CN216544369U - Injection mold auxiliary platform - Google Patents

Abstract

The utility model discloses an auxiliary platform of an injection mold, wherein a rotary bearing component is arranged on the upper end side of a fixed mounting plate of a platform rack, and a left clamping component and a right clamping component are arranged on the platform rack beside the rotary bearing component; the rotary bearing component comprises a fixed base, a movable bearing plate, a movable flange shaft, a bearing mounting seat and a plane bearing; the left clamping assembly comprises a left rotary supporting arm driven by a left rotary driving oil cylinder, the lower end part of the left rotary supporting arm is hinged with the fixed mounting plate, and the upper end part of the left rotary supporting arm is provided with a left clamping mechanism; the right side clamping assembly comprises a right side rotary supporting arm driven by a right side rotary driving oil cylinder, the lower end part of the right side rotary supporting arm is hinged with the fixed mounting plate, and a right side clamping mechanism is arranged at the upper end part of the right side rotary supporting arm. Through the structural design, the automatic packaging machine has the advantages of novel structural design, high automation degree and convenience in use.

Description

Injection mold auxiliary platform

Technical Field

The utility model relates to the technical field of injection molds, in particular to an auxiliary platform of an injection mold.

Background

Injection molding, also known as injection molding, is a molding method that is injection and molding; the injection molding method has the advantages of high production speed, high efficiency, automation of operation, various designs and colors, various shapes from simple to complex, small sizes, accurate product size, easy replacement of products, capability of forming products with complex shapes, and suitability for the molding processing fields of mass production, products with complex shapes and the like. Wherein, the injection molding of the plastic part needs to be realized by an injection mold,

for the injection mold, in the maintenance process, the injection mold needs to be clamped and fixed through a corresponding jig device; because the injection mold is heavy, in the process of adjusting the clamping position, workers need to laboriously move the injection mold, and the whole clamping process is time-consuming.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an auxiliary platform of an injection mold, aiming at the defects of the prior art, and the auxiliary platform of the injection mold has the advantages of novel structural design, high automation degree and convenience in use.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

An auxiliary platform of an injection mold comprises a platform frame, wherein a fixed mounting plate horizontally and transversely arranged is arranged at the upper end of the platform frame, a rotary supporting component is arranged on the upper end side of the fixed mounting plate, a left clamping component is arranged on the left end side of the rotary supporting component on the platform frame, and a right clamping component is arranged on the right end side of the rotary supporting component on the platform frame;

the rotary bearing component comprises a fixed base fixedly screwed on the upper surface of the fixed mounting plate and a movable bearing plate positioned on the upper end side of the fixed base, a movable flange shaft which is vertically arranged is arranged between the fixed base and the movable bearing plate, the lower end part of the shaft part of the movable flange shaft is arranged in the middle of the fixed base through a bearing, and the flange part of the movable flange shaft is fixedly screwed on the movable bearing plate; the upper surface of the fixed base is fixedly provided with a circular ring-shaped bearing mounting seat in a screwed manner at the periphery of the movable flange shaft, and a plane bearing is arranged between the bearing mounting seat and the movable bearing plate;

the left clamping assembly comprises a left rotary supporting arm and a left rotary driving oil cylinder, the lower end part of the left rotary supporting arm is hinged with the fixed mounting plate, the middle part of the left rotary supporting arm is screwed with a left oil cylinder upper end hinge seat, the platform frame is screwed with a left oil cylinder lower end hinge seat corresponding to the left rotary driving oil cylinder, the cylinder body of the left rotary driving oil cylinder is hinged with the left oil cylinder lower end hinge seat through a pivot, and the extending end part of the piston rod of the left rotary driving oil cylinder is hinged with the left oil cylinder upper end hinge seat through a pivot; the upper end part of the left rotary supporting arm is provided with a left clamping mechanism;

the right clamping assembly comprises a right rotary supporting arm and a right rotary driving oil cylinder, the lower end part of the right rotary supporting arm is hinged with the fixed mounting plate, the middle part of the right rotary supporting arm is provided with a right oil cylinder upper end hinge seat in a threaded manner, the platform frame is provided with a right oil cylinder lower end hinge seat in a threaded manner corresponding to the right rotary driving oil cylinder, the cylinder body of the right rotary driving oil cylinder is hinged with the right oil cylinder lower end hinge seat through a pivot, and the extending end part of the piston rod of the right rotary driving oil cylinder is hinged with the right oil cylinder upper end hinge seat through a pivot; the upper end part of the right rotary supporting arm is provided with a right clamping mechanism.

The left clamping mechanism comprises a left driving plate positioned on the right end side of the left rotary supporting arm and a left clamping driving oil cylinder screwed at the upper end part of the left rotary supporting arm, and the extending end of a piston rod of the left clamping driving oil cylinder is connected with the left driving plate;

the left side grip block has been installed to the left side drive plate, and has installed the left side spring that is even interval distribution between left side drive plate and the left side grip block, and the both ends of left side spring respectively with the left side drive plate of corresponding side, left side grip block butt.

The right clamping mechanism comprises a right driving plate positioned on the left end side of the right rotary supporting arm and a right clamping driving oil cylinder screwed at the upper end part of the right rotary supporting arm, and the extending end of a piston rod of the right clamping driving oil cylinder is connected with the right driving plate;

the right side drive plate has been installed the right side grip block, and has been installed the right side spring that is even interval distribution between right side drive plate and the right side grip block, and the both ends of right side spring respectively with the right side drive plate of corresponding side, right side grip block butt.

The left side drive plate is provided with a left side guide pillar in a threaded manner, the left side rotary support arm is provided with a left side guide sleeve in a threaded manner corresponding to the left side guide pillar, and the left side guide pillar is embedded and inserted into a central hole of the left side guide sleeve.

The right side rotary supporting arm is provided with a right side guide sleeve corresponding to the right side guide pillar in a threaded manner, and the right side guide pillar is embedded and inserted in a central hole of the right side guide sleeve.

Wherein, the articulated seat of left side support arm is equipped with to the lower tip spiral shell of left side rotation support arm, the articulated seat spiral shell of left side support arm is equipped with the articulated seat of left side mounting panel to the fixed mounting panel, and the articulated seat of left side support arm is articulated through the pivot with the articulated seat of left side mounting panel.

Wherein, the articulated seat of right side support arm is equipped with to the lower tip spiral shell of right side rotation support arm, the articulated seat spiral shell of the corresponding right side support arm of fixed mounting panel is equipped with the articulated seat of right side mounting panel, and the articulated seat of right side support arm is articulated through the pivot with the articulated seat of right side mounting panel.

The utility model has the beneficial effects that: according to the auxiliary platform for the injection mold, the rotary bearing component is arranged on the upper end side of the fixed mounting plate of the platform frame, the left clamping component is arranged on the left end side of the rotary bearing component of the platform frame, and the right clamping component is arranged on the right end side of the rotary bearing component of the platform frame; the rotary bearing component comprises a fixed base fixedly screwed on the upper surface of the fixed mounting plate and a movable bearing plate positioned on the upper end side of the fixed base, a movable flange shaft which is vertically arranged is arranged between the fixed base and the movable bearing plate, the lower end part of the shaft part of the movable flange shaft is arranged in the middle of the fixed base through a bearing, and the flange part of the movable flange shaft is fixedly screwed on the movable bearing plate; the upper surface of the fixed base is fixedly provided with a circular ring-shaped bearing mounting seat in a screwed manner at the periphery of the movable flange shaft, and a plane bearing is arranged between the bearing mounting seat and the movable bearing plate; the left clamping assembly comprises a left rotary supporting arm and a left rotary driving oil cylinder, the lower end part of the left rotary supporting arm is hinged with the fixed mounting plate, the middle part of the left rotary supporting arm is screwed with a left oil cylinder upper end hinge seat, the platform frame is screwed with a left oil cylinder lower end hinge seat corresponding to the left rotary driving oil cylinder, the cylinder body of the left rotary driving oil cylinder is hinged with a left oil cylinder lower end hinge seat through a pivot, and the extending end part of a piston rod of the left rotary driving oil cylinder is hinged with a left oil cylinder upper end hinge seat through a pivot; the upper end part of the left rotary supporting arm is provided with a left clamping mechanism; the right clamping assembly comprises a right rotary supporting arm and a right rotary driving oil cylinder, the lower end part of the right rotary supporting arm is hinged with the fixed mounting plate, the middle part of the right rotary supporting arm is provided with a right oil cylinder upper end hinge seat in a threaded manner, the platform frame is provided with a right oil cylinder lower end hinge seat in a threaded manner corresponding to the right rotary driving oil cylinder, the cylinder body of the right rotary driving oil cylinder is hinged with the right oil cylinder lower end hinge seat through a pivot, and the extending end part of the piston rod of the right rotary driving oil cylinder is hinged with the right oil cylinder upper end hinge seat through a pivot; the upper end part of the right rotary supporting arm is provided with a right clamping mechanism. Through the structural design, the automatic packaging machine has the advantages of novel structural design, high automation degree and convenience in use.

Drawings

The utility model will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.

FIG. 1 is a schematic structural diagram of the present invention.

In fig. 1, included are:

1-platform frame 11-fixed mounting plate

2-rotating support component 21-fixed base

22-movable bearing plate 23-movable flange shaft

24-bearing mounting seat 25-plane bearing

3-left clamping component 31-left rotary supporting arm

32-left side rotation driving oil cylinder 331-left side oil cylinder upper end hinge seat

332-left side oil cylinder lower end hinge seat 34-left side clamping mechanism

341 left driving plate 342 left clamping driving oil cylinder

343 left clamping plate 344 left spring

345 left guide post 346 and left guide sleeve

351-left side supporting arm hinge seat 352-left side mounting plate hinge seat

4-Right clamping Assembly 41-Right swivel support arm

42-right side rotary driving oil cylinder 431-right side oil cylinder upper end hinged seat

432-right side oil cylinder lower end hinged seat 44-right side clamping mechanism

441-right driving plate 442-right clamping driving oil cylinder

443-right clamping plate 444-right spring

445-Right guide pillar 446-Right guide bushing

451-the right side support arm hinge base 452-the right side mounting plate hinge base.

Detailed Description

The present invention will be described below with reference to specific embodiments.

As shown in fig. 1, an injection mold auxiliary platform includes a platform frame 1, the upper end of the platform frame 1 is provided with a fixed mounting plate 11 horizontally arranged, a rotary supporting component 2 is installed on the upper end side of the fixed mounting plate 11, a left clamping component 3 is installed on the left end side of the rotary supporting component 2 on the platform frame 1, and a right clamping component 4 is installed on the right end side of the rotary supporting component 2 on the platform frame 1.

The rotary bearing component 2 comprises a fixed base 21 fixedly screwed on the upper surface of the fixed mounting plate 11 and a movable bearing plate 22 positioned on the upper end side of the fixed base 21, a movable flange shaft 23 which is vertically arranged is arranged between the fixed base 21 and the movable bearing plate 22, the lower end part of the shaft part of the movable flange shaft 23 is arranged in the middle of the fixed base 21 through a bearing, and the flange part of the movable flange shaft 23 is fixedly screwed on the movable bearing plate 22; the upper surface of the fixed base 21 is fixedly screwed with a circular ring-shaped bearing mounting seat 24 on the periphery of the movable flange shaft 23, and a plane bearing 25 is arranged between the bearing mounting seat 24 and the movable supporting plate 22.

Further, the left clamping assembly 3 comprises a left rotary supporting arm 31 and a left rotary driving oil cylinder 32, the lower end of the left rotary supporting arm 31 is hinged to the fixed mounting plate 11, the middle part of the left rotary supporting arm 31 is screwed with a left oil cylinder upper end hinge seat 331, the platform frame 1 is screwed with a left oil cylinder lower end hinge seat 332 corresponding to the left rotary driving oil cylinder 32, the cylinder body of the left rotary driving oil cylinder 32 is hinged to the left oil cylinder lower end hinge seat 332 through a pivot, and the extending end part of the piston rod of the left rotary driving oil cylinder 32 is hinged to the left oil cylinder upper end hinge seat 331 through a pivot; the left rotary support arm 31 has a left clamp mechanism 34 mounted on the upper end thereof.

Furthermore, the right clamping assembly 4 comprises a right rotary supporting arm 41 and a right rotary driving oil cylinder 42, the lower end part of the right rotary supporting arm 41 is hinged with the fixed mounting plate 11, the middle part of the right rotary supporting arm 41 is provided with a right oil cylinder upper end hinge base 431 in a threaded manner, the platform frame 1 is provided with a right oil cylinder lower end hinge base 432 in a threaded manner corresponding to the right rotary driving oil cylinder 42, the cylinder body of the right rotary driving oil cylinder 42 is hinged with the right oil cylinder lower end hinge base 432 through a pivot, and the extending end part of the piston rod of the right rotary driving oil cylinder 42 is hinged with the right oil cylinder upper end hinge base 431 through a pivot; the upper end of the right rotary support arm 41 is provided with a right clamping mechanism 44.

In the working process of the injection molding machine, when the injection molding mold needs to be placed on the rotary supporting component 2, the left rotary driving oil cylinder 32 and the right rotary driving oil cylinder 42 firstly move, the left rotary driving oil cylinder 32 pulls the left rotary supporting arm 31 to swing downwards, the right rotary driving oil cylinder 42 pulls the right rotary supporting arm 41 to swing downwards, and at the moment, the left clamping mechanism 34 and the right clamping mechanism 44 are respectively far away from the rotary supporting component 2, so that the injection molding mold can be conveniently hoisted and moved to the upper part of the rotary supporting component 2, and the left clamping component 3 and the right clamping component 4 are prevented from blocking the hoisting and moving injection molding mold; after the injection mold is placed on the upper surface of the movable supporting plate 22 of the rotary supporting component 2, the left rotary driving oil cylinder 32 and the right rotary driving oil cylinder 42 respectively perform reverse actions, the left rotary driving oil cylinder 32 drives the left rotary supporting arm 31 to swing upwards and enables the left clamping mechanism 34 to reset to a clamping position, and the right rotary driving oil cylinder 42 drives the right rotary supporting arm 41 to swing upwards and enables the right clamping mechanism 44 to reset to the clamping position; after the left rotary supporting arm 31 and the right rotary supporting arm 41 swing upwards to the proper positions, the worker rotates the movable supporting plate 22 and rotates the injection mold, so that the clamping positions of the injection mold are respectively aligned with the left clamping mechanism 34 and the right clamping mechanism 44, and then the left clamping mechanism 34 and the right clamping mechanism 44 act and clamp and fix the injection mold.

It should be emphasized that after the injection mold is placed on the movable support plate 22, the worker can rotate the movable support plate 22 to quickly adjust the clamping position of the injection mold without laboriously lifting the injection mold for position adjustment.

By combining the above conditions, the utility model has the advantages of novel structural design, high automation degree and convenient use.

As a preferred embodiment, as shown in fig. 1, the left clamping mechanism 34 includes a left driving plate 341 located at the right end of the left rotary supporting arm 31, and a left clamping driving cylinder 342 screwed to the upper end of the left rotary supporting arm 31, and the outer end of the piston rod of the left clamping driving cylinder 342 is connected to the left driving plate 341; a left clamping plate 343 is attached to the left driving plate 341, left springs 344 are attached between the left driving plate 341 and the left clamping plate 343 at regular intervals, and both ends of the left springs 344 abut against the left driving plate 341 and the left clamping plate 343 on the corresponding sides, respectively.

Similarly, the right clamping mechanism 44 includes a right driving plate 441 located at the left end of the right rotary supporting arm 41, and a right clamping driving cylinder 442 screwed to the upper end of the right rotary supporting arm 41, and the piston rod extending end of the right clamping driving cylinder 442 is connected to the right driving plate 441; a right clamping plate 443 is mounted on the right side drive plate 441, right springs 444 are mounted between the right side drive plate 441 and the right clamping plate 443 at even intervals, and both ends of the right springs 444 are in contact with the right side drive plate 441 and the right clamping plate 443 on the corresponding sides, respectively.

It should be explained that the left spring 344 of the present invention can be installed between the left driving plate 341 and the left clamping plate 343 in the following manner: left side limit bolts are respectively arranged between the left side driving plate 341 and the left side clamping plate 343 corresponding to the left side springs 344, left side bolt mounting holes which completely penetrate left and right are respectively arranged on the left side driving plate 341 corresponding to the left side limit bolts, each left side limit bolt is respectively embedded in the corresponding left side bolt mounting hole, the thread end part of each left side limit bolt is respectively in threaded connection with the left side clamping plate 343, the big end part of each left side limit bolt is respectively positioned at the left end side of the left side driving plate 341, and each left side spring 344 is respectively sleeved on the periphery of the corresponding left side limit bolt; when each left spring 344 is in an extended state, the large end portion of each left limit bolt is respectively limited against the left side surface of the left driving plate 341.

Likewise, the right spring 444 of the present invention may be installed between the right driving plate 441 and the right clamping plate 443 in the following manner, in particular: right side limiting bolts are respectively arranged between the right side driving plate 441 and the right side clamping plate 443 and correspond to the right side springs 444, right side bolt mounting holes which are completely penetrated left and right are respectively formed in the right side driving plate 441 and correspond to the right side limiting bolts, the right side limiting bolts are respectively embedded in the corresponding right side bolt mounting holes, the thread end parts of the right side limiting bolts are respectively in threaded connection with the right side clamping plate 443, the big end parts of the right side limiting bolts are respectively positioned at the right end side of the right side driving plate 441, and the right side springs 444 are respectively sleeved on the periphery of the corresponding right side limiting bolts; when each of the right side springs 444 is in an extended state, the large end portion of each of the right side stopper bolts is respectively stopped against the right side surface of the right side drive plate 441.

In the process that the left clamping mechanism 34 clamps the injection mold, the left clamping driving cylinder 342 drives the left driving plate 341 to move towards the right, the left driving plate 341 moving towards the right drives the left clamping plate 343 to move towards the right synchronously, and the left clamping plate 343 is enabled to press the injection mold; similarly, during the process of clamping the injection mold by the right clamping mechanism 44, the right clamping driving cylinder 442 drives the right driving plate 441 to move towards the left, the right driving plate 441 moving towards the left drives the right clamping plate 443 to move towards the left synchronously, and the right clamping plate 443 presses against the injection mold, so that the left clamping plate 343 is matched with the right clamping plate 443 to clamp the injection mold at a middle position. The left spring 344 between the left driving plate 341 and the left clamping plate 343 can elastically press the left clamping plate 343 against the injection mold, and the right spring 444 between the right driving plate 441 and the right clamping plate 443 can elastically press the right clamping plate 443 against the injection mold.

As a preferred embodiment, as shown in fig. 1, in order to ensure smooth and reliable movement of the left driving plate 341 and the right driving plate 441, the present invention adopts the following guide structure design: the left side driving plate 341 is screwed with a left side guide post 345, the left side rotary supporting arm 31 is screwed with a left side guide sleeve 346 corresponding to the left side guide post 345, and the left side guide post 345 is inserted in a central hole of the left side guide sleeve 346; similarly, the right driving plate 441 is screwed with a right guide post 445, the right rotary supporting arm 41 is screwed with a right guide sleeve 446 corresponding to the right guide post 445, and the right guide post 445 is inserted into the central hole of the right guide sleeve 446.

As a preferred embodiment, as shown in fig. 1, the left rotary support arm 31 of the present invention can be hinged with the fixed mounting plate 11 in the following way: the articulated seat 351 of left side support arm is equipped with to the lower tip spiral shell of left side rotation support arm 31, and the articulated seat 351 spiral shell of left side mounting panel that corresponds the articulated seat 351 spiral shell of left side support arm of fixed mounting panel 11 is equipped with the articulated seat 352 of left side mounting panel, and the articulated seat 351 of left side support arm is articulated through the pivot with the articulated seat 352 of left side mounting panel.

Likewise, the right rotary support arm 41 of the present invention can be hinged to the fixed mounting plate 11 in the following manner: the lower end part of the right rotary supporting arm 41 is provided with a right supporting arm hinging seat 451 in a threaded manner, the fixed mounting plate 11 is provided with a right mounting plate hinging seat 452 in a threaded manner corresponding to the right supporting arm hinging seat 451, and the right supporting arm hinging seat 451 is hinged with the right mounting plate hinging seat 452 through a pivot.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (7)

1. The utility model provides an injection mold auxiliary platform which characterized in that: the device comprises a platform frame (1), wherein a fixed mounting plate (11) which is horizontally and transversely arranged is arranged at the upper end part of the platform frame (1), a rotary supporting component (2) is arranged on the upper end side of the fixed mounting plate (11), a left clamping component (3) is arranged on the left end side of the rotary supporting component (2) of the platform frame (1), and a right clamping component (4) is arranged on the right end side of the rotary supporting component (2) of the platform frame (1);

the rotary bearing component (2) comprises a fixed base (21) which is screwed and fastened on the upper surface of the fixed mounting plate (11) and a movable bearing plate (22) which is positioned on the upper end side of the fixed base (21), a movable flange shaft (23) which is vertically arranged is arranged between the fixed base (21) and the movable bearing plate (22), the lower end part of the shaft part of the movable flange shaft (23) is mounted in the middle position of the fixed base (21) through a bearing, and the flange part of the movable flange shaft (23) is screwed and fastened on the movable bearing plate (22); the upper surface of the fixed base (21) is fixedly screwed with a circular ring-shaped bearing mounting seat (24) at the periphery of the movable flange shaft (23), and a plane bearing (25) is arranged between the bearing mounting seat (24) and the movable bearing plate (22);

the left clamping assembly (3) comprises a left rotary supporting arm (31) and a left rotary driving oil cylinder (32), the lower end part of the left rotary supporting arm (31) is hinged with the fixed mounting plate (11), the middle part of the left rotary supporting arm (31) is provided with a left oil cylinder upper end hinge seat (331) in a threaded manner, the platform frame (1) is provided with a left oil cylinder lower end hinge seat (332) in a threaded manner corresponding to the left rotary driving oil cylinder (32), a cylinder body of the left rotary driving oil cylinder (32) is hinged with the left oil cylinder lower end hinge seat (332) through a pivot, and the extending end part of a piston rod of the left rotary driving oil cylinder (32) is hinged with the left oil cylinder upper end hinge seat (331) through a pivot; the upper end part of the left rotary supporting arm (31) is provided with a left clamping mechanism (34);

the right clamping assembly (4) comprises a right rotary supporting arm (41) and a right rotary driving oil cylinder (42), the lower end part of the right rotary supporting arm (41) is hinged with the fixed mounting plate (11), the middle part of the right rotary supporting arm (41) is provided with a right oil cylinder upper end hinging seat (431) in a threaded manner, the platform frame (1) is provided with a right oil cylinder lower end hinging seat (432) in a threaded manner corresponding to the right rotary driving oil cylinder (42), a cylinder body of the right rotary driving oil cylinder (42) is hinged with the right oil cylinder lower end hinging seat (432) through a pivot, and the extending end part of a piston rod of the right rotary driving oil cylinder (42) is hinged with the right oil cylinder upper end hinging seat (431) through a pivot; the upper end part of the right rotary supporting arm (41) is provided with a right clamping mechanism (44).

2. An injection mold auxiliary platform according to claim 1, wherein: the left clamping mechanism (34) comprises a left driving plate (341) positioned on the right end side of the left rotary supporting arm (31) and a left clamping driving oil cylinder (342) screwed at the upper end part of the left rotary supporting arm (31), and the extending end of a piston rod of the left clamping driving oil cylinder (342) is connected with the left driving plate (341);

a left clamping plate (343) is arranged on the left driving plate (341), left springs (344) are arranged between the left driving plate (341) and the left clamping plate (343) at even intervals, and two ends of each left spring (344) are respectively abutted against the left driving plate (341) and the left clamping plate (343) on the corresponding side.

3. An injection mold auxiliary platform according to claim 2, wherein: the right clamping mechanism (44) comprises a right driving plate (441) positioned at the left end side of the right rotary supporting arm (41) and a right clamping driving oil cylinder (442) screwed at the upper end part of the right rotary supporting arm (41), and the extending end of a piston rod of the right clamping driving oil cylinder (442) is connected with the right driving plate (441);

a right clamping plate (443) is arranged on the right side driving plate (441), right springs (444) are arranged between the right side driving plate (441) and the right clamping plate (443) at even intervals, and two end parts of each right spring (444) are respectively abutted against the right side driving plate (441) and the right clamping plate (443) on the corresponding sides.

4. An injection mold auxiliary platform according to claim 3, wherein: the left side driving plate (341) is provided with a left side guide post (345) in a threaded manner, the left side rotary supporting arm (31) is provided with a left side guide sleeve (346) in a threaded manner corresponding to the left side guide post (345), and the left side guide post (345) is embedded in a central hole of the left side guide sleeve (346).

5. An injection mold auxiliary platform according to claim 4, wherein: the right side drive plate (441) is provided with a right side guide post (445) in a threaded manner, the right side rotary support arm (41) is provided with a right side guide sleeve (446) in a threaded manner corresponding to the right side guide post (445), and the right side guide post (445) is embedded in a central hole of the right side guide sleeve (446).

6. An injection mold auxiliary platform according to claim 1, wherein: the lower tip spiral shell of left side rotation support arm (31) is equipped with the articulated seat of left side support arm (351), the articulated seat of left side mounting panel (352) is equipped with to the articulated seat of left side support arm (351) spiral shell in fixed mounting panel (11) correspondence, and the articulated seat of left side support arm (351) is articulated through the pivot with the articulated seat of left side mounting panel (352).

7. An injection mold auxiliary platform according to claim 1, wherein: the lower tip spiral shell of right side rotation support arm (41) is equipped with the articulated seat of right side support arm (451), fixed mounting panel (11) correspond the articulated seat of right side support arm (451) spiral shell and are equipped with the articulated seat of right side mounting panel (452), and the articulated seat of right side support arm (451) is articulated through the pivot with the articulated seat of right side mounting panel (452).

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