CN220219626U - Automatic alignment and embryo separation mechanism for bottle blanks without support ring of bottle blowing machine - Google Patents

Abstract

The utility model discloses an automatic alignment and embryo separation mechanism for bottle embryo without a support ring of a bottle blowing machine, which comprises a base, a frame body, a conveying assembly, a limiting support plate and an embryo entering positioning assembly; the frame body is arranged on the base; the conveying assembly is positioned in the frame body, a conveying channel for the bottle blank without the support ring to move is formed between the conveying assembly and the frame body, the conveying assembly comprises an input end and an output end, and the height of the input end is larger than that of the output end; the limiting support plate is arranged on the frame body and positioned in the conveying channel, and comprises a left limiting support plate propped against the left side of the bottle blank without the supporting ring and a right limiting support plate propped against the right side of the bottle blank without the supporting ring; the blank-entering positioning assembly comprises a blank-entering positioning seat and a blank-entering positioning plate, wherein the blank-entering positioning seat is fixed on the base, a positioning groove corresponding to the output end is formed in the blank-entering positioning plate, and the blank-entering positioning plate can be arranged on the blank-entering positioning seat in a left-right moving mode. The utility model can automatically arrange and divide the bottle blanks without the supporting ring, and improves the production efficiency of the bottle blanks without the supporting ring.

Description

Automatic alignment and embryo separation mechanism for bottle blanks without support ring of bottle blowing machine

Technical Field

The utility model relates to the technical field of bottle blowing machines, in particular to an automatic alignment and embryo separation mechanism for bottle blanks without supporting rings of a bottle blowing machine.

Background

The bottle blowing machine is a machine for blowing bottles, which is a machine for blowing plastic particles or finished bottle blanks into the bottles through a certain technological means.

The prior bottle blowing machine comprises an embryo feeding device, a heating device, a bottle blowing device and a bottle discharging device, wherein the devices are sequentially connected in series by a conveying track, the embryo is firstly transferred onto the conveying track by the embryo feeding device, then is sequentially heated and softened by the heating device, is then blown to form by the bottle blowing device, and finally is taken out of a finished product by the bottle discharging device, wherein the embryo to be processed is orderly arranged according to a preset rule before being sent to the embryo feeding device.

Bottle embryo is usually put through bottle embryo permutation device and is put in order, and as application number 201822182597.2 discloses a bottle embryo permutation device, and it includes the frame and is used for holding and carrying the slide of bottle embryo, and the slide is including two parallel arrangement and rotatable embryo cylinder that falls, and the rotation axis of embryo cylinder and the direction of delivery of bottle embryo are parallel and the distance between the rotation axis of two embryo cylinders that falls is adjustable, and wherein, the interval of two embryo cylinders that falls is greater than the body size of bottle embryo and is less than the size of bottleneck department convex shoulder.

The bottle embryo arraying device in the prior art is generally suitable for bottle embryos with supporting rings, and when the bottle embryos are arranged, the supporting rings of the bottle embryos are clamped between two embryo falling rollers. However, there are some special bottle blanks without supporting rings in the prior art, and the bottle blank alignment device in the prior art is difficult to be suitable for bottle blanks without supporting rings. In view of the above, the present inventors have made intensive studies to solve the above-mentioned drawbacks of the prior art.

Disclosure of Invention

The present utility model aims to solve at least to some extent one of the technical problems in the above-described technology. Therefore, the utility model aims to provide an automatic alignment and embryo separation mechanism for bottle blanks without supporting rings of a bottle blowing machine, which can automatically align and separate the bottle blanks without supporting rings and improve the production efficiency of the bottle blanks without supporting rings.

In order to achieve the above purpose, the utility model provides an automatic alignment and embryo separating mechanism for bottle embryo without support ring of bottle blowing machine, comprising a base, a frame, a conveying component, a limiting support plate and an embryo-entering positioning component;

the frame body is arranged on the base; the conveying assembly is positioned in the frame body, a conveying channel for the movement of the bottle blank without the support ring is formed between the conveying assembly and the frame body, the conveying assembly comprises an input end and an output end, and the height of the input end is larger than that of the output end; the limiting support plate is arranged on the frame body and positioned in the conveying channel, and comprises a left limiting support plate propped against the left side of the bottle blank without the supporting ring and a right limiting support plate propped against the right side of the bottle blank without the supporting ring; the blank entering positioning assembly comprises a blank entering positioning seat and a blank entering positioning plate, wherein the blank entering positioning seat is fixed on the base, a positioning groove corresponding to the output end is formed in the blank entering positioning plate, and the blank entering positioning plate can be arranged on the blank entering positioning seat in a left-right moving mode.

Further, the support body includes mount pad, left montant, right montant and transverse connection pole, the mount pad is fixed on the base, the mount pad left side sets up left mounting panel, the mount pad right side sets up right mounting panel, left side montant lower extreme is fixed on left mounting panel, right side montant lower extreme is fixed on right mounting panel, transverse connection pole one end is connected with left montant upper end, the transverse connection pole other end is connected with right montant upper end.

Further, a first strip-shaped long hole is formed in the mounting seat, a second strip-shaped long hole is formed in the base, and the straight line of the second strip-shaped long hole in the length direction is perpendicular to the straight line of the first strip-shaped long hole in the length direction.

Further, the device further comprises a connecting plate, one side of the connecting plate is fixed on the left vertical rod, the other side of the connecting plate is fixed on the right vertical rod, and a connecting seat connected with the limiting support plate is arranged on the connecting plate.

Further, the limiting support plate comprises a first limiting support plate and a second limiting support plate, the first limiting support plate is fixed on one side of the connecting plate through the connecting seat, and the second limiting support plate is fixed on the other side of the connecting plate through the connecting seat.

Further, a third strip-shaped long hole is formed in the bottom of the blank positioning seat, and the straight line of the length direction of the third strip-shaped long hole is perpendicular to the straight line of the length direction of the second strip-shaped long hole.

Further, the blank entering positioning assembly further comprises a driving device for driving the blank entering positioning plate to move left and right, the driving device comprises a driving cylinder and a driving seat, the driving cylinder is fixed on the side part of the blank entering positioning seat, the driving seat is connected with the driving cylinder and driven by the driving cylinder to reciprocate, and the driving seat is connected with the blank entering positioning plate.

Further, the driving seat is connected with the blank-entering positioning plate through a bracket.

Further, the blank-entering positioning seat comprises a positioning transverse plate, a first positioning vertical plate and a second positioning vertical plate, wherein the positioning transverse plate is fixedly connected to the base, the first positioning vertical plate is connected with one end of the positioning transverse plate, and the second positioning vertical plate is connected with the other end of the positioning transverse plate; the driving cylinder is fixed on the first positioning vertical plate or the second positioning vertical plate.

Further, an upper guide rod and a lower guide rod are arranged between the first positioning vertical plate and the second positioning vertical plate, and the driving seat moves along the upper guide rod and the lower guide rod.

Further, the positioning groove comprises a first positioning groove and a second positioning groove, wherein the first positioning groove is fixed on the blank-entering positioning plate and faces the end part of the first limiting support plate, and the second positioning groove is fixed on the blank-entering positioning plate and faces the end part of the second limiting support plate.

Further, a transition baffle is further arranged on the blank-entering positioning plate, and the transition baffle is positioned at the output end of the conveying assembly.

Further, the conveying assembly comprises a driving motor, a driving wheel, a connecting belt and a driven wheel, wherein the driving wheel is connected with the driving motor and driven by the driving motor to rotate, the connecting belt is connected with the driving wheel and the driven wheel, and the driven wheel is driven by the connecting belt to rotate.

After the structure is adopted, the automatic alignment and embryo separation mechanism for the bottle embryo of the bottle blowing machine without the support ring has the following beneficial effects:

when the automatic feeding device is used, a plurality of unsupported ring bottle blanks are placed on the conveying assembly, because the height of the input end of the conveying assembly is larger than the height of the output end, namely the conveying assembly is obliquely arranged, the side parts of the plurality of unsupported ring bottle blanks are mutually propped against each other under the action of gravity, after the unsupported ring bottle blanks are placed on the conveying assembly, the left side of the unsupported ring bottle blanks are propped against the left limiting support plate, the right side of the unsupported ring bottle blanks are propped against the right limiting support plate, so that the unsupported ring bottle blanks are prevented from swinging left and right, the unsupported ring bottle blanks are orderly arranged in a conveying channel, the bottommost unsupported ring bottle blanks enter a positioning groove of an embryo entering positioning plate under the action of the conveying assembly, and finally the embryo entering positioning plate moves to output the unsupported ring bottle blanks to the next station. And the blank-entering positioning plate continuously reciprocates left and right to output a plurality of bottle blanks without supporting rings to the next station, so that the bottle blanks without supporting rings are automatically aligned and separated, and the production efficiency of the bottle blanks without supporting rings is improved.

Second, through setting up the mount pad, be convenient for install left montant and right montant for left montant and right montant are firmly fixed in the both sides of mount pad, and left montant and right montant all can set up to a plurality of, in order to make whole more firm.

Thirdly, through setting up first bar slot hole on the mount pad, set up the second bar slot hole on the base, when using bolt lock mount pad, can adjust the bolt to the suitable position of first bar slot hole and second bar slot hole to realize adjusting the position on the mount pad, make the position of mount pad comparatively suitable.

Compared with the prior art, the automatic alignment device has the advantages that the base, the frame body, the conveying components, the limiting support plates and the blank entering positioning components are arranged, when the automatic alignment device is used, the left sides of the plurality of unsupported ring bottle blanks are abutted against the left limiting support plates, the right sides of the unsupported ring bottle blanks are abutted against the right limiting support plates, so that the unsupported ring bottle blanks are prevented from shaking left and right, the conveying components convey the unsupported ring bottle blanks into the positioning grooves one by one and then output the unsupported ring bottle blanks, automatic alignment and blank dividing of the unsupported ring bottle blanks are realized, and the production efficiency of the unsupported ring bottle blanks is improved.

Drawings

FIG. 1 is a schematic diagram of a mechanism for automatically arranging and separating bottle blanks without a support ring of a bottle blowing machine according to an embodiment of the utility model;

FIG. 2 is an exploded view of an automatic alignment and blank-separating mechanism for a bottle blowing machine without a support ring according to an embodiment of the present utility model.

Description of the reference numerals

The blank feeding device comprises a base 1, a second strip-shaped long hole 11, a frame body 2, a mounting seat 21, a left mounting plate 211, a right mounting plate 212, a first strip-shaped long hole 213, a left vertical rod 22, a right vertical rod 23, a transverse connecting rod 24, a connecting plate 25, a connecting seat 26, a conveying assembly 3, an input end 31, an output end 32, a first conveying assembly 33, a second conveying assembly 34, a limiting support plate 4, a left limiting support plate 41, a right limiting support plate 42, a first limiting support plate 421, a second limiting support plate 422, a blank feeding positioning assembly 5, a blank feeding positioning seat 51, a third strip-shaped long hole 511, a positioning transverse plate 512, a first positioning vertical plate 513, a second positioning vertical plate 514, a blank feeding positioning plate 52, a positioning groove 521, a transition partition 522, a driving device 53, a driving cylinder 531, a driving seat 532, a bracket 533 and a non-supporting ring bottle blank 10.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

As shown in fig. 1 and 2, the automatic alignment and embryo separation mechanism for the bottle embryo of the bottle blowing machine without the support ring comprises a base 1, a frame body 2, a conveying component 3, a limiting support plate 4 and an embryo entering positioning component 5; the frame body 2 is arranged on the base 1; the conveying assembly 3 is positioned in the frame body 2, a conveying channel for the movement of the bottle blank 10 without the support ring is formed between the conveying assembly 3 and the frame body 2, the conveying assembly 3 comprises an input end 31 and an output end 32, and the height of the input end 31 is greater than that of the output end 32; the limiting support plate 4 is arranged on the frame body 2 and positioned in the conveying channel, and the limiting support plate 4 comprises a left limiting support plate 41 abutted against the left side of the bottle blank 10 without the supporting ring and a right limiting support plate 42 abutted against the right side of the bottle blank 10 without the supporting ring; the blank-entering positioning assembly 5 comprises a blank-entering positioning seat 51 and a blank-entering positioning plate 52, wherein the blank-entering positioning seat 51 is fixed on the base 1, a positioning groove 521 corresponding to the output end 32 is arranged on the blank-entering positioning plate 52, and the blank-entering positioning plate 52 can be arranged on the blank-entering positioning seat 51 in a left-right moving manner.

In this way, when the automatic alignment and embryo separating mechanism for the bottle blowing machine is used, a plurality of the bottle blanks 10 are placed on the conveying assembly 3, as the height of the input end 31 of the conveying assembly 3 is larger than that of the output end 32, namely the conveying assembly 3 is obliquely arranged, the side parts of the bottle blanks 10 lean against each other under the action of gravity, after the bottle blanks 10 are placed on the conveying assembly 3, the left side of the bottle blanks 10 lean against the left limiting support plate 41, the right side of the bottle blanks 10 lean against the right limiting support plate 42, so that the bottle blanks 10 can be prevented from shaking left and right, the bottle blanks 10 are orderly arranged in a conveying channel, the bottle blanks 10 at the bottommost part enter a positioning groove 521 of the blank positioning plate 52 under the action of the conveying assembly 3, and finally the bottle blanks 10 are moved into the blank positioning plate 52 to be output to the next station. The blank-entering positioning plate 52 continuously reciprocates left and right to output a plurality of the non-support ring bottle blanks 10 to the next station, so that the automatic alignment and blank separation of the non-support ring bottle blanks 10 are realized, and the production efficiency of the non-support ring bottle blanks 10 is improved.

Optionally, the frame body 2 includes mount pad 21, left montant 22, right montant 23 and horizontal connecting rod 24, and mount pad 21 is fixed on base 1, and the mount pad 21 left side sets up left mounting panel 211, and the mount pad 21 right side sets up right mounting panel 212, and left montant 22 lower extreme is fixed on left mounting panel 211, and right montant 23 lower extreme is fixed on right mounting panel 212, and horizontal connecting rod 24 one end is connected with left montant 22 upper end, and horizontal connecting rod 24 other end is connected with right montant 23 upper end. Through setting up mount pad 21, be convenient for install left montant 22 and right montant 23 for left montant 22 and right montant 23 firmly fix in the both sides of mount pad 21, left montant 22 and right montant 23 all can set up to a plurality of, so that whole more firm.

Further, the first long bar hole 213 is provided on the mounting base 21, the second long bar hole 11 is provided on the base 1, and a line along which the length direction of the second long bar hole 11 is located is perpendicular to a line along which the length direction of the first long bar hole 213 is located. Through setting up first bar slot 213 on mount pad 21, set up second bar slot 11 on base 1, when using bolt lock mount pad 21, can adjust the bolt to the suitable position of first bar slot 213 and second bar slot 11 to realize adjusting the position that mount pad 21 is located on base 1, make the position of mount pad 21 comparatively suitable.

In some examples, the device further comprises a connecting plate 25, one side of the connecting plate 25 is fixed on the left vertical rod 22, the other side of the connecting plate 25 is fixed on the right vertical rod 23, and a connecting seat 26 connected with the limiting handrail plate 4 is arranged on the connecting plate 25. Wherein, connecting plate 25 slope sets up, through setting up connecting plate 25, is convenient for install connecting seat 26, and connecting seat 26 and spacing handrail board 4 are connected of being convenient for to accomplish the installation of spacing handrail board 4.

As an example, the limiting support plate 4 includes a first limiting support plate 421 and a second limiting support plate 422, the first limiting support plate 421 is fixed on one side of the connecting plate 25 through the connecting seat 26, and the second limiting support plate 422 is fixed on the other side of the connecting plate 25 through the connecting seat 26. Wherein, the conveying assembly 3 includes a first conveying assembly 33 and a second conveying assembly 34, the first conveying assembly 33 is disposed opposite to the first limiting support plate 421, the second conveying assembly 34 is disposed opposite to the second limiting support plate 422, and when in use, a group of non-supporting ring bottle blanks 10 can be disposed on the first conveying assembly 33, another group of non-supporting ring bottle blanks 10 can be disposed on the second conveying assembly 34 by disposing the first limiting support plate 421 and the second limiting support plate 422, thereby improving the blank separating efficiency of the non-supporting ring bottle blanks 10.

The bottom of the blank holder 51 in this example is provided with a third elongated hole 511, and a line along which the length direction of the third elongated hole 511 is located is perpendicular to a line along which the length direction of the second elongated hole 11 is located. By providing the third elongated hole 511, when the blank positioning seat 51 is mounted, a bolt can be used to pass through different positions of the second elongated hole 11 and the third elongated hole 511, so that the blank positioning plate 52 is locked at a proper position of the base 1, and the positioning groove 521 is convenient to face the output end 32 of the conveying assembly 3.

In some examples, the blank positioning assembly 5 further includes a driving device 53 for driving the blank positioning plate 52 to move left and right, the driving device 53 includes a driving cylinder 531 and a driving seat 532, the driving cylinder 531 is fixed on the side of the blank positioning seat 51, the driving seat 532 is connected with the driving cylinder 531 and is driven by the driving cylinder 531 to reciprocate, and the driving seat 532 is connected with the blank positioning plate 52. By arranging the driving device 53, the blank-entering positioning plate 52 is conveniently driven to move left and right, so that the unsupported ring bottle blank 10 in the positioning groove 521 is conveniently output to the next station, particularly, when the blank-entering positioning plate 52 is transported, the driving cylinder 531 drives the driving seat 532 to move, and the driving seat 532 moves to drive the blank-entering positioning plate 52 to synchronously move, so that the blank-entering positioning plate 52 can reciprocate left and right. Wherein, the driving seat 532 is connected with the blank positioning plate 52 through a bracket 533.

Further, the blank-entering positioning seat 51 comprises a positioning transverse plate 512, a first positioning vertical plate 513 and a second positioning vertical plate 514, wherein the positioning transverse plate 512 is fixedly connected to the base 1, the first positioning vertical plate 513 is connected with one end of the positioning transverse plate 512, and the second positioning vertical plate 514 is connected with the other end of the positioning transverse plate 512; the driving cylinder 531 is fixed to the first positioning riser 513 or the second positioning riser 514. By providing the first positioning riser 513 and the second positioning riser 514, it is convenient to install the driving cylinder 531, wherein the upper guide bar and the lower guide bar are provided between the first positioning riser 513 and the second positioning riser 514, and the driving seat 532 moves along the upper guide bar and the lower guide bar. When the driving seat 532 moves, an upper guide hole connected with the upper guide rod is formed in the upper portion of the driving seat 532, and a lower guide hole connected with the lower guide rod is formed in the lower portion of the driving seat 532, so that when the driving seat 532 moves, the driving seat 532 moves along the upper guide rod and the lower guide rod, and when the driving seat 532 moves, the driving seat 532 is smoother.

In some examples, the positioning slots 521 include a first positioning slot 521 and a second positioning slot 521, the first positioning slot 521 is fixed on the blank-in positioning plate 52 and faces an end of the first spacing handrail 421, and the second positioning slot 521 is fixed on the blank-in positioning plate 52 and faces an end of the second spacing handrail 422. By arranging the first positioning groove 521 and the second positioning groove 521, the bottle blanks 10 without supporting rings can be contained in the first positioning groove 521 and the second positioning groove 521, so that the blank separating efficiency is improved.

In this example, a transition baffle 522 is further disposed on the blank-in positioning plate 52, and the transition baffle 522 is located at the output end 32 of the conveying assembly 3. By providing the transition plate 522, the transfer assembly 3 transfers the unsupported ring blank 10 onto the transition plate 522 and slides into the positioning slot 521 when the unsupported ring blank 10 is positioned at the output end 32, thereby preventing the unsupported ring blank 10 from directly striking the positioning slot 521.

In some examples, the conveying assembly 3 includes a driving motor, a driving wheel, a connecting belt, and a driven wheel, the driving wheel is connected with the driving motor and driven by the driving motor to rotate, the connecting belt is connected with the driving wheel and the driven wheel, and the driven wheel is driven by the connecting belt to rotate. After the bottle blanks 10 without supporting rings are placed on the connecting belt, the driving motor drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the connecting belt, when the connecting belt rotates, the bottle blanks 10 without supporting rings on the connecting belt are driven to move into the positioning groove 521 through the transition partition 522, and finally the positioning groove 521 moves to realize blank separation.

Compared with the prior art, the automatic alignment and embryo dividing device has the advantages that the base 1, the frame body 2, the conveying assembly 3, the limiting support plates 4 and the embryo entering positioning assembly 5 are arranged, when the automatic alignment and embryo dividing device is used, the left sides of the plurality of unsupported ring bottle embryos 10 are abutted against the left limiting support plates 41, the right sides of the unsupported ring bottle embryos 10 are abutted against the right limiting support plates 42, accordingly, the unsupported ring bottle embryos 10 are prevented from shaking left and right, the conveying assembly 3 conveys the unsupported ring bottle embryos 10 into the positioning grooves 521 one by one and then outputs the supported ring bottle embryos, automatic alignment and embryo dividing of the unsupported ring bottle embryos is achieved, and the production efficiency of the unsupported ring bottle embryos 10 is improved.

The above examples and drawings are not intended to limit the form or form of the present utility model, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present utility model.

Claims (10)

1. Automatic row embryo separating mechanism of bottle blowing machine no support ring bottle embryo, its characterized in that: comprises a base, a frame body, a conveying component, a limiting support plate and a blank-entering positioning component;

the frame body is arranged on the base; the conveying assembly is positioned in the frame body, a conveying channel for the movement of the bottle blank without the support ring is formed between the conveying assembly and the frame body, the conveying assembly comprises an input end and an output end, and the height of the input end is larger than that of the output end; the limiting support plate is arranged on the frame body and positioned in the conveying channel, and comprises a left limiting support plate propped against the left side of the bottle blank without the supporting ring and a right limiting support plate propped against the right side of the bottle blank without the supporting ring; the blank entering positioning assembly comprises a blank entering positioning seat and a blank entering positioning plate, wherein the blank entering positioning seat is fixed on the base, a positioning groove corresponding to the output end is formed in the blank entering positioning plate, and the blank entering positioning plate can be arranged on the blank entering positioning seat in a left-right moving mode.

2. The automatic alignment and embryo separation mechanism for the bottle blowing machine without the support ring bottle embryo as set forth in claim 1, wherein: the support body includes mount pad, left montant, right montant and transverse connection pole, the mount pad is fixed on the base, the mount pad left side sets up left mounting panel, the mount pad right side sets up right mounting panel, left side montant lower extreme is fixed on left mounting panel, right side montant lower extreme is fixed on right mounting panel, transverse connection pole one end is connected with left montant upper end, the transverse connection pole other end is connected with right montant upper end.

3. The automatic alignment and embryo separation mechanism for the bottle blowing machine without the support ring bottle embryo as set forth in claim 2, wherein: the mounting seat is provided with a first strip-shaped long hole, the base is provided with a second strip-shaped long hole, and the straight line of the second strip-shaped long hole in the length direction is perpendicular to the straight line of the first strip-shaped long hole in the length direction.

4. The automatic alignment and embryo separation mechanism for the bottle blowing machine without the support ring bottle embryo as set forth in claim 2, wherein: the connecting plate is characterized by further comprising a connecting plate, one side of the connecting plate is fixed on the left vertical rod, the other side of the connecting plate is fixed on the right vertical rod, and a connecting seat connected with the limiting support plate is arranged on the connecting plate.

5. The automatic alignment and embryo separation mechanism for the bottle blowing machine without a supporting ring bottle embryo as set forth in claim 4, wherein: the limiting support plate comprises a first limiting support plate and a second limiting support plate, the first limiting support plate is fixed on one side of the connecting plate through the connecting seat, and the second limiting support plate is fixed on the other side of the connecting plate through the connecting seat.

6. The automatic alignment and embryo separation mechanism for the bottle blowing machine without the support ring bottle embryo as set forth in claim 2, wherein: the bottom of the blank-entering positioning seat is provided with a third strip-shaped long hole, and the straight line of the length direction of the third strip-shaped long hole is perpendicular to the straight line of the length direction of the second strip-shaped long hole.

7. The automatic alignment and embryo separation mechanism for the bottle blowing machine without the support ring bottle embryo as set forth in claim 1, wherein: the blank feeding positioning assembly further comprises a driving device for driving the blank feeding positioning plate to move left and right, the driving device comprises a driving cylinder and a driving seat, the driving cylinder is fixed on the side portion of the blank feeding positioning seat, the driving seat is connected with the driving cylinder and driven by the driving cylinder to reciprocate, and the driving seat is connected with the blank feeding positioning plate.

8. The automatic alignment and embryo separation mechanism for the bottle blowing machine without a supporting ring bottle embryo as set forth in claim 7, wherein: the blank-entering positioning seat comprises a positioning transverse plate, a first positioning vertical plate and a second positioning vertical plate, wherein the positioning transverse plate is fixedly connected to the base, the first positioning vertical plate is connected with one end of the positioning transverse plate, and the second positioning vertical plate is connected with the other end of the positioning transverse plate; the driving cylinder is fixed on the first positioning vertical plate or the second positioning vertical plate.

9. The automatic alignment and embryo separation mechanism for the bottle blowing machine without a supporting ring bottle embryo as set forth in claim 8, wherein: an upper guide rod and a lower guide rod are arranged between the first positioning vertical plate and the second positioning vertical plate, and the driving seat moves along the upper guide rod and the lower guide rod.

10. The automatic alignment and embryo separation mechanism for the bottle blowing machine without a supporting ring bottle embryo as set forth in claim 7, wherein: and a transition baffle plate is further arranged on the blank-entering positioning plate and is positioned at the output end of the conveying assembly.