CN217803246U - Horizontal notes of improved generation blow forming device - Google Patents

Abstract

The utility model relates to a plastic bottle shaping technical field, concretely relates to horizontal notes of improved generation blow forming device, its characterized in that: the bottle body injection molding die comprises a front die plate, a middle die plate, a rear die plate, a lifting driving mechanism, a rotation driving mechanism and a movement driving mechanism, wherein a lifting plate is arranged right above the middle die plate, a rotating plate is arranged at the lower end of the lifting plate, two moving plates which are symmetrically arranged are arranged on the rotating plate, a bottle opening injection molding cavity die is arranged at the lower ends of the two moving plates, an injection blowing core rod is installed at the bottle opening injection molding cavity die on the moving plate, a bottle body injection molding cavity die is arranged between the front die plate and the middle die plate, and a bottle body blow molding cavity die is arranged between the middle die plate and the rear die plate. The utility model discloses can realize carrying out injection moulding process and blow molding process in vertical direction on the basis of horizontal mould structure that opens and shuts, be difficult for causing certain influence to the wall thickness homogeneity of the whole circle of bottle behind the bottle base blow molding, also make the degree of depth of bottle produced can not receive the restriction of its horizontal mould stroke that opens and shuts.

Description

Horizontal notes of improved generation blow forming device

Technical Field

The utility model relates to a plastic bottle shaping technical field, specificly relate to a horizontal notes of improved generation blow forming device.

Background

The plastic is adopted as a raw material, and can be processed into a hollow container through injection molding, blow molding or extrusion molding, blow molding or injection molding, stretch molding and blow molding, such as a medicine bottle, a cosmetic bottle, a carbonated beverage bottle, a mineral water bottle, a wide-mouth bottle, a milk bottle and the like.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can realize carrying out injection moulding process and blow molding process in vertical direction on the basis of horizontal mould structure that opens and shuts, difficult wall thickness homogeneity to bottle base blow molding back bottle whole circle leads to the fact certain influence, also makes the degree of depth of produced bottle can not receive a horizontal notes blow molding device of the restriction of its horizontal mould stroke that opens and shuts.

In order to solve the technical problem, the utility model discloses a technical scheme as follows: the improved horizontal injection-blow molding device comprises a front template, a middle template and a rear template, wherein the front template is fixedly arranged, the middle template and the rear template are movably arranged on a guide pillar, a lifting plate is arranged right above the middle template, the lifting plate is driven by a lifting driving mechanism to lift, a rotating plate is arranged at the lower end of the lifting plate, the rotating plate is driven by a rotating driving mechanism to rotate back and forth at 180-degree intervals, two symmetrically arranged moving plates are arranged on the rotating plate, the moving plates are driven by a moving driving mechanism to move, bottle injection-blow cavity molds are arranged at the lower ends of the two moving plates, at least one injection-blow core rod is arranged at the bottle injection-blow cavity mold on the moving plate, a bottle injection-blow cavity mold corresponding to one of the bottle injection-blow cavity molds is arranged between the front template and the middle template, and a bottle blow-blow cavity mold corresponding to the other bottle injection-blow cavity mold is arranged between the middle template and the rear template.

Further, lift actuating mechanism includes lift cylinder and slip subassembly, the lift cylinder is two and respectively fixed mounting in the both sides of middle template, the tailpiece of the piston rod portion and lifter plate fixed connection of lift cylinder, the slip subassembly includes slide bar and sliding sleeve, the slide bar is two and respectively fixes the upper end both sides of locating middle template, the sliding sleeve is two and respectively fixed mounting in the both sides of lifter plate, sliding sleeve and slide bar looks adaptation, the sliding sleeve cover is located on corresponding slide bar and between the two sliding fit, slide bar upper end fixed mounting has the limiting plate.

Furthermore, the rotation driving mechanism comprises a rotation motor, the rotation motor is fixedly installed at the upper end of the lifting plate, a motor shaft of the rotation motor is in transmission connection with a rotation shaft, the rotation shaft is fixedly arranged on the rotation plate, the rotation shaft is rotatably connected with the mounting seat through a bearing, and the mounting seat is fixedly arranged at the lower end of the lifting plate.

Further, remove actuating mechanism including removing cylinder and direction subassembly, remove cylinder fixed mounting in the rotor plate lower extreme, remove cylinder's tailpiece of the piston rod portion and movable plate fixed connection, the direction subassembly includes guide bar and guiding hole, the guide bar is two and fixed locates one side of rotor plate, the guiding hole is two and locate on the movable plate and run through the movable plate, corresponding guiding hole and fixedly connected with stopper are passed to the one end of guide bar, guide bar and guiding hole looks adaptation and sliding fit between the two.

Further, the bottle mouth injection-blowing cavity die comprises a bottle mouth opening and closing driving mechanism and at least one pair of bottle mouth half inserts capable of being opened and closed, wherein the bottle mouth opening and closing driving mechanism is used for driving the bottle mouth half inserts to realize transverse opening and closing.

Furthermore, the bottle body injection molding cavity die comprises a first bottle body injection molding half die and a second bottle body injection molding half die, the first bottle body injection molding half die is fixedly installed on the front template, the second bottle body injection molding half die is fixedly installed on the middle template, and at least one bottle body injection molding cavity which is open upwards and corresponds to the injection blowing core rod and at least one injection molding flow channel communicated with the bottom of the bottle body injection molding cavity are formed between the first bottle body injection molding half die and the second bottle body injection molding half die in a surrounding manner.

Furthermore, the bottle body blow molding cavity mold comprises a first bottle body blow molding half mold and a second bottle body blow molding half mold, the first bottle body blow molding half mold is fixedly installed on the middle template, the second bottle body blow molding half mold is fixedly installed on the rear template, and at least one bottle body blow molding cavity which is opened upwards and corresponds to the injection-blow core rod is formed between the first bottle body blow molding half mold and the second bottle body blow molding half mold in a surrounding mode.

Furthermore, the moving plate is provided with at least one mounting hole which penetrates through the upper end and the lower end of the moving plate and is matched with the injection-blow core rod.

Furthermore, the number of the injection-blow core rods on the moving plate is 2-8.

According to the above description, the utility model provides a pair of horizontal notes blow forming device of improved generation, setting through the rotor plate, be convenient for drive the notes on the movable plate of rotor plate both sides blow the plug and carry out 180 degrees rotations and shift position above body injection molding die cavity mould and body blowing die cavity mould, and simultaneously, through the setting of lifter plate, be convenient for drive the rotor plate and go up and down, it goes up and down together to drive notes blow the plug promptly, and cooperate with body injection molding die cavity mould and body blowing die cavity mould respectively, in order to realize carrying out injection moulding process and blow molding process in vertical direction, so, even because bottle base self weight is heavier, and the phenomenon that appears the material is down when the blowing, but the bottle base when this moment because the blowing also is in vertical state, so, be difficult for causing certain influence to the wall thickness homogeneity of bottle whole circle behind the bottle base blow molding, furthermore, through the injection blow molding at the vertical bottle that carries out, also make the degree of depth of bottle produced can not receive the restriction of its horizontal stroke of opening, thereby also be favorable to production deep cavity bottle.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of an improved horizontal injection-blow molding device.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic view of a partial structure of the improved horizontal injection-blow molding device of the present invention.

Fig. 4 is a partially enlarged schematic view of a portion B in fig. 3.

Fig. 5 is a partially enlarged schematic view of C in fig. 3.

Fig. 6 is a schematic perspective view of the moving plate.

Fig. 7 is a schematic partial three-dimensional structure diagram of a bottle mouth injection-blow mold cavity.

Fig. 8 is a schematic structural view of the elastic member.

In the figure: 11-front template; 12-an intermediate template; 13-back template; 14-guide posts; 21-a lifter plate; 211-a mounting seat; 22-a lifting drive mechanism; 221-a lifting cylinder; 222-a slide assembly; 2221-sliding bar; 2222-sliding sleeve; 2223-position limiting plate; 31-a rotating plate; 311-rotating shaft; 312 — a rotating motor; 41-moving plate; 411-mounting holes; 42-a movement drive mechanism; 421-moving cylinder; 4221-a guide bar; 4222-guide hole; 4223-a limiting block; 5-injecting and blowing a mold cavity mold at the bottle mouth; 51-a bottle opening and closing driving mechanism; 511-a bottle opening and closing cylinder; 512-pushing block; 513-a mounting plate; 514-sliding plate; 515-fixed block; 516-a push slot; 517-an elastic component; 5171-connecting rod; 5172-compression spring; 5173-baffle; 52-a half insert on the bottle mouth; 6-injection blowing of the core rod; 7-injection molding cavity die for the bottle body; 71-a first body injection mold half; 72-a second body injection mold half; 73-a bottle body injection molding cavity; 74-injection molding runner; 8-a bottle body blow molding cavity mold; 81-a first body blow mold half; 82-a second body blow mold half; 83-body blow moulding chamber.

Detailed Description

The present invention will be further described with reference to the following detailed description.

As shown in fig. 1 to 8, a horizontal notes blow forming device of improved generation, locate middle template 12, the back template 13 on guide pillar 14 including fixed preceding template 11 that sets up and removal, be equipped with lifter plate 21 directly over middle template 12, lifter plate 21 goes up and down under the drive of lift actuating mechanism 22, lifter plate 21 lower extreme is equipped with rotor plate 31, rotor plate 31 carries out 180 degrees intermittent type rotations back and forth under the drive of rotation actuating mechanism, be equipped with two movable plates 41 of symmetrical setting on the rotor plate 31, movable plate 41 moves under the drive of removal actuating mechanism 42, two movable plate 41 lower extreme all is equipped with bottleneck notes blow mold cavity mould 5, on the movable plate 41 in annotate blow mold cavity mould 5 department and install at least one notes blow core stick 6, preceding template 11 with be equipped with between the middle template 12 can with one of them the corresponding body mould 7 of bottleneck notes blow mold cavity mould 5, middle template 12 with behind the mould 13 be equipped with can with another the corresponding body mould 8 of bottleneck blow mold cavity mould 5.

Through the arrangement of the rotating plate 31, the injection-blow core rods 6 on the moving plates 41 at two sides of the rotating plate 31 are conveniently driven to rotate 180 degrees above the bottle body injection molding cavity die 7 and the bottle body blow molding cavity die 8 and switch positions, and meanwhile, through the arrangement of the lifting plate 21, the rotating plate 31 is conveniently driven to lift, namely the injection-blow core rods 6 are driven to lift together and are respectively matched with the bottle body injection molding cavity die 7 and the bottle body blow molding cavity die 8 to realize the injection molding process and the blow molding process in the vertical direction, so that even if the bottle blank is heavy in weight and sags down during blow molding, the bottle blank during blow molding is also in the vertical state, so that the uniformity of the wall thickness of the whole circle of the bottle after the bottle blank is blow molding is not easily influenced to a certain extent, and in addition, through the injection molding of the bottle in the vertical direction, the depth of the produced bottle is not limited by the transverse opening stroke, thereby being beneficial to producing the deep cavity bottle.

In addition, the middle template 12 may be driven by a corresponding middle driving mechanism and move, the rear template 13 may be driven by a corresponding rear driving mechanism and move, and the middle driving mechanism and the rear driving mechanism are all the prior art, and therefore, they are not described herein in detail.

As shown in fig. 2, specifically, the lifting driving mechanism 22 includes two lifting cylinders 221 and a sliding assembly 222, the two lifting cylinders 221 are respectively and fixedly installed on two sides of the middle formwork 12, the end of the piston rod of the lifting cylinder 221 is fixedly connected with the lifting plate 21, the lifting cylinder 221 is controlled to extend and retract the piston rod of the lifting cylinder 221, so that the lifting plate 21 is driven to lift, the sliding assembly 222 includes two sliding rods 2221 and two sliding sleeves 2222, the two sliding rods 2221 are respectively and fixedly installed on two sides of the upper end of the middle formwork 12, the two sliding sleeves 2222 are respectively and fixedly installed on two sides of the lifting plate 21, the sliding sleeves 2222 are adapted to the sliding rods 2221, the sliding sleeves 2222 are sleeved on the corresponding sliding rods 2221 and are in sliding fit with each other, a limit plate 2223 is fixedly installed on the upper end of the sliding rods 2221, so that a good guiding effect on the lifting plate 21 can be achieved, and the lifting plate 21 can be effectively ensured to be stable and smooth when the lifting plate 21 is lifted.

As shown in fig. 4, specifically, the rotation driving mechanism includes a rotation motor 312, the rotation motor 312 is fixedly installed at the upper end of the lifting plate 21, a motor shaft of the rotation motor 312 is in transmission connection with a rotation shaft 311, the rotation shaft 311 is fixedly disposed on the rotation plate 31, the rotation shaft 311 is rotatably connected with the installation seat 211 through a bearing, and the installation seat 211 is fixedly disposed at the lower end of the lifting plate 21, so as to facilitate the rotation connection between the rotation plate 31 and the lifting plate 21, and the rotation motor 312 can be controlled to drive the rotation plate 31 to rotate 180 degrees each time, that is, to drive the rotation plate 31 to rotate 180 degrees in forward rotation and 180 degrees in reverse rotation in sequence, preferably, the rotation motor 312 is a servo motor.

As shown in fig. 3, 4 and 6, specifically, the movement driving mechanism 42 includes a movement cylinder 421 and a guide assembly, the movement cylinder 421 is fixedly installed at the lower end of the rotation plate 31, an end of a piston rod of the movement cylinder 421 is fixedly connected to the moving plate 41, the movement driving mechanism is configured to drive the moving plate 41 to move by controlling extension and contraction of a piston rod of the movement cylinder 421, the guide assembly includes two guide rods 4221 and two guide holes 4222, the two guide rods 4221 are fixedly arranged at one side of the rotation plate 31, the two guide holes 4222 are arranged on the moving plate 41 and penetrate through the moving plate 41, one end of each guide rod 4221 penetrates through the corresponding guide hole 4222 and is fixedly connected with a limit block 4223, the guide rod 4221 is matched with the guide hole 4222 and is in sliding fit with the guide hole 4222, so that a good guide effect on movement of the moving plate 41 can be achieved, and smoothness of the moving plate 41 can be effectively ensured.

As shown in fig. 3 and 4, specifically, the bottle mouth injection-blow mold cavity mold 5 includes a bottle mouth opening and closing driving mechanism 51 and at least one pair of openable bottle mouth huff inserts 52, where the bottle mouth opening and closing driving mechanism 51 is used for driving the bottle mouth huff inserts 52 to realize transverse opening and closing.

<xnotran> 4 7 , , 51 511, 512, 513, 514 515, 513 41 , 515 513 , 514 513 , 515 , 514 , , 52 , 514 , 513 52 , 515 , 511, 511 512, 512 , 514 , 514 512 516, 512 516 , 514 517 , 517 , , 511 512 516 , 512 516 , 514 , </xnotran> Thereby effecting lateral opening of the mouthpiece half insert 52, and as the push block 512 is moved out of the push groove 516 by the mouthpiece opening and closing cylinder 511, the two slide plates 514 are gradually brought closer to each other and reset by the elastic force exerted by the elastic member 517 on the two slide plates 514, thereby effecting lateral closing of the mouthpiece half insert 52.

As shown in fig. 7 and 8, in detail, the elastic component 517 includes a connecting rod 5171, a compression spring 5172, and a baffle 5173, a counter bore opened to one side is provided in the sliding plate 514, a connecting hole adapted to the connecting rod 5171 is provided at the bottom of the counter bore, the connecting rod 5171 is inserted into the connecting hole, two ends of the connecting rod 5171 are respectively located in the counter bores of the two sliding plates 514 and are fixedly connected to the baffle 5173, the compression spring 5172 sleeved on the connecting rod 5171 is provided in each of the counter bores of the two sliding plates 514, one end of the compression spring 5172 is abutted to the bottom of the counter bore, and the other end of the compression spring 5172 is abutted to the baffle 5173.

In addition, the structure of the bottle opening and closing driving mechanism 51 in the prior art can be selected.

As shown in fig. 2, 3 and 5, in particular, the body injection mold cavity 7 includes a first body injection mold half 71 and a second body injection mold half 72, the first body injection mold half 71 is fixedly mounted on the front mold plate 11, and the second body injection mold half 72 is fixedly mounted on the middle mold plate 12, so that the first body injection mold half 71 and the second body injection mold half 72 are moved to facilitate lateral opening and closing between the first body injection mold half 71 and the second body injection mold half 72, at least one body injection mold cavity 73 which is open upward and corresponds to the injection core rod 6 and at least one injection mold runner 74 which is communicated with the bottom of the body injection mold cavity 73 are defined between the first body injection mold half 71 and the second body injection mold half 72, and how to provide plasticized plastic into the body injection mold cavity 73 is a conventional technology in the art, so that many cases are not made herein.

As shown in fig. 2 and 3, in particular, the body-blowing cavity mold 8 includes a first body-blowing half mold 81 and a second body-blowing half mold 82, the first body-blowing half mold 81 is fixedly mounted on the middle mold plate 12, the second body-blowing half mold 82 is fixedly mounted on the back mold plate 13, so that the transverse opening and closing between the first body-blowing half mold 81 and the second body-blowing half mold 82 is facilitated by the movement of the back mold plate 13, and at least one body-blowing cavity 83 which is open upward and corresponds to the injection core 6 is defined between the first body-blowing half mold 81 and the second body-blowing half mold 82.

As shown in fig. 6, at least one mounting hole 411 is formed on the moving plate 41 and penetrates through the upper and lower ends thereof to be matched with the injection-blow core rod 6.

In addition, the core rod 6 for blowing injection can be connected with an external air supply device, so that air supply for the core rod 6 for blowing injection is realized, and because the core rod 6 for blowing injection is also driven by the rotating plate 31 to rotate in a reciprocating intermittent manner by 180 degrees in forward rotation and 180 degrees in reverse rotation in sequence, winding of an air supply hose on the external air supply device cannot be caused, in addition, the specific structure of the core rod 6 for blowing injection belongs to the conventional technology in the field, and therefore, redundant description is not given here.

Preferably, the number of the injection-blowing core rods 6 on the moving plate 41 is 2-8, correspondingly, the bottleneck injection-blowing cavity mold 5 comprises 2-8 pairs of bottleneck half inserts 52, 2-8 bottle body injection cavities 73 are arranged in the bottle body injection cavity mold 7, 2-8 bottle body blowing cavities 83 are arranged in the bottle body blowing cavity mold 8, and 2-8 mounting holes 411 are arranged on the moving plate 41.

When the injection-blow core rod 6 enters the corresponding body injection molding cavity 73, a closed injection mold is formed among the body injection molding cavity mold 7, the corresponding bottleneck half insert 52 and the corresponding injection-blow core rod 6, and when the injection-blow core rod 6 enters the corresponding body injection molding cavity 83, a closed blow mold is formed among the body blow molding cavity mold 8, the corresponding bottleneck half insert 52 and the corresponding injection-blow core rod 6.

An improved horizontal injection-blow molding device using method as follows:

taking one-side injection blow molding as an example:

step 1, the lifting cylinder 221 drives the lifting plate 21 to move downwards and enables the corresponding injection blowing core rod 6 to enter the bottle body injection molding cavity 73, and then, the plasticized plastic is injected into a closed injection mold through an injection runner 74 on the bottle body injection molding cavity mold 7 to form an injection molding bottle blank;

step 2, the middle template 12 moves towards one side far away from the front template 11, correspondingly, the rear template 13 also moves towards one side far away from the front template 11, the mold opening between the first bottle body injection mold half 71 and the second bottle body injection mold half 72 is realized, and then the moving cylinder 421 at the corresponding side drives the moving plate 41 to move towards one side far away from the rotating plate 31, so that the bottle blank is separated from the second bottle body injection mold half 72;

step 3, the lifting cylinder 221 drives the lifting plate 21 to move upwards, at this time, the injection-blowing core rod 6 and the bottle mouth half insert 52 drive the bottle blank to be away from the bottle body injection molding cavity mold 7, then, the moving cylinder 421 at the corresponding side drives the moving plate 41 to move towards one side close to the rotating plate 31 and reset, and the middle mold plate 12 moves towards one side close to the front mold plate 11 and resets, so that the first bottle body injection mold half 71 and the second bottle body injection mold half 72 are re-assembled;

step 4, rotating the motor 312 to drive the rotating plate 31 to rotate forward 180 degrees, and rotating the injection-blowing core rod 6 with the bottle blank and the bottle mouth half insert 52 to the position right above the corresponding bottle body blow molding cavity mold 8;

step 5, the lifting cylinder 221 drives the lifting plate 21 to move downwards and enables the injection-blow core rod 6 and the bottle blank to enter the corresponding bottle body blowing cavity 83, at the moment, compressed air is blown in from a blowing channel on the injection-blow core rod 6, and the bottle blank is blown and molded in a closed blowing mold to obtain a molded bottle;

step 6, the rear template 13 moves to a side far away from the middle template 12, and the mold opening between the first body blow molding half mold 81 and the second body blow molding half mold 82 is realized, and then the moving cylinder 421 at the corresponding side drives the moving plate 41 to move to a side far away from the rotating plate 31, so that the bottle is separated from the first body blow molding half mold 81;

step 7, the lifting cylinder 221 drives the lifting plate 21 to move upwards, at this time, the injection-blow mandrel 6 and the bottle mouth half insert 52 carry the bottle away from the body blow molding cavity mold 8, then, the moving cylinder 421 on the corresponding side drives the moving plate 41 to move towards one side close to the rotating plate 31 and reset, and the rear mold plate 13 moves towards one side close to the middle mold plate and resets, so that the mold is re-closed between the first body blow molding half mold 81 and the second body blow molding half mold 82;

step 8, the bottle opening and closing driving mechanism 51 on the corresponding side drives the bottle opening half insert 52 to open, the bottle is taken down, and then the bottle opening and closing driving mechanism 51 drives the bottle opening half insert 52 to close again;

step 9, rotating the motor 312 to drive the rotating plate 31 to rotate reversely by 180 degrees, and rotating the injection-blowing core rod 6 and the bottle mouth half insert 52 with the bottle removed to be right above the corresponding bottle body injection molding cavity mold 7;

and step 10, driving the lifting plate 21 to move downwards by the lifting cylinder 221 and enabling the corresponding injection-blow core rod 6 to enter the bottle body injection molding cavity 73 again, so that the next cycle is performed to realize the automatic injection-blow molding of the plastic bottle.

The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (9)

1. The utility model provides a horizontal notes of improved generation blow forming device, includes fixed preceding template that sets up and middle template, the back template on locating the guide pillar with the removal, its characterized in that: the mold comprises a middle mold plate, and is characterized in that a lifting plate is arranged right above the middle mold plate and driven by a lifting driving mechanism to lift, a rotating plate is arranged at the lower end of the lifting plate and driven by a rotating driving mechanism to rotate for 180-degree intermittent back and forth, two moving plates which are symmetrically arranged are arranged on the rotating plate and driven by a moving driving mechanism to move, a bottle mouth injection and blowing mold cavity mold is arranged at the lower end of each moving plate, at least one injection and blowing core rod is arranged at the bottle mouth injection and blowing mold cavity mold on the moving plate, a bottle body injection and blowing mold cavity mold which corresponds to the bottle mouth injection and blowing mold cavity mold is arranged between the front mold plate and the middle mold plate, and a bottle body injection and blowing mold cavity mold which corresponds to the bottle mouth injection and blowing mold cavity mold is arranged between the middle mold plate and the rear mold plate.

2. The improved horizontal injection blow molding device according to claim 1, characterized in that: lifting drive mechanism includes lift cylinder and slip subassembly, the lift cylinder be two and respectively fixed mounting in the both sides of middle template, the tailpiece of the piston rod portion of lift cylinder with lifter plate fixed connection, the slip subassembly includes slide bar and sliding sleeve, the slide bar is two and fixes respectively and locates the upper end both sides of middle template, the sliding sleeve be two and respectively fixed mounting in the both sides of lifter plate, the sliding sleeve with slide bar looks adaptation, the sliding sleeve cover is located correspondingly on the slide bar and between the two sliding fit, slide bar upper end fixed mounting has the limiting plate.

3. The improved horizontal injection blow molding device according to claim 1, characterized in that: the rotation driving mechanism comprises a rotation motor, the rotation motor is fixedly installed at the upper end of the lifting plate, a motor shaft of the rotation motor is in transmission connection with a rotation shaft, the rotation shaft is fixedly arranged on the rotation plate, the rotation shaft is in rotation connection with a mounting seat through a bearing, and the mounting seat is fixedly arranged at the lower end of the lifting plate.

4. The improved horizontal injection blow molding device according to claim 1, characterized in that: the movable driving mechanism comprises a movable cylinder and a guide assembly, the movable cylinder is fixedly installed at the lower end of the rotating plate, the end part of a piston rod of the movable cylinder is fixedly connected with the moving plate, the guide assembly comprises guide rods and guide holes, the guide rods are two and fixedly arranged on one side of the rotating plate, the guide holes are two and arranged on the moving plate and penetrate through the moving plate, one end of each guide rod penetrates through the corresponding guide hole and the fixedly connected limit block, and the guide rods are matched with the guide holes in a matched mode and in a sliding fit mode.

5. The improved horizontal injection blow molding device according to claim 1, characterized in that: the bottle mouth injection-blowing cavity die comprises a bottle mouth opening and closing driving mechanism and at least one pair of bottle mouth half inserts capable of being opened and closed, wherein the bottle mouth opening and closing driving mechanism is used for driving the bottle mouth half inserts to realize transverse opening and closing.

6. The improved horizontal injection blow molding device according to claim 1, characterized in that: the bottle body injection molding cavity die comprises a first bottle body injection molding half die and a second bottle body injection molding half die, the first bottle body injection molding half die is fixedly installed on the front template, the second bottle body injection molding half die is fixedly installed on the middle template, at least one bottle body injection molding cavity which is opened upwards and corresponds to the injection-blowing core rod and at least one injection molding runner which is communicated with the bottom of the bottle body injection molding cavity are formed between the first bottle body injection molding half die and the second bottle body injection molding half die in a surrounding mode.

7. The improved horizontal injection blow molding device according to claim 1, characterized in that: the body blow molding cavity mold comprises a first body blow molding half mold and a second body blow molding half mold, the first body blow molding half mold is fixedly installed on the middle template, the second body blow molding half mold is fixedly installed on the rear template, and at least one body blow molding cavity which is open upwards and corresponds to the injection-blow core rod is formed between the first body blow molding half mold and the second body blow molding half mold in a surrounding mode.

8. The improved horizontal injection blow molding device according to claim 1, characterized in that: and the moving plate is provided with at least one mounting hole which penetrates through the upper end and the lower end of the moving plate and is matched with the injection blowing core rod.

9. The improved horizontal injection blow molding device according to claim 1, characterized in that: the number of the injection blow core rods on the moving plate is 2-8.

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