CN114953400A

CN114953400A - Bottle blank spacing mechanism of bottle blowing machine

Info

Publication number: CN114953400A
Application number: CN202210498749.8A
Authority: CN
Inventors: 赵顺利
Original assignee: Taizhou Quanju Machinery Co ltd
Current assignee: Taizhou Quanju Machinery Co ltd
Priority date: 2022-05-09
Filing date: 2022-05-09
Publication date: 2022-08-30

Abstract

The invention provides a bottle blank spacing mechanism of a bottle blowing machine, which comprises a workbench, wherein a guide rail frame for conveying bottle blanks is arranged on the workbench, the top of the workbench is connected with an installation frame through a lifting cylinder, the installation frame is positioned above the guide rail frame, the upper part of the front side surface of the installation frame is provided with a servo motor and a transversely-arranged synchronous belt, the lower part of the front side surface of the installation frame is provided with a transversely-arranged slide rail, the slide rail is connected with a long distance plate and a short spacing plate through a slide block, the top of the long distance plate is fixedly connected to the synchronous belt through a connecting block, at least four bottle blank seats are distributed at the lower end of the long distance plate at equal intervals, the lower end of the short spacing plate is connected with the bottle blank seats, the number of the short spacing plates is two less than that of the bottle blank seats at the lower end of the long distance plate, and the short spacing plates and the long distance plates are all connected through spacing guide sleeves. The invention has the advantages of good guidance quality, quick response, high distance division precision and high efficiency.

Description

Bottle blank spacing mechanism of bottle blowing machine

Technical Field

The invention relates to a bottle blowing machine, in particular to a bottle blank spacing mechanism of the bottle blowing machine.

Background

The bottle blowing machine heats the plastic bottle parison before the plastic bottle parison is fed into the mold and blown into a bottle. At present, the heating modes of plastic bottle blowing machines at home and abroad for plastic bottle blank tubes are divided into two modes of 'equidistant heating' and 'reduced heating' in structure. The 'isometric heating' means that the heating center distance of the plastic bottle blank tube in the heating box is the same as the center distance between the cavity molds in the multi-cavity mold, so that the plastic bottle blank tube can be directly sent into the mold according to the original distance after being heated to finish bottle blowing, and the structure is relatively simple. However, the center distance between the mold cavities of the multi-cavity mold is designed according to the diameter of the finished bottle, and the distance is relatively large, while the diameter of the plastic bottle blank tube before bottle blowing is still relatively small. When equidistant heating is adopted, a bottle blowing machine has enough production efficiency, and a long heating box is needed to ensure enough heating length. Therefore, the bottle blowing machine with the 'isometric heating' has large volume, lower heating efficiency and utilization rate and large power consumption.

The contraction heating is characterized in that the distance between the plastic bottle blank pipes is reduced during heating, so that the plastic bottle blank pipes are compactly arranged and then heated, the heat generated by the heating pipes in the heating box can be fully absorbed, and the heating electric energy can be saved by more than 40%. However, after the heating is finished, before the plastic bottle enters a bottle blowing mold, the distance between the plastic bottle blank pipes needs to be enlarged, the distance which is compactly arranged during heating is changed into the mold cavity distance of the mold, and the distance division is required to be accurate and rapid, so that higher requirements are provided for the performance of the bottle blowing machine.

At present, most bottle blowing machine products adopt the forms of 'shrinkage heating' and 'split-blow bottle blowing', but all adopt the structure of cylinder direct drive, and the precision is poor, inertia is big, the fault rate is high, wearing and tearing are big, the guidance quality is poor.

Disclosure of Invention

Aiming at the problems, the invention aims to provide a bottle blank spacing mechanism of a bottle blowing machine, which has the advantages of simple structure, good guidance quality and quick response.

The technical scheme of the invention is that a bottle blank spacing mechanism of a bottle blowing machine comprises a workbench, a guide rail frame for conveying bottle blanks is arranged on the workbench, the top of the workbench is connected with a mounting rack through a lifting cylinder, the mounting rack is positioned above the guide rail rack, a servo motor and a transversely arranged synchronous belt are arranged at the upper part of the front side surface of the mounting rack, a transversely arranged slide rail is arranged at the lower part of the front side surface of the mounting rack, the slide rail is connected with a long distance plate and a short distance plate through a slide block, the top of the long distance plate is fixedly connected with the synchronous belt through a connecting block, at least four blank holders are distributed at the lower end of the fixed-distance long plate at equal intervals, the lower end of the fixed-distance short plate is connected with the blank holders, the number of the short distance-dividing plates is two less than that of the bottle blank seats at the lower end of the long distance-dividing plate, and the short distance-dividing plates, the short distance-dividing plates and the long distance-dividing plates are connected with the positioning blocks through distance-dividing guide sleeves with long strip holes; when the positioning blocks are positioned in the strip holes and are stretched to the maximum distance, the distance between the bottle blank seats between the short distance-dividing plates, the distance between the short distance-dividing plates and the adjacent bottle blank seats on the long distance-fixing plates and the distance between the bottle blank seats on the long distance-fixing plates are the same; the guide rail frame is provided with a positioning cylinder and a positioning frame, the front end of the positioning frame is provided with bottle blank positioning grooves, the number of the bottle blank positioning grooves is one more than that of the spaced short plates, and the distance between the bottle blank positioning grooves is equal to that between bottle blank seats on the spaced long plates.

Preferably, four blank holders are distributed at the lower end of the long distance separating plate at equal intervals, two short distance separating plates are respectively a first short distance separating plate and a second short distance separating plate, the long distance separating plate is connected with a positioning block on the first short distance separating plate through a transverse distance separating guide sleeve, and the first short distance separating plate is connected with a positioning block on the second short distance separating plate through a transverse distance separating guide sleeve.

Preferably, five bottle blank seats are distributed at equal intervals at the lower end of the long distance separating plate, the number of the short distance separating plates is three, and the short distance separating plates are respectively a first short distance separating plate, a second short distance separating plate and a third short distance separating plate, the long distance separating plate is connected with a positioning block on the first short distance separating plate through a transverse distance separating guide sleeve, the first short distance separating plate is connected with a positioning block on the second short distance separating plate through a transverse distance separating guide sleeve, and the second short distance separating plate is connected with a positioning block on the third short distance separating plate through a transverse distance separating guide sleeve.

Preferably, six bottle blank seats are distributed at the lower end of the long distance plate at equal intervals, the number of the short distance plates is four, and the short distance plates are respectively a first short distance plate, a second short distance plate, a third short distance plate and a fourth short distance plate, the long distance plate is connected with a positioning block on the first short distance plate through a transverse distance guide sleeve, the first short distance plate is connected with a positioning block on the second short distance plate through a transverse distance guide sleeve, the second short distance plate is connected with a positioning block on the third short distance plate through a transverse distance guide sleeve, and the third short distance plate is connected with a positioning block on the fourth short distance plate through a transverse distance guide sleeve.

Preferably, the mounting frame is connected with a starting positioning block and an end positioning block.

Preferably, the workbench is provided with a guide sleeve, the mounting frame is provided with a guide rod, and the mounting frame is guided in the guide sleeve in a sliding mode through the guide rod when lifting.

The invention adopts servo motor and synchronous belt transmission, adopts the mode of combining and matching the fixed-distance long plate and the minute-distance short plate, completes the minute distance of the bottle blank during the secondary action, and has the advantages of high response speed, good guidance quality, high minute distance precision and high minute distance efficiency in the whole process.

Drawings

FIG. 1 is a schematic structural view of a six-bottle blowing structure when the positioning block is at the start of the invention;

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 3 is a schematic structural view of a six-bottle blowing structure at the end point positioning block according to the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;

wherein: 1-a workbench; 2, a guide rail frame; 3, a lifting cylinder; 4, mounting a rack; 5, a servo motor; 6, a synchronous belt; 7, a sliding rail; 8, a sliding block; 9-spacing long plate; 10-minute distance short plate; 101-first short gauge; 102-second pitch stub; 11-connecting block; 12-bottle blank seat; 13-elongated holes; 14-a distance-dividing guide sleeve; 15-positioning blocks; 16-positioning the cylinder; 17-a positioning frame; 18-a bottle blank positioning groove; 19-initial positioning block; 20-an end point positioning block; 21-a guide sleeve; 22-guide bar.

Detailed Description

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

As shown in fig. 1 to 4, the invention provides a bottle blank spacing mechanism of a bottle blowing machine, which comprises a workbench 1, wherein a guide rail frame 2 for conveying bottle blanks is arranged on the workbench 1, the top of the workbench 1 is connected with an installation frame 4 through a lifting cylinder 3, the installation frame 4 is positioned above the guide rail frame 2, a servo motor 5 and a transversely-arranged synchronous belt 6 are arranged at the upper part of the front side surface of the installation frame 4, a transversely-arranged slide rail 7 is arranged at the lower part of the front side surface of the installation frame 4, a long distance plate 9 and a short spacing plate 10 are connected to the slide rail 7 through a slide block 8, the top of the long distance plate 9 is fixedly connected to the synchronous belt 6 through a connecting block 11, at least four bottle blank seats 12 are distributed at the lower end of the long distance plate 9 at equal intervals, the lower end of the short spacing plate 10 is connected with bottle blank seats 12, the number of the short spacing plate 10 is two less than the number of the bottle blank seats 12 at the lower end of the long distance plate 9, the short distance-dividing plates 10, the short distance-dividing plates 10 and the long distance-dividing plates 9 are connected through distance-dividing guide sleeves 14 with long strip holes 13 and positioning blocks 15; when the positioning blocks 15 are positioned in the strip holes 13 and are stretched to the maximum distance, the distance between the bottle blank seats 12 on the short distance-dividing plates 10, the distance between the short distance-dividing plates 10 and the adjacent bottle blank seats 12 on the long distance-dividing plates 9 and the distance between the bottle blank seats 12 on the long distance-dividing plates 9 are the same; the guide rail frame 2 is provided with a positioning cylinder 16 and a positioning frame 17, the front end of the positioning frame 17 is provided with bottle blank positioning grooves 18, the number of the bottle blank positioning grooves 18 is one more than that of the distance-separating short plates 10, and the distance between the bottle blank positioning grooves 18 is equal to that between the bottle blank seats 12 on the distance-separating long plate 9.

As a specific scheme of first-sixth forming of a subsequent bottle blowing mold, four blank holders 12 are distributed at the lower end of the long distance plate 9 at equal intervals, two short distance plates 10 are respectively a first short distance plate 101 and a second short distance plate 102, the long distance plate 9 is connected with a positioning block 15 on the first short distance plate 101 through a transverse distance guide sleeve 14, and the first short distance plate 101 is connected with a positioning block 15 on the second short distance plate 102 through the transverse distance guide sleeve 14.

In addition, as a specific scheme of the first and eighth subsequent bottle blowing molds, five bottle blank seats 12 are distributed at equal intervals at the lower end of the long distance plate 9, the number of the short distance plates 10 is three, and the three short distance plates are respectively a first short distance plate 101, a second short distance plate 102 and a third short distance plate, the long distance plate 9 is connected with a positioning block 15 on the first short distance plate 101 through a transverse distance guide sleeve 14, the first short distance plate 101 is connected with a positioning block 15 on the second short distance plate 102 through a transverse distance guide sleeve 14, and the second short distance plate 102 is connected with a positioning block on the third short distance plate through a transverse distance guide sleeve.

In addition, as a tenth specific scheme of a subsequent bottle blowing mold, six bottle blank seats 12 are distributed at the lower end of the long distance plate 9 at equal intervals, four short distance plates 10 are respectively a first short distance plate 101, a second short distance plate 102, a third short distance plate and a fourth short distance plate, the long distance plate 9 is connected with a positioning block 15 on the first short distance plate 101 through a transverse distance guide sleeve 14, the first short distance plate 101 is connected with a positioning block 15 on the second short distance plate 102 through a transverse distance guide sleeve 14, the second short distance plate 102 is connected with a positioning block on the third short distance plate through a transverse distance guide sleeve, and the third short distance plate is connected with a positioning block on the fourth short distance plate through a transverse distance guide sleeve.

Further, a start positioning block 19 and an end positioning block 20 are connected to the mounting frame 4.

Further, be provided with guide sleeve 21 on workstation 1, be provided with guide bar 22 on the mounting bracket 4, during the lift of mounting bracket 4, slide guide in guide sleeve 21 through guide bar 22.

The following is a concrete description of the first six-out scheme of the subsequent bottle blowing mold, and the working process of the invention is as follows:

in the first step, after the bottle blank is discharged from the oven, it enters under the mounting rack 4 along the guide rail rack 2, at this time, as shown in fig. 1 and fig. 2, the distance long plate 9, the first distance short plate 101 and the second distance short plate 102 are in the initial position, wherein the second short distance-separating plate 102 is limited by the initial positioning block 19, the distance between the bottle blank seat 12 on the long distance-separating plate 9 near the first short distance-separating plate 101, the bottle blank seat 12 at the lower end of the first short distance-separating plate 101 and the bottle blank seat 12 at the lower end of the second short distance-separating plate 102, the distance between the bottle blanks heated in the oven is the same as that between the bottle blanks heated in the oven, the lifting cylinder 3 controls the mounting rack 4 to descend, the bottle blank seat 12 on the long distance plate 9 near the first short distance plate 101, the bottle blank seat 12 at the lower end of the first short distance plate 101 and the bottle blank seat 12 at the lower end of the second short distance plate 102 are inserted into three adjacent bottle blanks on the lower guide rail frame 2, so that the first step of action is realized.

And secondly, the lifting cylinder 3 controls the mounting frame 4 to ascend, and the bottle blank seat 12 on the long distance plate 9 close to the first short distance plate 101, the bottle blank seat 12 at the lower end of the first short distance plate 101 and the bottle blank seat 12 at the lower end of the second short distance plate 102 carry the bottle blanks to ascend together, so that the three bottle blanks are separated from the guide rail frame 2.

Thirdly, the servo motor 5 drives the synchronous belt 6 to rotate, the long distance plate 9 is driven to move forwards through the connecting block 11, the long distance plate 9 drives the first short distance plate 101 to move forwards through the distance guide sleeve 14 with the long strip hole 13 and the positioning block 15, the first short distance plate 101 drives the second short distance plate 102 to move forwards through the distance guide sleeve 14 with the long strip hole 13 and the positioning block 15 until the limiting block on the second short distance plate 102 is positioned in contact with the terminal point positioning block 20, and the bottle blank seat 12 at the position, close to the first short distance plate 101, on the long distance plate 9, the bottle blank seat 12 at the lower end of the first short distance plate 101 and the bottle blank seat 12 at the lower end of the second short distance plate 102 are positioned right above the positions of the three bottle blank positioning grooves 18 at the front end of the positioning frame 17 and are in one-to-one correspondence. The state shown in fig. 3 and 4 is reached.

Fourthly, the lifting cylinder 3 controls the mounting rack 4 to descend, bottle blanks clamped by the bottle blank seat 12 at the position, close to the first short distance plate 101, on the long distance plate 9, the bottle blank seat 12 at the lower end of the first short distance plate 101 and the bottle blank seat 12 at the lower end of the second short distance plate 102 enter the three bottle blank positioning grooves 18, and then the positioning cylinder 16 drives the positioning rack 17 to fix the three bottle blanks.

Fifthly, the lifting cylinder 3 controls the installation frame 4 to ascend, three well-separated bottle bases are left in the three bottle base positioning grooves 18, the servo motor 5 drives the synchronous belt 6 to rotate reversely, the long distance plate 9 is driven to move backwards through the connecting block 11, the first short distance plate 101 slides in the long strip hole 13 of the distance separating guide sleeve 14 through the positioning block 15, then the second short distance plate 102 slides in the long strip hole 13 of the distance separating guide sleeve 14 through the positioning block 15, and the second short distance plate 102 is in contact with the initial positioning block 19 to achieve limiting. Eventually returning to the state shown in fig. 1.

Sixthly, the lifting cylinder 3 controls the mounting frame 4 to descend, so that the bottle blank seats 12 on the distance long plate 9 close to the first distance short plate 101, the bottle blank seats 12 at the lower end of the first distance short plate 101 and the bottle blank seats 12 at the lower end of the second distance short plate 102 are inserted into three adjacent bottle blanks on the guide rail frame 2 below, meanwhile, the three bottle blank seats 12 on the left side of the distance long plate 9 are inserted into the bottle blanks in the three bottle blank positioning grooves 18 of the positioning frame 17, and the positioning cylinder 16 drives the positioning frame 17 to withdraw.

Seventhly, the lifting cylinder 3 controls the installation frame 4 to ascend, the synchronous belt 6 is driven to rotate through the servo motor 5, the distance long plate 9 is driven to move forwards through the connecting block 11, the position shown in the figure 3 is achieved, the distance between the six bottle blanks is equal to the distance between the cavities in the bottle blowing mold, and the distance dividing process of the six bottle blanks is achieved. And clamping the six bottle blanks by a manipulator or a clamping mechanism, taking out the six bottle blanks and feeding the six bottle blanks into a bottle blowing mold.

Repeating the steps to realize the bottle blank spacing of one bottle blowing machine for six bottles.

Similarly, the working principle of one-eight and one-ten is the same, and the working process is only adjusted in number.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change or modification made to the above embodiments according to the technical principle of the present invention still falls within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a bottle blowing machine bottle base divides apart from mechanism, includes workstation (1), be provided with guide rail frame (2) of carrying the bottle base on workstation (1), its characterized in that: the automatic bottle blank arranging machine is characterized in that the top of the workbench (1) is connected with a mounting rack (4) through a lifting cylinder (3), the mounting rack (4) is positioned above the guide rail rack (2), a servo motor (5) and a transversely arranged synchronous belt (6) are arranged on the upper portion of the front side face of the mounting rack (4), the lower portion of the front side face of the mounting rack (4) is provided with a transversely arranged sliding rail (7), the sliding rail (7) is connected with a fixed-distance long plate (9) and a minute-distance short plate (10) through a sliding block (8), the top of the fixed-distance long plate (9) is fixedly connected onto the synchronous belt (6) through a connecting block (11), at least four bottle blank seats (12) are distributed at the lower end of the fixed-distance long plate (9) at equal intervals, the lower end of the minute-distance short plate (10) is connected with the bottle blank seats (12), and the number of the minute-distance short plates (10) is two less than that of the bottle blank seats (12) at the lower end of the fixed-distance long plate (9), the short distance-dividing plates (10) and the long distance-dividing plates (9) are connected with a positioning block (15) through distance-dividing guide sleeves (14) with long strip holes (13); the positioning blocks (15) are positioned in the strip holes (13) and when the positioning blocks (15) and the strip holes are stretched to the maximum distance, the distance between the bottle blank seats (12) on the sub-distance short plates (10), the distance between the sub-distance short plates (10) and the adjacent bottle blank seats (12) on the distance long plates (9) and the distance between the bottle blank seats (12) on the distance long plates (9) are the same; the guide rail frame (2) is provided with a positioning cylinder (16) and a positioning frame (17), the front end of the positioning frame (17) is provided with bottle blank positioning grooves (18), the number of the bottle blank positioning grooves (18) is one more than that of the distance-separating short plates (10), and the distance between the bottle blank positioning grooves (18) is equal to that between bottle blank seats (12) on the distance-separating long plate (9).

2. The bottle blowing machine bottle blank spacing mechanism of claim 1, which is characterized in that: four bottle blank seats (12) are distributed at the lower end of the long distance plate (9) at equal intervals, two short distance plates (10) are respectively a first short distance plate (101) and a second short distance plate (102), the long distance plate (9) is connected with a positioning block (15) on the first short distance plate (101) through a transverse distance guide sleeve (14), and the first short distance plate (101) is connected with the positioning block (15) on the second short distance plate (102) through the transverse distance guide sleeve (14).

3. The bottle blowing machine bottle blank spacing mechanism of claim 1, which is characterized in that: five bottle blank seats (12) are distributed at the lower end of the long distance plate (9) at equal intervals, three short distance plates (10) are respectively a first short distance plate (101), a second short distance plate (102) and a third short distance plate, the long distance plate (9) is connected with a positioning block (15) on the first short distance plate (101) through a transverse distance guide sleeve (14), the first short distance plate (101) is connected with a positioning block (15) on the second short distance plate (102) through a transverse distance guide sleeve (14), and the second short distance plate (102) is connected with a positioning block on the third short distance plate through a transverse distance guide sleeve.

4. The bottle blowing machine bottle blank spacing mechanism of claim 1, which is characterized in that: six bottle blank seats (12) are distributed at the lower end of the long distance plate (9) at equal intervals, the number of the short distance plates (10) is four, and the four short distance plates are respectively a first short distance plate (101), a second short distance plate (102), a third short distance plate and a fourth short distance plate, the long distance plate (9) is connected with a positioning block (15) on the first short distance plate (101) through a transverse distance guide sleeve (14), the first short distance plate (101) is connected with the positioning block (15) on the second short distance plate (102) through the transverse distance guide sleeve (14), the second short distance plate (102) is connected with the positioning block on the third short distance plate through the transverse distance guide sleeve, and the third short distance plate is connected with the positioning block on the fourth short distance plate through the transverse distance guide sleeve.

5. The bottle blowing machine bottle blank spacing mechanism of claim 1, which is characterized in that: the mounting frame (4) is connected with a starting positioning block (19) and an end positioning block (20).

6. The bottle blowing machine bottle blank spacing mechanism of claim 1, which is characterized in that: be provided with guide sleeve (21) on workstation (1), be provided with guide bar (22) on mounting bracket (4), slide the direction in guide sleeve (21) through guide bar (22) when mounting bracket (4) goes up and down.