CN216033065U - Plate continuous production adjusting device - Google Patents

Abstract

The utility model provides a device and a method for adjusting continuous production of plates, which are used for shifting a rear middle plate to eliminate a front gap and a rear gap and implement alignment correction, so as to realize active automatic adjustment operation, realize the close fit of the front middle plate and the rear middle plate with an upper plate, and effectively improve the appearance and the quality of the plates after composite processing. Comprises a frame and a gap adjusting mechanism arranged at two side ends of the frame in a spanning manner; the gap adjusting mechanism is provided with two groups of supporting frames, a connecting beam is transversely arranged between the supporting frames at two ends, and two ends of the connecting beam are respectively provided with a group of rotating rollers driven by a servo motor; the servo motor is arranged on the side part of the connecting beam through a motor mounting plate, the rotating roller is fixed on a supporting seat mounting plate through a supporting seat, and the supporting seat mounting plate is arranged on the connecting beam in a hanging manner; the output shaft of the servo motor penetrates through the supporting seat through the coupler and is connected to the rotating roller in a shaft mode.

Description

Plate continuous production adjusting device

Technical Field

The utility model relates to a continuous production device with a gap adjusting function, and belongs to the field of plate design and production.

Background

The production device and the production process of the domestic known composite board are characterized in that a horizontal laminated structure consisting of two or more surface boards which are basically parallel and a middle core board is utilized, adhesive heating and cementing are firstly carried out between an upper board and a lower board, and then vertical pressing force is applied to complete high-density pressing processing.

For the intermediate sheet, which is mostly a honeycomb sheet, it is a discontinuous sheet material. In the existing production process, the middle honeycomb plate is continuously and flatly laid on the lower plate, moves forwards on the conveying line along with the lower plate, is pressed together with the upper plate, and finally enters the hot-pressing compounding equipment for heating, pressurizing and compounding.

The intermediate plate of the prior production technology is conveyed forwards along with the lower plate in a free state, a corresponding adjusting device is lacked before the intermediate plate is contacted with the upper plate, and then the intermediate plate is contacted with the upper plate and then enters the composite equipment immediately, so that a gap is easily left between the front intermediate plate and the rear intermediate plate. If the gap is not aligned and corrected before entering the composite process stage, the quality and the appearance of the plate after pressing processing are directly influenced.

The current solution generally adopted is to use manual alignment and correction at this stage, which not only has higher labor cost, but also has lower operation accuracy and efficiency.

Therefore, how to adjust the gap between the middle plates in the continuous production process of the plates is a problem which needs to be solved urgently by the technical personnel in the field.

In view of this, the present patent application is specifically proposed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a device and a method for adjusting plate continuous production, aiming at solving the problems in the prior art, and aiming at realizing active automatic adjustment operation by shifting a rear middle plate to eliminate a front and rear gap and implement alignment correction, realizing the simultaneous close fit of the front and rear middle plates and an upper plate and effectively improving the appearance and quality of the plate after composite processing.

In order to achieve the design purpose, the plate continuous production adjusting device comprises a rack and a gap adjusting mechanism arranged on two side ends of the rack in a spanning mode;

the gap adjusting mechanism is provided with two groups of supporting frames, a connecting beam is transversely arranged between the supporting frames at two ends, and two ends of the connecting beam are respectively provided with a group of rotating rollers driven by a servo motor;

the servo motor is arranged on the side part of the connecting beam through a motor mounting plate, the rotating roller is fixed on a supporting seat mounting plate through a supporting seat, and the supporting seat mounting plate is arranged on the connecting beam in a hanging manner; the output shaft of the servo motor penetrates through the supporting seat through the coupler and is connected to the rotating roller in a shaft mode.

Further, the rotating roller is a smooth roller, a needle roller with a plurality of poking needles on the surface or a rubber coating roller.

Furthermore, the rotating roller and the supporting seat are rotatably supported through a bearing or a bearing with a seat.

Furthermore, the inside of support frame is connected with the adjusting lever vertically, and the support frame passes through interior external screw thread with the adjusting lever and is connected.

Furthermore, flanges are arranged at two side ends of the frame.

In summary, the continuous production adjusting device for plates has the advantages that:

1. the adjusting device can eliminate the gap before the front and rear middle plates contact with the upper plate, so that the front and rear middle plates can enter a subsequent compounding process together with the upper plate and the lower plate without the gap, and the appearance and the quality of the plates after the composite processing are effectively improved.

2. The adjusting device that this application adopted can replace artifical on-the-spot manual alignment and correction, reduces the cost of labor effectively, and aligns and correct operation accuracy and efficiency all higher.

Drawings

The present application will now be further described with reference to the following drawings.

FIG. 1 is a schematic diagram of a continuous press-fitting process using the sheet material of the present application;

FIG. 2 is a schematic view of gap adjustment;

FIG. 3 is a schematic view of the structure of the continuous plate production adjusting device of the present application;

FIG. 4 is a schematic view of the gap adjustment mechanism of FIG. 3;

fig. 5 is an enlarged view of a portion of the structure of fig. 4.

Detailed Description

Example 1, as shown in fig. 1 and 2, in the continuous plate pressing production process, a rear intermediate plate 5 continuously running on a conveying line first contacts with a lower plate C guided out by a lower guide cylinder 4, and a gap E is usually left between the rear intermediate plate 5 and a front intermediate plate 6;

before contacting with an upper plate A guided out by an upper guide cylinder 3, a rear middle plate 5 can be shifted forwards to be tightly abutted with a front middle plate 6 through a gap adjusting mechanism 1 of the plate continuous production adjusting device;

then, under the vertical pressing action of the pressing roller 2, the rear middle plate 5 and the front middle plate 6 are closely attached to the upper plate and the lower plate and jointly enter the subsequent hot-pressing equipment 7.

As shown in fig. 3 to 5, the adjusting device for continuous production of sheet material comprises a frame 10, and gap adjusting mechanisms 1 spanning on flanges 20 at two side ends of the frame 10;

the flanges 20 on the two sides can limit the conveying direction and the conveying angle of the input middle plate, so that the rear middle plate 5 and the front middle plate 6 are kept parallel as much as possible, the operation allowance is reduced for subsequent gap adjustment, and the efficiency is improved.

The clearance adjusting mechanism 1 is provided with a group of supporting frames 12, and the supporting frames 12 are connected to the top of the flanges 20;

a connecting beam 14 is transversely installed between the supporting frames 12 at both ends, a group of rotating rollers 17 driven by the servo motor 11 are respectively arranged at both ends of the connecting beam 14,

the servo motor 11 is arranged on the side part of the connecting beam 14 through a motor mounting plate 15, the rotating roller 17 is fixed on a supporting seat mounting plate 18 through a supporting seat 16, and the supporting seat mounting plate 18 is arranged on the connecting beam 14 in a hanging manner; an output shaft of the servo motor 11 is coupled to the rotating roller 17 through a coupling 19 passing through the support base 16.

The rotating roller 17 rotates under the driving of the servo motor 11, and the rear middle plate 5 is pushed to move forwards under the pushing of the rotating roller 17 until the rear middle plate 5 is tightly abutted to the front middle plate 6.

Two sets of rotating rollers 17 arranged at two ends of the connecting beam 14 can realize independent rotation or synchronous rotation by controlling the servo motors 11 connected with each other, so that the rear middle plate 5 can be shifted from one side or two sides of the rear middle plate 5, and the problem that the rear middle plate 5 is inclined can be solved. That is, when the rear intermediate plate 5 is inclined, it can be corrected by rotating the roller 17 at one side.

The rotating roller 17 can be a smooth roller, a needle roller with a plurality of poking needles on the surface or a rubber-coated roller, so as to adapt to the processing of plates with different specifications and materials and effectively control the friction transmission force between the roller and the plates.

The rotating roller 17 and the supporting seat 16 are rotatably supported by bearings, such as a bearing with a seat.

The inside of support frame 12 is connected with adjusting rod 13 perpendicularly, and support frame 12 passes through interior external screw thread with adjusting rod 13 and is connected. When the adjusting rod 13 is rotated, the vertical height of the supporting frame 12 along the rack 10 can be adjusted to adapt to the intermediate plates with different specifications and thicknesses.

On the basis of applying the plate continuous production adjusting device, the application simultaneously realizes the following plate continuous production adjusting method:

in the continuous production process of the plates, before the rear middle plate 5 is contacted with the upper plate A guided out by the upper guide cylinder 3, the rear middle plate 5 is pushed forwards by the gap adjusting mechanism 1 to be tightly abutted with the front middle plate 6;

then, under the vertical pressing action of the pressing roller 2, the rear middle plate 5 and the front middle plate 6 are tightly attached to the upper plate and the lower plate and jointly enter the subsequent hot-pressing equipment 7;

the servo motor 11 drives the rotating roller 17 to rotate, and under the stirring of the rotating roller 17, the rear middle plate 5 is stirred to move forwards until the rear middle plate 5 is tightly abutted to the front middle plate 6.

Further, a set of rotating rollers 17 is respectively arranged at two ends of the frame 10, and the rotating rollers 17 independently rotate or synchronously rotate so as to be shifted from one side or two sides of the rear middle plate 5.

Further, a rotating support is adopted between the rotating roller 17 and the supporting seat 16.

An adjusting rod 13 is vertically connected inside the support frame 12, and the support frame 12 is connected with the adjusting rod 13 through internal and external threads. When the adjusting rod 13 is rotated, the height of the supporting frame 12 is adjusted along the vertical direction of the frame 10.

In summary, the embodiments presented in connection with the figures are only preferred. Those skilled in the art can derive other alternative structures according to the design concept of the present invention, and the alternative structures should also fall within the scope of the solution of the present invention.

Claims (5)

1. The utility model provides a panel continuous production adjusting device which characterized in that: comprises a frame and a gap adjusting mechanism arranged at two side ends of the frame in a spanning manner;

the gap adjusting mechanism is provided with two groups of supporting frames, a connecting beam is transversely arranged between the supporting frames at two ends, and two ends of the connecting beam are respectively provided with a group of rotating rollers driven by a servo motor;

the servo motor is arranged on the side part of the connecting beam through a motor mounting plate, the rotating roller is fixed on a supporting seat mounting plate through a supporting seat, and the supporting seat mounting plate is arranged on the connecting beam in a hanging manner; the output shaft of the servo motor penetrates through the supporting seat through the coupler and is connected to the rotating roller in a shaft mode.

2. The apparatus for continuously producing and adjusting a sheet material as claimed in claim 1, wherein: the rotating roller is a smooth roller, a needle roller with a plurality of poking needles on the surface or a rubber coating roller.

3. The apparatus for continuously producing and adjusting a sheet material as claimed in claim 2, wherein: the rotating roller and the supporting seat are rotatably supported through a bearing or a bearing with a seat.

4. The apparatus for continuously producing and adjusting a sheet material as claimed in claim 3, wherein: the inside of support frame is connected with the adjusting lever vertically, and the support frame passes through interior external screw thread connection with the adjusting lever.

5. The apparatus for continuously producing and adjusting a sheet material as claimed in claim 4, wherein: flanges are arranged at the two side ends of the frame.

Images