CN110406077B - But mode locking device of quick replacement bottle blowing machine mould - Google Patents

Abstract

The invention discloses a mold locking device capable of rapidly replacing a bottle blowing machine mold, wherein grooves are formed in two sides of the mold, and the mold locking device comprises a first mold locking mechanism and a second mold locking mechanism which are respectively arranged on two sides of a mounting seat; the first mold locking mechanism comprises a sliding block which is slidably arranged on the mounting seat, a boss which is arranged on the sliding block and is used for being clamped into the groove, a pressing component which is used for elastically pressing the sliding block on the mounting seat, a first hole which is formed in the mounting seat, a second hole which is formed in the sliding block, and an elastic component which is elastically telescopic at one end and is arranged in the first hole and is clamped into the second hole at the other end; when the first mode locking mechanism is positioned at a first working position, the boss is clamped into the groove, and the elastic component is clamped into the second hole; when the first mode locking mechanism is positioned at the second working position, the elastic component is separated from the second hole, and the boss is far away from the groove; the second mold locking mechanism is the same as or different from the first mold locking mechanism. The mold locking device can lock and unlock the mold without disassembling parts.

Description

But mode locking device of quick replacement bottle blowing machine mould

Technical Field

The invention relates to the technical field of bottle blowing, in particular to a mold locking device capable of quickly replacing a mold of a bottle blowing machine.

Background

With the continuous development of the beverage industry, the time requirement for the mold replacement of the bottle blowing machine is higher and higher. When the same bottle blowing line is used for blowing different bottle types of different batches, the corresponding mold needs to be replaced on the mold mounting seat. The existing mode locking device for the bottle blowing machine die is complex in structure, so that the die replacement time is long, and the production efficiency of the bottle blowing machine is low.

Disclosure of Invention

The invention aims to provide a mold locking device capable of quickly replacing a mold of a bottle blowing machine, and the mold can be locked and unlocked in one step without disassembling parts.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the mold locking device is used for locking the mold in the mounting seat, grooves are formed in two sides of the mold, and the mold locking device comprises a first mold locking mechanism and a second mold locking mechanism which are respectively arranged on two sides of the mounting seat;

the first mold locking mechanism comprises a sliding block which is arranged on the mounting seat and can slide along the direction approaching to or far from the groove, a boss which is arranged on the sliding block and is used for being clamped into the groove, a pressing component which is used for elastically pressing the sliding block on the mounting seat, a first hole which is formed in the mounting seat, a second hole which is formed in the sliding block, and an elastic component which is elastically telescopic at one end and is arranged in the first hole and is clamped into the second hole at the other end;

the first mode locking mechanism has a first working position and a second working position:

when the first mode locking mechanism is positioned at the first working position, the boss is clamped into the groove, and the elastic component is clamped into the second hole;

when the first mode locking mechanism is in the second working position, the elastic assembly is separated from the second hole, and the boss is far away from the groove;

the second mode locking mechanism is the same as or different from the first mode locking mechanism.

Preferably, the sliding block comprises a first connecting block, a second connecting block and a third connecting block which are sequentially connected in the vertical direction, a slotted hole which is used for being elastically compressed by the compressing assembly is formed in the first connecting block and the third connecting block, and the length extension direction of the slotted hole is parallel to the sliding direction of the sliding block.

More preferably, the second connecting block is protruding on the mounting base, and the second hole is formed in the second connecting block.

More preferably, the first connecting block and the third connecting block are gradually thickened along the direction far away from the groove to form a first inclined plane, the pressing assembly comprises a pressing plate attached to the first inclined plane, a first elastic piece, a stud and a nut, the first elastic piece, the stud and the nut are used for elastically pressing the pressing plate onto the first inclined plane, and the pressing plate is provided with a second inclined plane attached to the first inclined plane.

Preferably, the elastic component comprises a second elastic piece which is elastically telescopic and is arranged in the first hole, and a limiting shaft with one end coaxially connected to the second elastic piece, and the other end of the limiting shaft is used for being clamped into the second hole.

Preferably, the elastic expansion direction of the pressing component is parallel to the elastic expansion direction of the elastic component and perpendicular to the sliding direction of the sliding block.

Preferably, when the second mold locking mechanism is different from the first mold locking mechanism, the second mold locking mechanism comprises a detachable fixing plate arranged on the mounting seat and a screw used for installing the fixing plate on the mounting seat, and the fixing plate is also provided with a boss used for being clamped into the groove.

Preferably, when the first mold locking mechanism is in the first working position, the first mold locking mechanism is used for locking the mold in the mounting seat in cooperation with the second mold locking mechanism; and when the first mode locking mechanism is positioned at the second working position, the first mode locking mechanism is used for unlocking the die.

Preferably, when the first mode locking mechanism is in the second working position, the other end of the elastic component abuts against the sliding block.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages: according to the mold locking device capable of rapidly replacing the mold of the bottle blowing machine, the first mold locking mechanism is arranged, when the first mold locking mechanism is in the first working position, the boss is clamped into the groove, and the elastic component is clamped into the second hole, so that the mold is locked; when the first mold locking mechanism is positioned at the second working position, the elastic component is separated from the second hole, and the boss is far away from the groove, so that the mold is unlocked; through inserting frock slip slider in the second hole, realize locking and unblock to the mould, whole process need not to dismantle the part, can realize locking and unblock to the mould in one step, has shortened the mould change time by a wide margin, has improved the production efficiency of bottle blowing machine, has also reduced operating worker's working strength simultaneously.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic diagram of a second embodiment of the apparatus of the present invention;

FIG. 3 is a front view of FIG. 1 (first mode locking mechanism in a first operating position);

FIG. 4 is a second elevation view of FIG. 1 (first mold locking mechanism in a second operational position);

FIG. 5 is a cross-sectional view of the apparatus of the present invention;

FIG. 6 is a second cross-sectional view of the apparatus of the present invention;

FIG. 7 is an enlarged schematic view of A in FIG. 1;

fig. 8 is a schematic view of mold removal.

Wherein: 1. a mold; 2. a mounting base; 3. a groove; 4. a slide block; 41. a first connection block; 42. a second connection block; 43. a third connecting block; 5. a boss; 6. a first hole; 7. a second hole; 8. a first inclined surface; 9. a pressing plate; 10. a first elastic member; 11. a stud; 12. a nut; 13. a second elastic member; 14. a limiting shaft; 15. a fixing plate; 16. a screw; 17. and (5) a tool.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings.

Referring to fig. 1-8, a mold locking device capable of quickly replacing a mold of a bottle blowing machine is disclosed, and is used for locking a mold 1 in a mounting seat 2. In this embodiment, the mounting seats 2 are semi-cylindrical, and correspondingly, the molds 1 are semi-cylindrical, and two molds 1 in the two mounting seats 2 are mutually spliced to form a complete mold for bottle blowing.

The two sides of the mold 1 are respectively provided with a groove 3, and the mold locking device capable of rapidly replacing the mold of the bottle blowing machine comprises a first mold locking mechanism and a second mold locking mechanism which are respectively arranged at the two sides of the mounting seat 2. The first mode locking mechanism is used for propping against the groove 3 on one side of the die 1, the second mode locking mechanism is used for propping against the groove 3 on the other side of the die 1, and the first mode locking mechanism and the second mode locking mechanism are matched with each other to lock the die 1 in the mounting seat 2.

The first mold locking mechanism includes a slider 4 (see fig. 4, in which the sliding direction of the slider 4 is the left-right direction in the drawing) slidably disposed on the mounting base 2 in a direction approaching or separating from the groove 3, and a boss 5 disposed on the slider 4 and engaged in the groove 3.

In the present embodiment, the slider 4 includes a first connection block 41, a second connection block 42, and a third connection block 43 connected in order in the vertical direction. The first connection block 41 is positioned uppermost, and the boss 5 is connected to a side portion of the first connection block 41.

The first mold locking mechanism further comprises a pressing component for elastically pressing the sliding block 4 on the mounting seat 2. The first connecting block 41 and the third connecting block 43 are each provided with a slot for being elastically pressed by the pressing member, and the length extending direction of the slot is parallel to the sliding direction of the slider 4, i.e., extends in the left-right direction. The elastic expansion and contraction direction of the pressing assembly is shown in fig. 5, and expands and contracts in the left-right direction in fig. 5, i.e., perpendicular to the sliding direction of the slider 4. With this arrangement, first, the elastic component force of the pressing assembly in the moving direction of the slider 4 is zero, that is, the elastic restoring force of the pressing assembly does not cause the slider 4 to have a tendency to slide; secondly, since the slider 4 is elastically pressed on the mounting base 2, when the slider 4 needs to be moved, the slider 4 can be moved against the elastic pressing force of the pressing assembly.

Referring to fig. 7, in the present embodiment, the first connecting block 41 and the third connecting block 43 are gradually thickened in a direction away from the groove 3 to form a first inclined surface 8, and the pressing assembly includes a pressing plate 9 attached to the first inclined surface 8, and obviously, the pressing plate 9 should have a second inclined surface attached to the first inclined surface 8. By providing the first inclined surface 8, the slider 4 can be made to slide reciprocally in the sliding direction more easily. The compression assembly further comprises a stud 11 for penetrating into the mounting seat 2, a first elastic member 10 and a nut 12. The first connecting block 41, the pressing plate 9, the first elastic member 10, and the nut 12 are sequentially sleeved on the stud 11. The first connecting block 41 is elastically pressed against the mount 2.

The first mold locking mechanism further comprises a first hole 6 formed in the mounting seat 2, a second hole 7 formed in the sliding block 4, and an elastic component with one end being elastically telescopic and arranged in the first hole 6 and the other end being clamped into the second hole 7. In this embodiment, the second connection block 42 is protruding on the mounting base 2, that is, the gaps between the second connection block 42 and the mounting base 2 are distributed, and the second hole 7 is formed in the second connection block 42.

In this embodiment, the elastic component includes a second elastic member 13 that is elastically stretchable and arranged in the first hole 6, and a limiting shaft 14 with one end coaxially connected to the second elastic member 13, where the other end of the limiting shaft 14 is used to be clamped into the second hole 7. The first hole 6, the second elastic piece 13, the limiting shaft 14 and the second hole 7 extend coaxially, and the axial lines of the first hole, the second elastic piece and the limiting shaft extend in the horizontal direction. The elastic expansion and contraction direction of the elastic component is shown in fig. 5, and the elastic expansion and contraction direction of the elastic component is parallel to the elastic expansion and contraction direction of the pressing component along the left-right direction in fig. 5, namely, the sliding direction of the vertical sliding block 4. In this embodiment, the first elastic member 10 and the second elastic member 13 are respectively located at two sides of the slider 4, as shown in fig. 5, the first elastic member 10 is located at the right side of the first connecting block 41, and the second elastic member 13 is located at the left side of the second connecting block 42, and by this arrangement, the two elastic members mutually cooperate to abut against the slider 4, so that they are elastically fixed on the mounting base 2.

The second mold locking mechanism may have the same structure as the first mold locking mechanism, and at this time, the mold 1 may be locked and unlocked by the mold locking mechanism on either side. In this embodiment, the structure of the second mold locking mechanism is different from that of the first mold locking mechanism. The second mold locking mechanism comprises a detachable fixing plate 15 arranged on the mounting seat 2 and a screw 16 used for mounting the fixing plate 15 on the mounting seat 2, and a boss 5 used for being clamped into the groove 3 is also arranged on the fixing plate 15. Referring to fig. 3, the right side of the first connecting block 41 on the left side is provided with a boss 5, and the left side of the fixing plate 15 on the right side is provided with another boss 5 for being respectively caught in the two grooves 3 on the left and right sides of the mold 1.

The first mode locking mechanism is provided with a first working position and a second working position:

when the first mode locking mechanism is positioned at a first working position, the boss 5 is clamped into the corresponding groove 3, and the elastic component is clamped into the corresponding second hole 7; the first mold locking mechanism is used for locking the mold 1 in the mounting seat 2 in cooperation with the second mold locking mechanism;

when the first mode locking mechanism is in the second working position, the elastic component is separated from the second hole 7, and the boss 5 is far away from the groove 3; the first mold locking mechanism is used for unlocking the mold 1, at this time, referring to fig. 8, the mold 1 can be separated from the mounting seat 2 along the counterclockwise rotation direction, so as to realize the replacement of the mold 1.

In this embodiment, when the first mold locking mechanism is in the second working position, the other end of the elastic component abuts against the slider 4. I.e. the other end of the limiting shaft 14 abuts against the slide 4. Since the other end of the limiting shaft 14 is not separated from the slide block 4, after the mold 1 is replaced, the other end of the limiting shaft 14 can be clamped into the corresponding second hole 7 again only by moving the slide block 4 reversely.

According to the mold locking device capable of rapidly replacing the mold of the bottle blowing machine, the first mold locking mechanism is arranged, when the first mold locking mechanism is in the first working position, the boss 5 is clamped into the groove 3, and the elastic component is clamped into the second hole 7, so that the mold 1 is locked; when the first mold locking mechanism is in the second working position, the elastic component is separated from the second hole 7, and the boss 5 is far away from the groove 3, so that the mold 1 is unlocked; the tool 17 is inserted into the second hole 7 to slide the sliding block 4, so that the locking and unlocking of the die 1 are realized, the whole process does not need to disassemble parts, the die 1 can be locked and unlocked in one step, the die 1 replacement time is greatly shortened, the production efficiency of the bottle blowing machine is improved, and meanwhile, the working strength of operators is also reduced.

In this embodiment, the tooling 17 includes a handle and a top shaft connected to the handle for being inserted into the second hole 7, and the number of top shafts on the tooling 17 can be correspondingly adjusted according to the number of elastic components. After the elastic component is ejected out of the second hole 7 by the ejection shaft, the elastic component moves along the sliding direction of the sliding block 4, and then the sliding block 4 can be controlled to move.

The working procedure of this embodiment is specifically described below:

when the die 1 is replaced, the tool 17 is inserted into the second hole 7, the limiting shaft 14 is ejected out of the second hole 7, the second elastic piece 13 is compressed, then the tool 17 is moved, the sliding block 4 is driven to move leftwards (corresponding to the left-right direction in fig. 4), the boss 5 on the first connecting block 41 is far away from the groove 3 of the die 1, and the die 1 is unlocked; at this time, the limiting shaft 14 is abutted against the second connecting block 42, the second elastic piece 13 is compressed, then the die 1 is rotated anticlockwise, and the die is screwed out of the mounting seat 2 from one side of the first die locking mechanism;

and the needed die 1 is screwed into the mounting seat 2 clockwise from one side of the first die locking mechanism, the tool 17 is moved, the sliding block 4 is driven to move rightwards (corresponding to the left-right direction in fig. 4), the limiting shaft 14 is aligned with the second hole 7, the tool 17 is pulled out, the limiting shaft 14 is jacked into the second hole 7 under the action of the second elastic piece 13, and at the moment, the boss 5 on the first connecting block 41 is clamped into the groove 3 of the die 1, so that the die 1 is locked.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims (5)

1. But locking mould device of quick replacement bottle blowing machine mould for with the mould locking in the mount pad, the both sides of mould all are equipped with recess, its characterized in that: the mold locking device comprises a first mold locking mechanism and a second mold locking mechanism which are respectively arranged at two sides of the mounting seat;

the first mold locking mechanism comprises a sliding block which is arranged on the mounting seat and can slide along the direction approaching to or far from the groove, a boss which is arranged on the sliding block and is used for being clamped into the groove, a pressing component which is used for elastically pressing the sliding block on the mounting seat, a first hole which is formed in the mounting seat, a second hole which is formed in the sliding block, and an elastic component which is elastically telescopic at one end and is arranged in the first hole and is clamped into the second hole at the other end;

the first mode locking mechanism has a first working position and a second working position:

when the first mode locking mechanism is positioned at the first working position, the boss is clamped into the groove, and the elastic component is clamped into the second hole;

when the first mode locking mechanism is in the second working position, the elastic assembly is separated from the second hole, and the boss is far away from the groove;

the second mode locking mechanism is the same as or different from the first mode locking mechanism;

the sliding block comprises a first connecting block, a second connecting block and a third connecting block which are sequentially connected in the vertical direction, slotted holes used for being elastically pressed by the pressing component are formed in the first connecting block and the third connecting block, and the length extension direction of the slotted holes is parallel to the sliding direction of the sliding block;

the second connecting block is arranged on the mounting seat in a protruding mode, and the second hole is formed in the second connecting block; the elastic component comprises a second elastic piece which can elastically stretch and retract and is arranged in the first hole, and a limiting shaft with one end coaxially connected to the second elastic piece, wherein the other end of the limiting shaft is used for being clamped into the second hole; when the first mode locking mechanism is positioned at the second working position, the other end of the elastic component is propped against the sliding block.

2. The mold locking device capable of quickly replacing a mold of a bottle blowing machine according to claim 1, wherein: the first connecting block and the third connecting block are gradually thickened along the direction away from the groove to form a first inclined plane, the pressing assembly comprises a pressing plate attached to the first inclined plane, a first elastic piece, a stud and a nut, the first elastic piece, the stud and the nut are used for elastically pressing the pressing plate onto the first inclined plane, and the pressing plate is provided with a second inclined plane attached to the first inclined plane.

3. The mold locking device capable of quickly replacing a mold of a bottle blowing machine according to claim 1, wherein: the elastic expansion direction of the pressing component is parallel to the elastic expansion direction of the elastic component and perpendicular to the sliding direction of the sliding block.

4. The mold locking device capable of quickly replacing a mold of a bottle blowing machine according to claim 1, wherein: when the second mode locking mechanism is different from the first mode locking mechanism, the second mode locking mechanism comprises a detachable fixing plate arranged on the mounting seat and a screw used for installing the fixing plate on the mounting seat, and the fixing plate is also provided with a boss used for being clamped into the groove.

5. The mold locking device capable of quickly replacing a mold of a bottle blowing machine according to claim 1, wherein: when the first mode locking mechanism is positioned at the first working position, the first mode locking mechanism is used for being matched with the second mode locking mechanism to lock the die in the mounting seat; and when the first mode locking mechanism is positioned at the second working position, the first mode locking mechanism is used for unlocking the die.