CN210453715U - Double-row station die-closing mechanism of bottle blowing machine adopting linkage unit - Google Patents

Abstract

The utility model discloses a double station locking mechanism of bottle blowing machine adopting linkage unit. Belongs to the field of bottle blowing, and the mechanism comprises a blow molding assembly, a bottom mold assembly, a pressurizing assembly and a controller, wherein the blow molding assembly comprises a linkage unit. The linkage unit is arranged between the double rows of blow moulds, namely the linkage unit is arranged on the four blow moulds, the linkage unit enables the first blow mould and the third blow mould to be connected and realize linkage, and the linkage unit enables the fourth blow mould and the second blow mould to be connected and realize linkage, so that the control degree of each blow mould is reduced, the linkage precision is improved through the linkage unit, and the yield is improved; through the lifting pressurization assembly arranged between the double rows of blow molds, the blow molds are further pressurized, the sealing effect is improved, and the yield is improved.

Description

Double-row station die-closing mechanism of bottle blowing machine adopting linkage unit

Technical Field

The utility model relates to a bottle blowing technique especially relates to an adopt linkage unit's double station locking mechanism of bottle blowing machine.

Background

In the traditional bottle blowing processing, the production efficiency of the traditional single-row station is lower, and the occupied space area of the double-row station is large and the cost is higher. In addition, the traditional bottle blowing machine with double rows of stations is complex to control, each station needs to be independently controlled, the control precision is difficult to achieve, and the rate of finished products is reduced.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a double-station die assembly mechanism of a bottle blowing machine adopting a linkage unit.

The purpose of the utility model is realized by adopting the following technical scheme:

a double-row station die assembly mechanism of a bottle blowing machine adopting a linkage unit comprises a blow molding assembly, a bottom die assembly, a pressurizing assembly and a controller, wherein the blow molding assembly is arranged above a blow molding bedplate, and the bottom die assembly and the pressurizing assembly are arranged below the blow molding bedplate; the blow mold assembly comprises a blow mold oil cylinder, four blow molds and a linkage unit, wherein a first blow mold and a fourth blow mold in the four blow molds are arranged in a relatively openable and closable mode to form a first row of combined mold parts, a second blow mold and a third blow mold are arranged in a relatively openable and closable mode to form a second row of combined mold parts, the two row of combined mold parts form a bottle blowing double-row station, two groups of blow mold oil cylinders are arranged on the outer sides of the two row of combined mold parts and are used for driving the four blow molds to open and close, and the two groups of blow mold oil cylinders are fixedly arranged on a blow mold platen through a blow mold oil cylinder seat; the linkage unit enables the first blow mould and the third blow mould to be connected in a linkage mode, and the linkage unit enables the fourth blow mould and the second blow mould to be connected in a linkage mode; a pressurizing hole is formed in the middle of the blow mold platen, the upper part of the pressurizing assembly is placed into the pressurizing hole in a lifting mode, and pressure is applied to the blow molds on two sides through opening and closing of the upper part of the pressurizing assembly; the bottom die assembly is arranged below the blow molding assembly, the bottom die assembly enables the bottom die to be arranged at the middle position of the bottom of each row of combined die pieces in a lifting mode, and the bottom die and the die cavity of each row of combined die pieces form a bottle body die cavity; the stroke of the blow molding oil cylinder is controllable and is in telecommunication connection with the controller.

Preferably, the link unit is provided at one end of the four blow molds or at both ends of the four blow molds.

Preferably, the link unit includes a blow mold tension link rod, a blow mold pressure spring, two blow mold pressure spring seats provided at intermediate positions on the end side outer walls of the inner two blow molds, respectively, and a blow mold pressure spring guide rod through which the blow mold pressure spring is provided between the two blow mold pressure spring seats.

Preferably, two ends of the four blow mold tension connecting rods are respectively arranged on the blow molds needing linkage through fixing screws.

Preferably, the uppermost first blow mold tension connecting rod is connected with the fourth blow mold and the second blow mold to realize linkage; the adjacent second blow mold tension connecting rod is connected with the first blow mold and the third blow mold to realize linkage; the third blow mould tension connecting rod is connected with the first blow mould and the third blow mould to strengthen and stably link; the fourth lowermost blow mold tension connecting rod connects the fourth blow mold and the second blow mold to reinforce and stabilize the linkage.

Preferably, in order to improve the stability of the interlocking, guide holes are provided in the first blow mold and the fourth blow mold, guide holes of the same specification are also provided in the second blow mold and the third blow mold, and a blow mold guide post is provided to penetrate the guide holes to improve the stability of the interlocking

Compared with the prior art, the utility model has the advantages of ① set up the linkage unit between double blow mould, set up the linkage unit on four blow moulds promptly, the linkage unit makes first blow mould and third blow mould connect and realizes the linkage, the linkage unit makes fourth blow mould and second blow mould connect and realizes the linkage to this control degree that reduces every blow mould, improves into the linkage precision through the linkage unit, improves the yield, ② sets up pressure boost subassembly that goes up and down between the double blow mould, reaches to blow mould further pressure boost and improves airtight effect with this improvement yield.

Drawings

Fig. 1 is a schematic structural diagram of a double-row station die assembly mechanism of a bottle blowing machine adopting a linkage unit;

FIG. 2 is a schematic structural diagram of a bottle blowing machine with a double-row station mold closing mechanism at another view angle;

FIG. 3 is a schematic structural view of a pressurizing assembly;

FIG. 4 is a schematic cross-sectional view of a double-row station mold clamping mechanism of the bottle blowing machine when not in operation;

FIG. 5 is a schematic view of a first mold clamping structure;

FIG. 6 is a schematic view of the structure of the second mold clamping;

FIG. 7 is a schematic view of the structure of the third mold clamping;

FIG. 8 is a schematic view of the first mold opened configuration;

FIG. 9 is a schematic view of the second mold opening;

FIG. 10 is a schematic view of the structure of mold opening III.

In the figure: 1. blowing the mould oil cylinder; 2. blow molding the cylinder block; 3. a first blow mold; 4. fourth blow molding; 5. a second blow mold; 6. third blow molding; 7. blow molding the tension connecting rod; 8. blow molding a compression spring; 9. blow molding the pressure spring seat; 10. blow molding a compression spring guide bar; 11. blowing the guide pillar by a mold; 12. a bottom die guide post; 13. a bracket guide post; 14. a lock pin; 15. a lock pin side plate; 16. a bolt; 17. a latch base plate; 18. a lockpin oil cylinder front flange fixing plate; 19. a bottom die guide plate; 20. a bolt oil cylinder; 21. the bottom die oil cylinder and the pin support oil cylinder share a fixing plate; 22. a lock support guide post; 23. a pin support moving oil cylinder; 24. a bottom die oil cylinder; 25. a latch pull spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, a double-row station mold clamping mechanism of a bottle blowing machine adopting a linkage unit comprises a blow mold assembly, a bottom mold assembly, a pressurizing assembly and a controller, and the specific assembly structure is as follows.

Blow mold assembly

The blow mold assembly comprises a blow mold cylinder 1 and four blow molds (3/4/5/6), wherein a first blow mold 3 and a fourth blow mold 4 in the four blow molds (3/4/5/6) are arranged oppositely to be capable of opening and closing to form a first row of combined mold parts, a second blow mold 5 and a third blow mold 6 are arranged oppositely to be capable of opening and closing to form a second row of combined mold parts, the two row of combined mold parts form a bottle blowing double-row station, two groups of blow mold cylinders 1 are arranged on the outer sides of the two row of combined mold parts and are used for driving the four blow molds (3/4/5/6) to open and close, and the two groups of blow mold cylinders 1 are fixedly arranged on a blow mold platen (the largest connecting plate in the figure) through a blow mold cylinder seat 2.

Two oil cylinders are arranged in parallel on each group of blow mold oil cylinders 1, the end part of an output shaft of one group of blow mold oil cylinders 1 arranged on the outer side of the first row of mold closing members is fixedly connected with the outer wall of the first blow mold 3, the end part of the output shaft of one group of blow mold oil cylinders 1 arranged on the outer side of the second row of mold closing members is fixedly connected with the outer wall of the second blow mold 5, a pressurizing gap is formed between the fourth blow mold 4 and the third blow mold 6, and the lock pin side plate 15 can be inserted into the pressurizing gap in a lifting mode.

A linkage unit is provided to the four blow molds (3/4/5/6), and the linkage unit links the first blow mold 3 and the third blow mold 6 to each other, and the linkage unit links the fourth blow mold 4 and the second blow mold 5 to each other.

The link unit is provided at one end of the four blow molds (3/4/5/6) or at both ends of the four blow molds (3/4/5/6). Preferably, referring to fig. 1, linkage units are provided at both ends of the four blow molds (3/4/5/6).

Specifically, the link unit includes a blow mold tension connecting rod 7, a blow mold pressure spring 8, a blow mold pressure spring seat 9, and a blow mold pressure spring guide rod 10. Two blow mold pressure spring seats 9 are provided between the inner two blow molds (fourth blow mold 4 and third blow mold 6), respectively, and a blow mold pressure spring 8 is provided between the two blow mold pressure spring seats 9 via a blow mold pressure spring guide rod 10.

Two ends of the four blow mold tension connecting rods 7 are respectively arranged on the blow molds needing linkage through fixing screws. The concrete relation is as follows: the uppermost first blow mould tension connecting rod 7 is connected with the fourth blow mould 4 and the second blow mould 5 to realize linkage; the lower second blow mould tension connecting rod 7 is connected with the first blow mould 3 and the third blow mould 6 to realize linkage; the lower third blow mould tension connecting rod 7 is connected with the first blow mould 3 and the third blow mould 6 for connection reinforcement and stable linkage; the fourth lowermost blow mold tension connecting rod 7 connects the fourth blow mold 4 and the second blow mold 5 to reinforce and stabilize the linkage.

Further, in order to improve the stability of the interlocking, guide holes are provided in the first blow mold 3 and the fourth blow mold 4, guide holes of the same specification are also provided in the second blow mold 5 and the third blow mold 6, and a blow mold guide post 11 is provided to penetrate the guide holes.

Second, basement membrane subassembly

The bottom die assembly comprises a bottom die, bottom die guide posts 12, a bottom die guide plate 19, a bottom die oil cylinder and pin support oil cylinder shared fixing plate 21 and a bottom die oil cylinder 24, the bottom die assembly is arranged below the blow molding assembly, a cylinder body of the bottom die oil cylinder 24 is fixed to the bottom die oil cylinder and pin support oil cylinder shared fixing plate 21, the bottom die oil cylinder and pin support oil cylinder shared fixing plate 21 is in supporting connection with the blow molding platen through support guide posts 13, an output shaft of the bottom die oil cylinder 24 is connected to the lower end face of the bottom die guide plate 19, the upper end face of the bottom die guide plate 19 is vertically connected with at least two bottom die guide posts 12, the top end of the bottom die guide post 12 is connected with the bottom die, the bottom die is arranged at the middle position of the bottom of each row of mold assembly in a.

Third, pressure boost subassembly

The middle of the blow mold platen is provided with a pressurizing hole, the pressurizing hole is positioned between the two combined mold pieces, the upper part of the pressurizing assembly can be placed into the pressurizing hole in a lifting way, and pressure is applied to the blow molds at two sides by opening and closing the upper part of the pressurizing assembly.

The pressurizing assembly comprises a lock pin 14, a lock pin side plate 15, a bolt 16, a bolt bottom plate 17, a lock pin oil cylinder front flange fixing plate 18, a bolt oil cylinder 20, a bottom die oil cylinder and pin support oil cylinder shared fixing plate 21, a lock support guide column 22 and a pin support moving oil cylinder 23; the lock pin 14 is embedded into the lock pin side plate 15 through a lock pin tension spring 25, and one end of the lock pin side plate 15 is connected to the lock pin oil cylinder front flange fixing plate 18 through a connecting plate; the locking support guide column 22 is driven by a pin support moving oil cylinder 23 to do up-and-down telescopic movement, the pin support moving oil cylinder 23 is fixedly connected to the middle position of the bottom die oil cylinder and the pin support oil cylinder at the bottom of a common fixing plate 21, and the top end of the locking support guide column 22 is fixedly connected to a locking pin oil cylinder front flange fixing plate 18; the lower end of the bolt 16 is fixedly connected to the bolt bottom plate 17, the bolt oil cylinder 20 is fixedly connected to the bottom end of the lock pin oil cylinder front flange fixing plate 18, the output shaft of the bolt oil cylinder 20 penetrates through the through hole in the lock pin oil cylinder front flange fixing plate 18 and then is fixedly connected to the bolt bottom plate 17, and the stroke of the bolt oil cylinder 20 is controllable and is in telecommunication connection with the controller.

Specifically, referring to fig. 3, a limiting top plate is arranged at the upper part of each locking pin side plate 15, a plurality of locking pin cavities are formed between two opposite locking pin side plates 15, two locking pin holes and four locking pin spring holes are arranged on the plate surface of each locking pin side plate 15, the locking pins 14 are embedded in the locking pin holes, the locking pin tension springs 25 are embedded in the locking pin spring holes, one ends of the locking pin tension springs 25 are fixed, the other ends of the locking pin tension springs are connected with the end parts of the locking pins 14, the locking pins 16 are inserted into the locking pin cavities and then support the locking pins 14 outwards, and the locking pin side plates 15 and the locking pins 14 are reset under the action of the locking pin.

The number of the bolt cavities and the number of the bolts 16 are three, the end part of each bolt 16 is a pointed guide end, and the width of each bolt 16 is gradually increased or gradually increased from the pointed guide end downwards.

The number of the bolt oil cylinders 20 is two, the number of the bottom die oil cylinders 24 is two, the number of the pin supporting moving oil cylinders 23 is one, the plane where the two bolt oil cylinders 20 are located and the plane where the two bottom die oil cylinders 24 are located are orthogonally arranged, and the pin supporting moving oil cylinders 23 are arranged between the two bottom die oil cylinders 24.

Fourth, the controller

The controller (not shown) is an industrial processor with shock and magnetic resistance. In order to reduce the cost, equivalent PLC, single chip microcomputer and the like can be adopted. Wherein, the stroke of the bolt oil cylinder 20, the pin support moving oil cylinder 23 and the bottom die oil cylinder 24 is controllable and is connected with the controller in a telecommunication way. And controlling each oil cylinder to move to a specified position through a controller.

Alternatively, each oil cylinder can be replaced by an electric cylinder.

Referring to fig. 4-10, a bottle blowing method of a double-station mold clamping mechanism of a bottle blowing machine comprises the following steps (wherein, the dotted arrows represent the force application directions of oil cylinders).

And (5) closing the first mold (see figure), wherein the two blow mold oil cylinders 1 simultaneously push the first blow mold 3 and the second blow mold 5 respectively, and push the third blow mold 6 and the fourth blow mold 4 through the linkage unit to pre-close the blow molds to the pre-mold closing position, so that the space with the width required by the safe rising of the pressurizing assembly is vacated.

Wherein the preliminary mold closing position is such that the pitches of the first and fourth blow molds 3 and 4, and the second and third blown films 5 and 6 are 12mm, respectively.

And (2) closing the mold two (see fig. 6), the pin support moving cylinder 23 pushes the whole pressurizing assembly to the pressurizing height, so that the lock pin side plate 15 and the plug pin 16 are lifted into the pressurizing gap between the fourth blow mold 4 and the third blow mold 6.

When the third mold is closed (see fig. 7), the latch oil cylinder 20 pushes the latch 16 to quickly push the lock pin 14, so that the lock pin 14 pushes the fourth blow mold 4 and the third blow mold 6, and the maximum gap between the fourth blow mold 4 and the third blow mold 6 is ensured when the compression mold is completely filled; synchronously, the blow mold oil cylinder 1 simultaneously and respectively further pushes the first blow mold 3 and the second blow mold 5 to move inwards; synchronously, the bottom die oil cylinder 24 pushes the bottom die upwards to reach the designated height; forming a complete bottle body mold cavity after the gapless mold closing, and completing the pressurization mold locking.

And blowing the bottle, opening by blowing, and blowing out the bottle shape to finish the whole blowing process. The process is a conventional bottle blowing process.

Opening the mold I (see fig. 8), retracting and resetting the bolt oil cylinder 20, contracting the lock pin tension spring 25 and completing resetting of the bolt 16; meanwhile, the bottom die oil cylinder 24 moves downwards to reset, and the bottom die retracts to the initial height.

And opening the mold II (see fig. 9), retracting and resetting the pin support moving oil cylinder 23, descending the pressurizing assembly to a safe height, and leaving a pressurizing gap.

And (3) opening the mold (see fig. 10), simultaneously and respectively pulling the first blow mold 3 and the second blow mold 5 outwards by the blow mold cylinders 1 at both sides, and pulling the fourth blow mold 4 and the third blow mold 6 by the linkage unit to open the cavity of the bottle body, thereby completing the mold opening.

The process is circularly carried out to realize the continuous working and processing of the bottle blowing. Through the increase of the blow molding assembly of the linkage unit, the stability and the yield of the blown bottles are improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (6)

1. The utility model provides an adopt linkage unit's double-row station locking mechanism of bottle blowing machine, the mechanism includes blow mould subassembly, die block subassembly, pressure boost subassembly and controller, and blow mould subassembly sets up on the blow mould platen, die block subassembly and pressure boost subassembly set up below the blow mould platen, its characterized in that:

the blow molding assembly comprises a blow molding oil cylinder (1), four blow molds (3/4/5/6) and a linkage unit, wherein a first blow mold (3) and a fourth blow mold (4) in the four blow molds (3/4/5/6) are arranged in a relatively openable and closable mode to form a first row of closed modules, a second blow mold (5) and a third blow mold (6) are arranged in a relatively openable and closable mode to form a second row of closed modules, the two rows of closed modules form a bottle blowing double-row station, two groups of blow molding oil cylinders (1) are arranged on the outer sides of the two rows of closed modules and used for driving the four blow molds (3/4/5/6) to open and close, and the two groups of blow molding oil cylinders (1) are fixedly installed on a blow molding platen through a blow molding oil cylinder seat (2); the linkage unit enables the first blow mould (3) and the third blow mould (6) to be connected and linked, and the linkage unit enables the fourth blow mould (4) and the second blow mould (5) to be connected and linked;

a pressurizing hole is formed in the middle of the blow mold platen, the upper part of the pressurizing assembly is placed into the pressurizing hole in a lifting mode, and pressure is applied to the blow molds on two sides through opening and closing of the upper part of the pressurizing assembly;

the bottom die assembly is arranged below the blow molding assembly, the bottom die assembly enables the bottom die to be arranged at the middle position of the bottom of each row of combined die pieces in a lifting mode, and the bottom die and the die cavity of each row of combined die pieces form a bottle body die cavity;

the stroke of the blow molding oil cylinder (1) is controllable and is in telecommunication connection with a controller.

2. The dual row station clamping mechanism of claim 1, wherein: the link unit is provided at one end of the four blow molds (3/4/5/6) or at both ends of the four blow molds (3/4/5/6).

3. The dual row station clamping mechanism of claim 1, wherein: the linkage unit comprises a blow-molding tension connecting rod (7), a blow-molding pressure spring (8), blow-molding pressure spring seats (9) and blow-molding pressure spring guide rods (10), wherein the two blow-molding pressure spring seats (9) are respectively arranged at the middle positions on the outer walls of the two inner blow molds at the end sides, and the blow-molding pressure spring (8) is arranged between the two blow-molding pressure spring seats (9) through the blow-molding pressure spring guide rods (10).

4. The dual row station clamping mechanism of claim 3, wherein: two ends of the four blow mold tension connecting rods (7) are respectively arranged on the blow mold needing linkage through fixing screws.

5. The dual row station clamping mechanism of claim 4, wherein: the first blow mould tension connecting rod (7) at the top is connected with the fourth blow mould (4) and the second blow mould (5) to realize linkage; the adjacent second blow mould tension connecting rod (7) is connected with the first blow mould (3) and the third blow mould (6) to realize linkage; the third blow mould tension connecting rod (7) is connected with the first blow mould (3) and the third blow mould (6) for strengthening and stably linking; the fourth lowest blow mould tension connecting rod (7) is connected with the fourth blow mould (4) and the second blow mould (5) for strengthening and stabilizing linkage.

6. The dual row station clamping mechanism as claimed in claim 4 or 5, wherein: furthermore, in order to improve the stability of the linkage, guide holes are formed in the first blow mold (3) and the fourth blow mold (4), guide holes of the same specification are also formed in the second blow mold (5) and the third blow mold (6), and a blow mold guide post (11) is provided to penetrate through the guide holes to improve the stability of the linkage.

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