CN211993973U - Rotatable efficient sole injection molding machine - Google Patents

Abstract

The utility model discloses a rotatable high-efficient sole injection moulding machine, including frame, movable mould subassembly, cover half subassembly. The movable die assembly is movably sleeved on the guide posts and can slide along the guide posts to realize die assembly and die opening with the fixed die assembly, and a movable die is arranged on one side of the movable die assembly facing the fixed die assembly. The opposite two sides of the fixed die assembly are rotatably arranged in the frame through the shaft rotating mechanism, and the front side and the back side of the fixed die assembly are provided with the same first fixed die and the same second fixed die. Therefore, the fixed die and the movable die on one side are used for beer making, the fixed die on the other side can be used for placing other accessories by an operator, and after beer making of a product on one side is finished, the fixed die can be quickly turned to the other side, so that continuous operation is uninterrupted, and the production efficiency is effectively improved. In addition, the device takes and places objects on the outer side, and the risk of damaging hands by mould closing and pressing does not exist, so that the safety of operation is improved.

Description

Rotatable efficient sole injection molding machine

Technical Field

The utility model relates to a shoes production facility field technique especially indicates a rotatable formula high efficiency sole injection molding machine.

Background

Injection molding machines are a technology for producing film-pressed products. Is mainly used for producing rubber molded products and is common equipment in the field of shoe making. When the rubber injection molding machine is used for producing soles, rubber is injected into the molding die through the rubber injection machine to realize molding, and after the soles are molded, the finished products can be obtained by taking out the soles.

The structure of a common sole injection molding machine is shown in chinese patent 201920259084.9, which discloses a horizontal mold closing mechanism for shoe upper injection molding, wherein the mold closing system includes a mold, the mold is composed of a movable mold plate and a fixed mold plate, a cavity is provided between the movable mold plate and the fixed mold plate, and in the mold closing state, the raw material is processed and molded into a product in the cavity. After molding, the mold is opened, the movable mold plate is separated from the fixed mold plate, and a worker takes out the product in the cavity. Such prior devices suffer from the following disadvantages: 1. poor safety: the worker needs to extend the hand to the position between the movable die plate and the fixed die plate to take out the product and place the part, but the fixed die plate and the movable die plate have the risk of die assembly, and personal injury is possibly caused. 2. The mold closing injection molding time is long, and workers wait aside during molding and cannot perform other operations, so that a large amount of time is wasted, the product molding time is prolonged, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a rotatable high-efficiency sole injection molding machine, which reduces the stand-by time of the machine and improves the beer production efficiency.

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

a rotary high-efficiency sole injection molding machine comprises

The frame is provided with a front support and a rear support for supporting, and a plurality of guide columns are transversely and fixedly arranged between the front support and the rear support;

the movable die assembly is movably sleeved on the guide post and can slide along the guide post to realize die assembly and die opening with the fixed die assembly, and a movable die is arranged on one side of the movable die assembly facing the fixed die assembly;

the fixed die assembly is rotatably arranged on the rack through a shaft rotating mechanism, and the front side and the back side of the fixed die assembly are provided with a first fixed die and a second fixed die which are the same;

when the fixed die assembly rotates along the shaft rotating mechanism, so that the first fixed die mold is opposite to the movable die mold, the movable die assembly slides to the fixed die assembly to perform first die assembly; after the mold is opened, the fixed mold assembly rotates along the shaft rotating mechanism, so that when the second fixed mold is opposite to the movable mold, the movable mold assembly slides to the fixed mold assembly again for second mold closing.

As a preferable scheme, the fixed die assembly comprises a fixed die mounting plate, the top and the bottom of the fixed die mounting plate are provided with a shaft rotating mechanism, the shaft rotating mechanism is connected to a top cross beam and a bottom cross beam, and the top cross beam and the bottom cross beam are respectively fixed on two upright posts of the front support.

As a preferred scheme, the shaft rotating mechanism comprises a connecting head and a rotating shaft, wherein the top cross beam and the bottom cross beam are respectively provided with a shaft hole, the rotating shaft is matched with the shaft holes, and the connecting head is welded on the fixed die mounting plate.

As a preferred scheme, the first fixed die mold and the second fixed die mold are both provided with fixed die cavities for placing shoe accessories, and the movable die mold is provided with a movable die cavity for forming the shape of the sole.

Preferably, the movable die assembly comprises a movable die mounting plate, and two sides of the movable die mounting plate are mounted on the guide posts through guide sleeves.

Preferably, the top of the machine frame is provided with a top frame which is welded on the top of the front support and the rear support.

Preferably, the bottom of the front bracket and the bottom of the rear bracket are provided with widened legs.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme, because the cover half subassembly design with this equipment is rotatable, all set up the same first cover half mould in the tow sides of cover half subassembly, the second cover half mould, wherein the cover half mould of one side is on one side in the beer with the movable mould like this, the cover half mould of another side can be put into other accessories by the operation personnel on one side, accomplish one side product beer system back, can overturn the another side fast, thereby continuity of operation is incessant, effectively improve production efficiency. In addition, compare with conventional equipment, the utility model discloses place the part and take out goods and all take the formula outward after the cover half subassembly upset, do not have the risk that the hand was hindered to the matched mould pressure to the security of operation has been improved.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a perspective view of a rotatable high-efficiency sole injection molding machine according to an embodiment of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a perspective view of the stationary mold assembly in a rotating state according to the embodiment of the present invention.

Fig. 4 is a top view of fig. 3.

The attached drawings indicate the following:

10. frame 11, fore-stock

12. Rear bracket 13, foot

14. Top frame 15, guide post

16. Guide sleeve 17 and top cross beam

18. Bottom cross beam 19, shaft hole

20. Movable mould assembly 21 and movable mould

22. Movable mould mounting plate 23 and movable mould cavity

30. Fixed die assembly 31 and shaft rotating mechanism

311. Connector 312 and rotating shaft

32. First fixed die mold 33 and second fixed die mold

34. A fixed die mounting plate 35 and a fixed die cavity.

Detailed Description

Referring to fig. 1 to 4, there is shown a specific structure of a rotatable high-efficiency sole injection molding machine according to a preferred embodiment of the present invention, which includes a frame 10, and a movable mold assembly 20 and a fixed mold assembly 30 mounted on the frame 10.

The frame 10 is made of a metal material, such as stainless steel. The rack 10 has a front support 11 and a rear support 12 for supporting, the front support 11 and the rear support 12 are two columns, and the bottom of each column has a widened support leg 13, so that the whole rack 10 can be stably supported on the ground. The top of the frame 10 has a top frame 14, and the top frame 14 is welded to the tops of the front and rear brackets 11 and 12. And a plurality of guide posts 15 are transversely and fixedly arranged between the front bracket 11 and the rear bracket 12 and used for guiding the movable mold assembly 20 to perform mold opening and mold closing actions.

The movable mold assembly 20 is movably sleeved on the guide post 15 and can slide along the guide post 15 to realize mold closing and mold opening with the fixed mold assembly 30, and a movable mold 21 is arranged on one side of the movable mold assembly 20 facing the fixed mold assembly 30. Opposite sides of the fixed mold assembly 30 are rotatably mounted to the frame 10 by a shaft rotating mechanism 31, and the front and back sides of the fixed mold assembly 30 are provided with a first fixed mold 32 and a second fixed mold 33 which are identical to each other. When the stationary mold assembly 30 is rotated along the shaft rotating mechanism 31 so that the first stationary mold 32 is opposed to the movable mold 21, the movable mold assembly 20 is slid toward the stationary mold assembly 30 for the first mold closing; after the mold opening, the fixed mold assembly 30 is rotated along the shaft rotating mechanism 31 so that the second fixed mold 33 is opposed to the movable mold 21, and the movable mold assembly 20 is slid again toward the fixed mold assembly 30 to be closed for the second time.

The utility model discloses a machine because cover half subassembly 30 is rotatable, wherein the cover half mould of one side and movable mould 21 are on one side in the beer making like this, and other accessories can be put into by the operating personnel on one side to the cover half mould of another side to can not waste the time of beer making. The beer making time (such as the first fixed mold 32) is utilized, meanwhile, the parts are put in (such as the second fixed mold 33), and the fixed mold assembly 30 is integrally rotated to the other side, so that the continuous production can be realized, and the productivity is improved.

More specifically, the movable mold assembly 20 includes a movable mold mounting plate 22, and both sides of the movable mold mounting plate 22 are mounted to the guide posts 15 through guide sleeves 16. The fixed die assembly 30 comprises a fixed die mounting plate 34, the top and the bottom of the fixed die mounting plate 34 are provided with a shaft rotating mechanism 31, the shaft rotating mechanism 31 is connected with a top cross beam 17 and a bottom cross beam 18 through a shaft, and the top cross beam 17 and the bottom cross beam 18 are respectively fixed on two upright posts of the front bracket 11. Thus, the stationary mold assembly 30 can be turned left and right as a whole along the shaft rotating mechanism 31. The shaft rotating mechanism 31 includes a connecting head 311 and a rotating shaft 312, the top beam 17 and the bottom beam 18 are both provided with shaft holes 19, the rotating shaft 312 is matched with the shaft holes 19, and the connecting head 311 is welded to the fixed mold mounting plate 34. And the first fixed die mould 32 and the second fixed die mould 33 are both provided with fixed die cavities 35 for placing shoe accessories, and the movable die mould 21 is provided with a movable die cavity 23 for forming the shape of the sole. Thus, when the mold is closed, the foaming material can be injection molded to produce the sole.

The utility model discloses a rotatable formula high-efficient sole injection moulding machine, its theory of operation as follows (the following front, back, left and right sides that mentions use the direction that figure 1 shows as the standard):

1. the movable mold component 20 is driven by a mold closing cylinder assembly (not shown) to move backwards, and the movable mold component 20 is far away from the fixed mold component 30 and is in a mold opening state.

2. An operator puts shoe material parts into a fixed die cavity 35 of a first fixed die 32 of the fixed die component 30, then turns over the fixed die component 30 to enable the first fixed die 32 to face inwards (namely the first fixed die 32 is just opposite to the movable die 21), and the movable die component 20 is driven by a die assembly oil cylinder assembly to enable the movable die 21 and the first fixed die 32 to be matched for the first time, so that soles are formed through injection molding.

3. When the first fixed die 32 is used for injection molding of the sole, the first fixed die 33 faces outwards, and at the same time, an operator puts shoe material parts into the fixed die cavity 35 of the second fixed die 33. After the first beer making is completed, the operator rotates the movable mold assembly 20 again to enable the second fixed mold 33 to face inwards (namely the second fixed mold 33 is opposite to the movable mold 21), and then the mold is closed for the second time, and the sole is injection molded.

4. Repeating the above steps, and producing continuously.

To sum up, the utility model discloses a design is emphasized, because the cover half subassembly 30 with this equipment designs for rotatable, all sets up the same first cover half mould 32, second cover half mould 33 on the tow sides of cover half subassembly 30, wherein the cover half mould of one side and movable mould 21 are on one side in the beer system like this, and the cover half mould of another side can be put into other accessories by the operating personnel on one side, accomplishes one side product beer system back, can overturn the another side fast to continuous operation is incessant, effectively improves production efficiency.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (7)

1. A rotatable high-efficient sole injection moulding machine which characterized in that: comprises that

The device comprises a frame (10) and a plurality of guide columns (15), wherein the frame is provided with a front support (11) and a rear support (12) which are used for supporting, and a plurality of guide columns (15) are transversely and fixedly arranged between the front support (11) and the rear support (12);

the movable die assembly (20) is movably sleeved on the guide post (15) and can slide along the guide post (15) to realize die assembly and die opening with the fixed die assembly (30), and a movable die (21) is arranged on one side of the movable die assembly (20) facing the fixed die assembly (30);

the fixed die assembly (30), the opposite both sides of the fixed die assembly (30) are rotatably mounted on the stander (10) through the shaft rotating mechanism (31), the front and back sides of the fixed die assembly (30) are provided with the same first fixed die mould (32) and the same second fixed die mould (33);

when the fixed die assembly (30) rotates along the shaft rotating mechanism (31) so that the first fixed die mold (32) is opposite to the movable die mold (21), the movable die assembly (20) slides to the fixed die assembly (30) for first die assembly; after the mold is opened, the fixed mold assembly (30) rotates along the shaft rotating mechanism (31) so that the second fixed mold (33) is opposite to the movable mold (21), and the movable mold assembly (20) slides to the fixed mold assembly (30) again for secondary mold closing.

2. The rotary efficient shoe sole injection molding machine as claimed in claim 1, wherein: the fixed die assembly (30) comprises a fixed die mounting plate (34), the top and the bottom of the fixed die mounting plate (34) are provided with a shaft rotating mechanism (31), the shaft rotating mechanism (31) is connected to a top cross beam (17) and a bottom cross beam (18) in a shaft mode, and the top cross beam (17) and the bottom cross beam (18) are respectively fixed on two stand columns of the front support (11).

3. A rotary efficient shoe sole injection molding machine as claimed in claim 2, wherein: the shaft rotating mechanism (31) comprises a connecting head (311) and a rotating shaft (312), the top cross beam (17) and the bottom cross beam (18) are respectively provided with a shaft hole (19), the rotating shaft (312) is matched with the shaft hole (19), and the connecting head (311) is welded on the fixed die mounting plate (34).

4. The rotary efficient shoe sole injection molding machine as claimed in claim 1, wherein: the shoe sole shaping mold is characterized in that fixed mold cavities (35) capable of containing shoe accessories are arranged on the first fixed mold (32) and the second fixed mold (33), and movable mold cavities (23) used for shaping the shape of a sole are arranged on the movable mold (21).

5. The rotary efficient shoe sole injection molding machine as claimed in claim 1, wherein: the movable die assembly (20) comprises a movable die mounting plate (22), and two sides of the movable die mounting plate (22) are mounted on the guide pillar (15) through guide sleeves (16).

6. The rotary efficient shoe sole injection molding machine as claimed in claim 1, wherein: the top of the frame (10) is provided with a top frame (14), and the top frame (14) is welded on the tops of the front support (11) and the rear support (12).

7. The rotary efficient shoe sole injection molding machine as claimed in claim 1, wherein: the bottoms of the front bracket (11) and the rear bracket (12) are provided with widened support legs (13).

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