CN215750696U - Die closing frame of bottle blowing machine - Google Patents

Abstract

The utility model discloses a bottle blowing machine die holder, aiming at providing a bottle blowing machine die holder capable of automatically feeding, which adopts the technical scheme that the bottle blowing machine die holder comprises a frame and also comprises: the sliding plate assembly comprises a front sliding plate, a middle sliding plate and a rear sliding plate; the mould assembly is arranged between the front sliding plate and the middle sliding plate; the connecting rod assembly is arranged between the middle sliding plate and the rear sliding plate; the output assembly is arranged on the rack and is positioned above the connecting rod assembly; the blowing device is arranged on the rack and is positioned above the die assembly; the feeding assembly is arranged between the air blowing device and the mold assembly, the feeding efficiency can be effectively improved, meanwhile, manual feeding is avoided, the working strength of workers is reduced, and further the working efficiency of the workers is improved.

Description

Die closing frame of bottle blowing machine

Technical Field

The utility model belongs to the technical field of molds, and particularly relates to a mold closing frame of a bottle blowing machine.

Background

The bottle blowing machine is a bottle blowing machine, and the most obvious explanation is that the bottle blowing machine can blow plastic particles (softened into liquid) or prepared bottle blanks into bottles by a certain technological means, and the bottle blowing machine is only provided with an air blowing device to blow the bottle blanks into the bottles.

For example, chinese patent application No. (CN2020213944939) discloses a bottle blowing mechanism of a bottle blowing machine, which includes an installation panel, a mold opening and closing servo driving device, a connecting rod device for opening and closing a mold, a mold closing device, and a bottle blank stretching and blowing device; the bottle blank stretching and blowing device is arranged below the installation panel, the opening and closing die servo driving device is connected with the opening and closing die connecting rod device, the opening and closing die servo driving device drives the opening and closing die connecting rod device to achieve the parallel opening and closing position of the closing die device, and a feeding assembly is not arranged on the bottle blowing mechanism, so that the feeding assembly needs to be additionally arranged to feed materials, the structure is complex, or manual feeding is adopted, the working strength of workers is increased, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a die closing frame of a bottle blowing machine, which can automatically feed.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a bottle blowing machine closes die carrier, includes the frame, still includes:

the sliding plate assembly is movably arranged in the rack and comprises a front sliding plate, a middle sliding plate and a rear sliding plate;

the mould assembly is arranged between the front sliding plate and the middle sliding plate;

the connecting rod assembly is arranged between the middle sliding plate and the rear sliding plate;

the output assembly is arranged on the rack, is positioned above the connecting rod assembly and is connected with the connecting rod assembly;

the blowing device is arranged on the rack and is positioned above the die assembly;

and the feeding assembly is arranged between the blowing device and the mold assembly.

The utility model further provides that the frame comprises:

the top plate is positioned above the connecting rod assembly and the mould assembly and below the output assembly and the blowing device, and the output assembly is arranged on the upper surface of the top plate close to the connecting rod assembly;

the two support plates are fixedly arranged on the lower end face, close to the output assembly, of the top plate, and the connecting rod assembly is arranged between the two support plates;

the bottom plate is arranged at the bottom ends of the two support plates;

the vertical plate is arranged on one side, far away from the output assembly, of the upper surface of the top plate, and the air outlet device is arranged on the vertical plate;

the supporting shoe, the supporting shoe is a plurality of, and all fixed mounting is at the lower surface of roof.

The utility model is further configured to further include:

the sliding assembly comprises two sliding rails which are distributed on the bottom plate in parallel, a plurality of sliding blocks which are fixedly arranged at the bottom ends of the front sliding plate, the middle sliding plate and the rear sliding plate, and a plurality of sliding rods which are arranged among the front sliding plate, the middle sliding plate and the rear sliding plate;

the sliding blocks are positioned on the sliding rails and are in sliding connection with the sliding rails, and the sliding rods are fixedly connected with the front sliding plate and the rear sliding plate, movably connected with the middle sliding plate, penetrate through the supporting blocks and are movably connected with the middle sliding plate.

The utility model further provides that the mould assembly comprises:

the front template is arranged on one side of the front sliding plate, which is close to the middle sliding plate, and a front mould is fixedly arranged on one side of the front sliding plate, which is far away from the front sliding plate;

the rear template is arranged on one side of the middle sliding plate close to the front sliding plate, and a rear mold is fixedly arranged on one side far away from the middle sliding plate;

the heightening assembly is arranged between the front template and the front sliding plate and comprises a heightening frame and a heightening block;

and the pressurizing assembly is arranged between the rear template and the rear sliding plate.

The utility model further provides that the supercharging assembly comprises:

the plurality of pressurizing grooves are distributed on one surface of the middle sliding plate, which is close to the front sliding plate, at equal intervals;

the pressure increasing disks are arranged in the pressure increasing grooves respectively;

the pressurizing plate is positioned between the rear template and the middle sliding plate and is installed and connected with the middle sliding plate through bolts and nuts;

and the spring is arranged between the nut and the middle sliding plate.

The utility model further provides that the connecting-rod assembly comprises:

the stretching rod is vertically arranged between the two support plates, and the top end of the stretching rod is connected with the output assembly;

the pin shafts are distributed on the stretching rod at equal intervals along the vertical direction and penetrate through the stretching rod;

the number of the crank arms is a plurality, and the crank arms are hinged to a plurality of pin shafts positioned on two sides of the stretching rod;

wherein, the one end that the round pin axle was kept away from to a plurality of crank arms is connected with well slide and back slide hinge respectively, be equipped with the spout with round pin axle looks adaptation on the mounting panel along vertical direction.

The utility model further provides that the output assembly comprises:

the mounting frame is fixedly arranged on the upper end face of the top plate;

the first motor is arranged on the mounting frame;

and one end of the eccentric rod is fixedly connected with an output shaft of the first motor, and the other end of the eccentric rod is hinged with the top end of the stretching rod.

The utility model further provides that the loading assembly comprises:

the supporting frame is fixedly connected to the supporting block;

the second motor is arranged on the support frame;

the feeding frame is connected with the supporting frame in a sliding manner;

the feeding claws are arranged at the bottom end of the feeding frame and are divided into two groups;

and the transmission assembly is driven by a second motor and is used for driving the feeding frame and the feeding claw to horizontally reciprocate.

The utility model further provides that the transmission assembly comprises:

the main gear is fixedly connected with an output shaft of the second motor;

the auxiliary gear is arranged on one side of the support frame, which is far away from the second motor;

the belt, the belt is with last work or material rest fixed connection.

The utility model is further configured to further include:

the sliding rod comprises a sliding rod and a middle sliding plate, wherein the sliding rod is arranged on the middle sliding plate, and the sliding rod is arranged on the middle sliding plate.

The utility model has the beneficial effects that:

1. the feeding assembly is arranged between the blowing device and the die assembly, so that the feeding efficiency can be effectively improved, meanwhile, manual feeding is avoided, the working strength of workers is reduced, and the working efficiency of the workers is improved;

2. the pressurizing assembly can improve the pressure intensity of mold closing, and the influence on the quality of a finished product caused by the fact that the mold is spread in the air blowing process is avoided;

3. drive link assembly through eccentric rod and first motor to realize the mould that opens and shuts of mould subassembly, can improve the speed of opening and shutting, the slider is through the sliding connection with the slide rail simultaneously, stability and speed when improving the mould that opens and shuts have high-speed, high stability's characteristics.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is an enlarged view of the utility model at B in FIG. 2;

FIG. 5 is a partial cross-sectional view of the transmission assembly of the present invention;

FIG. 6 is a schematic diagram of a second perspective of the present invention;

in the drawings: 1. a frame; 10. a top plate; 11. a mounting plate; 110. a chute; 12. a base plate; 13. a vertical plate; 14. a support block; 2. a sled assembly; 20. a front slide plate; 21. a middle slide plate; 22. a rear slide plate; 3. a mold assembly; 30. a front template; 300. a front mold; 31. a rear template; 310. a back mold; 32. a step-up assembly; 320. an elevating frame; 321. a block for raising; 33. a pressurizing assembly; 330. a pressurizing tank; 331. a pressure increasing disc; 332. a pressure increasing plate; 333. a spring; 4. a connecting rod assembly; 40. a stretch rod; 41. a pin shaft; 42. a crank arm; 5. an output component; 50. a mounting frame; 51. a first motor; 52. an eccentric rod; 6. a blowing device; 7. a feeding assembly; 70. a support frame; 71. a second motor; 72. a feeding frame; 73. a feeding claw; 74. a transmission assembly; 740. a main gear; 741. a slave gear; 742. a belt; 8. a sliding assembly; 80. a slide rail; 81. a slider; 82. a slide bar; 9. and a shaft sleeve.

Detailed Description

The utility model is further described in the following with reference to fig. 1 to 6 in a specific embodiment:

example 1:

this embodiment provides a bottle blowing machine compound die frame, including frame 1, still include:

the sliding plate assembly 2 is movably arranged in the rack 1 and comprises a front sliding plate 20, a middle sliding plate 21 and a rear sliding plate 22;

the mould component 3 is arranged between the front sliding plate 20 and the middle sliding plate 21;

the connecting rod assembly 4 is arranged between the middle sliding plate 21 and the rear sliding plate 22;

the output assembly 5 is arranged on the rack 1, is positioned above the connecting rod assembly 4 and is connected with the connecting rod assembly 4;

the blowing device 6 is arranged on the frame 1 and is positioned above the mould assembly 3;

and the feeding assembly 7 is arranged between the blowing device 6 and the mould assembly 3, and the feeding assembly 7 is arranged between the blowing device and the mould assembly 3.

This embodiment can be seen from, drive link assembly 4 through output assembly 5 to realize the die opening and shutting to mould subassembly 3, and slide subassembly 2 can improve the stability of die opening and shutting, gas blowing device 6 blows the bottle with the bottle base in mould subassembly 3, sets up material loading subassembly 7 simultaneously between gas blowing device 6 and mould subassembly 3, can effectively improve material loading efficiency, avoids artifical material loading simultaneously, reduces staff's working strength, and then improves staff's work efficiency.

Example 2:

in this embodiment, in addition to the structural features of embodiment 1, further, the rack 1 includes:

the top plate 10 is positioned above the connecting rod assembly 4 and the mould assembly 3 and below the output assembly 5 and the air blowing device 6, and the output assembly 5 is arranged on the upper surface, close to the connecting rod assembly 4, of the top plate 10;

the two support plates 11 are fixedly arranged on the lower end face, close to the output assembly 5, of the top plate 10, and the connecting rod assembly 4 is arranged between the two support plates 11;

the bottom plate 12 is arranged at the bottom ends of the two support plates 11;

the vertical plate 13 is arranged on one side, far away from the output assembly 5, of the upper surface of the top plate 10, and the air outlet device is arranged on the vertical plate;

the supporting blocks 14 are provided, and the supporting blocks 14 are all fixedly mounted on the lower surface of the top plate 10.

According to the embodiment, the rack 1 can facilitate installation of all components or devices, rationality of all components or devices is achieved, stability of all components or devices is improved when the die closing frame is used, and the die closing frame is simple in structure and good in practical effect.

Example 3:

in this embodiment, in addition to the structural features of embodiment 2, the method further includes:

the sliding assembly 8 comprises two sliding rails 80 which are distributed in parallel and arranged on the bottom plate 12, a plurality of sliding blocks 81 which are fixedly arranged at the bottom ends of the front sliding plate 20, the middle sliding plate 21 and the rear sliding plate 22, and a plurality of sliding rods 82 which are arranged among the front sliding plate 20, the middle sliding plate 21 and the rear sliding plate 22;

the sliding block 81 is located on the sliding rail 80 and slidably connected to the sliding rail 80, and the plurality of sliding rods 82 are fixedly connected to the front sliding plate 20 and the rear sliding plate 22, movably connected to the middle sliding plate 21, and penetrate through the supporting block 14 to be movably connected thereto.

In the embodiment, the sliding component 8 is used for improving the stability and speed of opening and closing the die, and has the characteristics of high speed and high stability, and meanwhile, the sliding rod 82 can further improve the stability and efficiency of opening and closing the die, the supporting block 14 can support the top plate 10, the output assembly 5 and the blowing device 6 on the top plate 10, and particularly, the output assembly 5 drives the connecting rod assembly 4, so that the rear slide plate 22 moves to a side close to the middle slide plate 21, the middle slide plate 21 moves to a side close to the rear slide plate 22, and the rear slide plate 22 moves to a side close to the middle slide plate 21, the slide rod 82 is pushed to move the front slide plate 20 to a side far from the middle slide plate 21, even if the middle sliding plate 21 and the front sliding plate 20 both move to the side far away from each other, so that the die opening is realized, otherwise, the die closing is realized, the structure is simple, the realization is easy, and the practical effect is good.

Example 4:

in this embodiment, in addition to the structural features of embodiment 3, the mold assembly 3 further includes:

the front template 30 is arranged on one side of the front sliding plate 20 close to the middle sliding plate 21, and a front mold 300 is fixedly arranged on one side far away from the front sliding plate 20;

the rear template 31 is installed on one side of the middle sliding plate 21 close to the front sliding plate 20, and a rear mold 310 is fixedly arranged on one side far away from the middle sliding plate 21;

the heightening assembly 32, the heightening assembly 32 is installed between the front template 30 and the front sliding plate 20, and comprises a heightening frame 320 and a heightening block 321;

and the pressurizing assembly 33, wherein the pressurizing assembly 33 is installed between the rear template 31 and the rear sliding plate 22.

In the embodiment, it can be seen that the front mold plate 30 and the front mold 300 are conveniently adjusted by the heightening assembly 32, and the pressurizing assembly 33 can generate pressure on the rear mold plate 31 and the rear mold 310, so as to avoid that the molds are spread during the blowing process to affect the quality of the finished product.

Example 5:

in this embodiment, in addition to the structural features of embodiment 4, the pressure increasing assembly 33 further includes:

the number of the pressurizing grooves 330 is several, and the pressurizing grooves 330 are distributed on one surface of the middle sliding plate 21 close to the front sliding plate 20 at equal intervals;

the pressure increasing plates 331 are provided with a plurality of pressure increasing plates 331 and are respectively arranged in the pressure increasing grooves 330;

the pressurizing plate 332 is positioned between the rear template 31 and the middle sliding plate 21, and is connected with the middle sliding plate 21 by bolts and nuts;

the spring 333 is installed between the nut and the middle sliding plate 21;

wherein, the pressurizing groove 330 is connected with a high pressure air pump at a side close to the middle sliding plate 21, the high pressure air pump is prior art and known to those skilled in the art, and the illustration of the description does not show it.

In the embodiment, the pressurizing plate 331 is pushed by inflating the pressurizing groove 330 with the high-pressure air pump net, so that the pressurizing plate 332 is pressurized by the pressurizing plate 331, namely, the front template 30 and the front mold 300 are pressurized, thereby avoiding the influence on the quality of finished products caused by the mold being spread in the blowing process, and the spring 333 is arranged, so that the pressurizing plate 332 is retracted after the gas in the pressurizing groove 330 is removed, and the structure is simple, easy to implement and good in practical effect.

Example 6:

in this embodiment, in addition to the structural features of embodiment 3, the connecting rod assembly 4 further includes:

the stretching rod 40 is vertically arranged between the two support plates 11, and the top end of the stretching rod 40 is connected with the output assembly 5;

a plurality of pin shafts 41, wherein the pin shafts 41 are distributed on the stretching rod 40 at equal intervals along the vertical direction and penetrate through the stretching rod 40;

the number of the crank arms 42 is several, and the crank arms 42 are hinged on several pin shafts 41 positioned at two sides of the stretching rod 40;

wherein, the ends of the plurality of crank arms 42 far away from the pin shaft 41 are respectively hinged with the middle slide plate 21 and the rear slide plate 22, and the bracket plate 11 is provided with a chute 110 matched with the pin shaft 41 along the vertical direction.

In the embodiment, the output assembly 5 enables the stretching rod 40 to perform up-and-down reciprocating movement, and the crank arm 42 pulls the middle sliding plate 21 and the rear sliding plate 22 under the action of the pin shaft 41, so that the mold opening and closing of the mold assembly 3 is realized.

Example 7:

in this embodiment, in addition to the structural features of embodiment 6, the output module 5 further includes:

the mounting rack 50 is fixedly arranged on the upper end surface of the top plate 10;

the first motor 51 is arranged on the mounting frame 50;

and one end of the eccentric rod 52 is fixedly connected with an output shaft of the first motor 51, and the other end of the eccentric rod 52 is hinged with the top end of the stretching rod 40.

In the embodiment, it can be seen that the eccentric rod 52 drives the stretching rod 40 to reciprocate up and down by the driving of the first motor 51, so as to provide power for the connecting rod assembly 4, the eccentric rod 52 and the stretching rod 40 form a cam structure, and when the middle slide plate 21 and the rear slide plate 22 ride in the driving to move so as to open and close the mold of the mold assembly 3, the efficiency of opening and closing the mold can be effectively improved.

Example 8:

in this embodiment, in addition to the structural features of embodiment 3, the feeding assembly 7 further includes:

the supporting frame 70, the said supporting frame 70 is fixedly connected to supporting shoe 14;

the second motor 71, the said second motor 71 is installed on supporting arm 70;

the feeding frame 72 is in sliding connection with the supporting frame 70;

the number of the feeding claws 73 is several, and the feeding claws 73 are all arranged at the bottom end of the feeding frame 72 and are divided into two groups;

the transmission assembly 74 is driven by the second motor 71 to drive the feeding frame 72 and the feeding claw 73 to horizontally reciprocate;

wherein, the feeding claws 73 are two groups, and each group is four.

In this embodiment, it can be seen that the transmission assembly 74 is driven by the second motor 71, so that the transmission assembly 74 drives the feeding frame 72 to perform horizontal reciprocating movement, i.e. drives the feeding claw 73 to perform horizontal reciprocating movement;

specifically, one group of the feeding claws 73 picks the bottle blank which is blown in the mold assembly 3, meanwhile, the other group of the feeding claws 73 picks the bottle blank to be processed, the second motor 71 is started, the transmission assembly 74 drives the feeding frame 72 to move, so that the group of the feeding claws 73 which pick the bottle blank which is blown is positioned above the finished product area, the other group of the feeding claws 73 which pick the bottle blank to be processed is positioned above the mold assembly 3, the blowing is completed, the two groups of the feeding claws 73 are loosened, the bottle blank which is blown in the previous round falls into the finished product area, the two groups of the feeding claws 73 return to the original position under the driving of the feeding frame 72, the transmission assembly 74 and the second motor 71, and then the operation is repeated;

can realize quick incessant production, effectively improve bottle blowing machine's work efficiency to this process only need keep treating the regional bottle base of treating processing, can produce automatically, has effectively reduced staff's working strength, improves staff's work efficiency.

Example 9:

in this embodiment, in addition to the structural features of embodiment 8, the transmission assembly 74 further includes:

the main gear 740 is fixedly connected with the output shaft of the second motor 71;

the auxiliary gear 741, the auxiliary gear 741 is installed on one side of the support frame 70 far away from the second motor 71;

and a belt 742, wherein the belt 742 is connected between the master gear 740 and the slave gear 741 and is fixedly connected with the loading frame 72.

In this embodiment, the second motor 71 drives the main gear 740 to cooperate with the secondary gear 741 to reciprocate the belt 742, so as to drive the feeding frame 72 and the feeding claw 73 to complete the feeding operation, which is simple in structure, convenient to install and maintain, and avoids the influence on the production efficiency and the yield caused by the maintenance.

Example 10:

in this embodiment, in addition to the structural features of embodiment 3, the method further includes:

the number of the shaft sleeves 9 is several, and the shaft sleeves 9 are installed at the connection position of the sliding rod 82 and the middle sliding plate 21.

In the embodiment, the wear-resisting effect between the middle sliding plate 21 and the sliding rod 82 is effectively improved through the sleeve, and the stability of opening and closing the die caused by wear is avoided, so that the forming quality of a product is influenced; meanwhile, the service lives of the middle sliding plate 21 and the sliding rod 82 are effectively prolonged, and the maintenance cost of the equipment is reduced.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the utility model is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides a bottle blowing machine closes die carrier, includes frame (1), characterized by still includes:

the sliding plate assembly (2) is movably arranged in the rack (1) and comprises a front sliding plate (20), a middle sliding plate (21) and a rear sliding plate (22);

the mould component (3), the said mould component (3) is installed and set up between the front slide (20) and middle slide (21);

the connecting rod assembly (4), the connecting rod assembly (4) is installed between the middle sliding plate (21) and the rear sliding plate (22);

the output assembly (5) is arranged on the rack (1), is positioned above the connecting rod assembly (4) and is connected with the connecting rod assembly (4);

the blowing device (6) is arranged on the rack (1) and is positioned above the mold assembly (3);

the feeding assembly (7) is arranged between the blowing device (6) and the die assembly (3).

2. The bottle blowing machine mold combining frame according to claim 1, wherein the frame (1) comprises:

the top plate (10), the top plate (10) is positioned above the connecting rod assembly (4) and the die assembly (3) and below the output assembly (5) and the blowing device (6), and the output assembly (5) is arranged on the upper surface, close to the connecting rod assembly (4), of the top plate (10);

the two support plates (11) are fixedly arranged on the lower end face, close to the output assembly (5), of the top plate (10), and the connecting rod assembly (4) is arranged between the two support plates (11);

the bottom plate (12), the said bottom plate (12) is installed and set up in the bottom of two mounting panels (11);

the vertical plate (13), the vertical plate (13) is arranged on one side, far away from the output assembly (5), of the upper surface of the top plate (10), and the air blowing device (6) is arranged on the vertical plate (13);

the supporting blocks (14), supporting block (14) are a plurality of, and all fixed mounting is in the lower surface of roof (10).

3. The bottle blowing machine mold closing frame of claim 2, further comprising:

the sliding assembly (8) comprises two sliding rails (80) which are distributed in parallel and installed on the bottom plate (12), a plurality of sliding blocks (81) which are fixedly arranged at the bottom ends of the front sliding plate (20), the middle sliding plate (21) and the rear sliding plate (22), and a plurality of sliding rods (82) which are arranged among the front sliding plate (20), the middle sliding plate (21) and the rear sliding plate (22);

the sliding blocks (81) are positioned on the sliding rails (80) and are in sliding connection with the sliding rails (80), and the sliding rods (82) are fixedly connected with the front sliding plate (20) and the rear sliding plate (22), movably connected with the middle sliding plate (21), penetrate through the supporting blocks (14) and are movably connected with the supporting blocks.

4. The bottle blowing machine mold closing frame according to claim 3, wherein the mold assembly (3) comprises:

the front template (30) is arranged on one side, close to the middle sliding plate (21), of the front sliding plate (20), and a front mold (300) is fixedly arranged on one side, far away from the front sliding plate (20);

the rear template (31), the rear template (31) is arranged on one side of the middle sliding plate (21) close to the front sliding plate (20), and a rear die (310) is fixedly arranged on one side far away from the middle sliding plate (21);

the heightening assembly (32), the heightening assembly (32) is arranged between the front template (30) and the front sliding plate (20) and comprises a heightening frame (320) and a heightening block (321);

and the pressurizing assembly (33), wherein the pressurizing assembly (33) is arranged between the rear template (31) and the rear sliding plate (22).

5. The bottle blowing machine mold combining frame as claimed in claim 4, wherein the pressurizing assembly (33) comprises:

the number of the pressurizing grooves (330) is a plurality, and the pressurizing grooves (330) are distributed on one surface, close to the front sliding plate (20), of the middle sliding plate (21) at equal intervals;

the pressure increasing disks (331) are provided, and the pressure increasing disks (331) are respectively arranged in the pressure increasing grooves (330);

the pressurizing plate (332), the pressurizing plate (332) is positioned between the rear template (31) and the middle sliding plate (21), and is installed and connected with the middle sliding plate (21) by bolts and nuts;

and the spring (333) is arranged between the nut and the middle sliding plate (21).

6. The bottle blowing machine mold combining frame as claimed in claim 3, wherein the connecting rod assembly (4) comprises:

the stretching rod (40) is vertically arranged between the two support plates (11), and the top end of the stretching rod (40) is connected with the output assembly (5);

the number of the pin shafts (41) is a plurality, and the pin shafts (41) are distributed on the stretching rod (40) at equal intervals along the vertical direction and penetrate through the stretching rod (40);

the number of the crank arms (42) is several, and the crank arms (42) are hinged on several pin shafts (41) positioned at two sides of the stretching rod (40);

wherein, the one end that a plurality of crank arms (42) kept away from round pin axle (41) is connected with well slide (21) and back slide (22) hinge respectively, be equipped with spout (110) with round pin axle (41) looks adaptation on the mounting panel (11) along vertical direction.

7. The bottle blowing machine mould closing frame according to claim 6, characterized in that the output assembly (5) comprises:

the mounting rack (50), the mounting rack (50) is fixedly arranged on the upper end face of the top plate (10);

the first motor (51), the said first motor (51) is installed on mounting bracket (50);

and one end of the eccentric rod (52) is fixedly connected with an output shaft of the first motor (51), and the other end of the eccentric rod (52) is hinged with the top end of the stretching rod (40).

8. The bottle blowing machine mould closing frame according to claim 3, characterized in that the feeding component (7) comprises:

the supporting frame (70), the said supporting frame (70) is fixedly connected to supporting shoe (14);

the second motor (71), the said second motor (71) is installed on supporting arm (70);

the feeding frame (72) is in sliding connection with the supporting frame (70);

the feeding claws (73) are arranged at the bottom end of the feeding frame (72) and are divided into two groups;

and the transmission assembly (74) is driven by the second motor (71) and is used for driving the feeding frame (72) and the feeding claw (73) to horizontally reciprocate.

9. The bottle blowing machine closing frame according to claim 8, characterized in that the transmission assembly (74) comprises:

the main gear (740) is fixedly connected with an output shaft of the second motor (71);

the auxiliary gear (741), the auxiliary gear (741) is installed on one side of the support frame (70) far away from the second motor (71);

a belt (742), wherein the belt (742) is connected between the master gear (740) and the slave gear (741) and is fixedly connected with the feeding frame (72).

10. The bottle blowing machine mold closing frame according to claim 3, characterized by further comprising:

the number of the shaft sleeves (9) is several, and the shaft sleeves (9) are arranged at the connecting position of the sliding rod (82) and the middle sliding plate (21).

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