CN108016004B - Hydraulic die clamping mechanism of vertical type injection molding machine and vertical type injection molding machine comprising hydraulic die clamping mechanism - Google Patents

Abstract

The invention discloses a hydraulic mould closing mechanism of a vertical type injection machine and the vertical type injection machine comprising the same, wherein the mould closing mechanism comprises a rear mould plate, a movable mould plate and a front mould plate which are sequentially arranged at intervals from top to bottom along the vertical direction, the rear mould plate and the front mould plate are connected through a pull rod, the movable mould plate is arranged between the rear mould plate and the front mould plate in a sliding manner, a high-pressure mould locking oil cylinder is integrated on the rear mould plate, a liquid filling oil tank for supplying oil to the high-pressure mould locking oil cylinder is arranged on one side of the rear mould plate, which is far away from the movable mould plate, the end part of a piston rod of the high-pressure mould locking oil cylinder is connected with the movable mould plate, and a movable oil cylinder for driving the movable mould plate to move rapidly is arranged between the rear mould plate and the movable mould plate, wherein the diameter of the oil cylinder of the movable oil cylinder is smaller than that of the high-pressure mould locking oil cylinder. The hydraulic mould closing mechanism of the vertical type injection machine has a simple structure, can not only realize accurate mould closing and mould locking, but also rapidly move the mould, so that the production efficiency is greatly improved, and the product quality can be ensured.

Description

Hydraulic die clamping mechanism of vertical type injection molding machine and vertical type injection molding machine comprising hydraulic die clamping mechanism

Technical Field

The invention relates to the technical field of injection molding equipment, in particular to a hydraulic mold clamping mechanism of a vertical injection molding machine and the vertical injection molding machine comprising the hydraulic mold clamping mechanism.

Background

The clamping mechanism of the injection molding machine has the functions of ensuring the closing and opening of the mold, and after the mold is closed, the mold clamping force is required to be given to the mold to resist the mold cavity pressure generated by the molten plastic entering the mold cavity, so that the mold is prevented from slotting, and the bad condition of products is caused. The traditional machine hinge type mould closing mechanism (also called as a mechanical hydraulic mould closing mechanism) adopts full hydraulic power to provide hydraulic energy for a mould closing oil cylinder, the oil cylinder is driven, and the reciprocating motion of the oil cylinder pushes a mould plate to lock a mould, so that quick mould closing and high-pressure mould locking are realized. The mold clamping mechanism with the structure only needs to realize two actions by one oil cylinder, can not simultaneously meet the two requirements of quick movement and accurate mold clamping, and reduces the production efficiency and the quality.

Disclosure of Invention

The invention aims to provide a hydraulic die clamping mechanism of a vertical type injection molding machine and the vertical type injection molding machine comprising the hydraulic die clamping mechanism, which are simple in structure, capable of realizing rapid movement of a template, accurate die clamping, high in production efficiency and good in product quality.

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

in one aspect, the hydraulic mould closing mechanism of the vertical type injection molding machine comprises a rear mould plate, a movable mould plate and a front mould plate, wherein the rear mould plate, the movable mould plate and the front mould plate are sequentially arranged from top to bottom at intervals along the vertical direction, the rear mould plate is connected with the front mould plate through a pull rod, the movable mould plate is slidingly arranged between the rear mould plate and the front mould plate, a high-pressure mould locking oil cylinder is integrated on the rear mould plate, a liquid filling oil tank for supplying oil to the high-pressure mould locking oil cylinder is arranged on one side of the rear mould plate, the end part of a piston rod of the high-pressure mould locking oil cylinder is connected with the movable mould plate, and a movable oil cylinder for driving the movable mould plate to move fast is further arranged between the rear mould plate and the movable mould plate, wherein the diameter of the oil cylinder of the movable oil cylinder is smaller than that of the high-pressure mould locking oil cylinder.

As a preferable scheme, a mold locking oil inlet of the high-pressure mold locking oil cylinder is arranged right above the rear mold plate and is in sealing connection with an oil tank oil outlet of the liquid filling oil tank through a sealing mechanism, and a liquid filling valve for selectively blocking the mold locking oil inlet of the high-pressure mold locking oil cylinder is arranged in the liquid filling oil tank.

As a preferable scheme, a liquid filling valve oil cylinder is arranged on one side, away from the movable mould plate, of the liquid filling oil tank, and the end part of a piston rod of the liquid filling valve oil cylinder is connected with the liquid filling valve so as to drive the liquid filling valve to move along the vertical direction to selectively seal the mould locking oil inlet.

As a preferable scheme, an oil cavity is arranged in the liquid filling oil tank, an oil outlet of the oil tank is communicated with the oil cavity, a plurality of partition boards are arranged in the oil cavity, the partition boards isolate the oil cavity into at least one first oil cavity and at least two second oil cavities, the first oil cavity is used for moving the liquid filling valve and is communicated with the oil outlet of the oil tank, and the second oil cavity is communicated with the first oil cavity and is used for temporarily storing oil and cooling the oil.

As a preferable scheme, oil holes are formed in the cavity wall between two adjacent second oil cavities and the cavity wall between the second oil cavity and the first oil cavity, and the oil holes are formed in the bottom wall of the liquid filling oil tank at intervals.

As a preferable scheme, four partition boards are arranged in the oil cavity of the liquid filling oil tank in a crisscross mode, and the four partition boards isolate the oil cavity into a first oil cavity positioned at the center of the liquid filling oil tank and eight second oil cavities arranged along the periphery of the first oil cavity.

As a preferable scheme, the end face of the mold locking oil inlet is provided with a threaded hole, the liquid filling oil tank is provided with a bottom plate close to one side of the high-pressure mold locking oil cylinder, the bottom plate is provided with a first through hole which is communicated with the first oil cavity and matched with the threaded hole, and a locking screw penetrates through the first through hole and is screwed in the threaded hole so as to connect the high-pressure mold locking oil cylinder and the liquid filling oil tank;

And at least two brackets are arranged on Zhou Buhuan of the high-pressure mold locking oil cylinder, one end of each bracket is fixedly connected with the high-pressure mold locking oil cylinder, and the other end of each bracket is detachably connected with the bottom plate through a screw.

As a preferable mode, the rear die plate comprises a rear die plate body for connecting and fixing the cylinder body of the movable oil cylinder with the pull rod, and the cylinder body of the high-pressure die locking oil cylinder is cast in the rear die plate body.

As a preferable scheme, the high-pressure die locking device comprises four pull rods, wherein the four pull rods are distributed between the front die plate and the rear die plate in a square shape, and the four pull rods are uniformly distributed along the axis of a piston rod of the high-pressure die locking cylinder in an annular shape.

In another aspect, a vertical injection molding machine is provided, comprising the hydraulic clamping mechanism of the vertical injection molding machine.

The invention has the beneficial effects that: the high-pressure mold locking oil cylinder is integrated on the rear mold plate, so that the high-pressure mold locking oil cylinder can be sufficiently large, the large oil cylinder can be used for accurately closing and locking the mold, the stability of closing and locking the mold is improved, the movable oil cylinder is independently arranged, the quick mold moving of the movable mold plate can be realized, and the mold moving speed is improved. The hydraulic mould closing mechanism of the vertical type injection machine has a simple structure, can not only realize accurate mould closing and mould locking, but also rapidly move the mould, so that the production efficiency is greatly improved, and the product quality can be ensured.

Drawings

Fig. 1 is a schematic structural view of a hydraulic clamping mechanism of a vertical injection molding machine according to an embodiment.

Fig. 2 is a schematic structural view of a rear die plate assembly in a hydraulic clamping mechanism of a vertical injection molding machine according to an embodiment.

In the figure:

1. a rear template; 11. a rear template body; 12. high-pressure mode locking oil cylinder; 121. locking a mold oil inlet; 122. an end face; 2. a movable template; 3. a front template; 4. a pull rod; 5. a liquid-filled oil tank; 51. an oil outlet of the oil tank; 52. a partition plate; 53. a first oil chamber; 54. a second oil chamber; 55. a bottom plate; 56. an upper cover; 57. a side plate; 6. a mobile oil cylinder; 7. a charging valve cylinder; 8. a charging valve; 9. a bracket; 10. and a cushion pad.

Detailed Description

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

As shown in fig. 1 and 2, the embodiment of the invention provides a hydraulic mold clamping mechanism of a vertical injection molding machine, which comprises a rear mold plate assembly, a movable mold plate 2 and a front mold plate 3 which are sequentially arranged at intervals from top to bottom along the vertical direction, wherein the rear mold plate assembly comprises a rear mold plate 1 and a liquid filling oil tank 5 connected to one side of the rear mold plate 1 far away from the movable mold plate 2, the rear mold plate 1 and the front mold plate 3 are connected through a pull rod 4, the movable mold plate 2 is slidably arranged between the rear mold plate 1 and the front mold plate 3, a high-pressure mold locking oil cylinder 12 is integrated on the rear mold plate 1, a liquid filling oil tank 5 for supplying oil to the high-pressure mold locking oil cylinder 12 is arranged on one side of the rear mold plate 1 far away from the movable mold plate 2, the liquid filling oil tank 5 is used for supplying oil to the high-pressure mold locking oil cylinder 12, a piston rod end part of the high-pressure mold locking oil cylinder 12 is connected with the movable mold plate 2, a movable oil cylinder 6 for driving the movable mold plate 2 to rapidly move is further arranged between the rear mold plate 1 and the movable mold plate 2, wherein the diameter of the movable oil cylinder 6 is smaller than the high-pressure mold locking oil cylinder 12. Through integrated high pressure mode locking jar 12 on back template 1, can accomplish big enough with high pressure mode locking jar 12, and then realize big hydro-cylinder accuracy compound die and mode locking, improve compound die and mode locking's stability, and set up movable cylinder 6 alone, can realize movable mould plate 2's quick mould moving, promote the mould moving speed. The hydraulic mould closing mechanism of the vertical type injection machine has a simple structure, can not only realize accurate mould closing and mould locking, but also rapidly move the mould, so that the production efficiency is greatly improved, and the product quality can be ensured.

In the present embodiment, the rear die plate assembly of the combination of the rear die plate 1 and the liquid filling tank 5 integrates three functions of liquid filling, die closing and die locking.

In a preferred embodiment of the present invention, the mold locking oil inlet 121 of the high-pressure mold locking cylinder 12 is disposed right above the rear mold plate 1, and is in sealing connection with the oil tank outlet 51 of the liquid-filled oil tank 5 through a sealing mechanism, and the liquid-filled valve 8 for selectively blocking the mold locking oil inlet 121 of the high-pressure mold locking cylinder 12 is disposed in the liquid-filled oil tank 5.

The existing mould closing mechanism adopting large oil cylinder mould locking and mould moving is characterized in that a liquid filling oil tank 5 is arranged on the ground, oil is pumped into the mould locking oil cylinder by an oil pump in the liquid filling oil tank 5, vacuum is easily generated in the mould locking oil cylinder in the process of being pumped by the oil, so that the conveying speed of the oil is reduced, and potential safety hazards exist.

According to the invention, the mold locking oil inlet 121 is arranged right above the rear mold plate 1, so that oil in the liquid filling oil tank 5 can rapidly enter the high-pressure mold locking oil cylinder 12 under the action of dead weight, the mold locking speed is increased, and the mold locking process is stable.

In another preferred embodiment of the present invention, a charging valve cylinder 7 is disposed on a side of the charging oil tank 5 away from the movable platen 2, and a piston rod end of the charging valve cylinder 7 is connected to the charging valve 8 to drive the charging valve 8 to move in a vertical direction so as to selectively block the mold locking oil inlet 121. The cylinder drives the liquid filling valve 8 to move, so that stable and rapid movement can be realized, and further, the mode locking oil inlet 121 can be rapidly opened or closed.

Further, an oil cavity is disposed in the filling oil tank 5, the oil outlet 51 of the oil tank is communicated with the oil cavity, a plurality of partition boards 52 are disposed in the oil cavity, the plurality of partition boards 52 isolate the oil cavity into at least one first oil cavity 53 and at least two second oil cavities 54, the first oil cavity 53 is used for moving the filling valve 8 and is communicated with the oil outlet 51 of the oil tank, and the second oil cavity 54 is communicated with the first oil cavity 53 and is used for temporarily storing oil and cooling the oil. By arranging the partition plate 52 and dividing the oil cavity into a plurality of cavities, the oil in the liquid filling oil tank 5 can enter the second oil cavity 54 from the first oil cavity 53 in the oil return process, the temperature of the oil in the second oil cavity 54 can be quickly reduced through the tank wall of the liquid filling oil tank 5 and the partition plate 52, and the oil entering the second oil cavity 54 can also be subjected to impurity precipitation in the cavity, so that the impurities in the oil can be prevented from entering the high-pressure mode locking oil cylinder 12 to influence the operation of the high-pressure mode locking oil cylinder 12.

Further, oil holes are formed in the cavity wall between two adjacent second oil chambers 54 and the cavity wall between the second oil chamber 54 and the first oil chamber 53, and the oil holes are spaced from the bottom wall of the liquid filling oil tank 5. The oil hole can be arranged to meet the requirement that oil moves in each oil cavity, so that a plurality of oil holes can be formed in order to quickly realize oil inlet and oil return, and the size can be larger as required. For example, two oil holes are formed in four walls of the first oil chamber 53, one oil hole is formed in a wall of the second oil chamber 54, which is not connected with the first oil chamber 53, and the diameter of the oil hole is slightly equal to half of the height of the partition plate 52.

In one embodiment of the present invention, four partition plates 52 are disposed in the oil chamber of the liquid-filled oil tank 5 in a crisscross manner, and the four partition plates 52 divide the oil chamber into one first oil chamber 53 located at the center of the liquid-filled oil tank 5 and eight second oil chambers 54 disposed along the peripheral portion of the first oil chamber 53.

Further, the liquid filling oil tank 5 includes a bottom plate 55 and an upper cover 56 which are arranged at intervals from bottom to top along the vertical direction, an annular side plate 57 is arranged between the bottom plate 55 and the upper cover 56, an oil cavity is formed among the upper cover 56, the bottom plate 55 and the side plate 57, the upper cover 56 is detachably fixed on one side of the side plate 57 far away from the bottom plate 55 through screws, the bottom plate 55 is fixedly connected with the side plate 57, and at least one ring of sealing ring for sealing a gap between the upper cover 56 and the side plate 57 is arranged between the upper cover 56 and the side plate 57.

Preferably, the upper cover 56 is detachably fixed to the side plate 67 by a screw, and the sealing ring is provided with a through hole for the screw to pass through.

In another embodiment of the present invention, the end face 122 of the mold locking oil inlet 121 is provided with a threaded hole, the bottom plate 55 of the liquid filling oil tank 5 is provided with a first through hole matched with the threaded hole and communicated with the first oil cavity 53, and a locking screw is screwed in the threaded hole through the first through hole to connect the high-pressure mold locking oil cylinder 12 and the liquid filling oil tank 5; at least two brackets 9 are arranged around the periphery of the high-pressure mold locking cylinder 12, one end of each bracket 9 is fixedly connected with the high-pressure mold locking cylinder 12, and the other end of each bracket is detachably connected with the bottom plate 55 through screws.

By arranging the bracket 9, the connection stability between the rear mold plate 1 and the liquid filling oil tank 5 can be enhanced, the bearing pressure of the locking screw between the mold locking oil inlet 121 and the bottom plate 55 can be reduced, and the locking screw can be ensured not to fail.

In this embodiment, four brackets 9 are provided in a ring shape on the peripheral portion of the high-pressure mold locking cylinder 12. The four brackets 9 can uniformly disperse the gravity of the rear template 1 on the bottom plate 55 of the liquid filling oil tank 5, so that stable connection is ensured.

In order to reduce noise of the high-pressure mold locking cylinder 12 during use, a cushion pad 10 is disposed between the bracket 9 and the bottom plate 55.

In order to increase the tightness between the mold locking oil inlet and the oil outlet 51 of the oil tank on the bottom plate 55, the sealing mechanism at least comprises an annular sealing ring which is annularly arranged on the end face 122 of the mold locking oil inlet 121, and a second through hole is formed on the annular sealing ring corresponding to the threaded hole.

Further the rear die plate 1 comprises a rear die plate body 11 for connecting and fixing the cylinder body of the movable cylinder 6 with the pull rod 4, and the cylinder body of the high-pressure die locking cylinder 12 is cast in the rear die plate body 11. By casting the high-pressure mold locking cylinder 12 on the rear mold plate 1, the connection strength between the high-pressure mold locking cylinder 12 and the rear mold plate can be increased, and the high-pressure mold locking cylinder 12 can be cast as large as possible, so that high-speed and stable mold locking is satisfied.

In yet another embodiment of the present invention, the hydraulic mold locking mechanism of the vertical injection molding machine includes four tie rods 4, the four tie rods 4 are distributed between the front mold plate 3 and the rear mold plate 1 in a square shape, and the four tie rods 4 are uniformly distributed in a ring shape along the axis of the piston rod of the high-pressure mold locking cylinder 12.

In this embodiment, the hydraulic mold locking mechanism of the vertical injection molding machine includes at least two moving cylinders 6, and the two moving cylinders 6 are symmetrically disposed along the axis of the piston rod of the high-pressure mold locking cylinder 12. The two symmetrically arranged movable oil cylinders 6 not only can realize quick movement, but also can realize stable movement, namely, the movable die plate 2 is more stable in the quick movement process, and the accuracy of the subsequent die assembly and locking is ensured.

The embodiment of the invention also provides a vertical injection machine, which comprises the hydraulic mould clamping mechanism of the vertical injection machine. The results of the hydraulic clamping mechanism of the vertical injection machine are not described in detail herein.

It should be noted that the above embodiments are merely preferred embodiments of the present invention and the applied technical principles, and any changes or substitutions easily conceivable to those skilled in the art within the scope of the present invention are included in the scope of the present invention.

Claims (8)

1. The hydraulic mould closing mechanism of the vertical type injection molding machine comprises a rear mould plate, a movable mould plate and a front mould plate which are sequentially arranged at intervals from top to bottom along the vertical direction, wherein the rear mould plate is connected with the front mould plate through a pull rod, and the movable mould plate is arranged between the rear mould plate and the front mould plate in a sliding manner;

A threaded hole is formed in the end face of a mold locking oil inlet of the high-pressure mold locking oil cylinder, a first through hole matched with the threaded hole is formed in a bottom plate of the liquid filling oil tank, and a locking screw penetrates through the first through hole to be screwed in the threaded hole so as to connect the high-pressure mold locking oil cylinder and the liquid filling oil tank; at least two brackets are arranged on Zhou Buhuan of the high-pressure mold locking oil cylinder, one end of each bracket is fixedly connected with the high-pressure mold locking oil cylinder, and the other end of each bracket is detachably connected with a bottom plate of the liquid filling oil tank through a screw; a buffer cushion is arranged between the bracket and the bottom plate;

the mold locking oil inlet is arranged right above the rear mold plate, a liquid filling valve for selectively blocking the mold locking oil inlet of the high-pressure mold locking oil cylinder is arranged in the liquid filling oil tank, a liquid filling valve oil cylinder is arranged on one side, away from the movable mold plate, of the liquid filling oil tank, and the end part of a piston rod of the liquid filling valve oil cylinder is connected with the liquid filling valve so as to drive the liquid filling valve to move along the vertical direction to selectively block the mold locking oil inlet.

2. The hydraulic clamping mechanism of the vertical injection molding machine according to claim 1, wherein the hydraulic clamping mechanism is in sealing connection with a tank outlet of the liquid filling tank through a sealing mechanism.

3. The hydraulic clamping mechanism of the vertical injection molding machine according to claim 2, wherein an oil cavity is arranged in the liquid filling oil tank, an oil outlet of the oil tank is communicated with the oil cavity, a plurality of partition plates are arranged in the oil cavity, the oil cavity is at least divided into a first oil cavity and at least two second oil cavities by the plurality of partition plates, the first oil cavity is used for moving the liquid filling valve and is communicated with the oil outlet of the oil tank, and the second oil cavity is communicated with the first oil cavity and is used for temporarily storing oil and cooling the oil.

4. The hydraulic clamping mechanism of a vertical injection molding machine according to claim 3, wherein oil holes are formed in the cavity wall between two adjacent second oil cavities and the cavity wall between the second oil cavity and the first oil cavity, and the oil holes are arranged at intervals from the bottom wall of the filling oil tank.

5. The hydraulic clamping mechanism of a vertical injection molding machine according to claim 3, wherein four partition plates are arranged in the oil cavity of the liquid filling oil tank in a crisscross manner, and the four partition plates isolate the oil cavity into a first oil cavity positioned at the center of the liquid filling oil tank and eight second oil cavities arranged along the periphery of the first oil cavity.

6. The hydraulic clamping mechanism of the vertical injection molding machine according to any one of claims 1 to 5, wherein the rear die plate includes a rear die plate body for connecting with the tie bar and fixing a cylinder body of the moving cylinder, and the cylinder body of the high-pressure mold clamping cylinder is cast in the rear die plate body.

7. The hydraulic clamping mechanism of the vertical injection molding machine according to any one of claims 1 to 5, comprising four tie bars, wherein the four tie bars are distributed between the front mold plate and the rear mold plate in a square shape, and the four tie bars are uniformly distributed along the axis of a piston rod of the high-pressure mold locking cylinder in an annular shape.

8. A vertical injection molding machine comprising the hydraulic clamping mechanism of the vertical injection molding machine according to any one of claims 1 to 7.