CN217293123U - Membrane way guiding mechanism before compound - Google Patents

Abstract

The utility model discloses a membrane way guiding mechanism before compound, including the mounting bracket, go up the roller, the lower roll, go up the adjustment seat and adjust the seat down, go up the adjustment seat and all slide on the mounting bracket along vertical direction with adjust the seat down, go up all be fixed with vertical pointer on adjustment seat and the lower adjustment seat, the directional vertical scale of vertical pointer, go up the bearing housing installed to the tip of roller, bolster bearing housing lateral sliding is in the inside of last adjustment seat, the step is installed to the tip of lower roll, the inside of step lateral sliding under the adjustment seat. The composite front film path adjusting mechanism is used on a conveying composite rolling mechanism of an upper film belt and a lower film belt, the wrap angle condition of the upper film belt is adjusted up and down and left and right, the wrap angle condition of the lower film belt is also adjusted up and down and left and right, accurate composite of the upper film belt and the lower film belt is guaranteed, and the composite discharging condition is stable.

Description

Membrane way guiding mechanism before compound

Technical Field

The utility model relates to a membrane area complex technical field especially relates to a membrane way guiding mechanism before compound.

Background

When the composite film is produced at present, a film belt made of multiple layers of materials is usually required to be subjected to roll forming, the quality of composite forming of the film belt can be influenced by the wrap angle of the film belt passing through a roll shaft in the rolling process, the distance and the angle position of the roll shaft cannot be adjusted when different film belts are adopted, the condition of the composite forming is poor, and the requirements of various customers cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: provides a composite front membrane path adjusting mechanism for solving the problems in the prior art.

To achieve the purpose, the utility model adopts the following technical proposal:

a composite front membrane adjusting mechanism comprises a mounting frame, an upper roll shaft, a lower roll shaft, an upper adjusting seat and a lower adjusting seat, wherein the mounting frame is provided with a vertical slide rail and a vertical scale along the vertical direction, an upper vertical slide block is fixed on the upper adjusting seat, a lower vertical slide block is fixed on the lower adjusting seat, the upper vertical slide block and the lower vertical slide block slide on the vertical slide rail, vertical pointers are fixed on the upper adjusting seat and the lower adjusting seat respectively, the vertical pointers point to the vertical scale, an upper bearing seat is installed at the end part of the upper roll shaft and is connected with an upper slide plate, an upper slide groove is arranged inside the upper adjusting seat, the upper slide plate slides in the upper slide groove transversely, an upper transverse scale is arranged on the upper adjusting seat, an upper transverse pointer is arranged on the upper bearing seat, and the upper transverse pointer points to the upper transverse scale, the end of the lower roll shaft is provided with a lower bearing seat, a lower sliding plate is connected to the lower bearing seat, a lower sliding groove is formed in the lower adjusting seat, the lower sliding plate slides transversely in the lower sliding groove, a lower transverse scale is arranged on the lower adjusting seat, a lower transverse pointer is arranged on the lower bearing seat, and the lower transverse pointer points to the lower transverse scale.

As a preferred technical scheme, a first upper screw is arranged at the upper end of the mounting rack along the vertical direction, a first upper nut seat is connected between the upper vertical sliding block and the upper adjusting seat, the first upper screw penetrates through the first upper nut seat and is in threaded transmission connection with the first upper nut seat, and a first upper hand wheel is mounted on the first upper screw.

As a preferable technical solution, a first lower screw is arranged at the lower end of the mounting frame along the vertical direction, a first lower nut seat is connected between the lower vertical sliding block and the lower adjusting seat, the first lower screw penetrates through the first lower nut seat and is in threaded transmission connection with the first lower nut seat, and a first lower hand wheel is mounted on the first lower screw.

As a preferable technical scheme, a second upper screw is arranged on the upper adjusting seat along the transverse direction, the second upper screw penetrates through the upper bearing seat and is in threaded transmission connection with the upper bearing seat, and a second upper hand wheel is mounted on the second upper screw.

As a preferable technical scheme, a second lower screw rod is arranged on the lower adjusting seat along the transverse direction, penetrates through the lower bearing seat and is in threaded transmission connection with the lower bearing seat, and a second lower hand wheel is mounted on the second lower screw rod.

The utility model has the advantages that: the composite front film path adjusting mechanism is used on a conveying composite rolling mechanism of an upper film belt and a lower film belt, and can ensure the accurate compounding of the upper film belt and the lower film belt and the stable composite discharging condition by adjusting the wrap angle condition of the upper film belt up and down and left and right and also adjusting the wrap angle condition of the lower film belt up and down and left and right.

Drawings

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

FIG. 1 is a schematic diagram of an overall structure of a composite front membrane path adjusting mechanism according to an embodiment;

FIG. 2 is a first partial block diagram of a pre-composite film path adjustment mechanism according to an embodiment;

FIG. 3 is a second partial block diagram of a pre-composite film path adjustment mechanism according to an embodiment;

fig. 4 is a third partial structural view of a composite front film path adjusting mechanism according to an embodiment.

In fig. 1 to 4:

1. a mounting frame; 2. an upper roll shaft; 3. a lower roll shaft; 4. an upper adjusting seat; 5. a lower adjustment mount; 6. a vertical slide rail; 7. a vertical scale; 8. an upper vertical slide block; 9. a lower vertical slide block; 10. a vertical pointer; 11. an upper bearing seat; 12. an upper slide plate; 13. an upper transverse scale; 14. a lower bearing seat; 15. a lower slide plate; 16. a lower lateral scale; 17. a first upper screw; 18. a first upper nut seat; 19. a first upper hand wheel; 20. a first lower screw; 21. a first lower nut seat; 22. a first lower hand wheel; 23. a second upper screw; 24. a second upper hand wheel; 25. a second lower screw; 26. a second lower hand wheel.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, in this embodiment, a composite front film path adjusting mechanism includes an installation frame 1, an upper roller shaft 2, a lower roller shaft 3, an upper adjusting seat 4 and a lower adjusting seat 5, where the installation frame 1 is provided with a vertical slide rail 6 and a vertical scale 7 along a vertical direction, the upper adjusting seat 4 is fixed with an upper vertical slider 8, the lower adjusting seat 5 is fixed with a lower vertical slider 9, the upper vertical slider 8 and the lower vertical slider 9 both slide on the vertical slide rail 6, the upper adjusting seat 4 and the lower adjusting seat 5 are both fixed with vertical pointers 10, the vertical pointers 10 point at the vertical scale 7, an upper bearing seat 11 is installed at an end of the upper roller shaft 2, the upper bearing seat 11 is connected with an upper sliding plate 12, an upper sliding groove is provided inside the upper adjusting seat 4, the upper sliding plate 12 slides laterally in the upper sliding groove, an upper transverse scale 13 is arranged on the upper adjusting seat 4, an upper transverse pointer is arranged on the upper bearing seat 11, the upper transverse pointer points to the upper transverse scale 13, a lower bearing seat 14 is mounted at the end of the lower roll shaft 3, a lower sliding plate 15 is connected to the lower bearing seat 14, a lower sliding groove is arranged inside the lower adjusting seat 5, the lower sliding plate 15 transversely slides in the lower sliding groove, a lower transverse scale 16 is arranged on the lower adjusting seat 5, a lower transverse pointer is arranged on the lower bearing seat 14, and the lower transverse pointer points to the lower transverse scale 16.

The upper film belt enters the rolling assembly after passing through the upper roll shaft 2, the lower film belt enters the rolling assembly after passing through the lower roll shaft 3, the upper film belt and the lower film belt are rolled and compositely formed by the rolling assembly, the wrap angle adjustment can be carried out when the upper film belt enters the upper roll shaft 2, the conveying angle before rolling is adjusted, similarly, the wrap angle adjustment can also be carried out when the lower film belt enters the lower roll shaft 3, and the upper film belt and the lower film belt can be stably attached together to enter the rolling assembly for compositely forming after the wrap angle adjustment.

In the process of adjusting the wrap angle, in the vertical direction, the upper adjusting seat 4 slides by means of the vertical slide rail 6 and the upper vertical slide block 8, the lower adjusting seat 5 slides by means of the vertical slide rail 6 and the lower vertical slide block 9, and the adjusted vertical distance can be observed when the vertical pointer 10 points to the vertical scale 7 by naked eyes, so that the vertical positions of the upper roll shaft 2 and the lower roll shaft 3 are adjusted; in addition, when the upper slide plate 12 slides on the upper chute in the transverse direction, the upper roller shaft 2 moves transversely back and forth along with the upper bearing seat 11, and similarly, when the lower slide plate 15 slides on the lower chute, the lower roller shaft 3 moves transversely back and forth along with the lower bearing seat 14.

The upper end of the mounting rack 1 is provided with a first upper screw 17 along the vertical direction, a first upper nut seat 18 is connected between the upper vertical sliding block 8 and the upper adjusting seat 4, the first upper screw 17 penetrates through the first upper nut seat 18 and is in threaded transmission connection with the first upper nut seat 18, and a first upper hand wheel 19 is mounted on the first upper screw 17.

A first lower screw 20 is vertically disposed at the lower end of the mounting bracket 1, a first lower nut seat 21 is connected between the lower vertical slider 9 and the lower adjustment seat 5, the first lower screw 20 passes through the first lower nut seat 21 and is in threaded transmission connection with the first lower nut seat 21, and a first lower hand wheel 22 is mounted on the first lower screw 20.

And manually rotating the first upper hand wheel 19 and the first lower hand wheel 22 to respectively adjust the vertical position of the upper adjusting seat 4 and the vertical position of the lower adjusting seat 5, and further adjust the vertical positions of the upper roller shaft 2 and the lower roller shaft 3.

A second upper screw 23 is arranged on the upper adjusting seat 4 along the transverse direction, the second upper screw 23 penetrates through the upper bearing seat 11 and is in threaded transmission connection with the upper bearing seat 11, and a second upper hand wheel 24 is mounted on the second upper screw 23.

And a second lower screw rod 25 is arranged on the lower adjusting seat 5 along the transverse direction, the second lower screw rod 25 penetrates through the lower bearing seat 14 and is in threaded transmission connection with the lower bearing seat 14, and a second lower hand wheel 26 is mounted on the second lower screw rod 25.

And manually rotating the second upper hand wheel 24 and the second lower hand wheel 26 to respectively adjust the horizontal front and rear positions of the upper bearing seat 11 and the lower bearing seat 14, and further adjust the horizontal front and rear positions of the upper roller shaft 2 and the lower roller shaft 3.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (5)

1. A composite front membrane adjusting mechanism is characterized by comprising a mounting frame, an upper roller shaft, a lower roller shaft, an upper adjusting seat and a lower adjusting seat, wherein the mounting frame is provided with a vertical slide rail and a vertical scale along the vertical direction, an upper vertical slide block is fixed on the upper adjusting seat, a lower vertical slide block is fixed on the lower adjusting seat, the upper vertical slide block and the lower vertical slide block slide on the vertical slide rail, vertical pointers are fixed on the upper adjusting seat and the lower adjusting seat respectively, the vertical pointers point to the vertical scale, an upper bearing seat is installed at the end part of the upper roller shaft, an upper slide plate is connected onto the upper bearing seat, an upper slide groove is arranged inside the upper adjusting seat, the upper slide plate slides in the upper slide groove transversely, an upper transverse scale is arranged on the upper adjusting seat, and an upper transverse pointer is arranged on the upper bearing seat, the upper transverse pointer points to the upper transverse scale, a lower bearing seat is mounted at the end of the lower roll shaft, a lower sliding plate is connected to the lower bearing seat, a lower sliding groove is formed in the lower adjusting seat, the lower sliding plate slides transversely in the lower sliding groove, a lower transverse scale is arranged on the lower adjusting seat, a lower transverse pointer is arranged on the lower bearing seat, and the lower transverse pointer points to the lower transverse scale.

2. The composite front membrane path adjusting mechanism according to claim 1, wherein a first upper screw is vertically arranged at an upper end of the mounting frame, a first upper nut seat is connected between the upper vertical slider and the upper adjusting seat, the first upper screw passes through the first upper nut seat and is in threaded transmission connection with the first upper nut seat, and a first upper hand wheel is mounted on the first upper screw.

3. The composite front membrane path adjusting mechanism according to claim 1, wherein a first lower screw rod is vertically arranged at the lower end of the mounting frame, a first lower nut seat is connected between the lower vertical slide block and the lower adjusting seat, the first lower screw rod passes through the first lower nut seat and is in threaded transmission connection with the first lower nut seat, and a first lower hand wheel is mounted on the first lower screw rod.

4. The composite front membrane path adjusting mechanism according to claim 1, wherein a second upper screw is arranged on the upper adjusting seat along the transverse direction, the second upper screw penetrates through the upper bearing seat and is in threaded transmission connection with the upper bearing seat, and a second upper hand wheel is mounted on the second upper screw.

5. The composite front membrane path adjusting mechanism according to claim 1, wherein a second lower screw rod is arranged on the lower adjusting seat along the transverse direction, the second lower screw rod penetrates through the lower bearing seat and is in threaded transmission connection with the lower bearing seat, and a second lower hand wheel is mounted on the second lower screw rod.

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