CN221211788U - Intelligent trimming device for fiber molding - Google Patents

Abstract

The utility model belongs to a fiber molding production device, and particularly discloses an intelligent trimming device for fiber molding, which comprises an upper trimming die and a lower trimming die, wherein the upper trimming die is connected with a vertical upper die sliding rail in a sliding manner and is also connected with an upper die driving mechanism; the trimming lower die is connected with a horizontal lower die sliding rail in a sliding manner and is also connected with a lower die driving mechanism; the utility model provides an intelligent fiber molding trimming device capable of vertically taking and placing products in a region right below an upper die.

Description

Intelligent trimming device for fiber molding

Technical Field

The utility model belongs to a fiber molding production device, and particularly relates to an intelligent fiber molding trimming device.

Background

Fiber molding is a product made from pulp that can be used for commodity packaging; the product after the fibre moulding product production process needs to cut edge to the product after the shaping, makes the edge of product neat, pleasing to the eye, and current manual side cut device needs manual put the product on the side cut lower mould, then control the side cut of side cut upper mould decline to the product, just directly use the product on the lower cutting die of cutting down in the patent of application number 202021996728.1, have certain danger when putting the product between upper mould and the lower mould manually, because the upper mould stops, can't be placed perpendicularly from top to bottom when placing the product, probably lead to the product to place the skew.

Disclosure of utility model

The utility model aims to provide an intelligent fiber molding trimming device capable of taking and placing products in an area except for the area right below an upper die.

Based on the above purpose, the utility model adopts the following technical scheme:

The intelligent trimming device for the fiber molding comprises an upper trimming die and a lower trimming die, wherein the upper trimming die is connected with a vertical upper die sliding rail in a sliding manner, and is also connected with an upper die driving mechanism; the trimming lower die is connected with a horizontal lower die sliding rail in a sliding manner, and is also connected with a lower die driving mechanism.

Further, the lower die driving mechanism comprises a sliding block connected with the trimming lower die, the sliding block is connected with a sliding groove, the orthographic projection of the sliding groove on the vertical surface is obliquely arranged relative to the sliding rail of the lower die, and the sliding groove is fixedly connected with the trimming upper die.

Further, the chute comprises a translation section which is obliquely arranged, and further comprises a fixing section which is connected with the top end of the translation section, and the fixing section is parallel to the upper die sliding rail.

Further, the upper die driving mechanism comprises a connecting rod rotationally connected with the upper die of the cutting edge, one end, far away from the upper die of the cutting edge, of the connecting rod is rotationally connected with a crank, and the crank is connected with a driving motor.

Further, the sliding block is of a cylindrical structure, the axis of the sliding block is perpendicular to the upper die sliding rail and the lower die sliding rail, the sliding block is rotationally connected with the trimming lower die, and the rotation axis is coaxial with the sliding block.

Further, a transition fillet structure is arranged between the translation section and the fixed section.

Compared with the prior art, the utility model has the following beneficial effects:

1. The application is provided with the lower die sliding rail and the lower die driving mechanism, can drive the trimming lower die to move out of the area right below the trimming upper die, is convenient for manually placing the product on the trimming lower die, ensures the safety of workers, can observe and clearly place the product, and ensures the place to be accurate.

2. The sliding groove and the sliding block are used for driving the trimming lower die to move, and the trimming upper die and the trimming lower die are linked to ensure synchronous movement, so that the error probability is reduced; the side cut lower mould no longer translates when the slider gets into fixed section, makes side cut upper mould and side cut lower mould can combine steadily, and fixed section plays the upper and lower alignment effect moreover, guarantees that side cut upper mould and side cut lower mould align.

3. The crank sliding block structure is used for driving the upper cutting die, so that the structure is simple and the stroke is large; the sliding block and the sliding groove are arranged in a rolling way, so that the sliding block and the sliding groove are in rolling friction, and abrasion is reduced. The transition fillet is arranged to facilitate stable movement of the sliding block.

Drawings

FIG. 1 is a schematic view showing the upper die of embodiment 1 of the present utility model at the upper limit position;

fig. 2 is a schematic diagram showing the lower limit position of the upper die for cutting in embodiment 1 of the present utility model.

In the figure: the upper trimming die comprises an upper trimming die 1, a lower trimming die 2, an upper die sliding rail 3, a lower die sliding rail 4, a connecting rod 5, a crank 6, a fixed shaft 7, a sliding block 8, a translation section 9, a fixed section 10 and a vertical rod 11.

Detailed Description

Example 1

1-2, The intelligent trimming device for fiber molding comprises an upper trimming die 1 and a lower trimming die 2, wherein the upper trimming die 1 is connected with a vertical upper die sliding rail 3 in a sliding manner, and is also connected with an upper die driving mechanism; the trimming lower die 2 is connected with a lower die sliding rail 4 which is horizontally and longitudinally arranged, and is also connected with a lower die driving mechanism, and the upper die sliding rail 3 and the lower die sliding rail 4 are fixedly arranged.

Further, the upper die driving mechanism comprises a connecting rod 5 rotationally connected with the trimming upper die 1, one end of the connecting rod 5, far away from the trimming upper die 1, is rotationally connected with a crank 6, one end of the crank 6 is rotationally connected with the connecting rod 5, and the other end of the crank 6 is connected with a driving motor through a fixing shaft 7. The axes of rotation of the crank 6 and the connecting rod 5 are both horizontally and transversely arranged, and the axis of the fixed shaft 7 is also transversely arranged. The crank 6, the connecting rod 5, the upper die cutting 1 and the upper die sliding rail 3 form a crank 6 connecting rod 5 mechanism.

Further, the front end of the trimming lower die 2 is used for placing products, the lower die driving mechanism comprises a sliding block 8 rotationally connected with the trimming lower die 2, the sliding block 8 is arranged at the upper position of the rear end of the trimming lower die 2, the sliding block 8 is of a cylindrical structure, the axis of the sliding block 8 is perpendicular to the upper die sliding rail 3 and the lower die sliding rail 4, the rotation axis of the sliding block 8 is coaxial with the sliding block, and a bearing can be used for the sliding block 8. The sliding block 8 is connected with a sliding groove, the sliding groove is arranged on a vertical surface, the orthographic projection of the sliding groove on the vertical surface is obliquely arranged relative to the lower die sliding rail 4, and the sliding groove is fixedly connected with the trimming upper die 1 through a vertical rod 11. The spout includes translation section 9 that the slope set up, still includes the fixed section 10 of being connected with the top of translation section 9, and the rear end of translation section 9 is higher than the front end, and fixed section 10 is parallel with last mould slide rail 3. A transition fillet structure is arranged between the translation section 9 and the fixed section 10.

When the trimming work is carried out, as shown in fig. 1, the trimming lower die 2 is positioned at the front limit position, the trimming upper die 1 is positioned at the upper limit position, a product is put on the trimming lower die 2, a driving motor is started, the driving motor drives a crank 6 and a connecting rod 5 to rotate, and the connecting rod 5 drives the trimming upper die 1 to slide downwards along the upper die sliding rail 3; when the upper trimming die 1 moves downwards, the sliding chute is driven to synchronously move downwards, the translation section 9 of the sliding chute applies a horizontal backward component force to the sliding block 8, the sliding block 8 is driven to move backwards along the lower die sliding rail 4, and the sliding block 8 drives the lower trimming die 2 to move backwards; after the slide 8 moves to the fixed section 10 of the chute, the slide 8 and the trimming lower die 2 stop moving, and the trimming upper die 1 continues to move down to the lower limit position and cut the product edge as shown in fig. 2. Then the connecting rod 5 drives the upper cutting die 1 to slide upwards along the upper die sliding rail 3; when the upper trimming die 1 moves upwards, the sliding chute is driven to synchronously move upwards, when the sliding chute moves to the contact of the translation section 9 and the sliding block 8, the translation section 9 applies a horizontal forward component force to the sliding block 8, the sliding block 8 and the lower trimming die 2 are driven to move forwards along the lower die sliding rail 4 for resetting, and finally, products and waste materials are taken down.

Claims (6)

1. The intelligent trimming device for the fiber molding comprises an upper trimming die and a lower trimming die, and is characterized in that the upper trimming die is connected with a vertical upper die sliding rail in a sliding manner and is also connected with an upper die driving mechanism; the trimming lower die is connected with a horizontal lower die sliding rail in a sliding manner, and is also connected with a lower die driving mechanism.

2. The intelligent trimming device for fiber molding according to claim 1, wherein the lower die driving mechanism comprises a sliding block connected with the lower die for trimming, the sliding block is connected with a sliding groove, the orthographic projection of the sliding groove on the vertical surface is obliquely arranged relative to the sliding rail of the lower die, and the sliding groove is fixedly connected with the upper die for trimming.

3. The intelligent trimming device for fiber molding of claim 2, wherein the chute comprises a translation section arranged obliquely, and further comprises a fixing section connected with the top end of the translation section, wherein the fixing section is parallel to the upper die slide rail.

4. The intelligent trimming device for fiber molding according to claim 3, wherein the upper die driving mechanism comprises a connecting rod rotatably connected with the upper die for trimming, a crank is rotatably connected with one end of the connecting rod away from the upper die for trimming, and the crank is connected with a driving motor.

5. The intelligent trimming device for fiber molding of claim 4, wherein the slide block has a cylindrical structure, the axis of the slide block is perpendicular to the upper die slide rail and the lower die slide rail, the slide block is rotatably connected with the trimming lower die, and the rotation axis is coaxial with the slide block.

6. The intelligent trimming apparatus for fiber molding of claim 5, wherein a transition fillet structure is provided between the translating section and the stationary section.