 and is placed in the embryo separating groove 6 on the left side, then the driving source 8 drives the embryo separating block 10 to slide, and at the moment, the main body of the placing piece 12 blocks the second bottle embryo to prevent the bottle embryo from separating from the embryo separating groove 6. When the embryo separating groove 6 on the left side of the embryo separating block 10 is aligned with the embryo receiving groove 7 on the left side of the placing piece 12, the second bottle embryo falls into the embryo receiving groove 7 on the left side. At the moment, the two sides of the right embryo separating groove 6 are respectively aligned and communicated with the slide way 5 and the embryo receiving groove 7 in the middle of the placing piece 12, and the third bottle embryo falls into the right embryo separating groove 6. Similarly, the first bottle embryo blocks the third bottle embryo, so that the third bottle embryo is temporarily placed in the embryo separating groove 6 on the right side.

Then, the driving source 8 drives the blank separating block 10 to return, and at this time, the main body of the placing member 12 also blocks the third bottle blank to prevent the bottle blank from separating from the blank separating groove 6. When the embryo separating groove 6 on the right side of the embryo separating block 10 is aligned with the embryo receiving groove 7 on the right side of the placing piece 12, the third bottle embryo enters the embryo receiving groove 7 on the right side.

At the moment, the whole mechanism returns to the initial state, bottle blanks are also placed in the three blank receiving grooves 7 of the placing part 12, so that the bottle blanks on the placing part 12 are clamped by the clamping part 13 on the blank feeding assembly 3, and then are conveyed to the next procedure, the three blank receiving grooves 7 are emptied, and the next round of conveying of the three bottle blanks can be carried out.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. A slide way blank distributing mechanism of a bottle blowing machine is characterized by comprising

The conveying assembly (1) is provided with a slide way (5) for conveying bottle blanks;

the embryo separating assembly (2) is arranged on one side of the conveying assembly (1) in a transverse reciprocating mode; and

the blank feeding assembly (3) is arranged on one side of the blank separating assembly (2);

the blank separating assembly (2) is arranged between the conveying assembly (1) and the blank feeding assembly (3), and the blank separating assembly (2) conveys the bottle blanks from the conveying assembly (1) to the blank feeding assembly (3);

the blank distribution component (2) is provided with at least two blank distribution grooves (6), and the blank feeding component (3) is provided with at least two blank receiving grooves (7);

when the slide way (5) is communicated with the blank distribution groove (6), the bottle blanks are conveyed from the conveying assembly (1) to the blank distribution assembly (2);

when the embryo separating groove (6) is communicated with the embryo receiving groove (7), the bottle embryo is conveyed to the upper embryo assembly (3) from the embryo separating assembly (2).

2. The slide way embryo distribution mechanism of the bottle blowing machine according to claim 1, which is characterized in that: the embryo separating component (2) comprises:

a drive source (8);

a guide rail (9), wherein the guide rail (9) is fixedly arranged on one side of the driving source (8); and

a blank-separating block (10) arranged on the guide rail (9) through a slide block (11); the blank separating block (10) is connected with the driving source (8), and the driving source (8) drives the blank separating block (10) to slide on the sliding rail;

divide embryo groove (6) to set up on dividing embryo piece (10), and divide the both sides of embryo groove (6) and all seted up the opening, respectively towards conveyor components (1) and last embryo subassembly (3).

3. The slide way embryo distribution mechanism of the bottle blowing machine according to claim 2, characterized in that: the upper blank assembly (3) comprises:

a placing member (12) arranged on one side of the embryo-separating block (10); the blank receiving groove (7) is arranged on the placing piece (12), and the opening of the blank receiving groove faces the blank separating block (10);

and the clamping piece (13) is arranged on one side of the placing piece (12) and is used for clamping the bottle embryo in the embryo receiving groove (7).

4. The slide way embryo distribution mechanism of the bottle blowing machine according to any one of claims 1 to 3, which is characterized in that: the number of the embryo separating grooves (6) is two, the number of the embryo receiving grooves (7) is three, and the distance between the embryo separating grooves (6) is equal to the distance between the embryo receiving grooves (7).

5. The slide way embryo distribution mechanism of the bottle blowing machine according to claim 2, characterized in that: the embryo separating groove (6) is a U-shaped groove and penetrates through the embryo separating block (10) along the width direction of the embryo separating block (10).

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