CN109333921B

CN109333921B - Forming die of automobile instrument board with soft insert

Info

Publication number: CN109333921B
Application number: CN201810987487.5A
Authority: CN
Inventors: 王一栋; 胡迪; 金伟; 俞方敏; 应可国; 陈晨
Original assignee: Ningbo Fangzheng Tool Co Ltd
Current assignee: Ningbo Fangzheng Tool Co Ltd
Priority date: 2016-05-19
Filing date: 2016-05-19
Publication date: 2020-08-07
Anticipated expiration: 2036-05-19
Also published as: CN106426811A; CN109333921A; CN106426811B

Abstract

The invention discloses a forming die of an automobile instrument board with a soft insert, which comprises an upper die, a lower die and an ejection mechanism, wherein the upper die and the lower die are matched to form a die cavity of an automobile instrument board product; the ejection mechanism comprises an inclined ejection mechanism, an inclined ejection block in the inclined ejection mechanism is positioned at a soft insert embedded in an automobile instrument board product in the lower die, and the lower end of the inclined ejection mechanism is connected with a top plate component below the lower die; a locking block for fixing the soft insert is arranged at the inclined ejecting block, and the inclined ejecting block and the locking block are folded to form a part of profile of the automobile instrument panel product; the locking block and the inclined ejecting block are folded and separated through an automatic winding and unwinding device, and the automatic winding and unwinding device is connected with an external automatic control system through a lead. By adopting the structure, the requirement of automatic production is met, and the production efficiency can be greatly improved; potential safety hazards are avoided; the qualification rate of the automobile instrument board after injection molding is greatly improved, so that the production cost is reduced.

Description

Forming die of automobile instrument board with soft insert

Technical Field

The invention relates to the technical field of dies, in particular to a forming die of an automobile instrument board with a soft insert.

Background

Currently, many of the automotive accessories are made of plastic, which is usually injection molded by means of an injection mold. However, many products have very complicated structures, for example, a mesh insert is arranged in a plastic panel at the position of an airbag of an automobile instrument panel, as shown in fig. 1, a soft mesh insert is rotated on a mold core before injection molding, then mold closing is performed, and injection molding is performed, so that the mesh insert is embedded in the molded product. In the prior art, the forming die of the automobile instrument panel with the soft insert comprises an upper die assembly, a lower die assembly and an inclined ejection mechanism, wherein the soft insert is manually placed on an inclined ejection block before die assembly of the die, and then the die assembly is carried out for injection molding. However, the molding die and the method for operating the same have the following disadvantages:

1) the soft insert is manually placed in the die, so that the requirement of automatic production cannot be met, and the production efficiency is greatly reduced;

2) in addition, the soft insert is not fixed by a device after being placed, so that the soft insert is easy to deflect, and the product after injection molding is unqualified, therefore, the product yield is low, and the production cost is greatly increased;

3) in addition, because the mould is in the continuous operating condition, in case workman's misoperation, do not take out the hand in time from the mould, very take place the accident of injury to the people of safety, have the potential safety hazard.

Disclosure of Invention

The invention aims to solve the technical problem of providing a forming die of an automobile instrument board with a soft insert, which can be grabbed by a mechanical arm and can automatically realize that the soft insert is placed and fixed in the die, thereby realizing automation, improving the production efficiency and reducing the production cost.

In order to solve the technical problem, the forming die of the automobile instrument board with the soft insert comprises an upper die, a lower die and an ejection mechanism, wherein the upper die and the lower die are matched to form a die cavity of an automobile instrument board product; the ejection mechanism comprises an inclined ejection mechanism, an inclined ejection block in the inclined ejection mechanism is positioned at a soft insert embedded in an automobile instrument panel product in the lower die, and the lower end of the inclined ejection mechanism is connected with a top plate component below the lower die; the inclined ejecting block is provided with a locking block for fixing the flexible insert, and the inclined ejecting block and the locking block are folded to form a part of profile of the automobile instrument panel product; the locking block and the inclined ejecting block are folded and separated through an automatic winding and unwinding device, and the automatic winding and unwinding device is connected with an external automatic control system through a lead; the automatic winding and unwinding device comprises a driving device, a sliding plate, a travel switch and a pressing block, wherein an accommodating cavity is formed in the inclined ejecting block, the fixed end of the driving device is fixedly connected to a wall body in the accommodating cavity, and the movable end of the driving device is connected with the locking block; the sliding plate is fixedly connected to the inclined ejecting block, and the locking block is connected to the sliding plate in a sliding manner; the two travel switches are respectively a first travel switch and a second travel switch, and are both arranged on the locking block; the two contact pressure blocks are respectively a first contact pressure block and a second contact pressure block, and the two contact pressure blocks are both arranged on the inclined jacking block; the contact of the first travel switch is in contact pressure with the first contact pressure block when the locking block is farthest away from the inclined ejecting block, and the contact of the second travel switch is far away from the second contact pressure block; the contact of the second travel switch is in contact pressure with the second contact pressure block when the locking block and the inclined ejector block are combined, and the contact of the first travel switch is far away from the first contact pressure block; the first travel switch and the second travel switch are connected with an external automatic control system through leads; the lower die is internally provided with a sleeve, the upper end of the sleeve is connected to the bottom of the inclined ejector block, the lower end of the sleeve extends out of the lower die, and connecting wires of the first travel switch and the second travel switch are both positioned in the sleeve.

The driving device is an oil cylinder assembly, wherein a cylinder body of the oil cylinder assembly is fixedly connected to the wall body of the inclined jacking block at the accommodating cavity, and the free end of a piston rod of the oil cylinder assembly is connected with the locking block and pushes the locking block to slide on the sliding plate.

The inclined ejection mechanism further comprises two inclined ejector rods and a sliding foot assembly, the upper ends of the two inclined ejector rods are connected to the bottom of the inclined ejection block respectively and located on two sides of the locking block, and the lower ends of the two inclined ejector rods are connected with the top plate assembly through the sliding foot assembly.

The top plate assembly sequentially comprises a first top plate, a second top plate and a third top plate from top to bottom, the first top plate is fixedly connected with the second top plate, and a sliding foot assembly in the inclined top mechanism is fixedly connected onto the first top plate and the second top plate.

And a guide mechanism for guiding the sliding foot assembly in the inclined ejection mechanism is further arranged between the lower die and the third top plate.

The guide mechanism comprises a guide rod, an upper fixed seat, a lower fixed seat and a sliding sleeve; the upper fixing seat is fixedly connected to the bottom of the lower die, and the lower fixing seat is fixedly connected to the third top plate; the upper end and the lower end of the guide rod are respectively connected with the upper fixing seat and the lower fixing seat, and the axis of the guide rod is parallel to the axis of the inclined ejector rod; the sliding sleeve is clamped in a sliding groove of the sliding foot component in the pitched roof mechanism, and meanwhile, the sliding sleeve is in sliding fit with the guide rod.

After adopting the structure, compared with the prior art, the invention has the following advantages:

1) the locking block connected through the automatic retraction device is additionally arranged on the pitched roof at the soft insert of the automobile instrument panel, so that after the soft insert is placed at a preset position through an automatic clamping tool such as an external manipulator, the soft insert is clamped on the pitched roof through the automatic retraction device, and the locking block has the function of a molded surface at the same time, so that the requirement of automatic production is met, and the production efficiency can be greatly improved; moreover, because manual operation is avoided, potential safety hazards are eliminated; in addition, after the soft insert is clamped at the preset position, the soft insert cannot deviate, so that the qualification rate of the automobile instrument board after injection molding is greatly improved, and the production cost is reduced;

2) the driving device is arranged in the inclined ejecting block, and the driving device controls the action position of the inclined ejecting block through the two travel switches, so that the action of the locking block is more accurate, and the automatic requirement is further met;

3) the sleeve arranged in the lower die is used for enabling the wires of the first travel switch and the second travel switch to be arranged more reasonably, protecting the wires, prolonging the service life of the wires and ensuring the stable work of the electronic element;

4) the guide mechanism is arranged between the lower die and the top plate assembly, so that the sliding foot assembly in the inclined ejecting mechanism can push the inclined ejecting block upwards along the guide rod more stably and accurately to eject.

Drawings

Fig. 1 is a schematic structural view of parts involved in the present invention.

Fig. 2 is a schematic structural diagram of the molding die for the automobile instrument panel with the soft insert of the present invention when closing the die.

Fig. 3 is a schematic structural view of the automatic retraction device of the present invention when it is retracted.

Fig. 4 is a schematic structural view of the automatic retraction device of the present invention when released.

Fig. 5 is a schematic structural view of the lifter mechanism and the locking block during mold clamping in the present invention.

Wherein, 1, automobile instrument board products; 2. a soft insert; 3. a slanted ejecting block; 4. a locking block; 5. an accommodating cavity; 6. a drive device; 7. an oblique ejector rod; 8. a lower die; 9. an upper fixed seat; 10. a guide bar; 11. a sliding sleeve; 12. a chute; 13. a runner assembly; 14. a lower fixed seat; 15. a third top plate; 16. a second top plate; 17. A first top plate; 18. a slide plate; 19. a first press block; 20. a first travel switch; 21. a second press-contacting block; 22. a second travel switch; 23. a sleeve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As can be seen from the schematic structural diagrams of the molding die for an automobile instrument panel with a soft insert of the present invention shown in fig. 1 to 4, the molding die comprises an upper die, a lower die 8 and an ejection mechanism, wherein the upper die and the lower die 8 are closed to form a die cavity of an automobile instrument panel product 1. The ejection mechanism comprises an inclined ejection mechanism, an inclined ejection block 3 in the inclined ejection mechanism is positioned at a soft insert 2 embedded in an automobile instrument board product 1 in a lower die 8, and the lower end of the inclined ejection mechanism is connected with a top plate component below the lower die 8. The inclined ejector block 3 is provided with a locking block 4 for fixing the soft insert 2, and the inclined ejector block 3 and the locking block 4 are folded to form a part of the parting surface of the automobile instrument panel product 1. The locking block 4 and the inclined ejecting block 3 are folded and separated through an automatic folding and unfolding device, and the automatic folding and unfolding device is connected with an external automatic control system through a lead.

The automatic winding and unwinding device comprises a driving device 6, a sliding plate 18, a travel switch and a contact pressure block, wherein the inclined jacking block 3 is provided with a containing cavity 5, the fixed end of the driving device 6 is fixedly connected to the wall body in the containing cavity 5, and the movable end of the driving device 6 is connected with the locking block 4. The sliding plate 18 is fixedly connected to the inclined ejecting block 3, and the locking block 4 is connected to the sliding plate 18 in a sliding manner; the number of the travel switches is two, the travel switches are respectively a first travel switch 20 and a second travel switch 22, and the two travel switches are both arranged on the locking block 4. The number of the contact pressure blocks is two, the contact pressure blocks are respectively a first contact pressure block 19 and a second contact pressure block 21, and the two contact pressure blocks are both arranged on the inclined ejecting block 3. The contact of the first travel switch 20 is pressed with the first pressing block 19 when the locking block 4 is farthest from the inclined ejecting block 3, and the contact of the second travel switch 22 is far away from the second pressing block 21. The contact of the second travel switch 22 is pressed against the second pressing block 21 when the locking block 4 and the inclined ejecting block 3 are closed, and the contact of the first travel switch 20 is far away from the first pressing block 19. The first travel switch 20 and the second travel switch 22 are connected with an external automatic control system through wires.

The driving device 6 is an oil cylinder assembly, wherein a cylinder body of the oil cylinder assembly is fixedly connected to the wall body of the inclined jacking block 3 at the accommodating cavity 5, and the free end of a piston rod of the oil cylinder assembly is connected with the locking block 4 and pushes the locking block 4 to slide on the sliding plate 18.

The lower die 8 is internally provided with a sleeve 23, the upper end of the sleeve 23 is connected to the bottom of the inclined ejector block 3, the lower end of the sleeve 23 extends out of the lower die 8, and connecting wires of the first travel switch 20 and the second travel switch 22 are both positioned in the sleeve 23.

The angle lifter mechanism further comprises two angle lifter rods 7 and a sliding foot assembly 13, the upper ends of the two angle lifter rods 7 are respectively connected to the bottom of the angle lifter block 3 and located on two sides of the locking block 4, and the lower end of the angle lifter rod 7 is connected with the top plate assembly through the sliding foot assembly 13.

The top plate assembly sequentially comprises a first top plate 17, a second top plate 16 and a third top plate 15 from top to bottom, the first top plate 17 is fixedly connected with the second top plate 16, and a sliding foot assembly 13 in the inclined top mechanism is fixedly connected onto the first top plate 17 and the second top plate 16.

And a guide mechanism for guiding the sliding foot assembly 13 in the inclined top mechanism is further arranged between the lower die 8 and the third top plate 15.

The guide mechanism comprises a guide rod 10, an upper fixed seat 9, a lower fixed seat 14 and a sliding sleeve 11; wherein, the upper fixed seat 9 is fixedly connected with the bottom of the lower die 8, and the lower fixed seat 14 is fixedly connected with the third top plate 15; the upper end and the lower end of the guide rod 10 are respectively connected with the upper fixing seat 9 and the lower fixing seat 14, and the axis of the guide rod 10 is parallel to the axis of the inclined ejector rod 7; the sliding sleeve 11 is clamped in a sliding groove 12 of a sliding foot component 13 in the pitched roof mechanism, and meanwhile, the sliding sleeve 11 is in sliding fit on the guide rod 10.

The working process of the forming die of the automobile instrument board with the soft insert is as follows:

1. before the die is closed, firstly, the first top plate 17 and the second top plate 16 are pushed to drive the sliding foot assembly 13 to push upwards along the guide rod 10, so that the inclined ejecting block 3 and the locking block 4 are driven to eject out towards the outer side of the lower die 8 together;

2. at the moment, an external automatic control system starts the driving device 6 to enable the driving device 6 to act, the locking block 4 is pushed to slide along the sliding plate 18 to a side far away from the driving device 6 until the first travel switch 20 touches and presses the first touch block 19, and the sliding is stopped, and at the moment, a distance is reserved between the locking block 4 and the inclined ejector block 3;

3. the soft insert 2 is placed between the locking block 4 and the inclined ejector block 3 by using an external manipulator, an external automatic control system starts the driving device 6 in the opposite direction, so that the driving device 6 acts in the opposite direction, the locking block 4 is pulled back to slide towards the side close to the driving device 6 along the sliding plate 18 until the second travel switch 22 touches and presses the second touch pressing block 21, the sliding is stopped, and at the moment, the locking block 4 and the inclined ejector block 3 are clamped tightly;

4. the first top plate 17 and the second top plate 16 return to drive the inclined top block 3 and the locking block 4 to return to retract and return to the lower die 8;

5. and (5) closing the molding die to finish injection.

The above description is only a preferred embodiment of the present invention, and it should not be understood that the scope of the present invention is limited thereby, and it should be understood by those skilled in the art that various other modifications and equivalent arrangements can be made by applying the technical solutions and concepts of the present invention within the scope of the present invention as defined in the appended claims.

Claims

1. A forming die of an automobile instrument board with a soft insert comprises an upper die, a lower die (8) and an ejection mechanism, wherein the upper die and the lower die (8) are matched to form a die cavity of an automobile instrument board product (1); the method is characterized in that: the ejection mechanism comprises an inclined ejection mechanism, an inclined ejection block (3) in the inclined ejection mechanism is positioned at a soft insert (2) embedded in an automobile instrument panel product (1) in the lower die (8), and the lower end of the inclined ejection mechanism is connected with a top plate assembly below the lower die (8); the inclined ejecting block (3) is provided with a locking block (4) for fixing the soft insert (2), and the inclined ejecting block (3) and the locking block (4) are folded to form a part of profile of the automobile instrument panel product (1); the locking block (4) and the inclined ejecting block (3) are folded and separated through an automatic winding and unwinding device, and the automatic winding and unwinding device is connected with an external automatic control system through a lead; the automatic winding and unwinding device comprises a driving device (6), a sliding plate (18), a travel switch and a pressing block, wherein an accommodating cavity (5) is formed in the inclined ejecting block (3), the fixed end of the driving device (6) is fixedly connected to the wall body in the accommodating cavity (5), and the movable end of the driving device (6) is connected with the locking block (4); the sliding plate (18) is fixedly connected to the inclined ejecting block (3), and the locking block (4) is connected to the sliding plate (18) in a sliding manner; the number of the travel switches is two, the travel switches are respectively a first travel switch (20) and a second travel switch (22), and the two travel switches are both arranged on the locking block (4); the number of the two pressing blocks is also two, the two pressing blocks are respectively a first pressing block (19) and a second pressing block (21), and the two pressing blocks are both arranged on the inclined ejecting block (3); the contact of the first travel switch (20) is in contact with the first contact pressing block (19) when the locking block (4) is farthest from the inclined ejecting block (3), and the contact of the second travel switch (22) is far away from the second contact pressing block (21); the contact of the second travel switch (22) is pressed with the second pressing block (21) when the locking block (4) and the inclined ejecting block (3) are closed, and the contact of the first travel switch (20) is far away from the first pressing block (19); the first travel switch (20) and the second travel switch (22) are connected with an external automatic control system through leads; the lower die (8) is internally provided with a sleeve (23), the upper end of the sleeve (23) is connected to the bottom of the inclined ejector block (3), the lower end of the sleeve (23) extends out of the lower die (8), and connecting wires of the first travel switch (20) and the second travel switch (22) are located in the sleeve (23).

2. The mold for molding an automobile instrument panel with a soft insert according to claim 1, wherein: the driving device (6) is an oil cylinder assembly, wherein a cylinder body of the oil cylinder assembly is fixedly connected to the wall body of the inclined jacking block (3) at the accommodating cavity (5), and the free end of a piston rod of the oil cylinder assembly is connected with the locking block (4) and pushes the locking block (4) to slide on the sliding plate (18).

3. The mold for molding an automobile instrument panel with a soft insert according to claim 1, wherein: the angle lifter mechanism further comprises two angle lifter rods (7) and a sliding foot assembly (13), the upper ends of the angle lifter rods (7) are respectively connected to the bottom of the angle lifter block (3) and located on two sides of the locking block (4), and the lower end of the angle lifter rod (7) is connected with the top plate assembly through the sliding foot assembly (13).

4. The mold for molding an automobile instrument panel with a soft insert according to claim 3, wherein: the top plate assembly sequentially comprises a first top plate (17), a second top plate (16) and a third top plate (15) from top to bottom, the first top plate (17) is fixedly connected with the second top plate (16), and a sliding foot assembly (13) in the inclined top mechanism is fixedly connected onto the first top plate (17) and the second top plate (16).

5. The mold for molding automobile instrument panel with soft insert according to claim 4, wherein: and a guide mechanism for guiding the sliding foot assembly (13) in the inclined ejection mechanism is also arranged between the lower die (8) and the third top plate (15).

6. The mold for molding an automobile instrument panel with a soft insert according to claim 5, wherein: the guide mechanism comprises a guide rod (10), an upper fixed seat (9), a lower fixed seat (14) and a sliding sleeve (11); wherein, the upper fixed seat (9) is fixedly connected with the bottom of the lower die (8), and the lower fixed seat (14) is fixedly connected with the third top plate (15); the upper end and the lower end of the guide rod (10) are respectively connected with the upper fixing seat (9) and the lower fixing seat (14), and the axis of the guide rod (10) is parallel to the axis of the inclined ejector rod (7); the sliding sleeve (11) is clamped in a sliding groove (12) of a sliding foot component (13) in the inclined top mechanism, and meanwhile, the sliding sleeve (11) is in sliding fit with the guide rod (10).