CN218053627U - Oblique three-roller plating press of GPPS panel production line - Google Patents

Abstract

An inclined three-roller calender for GPPS plate production line comprises a calender frame, a calender horizontal walking mechanism, an upper calender roll, a middle calender roll, a lower calender roll, an upper calender roll specific adjusting component and a lower calender roll distance adjusting component, wherein the planes of the upper calender roll, the middle calender roll and the lower calender roll are obliquely arranged, the upper calender roll specific adjusting component and the lower calender roll distance adjusting component are respectively arranged at the upper end and the lower end of the calender frame, the upper calender roll specific adjusting component is connected with the upper calender roll, and the lower calender roll distance adjusting component is connected with the lower calender roll. The utility model discloses an oblique three-roller plating press of GPPS panel production line has changed the structure that sets up that three plating press roller belongs to vertical face, sets up three plating press roller place plane slope, is convenient for look over the last GPPS shaping condition of plating press roller directly perceivedly like this, goes up the concrete adjusting part of plating press roller and down the distance between plating press roller and the middle plating press roller can be adjusted to the plating press roller apart from adjusting part, guarantees that roller pressure is stable.

Description

Oblique three-roller plating press of GPPS panel production line

Technical Field

The utility model belongs to the technical field of general mechanical equipment makes, specifically, relate to an oblique three-roller plating press of GPPS panel production line.

Background

The GPPS diffusion plate is widely applied to liquid crystal display, LED illumination and imaging display systems, and has the main function of fully scattering incident light, and the biggest characteristic is that the light is greatly interfered, and the light beam angle is changed into 160-176 degrees by the GPPS diffusion plate no matter how many degrees the originally designed light distribution curve is, so that a softer and more uniform illumination effect is realized.

In the production process of the GPPS plate, the production of the GPPS plate production line needs to be subjected to screw post extrusion molding, then cooling and laminating are carried out, and then cutting is carried out according to the length and width dimensions required by customers.

In the prior art, the GPPS diffusion plate is generally extruded from the die head into a required shape by an extruder, but the GPPS diffusion plate extruded from the die head is generally only a preliminary blank, and then is formed by a series of process steps such as calendaring and cooling.

The calender is a device for improving the glossiness of the paper surface, and the material passes through the area between two adjacent compression rollers so as to carry out calendering treatment on the material through the compression rollers. The existing calender has the following problems:

1. the calender rolls of the calender are arranged on the same plane along the vertical direction, and the appearance of the calender is not convenient to observe in the production process.

2. The arrangement of the fine adjustment device between the rollers is unreasonable, which easily causes the phenomena of machine part damage and inflexible operation.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a three-roller plating press to one side of GPPS panel production line has solved the three-roller plating press structural design among the prior art unreasonable, causes and can only carry out the coarse adjustment of distance between the plating press roller to and the plating press roller adopts the overall arrangement to be good at same vertical face, is not convenient for look over the problem of the behavior of production.

The technical scheme is as follows: the utility model provides a GPPS panel production line's oblique three-roller plating press, including plating press frame, the horizontal running gear of plating press, last plating press roller, middle plating press roller, lower calender roll, the specific regulating assembly of last calender roll and lower calender roll distance adjusting part, the plating press frame sets up on the horizontal running gear of plating press, it all sets up in the plating press frame to go up calender roll, middle calender roll and lower calender roll are in on the coplanar, go up the plane slope setting that calender roll, middle calender roll and lower calender roll belonged to go up calender roll, middle calender roll and lower calender roll set up according to the order from top to bottom, go up the specific regulating assembly of calender roll and lower calender roll distance adjusting part and set up the both ends in the plating press frame respectively, go up the specific regulating assembly of calender roll and go up the plating press roll connection, lower calender roll distance adjusting part and lower calender roll are connected. The utility model discloses an oblique three-roller plating press of GPPS panel production line has changed the structure that sets up that three plating press roller belongs to vertical face, sets up three plating press roller place plane slope, is convenient for look over the last GPPS shaping condition of plating press roller directly perceivedly like this, goes up the concrete adjusting part of plating press roller and down the distance between plating press roller and the middle plating press roller can be adjusted to the plating press roller apart from adjusting part, guarantees that roller pressure is stable.

Furthermore, in the oblique three-roller calender for the GPPS board production line, the horizontal travelling mechanism of the calender comprises a travelling base, a travelling drive motor, a travelling drive reducer, a travelling drive gear and a travelling drive rack, wherein the travelling drive rack is fixedly arranged on the ground or a working plane, the travelling drive motor and the travelling drive reducer are both fixedly arranged on the travelling base and are connected with each other, the travelling drive reducer is connected with the travelling drive gear, and the travelling drive gear is meshed with the travelling drive rack. The traveling drive gear is driven by the traveling drive motor to move along the traveling drive rack, so that the three-roller calender can move integrally and conveniently.

Further, according to the oblique three-roller calender for the GPPS plate production line, the traveling base is provided with a group of traveling rollers, the ground or the working plane is provided with two parallel V-shaped moving guide rails, the two parallel V-shaped moving guide rails and the traveling driving rack are arranged in parallel, the two parallel V-shaped moving guide rails are respectively positioned on two sides of the traveling driving rack, the traveling rollers are arranged on the V-shaped moving guide rails, and the traveling rollers are in rolling connection with the V-shaped moving guide rails. A group of traveling rollers can stably move along the V-shaped moving guide rail, so that the stability of the three-roller calender in linear movement is ensured.

Furthermore, according to the oblique three-roller calender of the GPPS plate production line, the outer surface of the traveling roller is provided with a V-shaped limiting groove, and the tip part of the V-shaped movable guide rail is arranged in the V-shaped limiting groove. The V-shaped movable guide rail is clamped into the V-shaped limiting groove, so that the walking roller can be prevented from being separated from the V-shaped movable guide rail, and the safety is improved.

Furthermore, according to the oblique three-roller calender for the GPPS plate production line, two symmetrically-arranged calender roll supporting seats are fixedly arranged on the calender frame, the middle calender roll is arranged on the two symmetrically-arranged calender roll supporting seats, and the upper calender roll and the lower calender roll are both connected with the calender frame in a sliding manner. The calender roll supporting seat is a fixed structure and is used for stably mounting the middle calender roll.

Furthermore, according to the oblique three-roller calender for the GPPS plate production line, the calender frame is provided with two upper calender roll slide rails and two lower calender roll slide rails which are arranged in parallel, the upper calender roll slide rails are connected with upper calender roll slide blocks, the upper calender roll slide blocks are connected with upper calender roll supporting seats, the upper calender rolls are arranged on the upper calender roll supporting seats, the lower calender roll slide rails are connected with lower calender roll slide blocks, the lower calender roll slide blocks are connected with lower calender roll supporting seats, and the lower calender rolls are arranged on the lower calender roll supporting seats. The upper calender roll slide rail and the lower calender roll slide rail can respectively ensure that the upper calender roll and the lower calender roll move along the calender frame, so that the distance can be adjusted.

Further, in the oblique three-roller calender of the GPPS plate production line, the specific adjusting component of the upper calender roller and the distance adjusting component of the lower calender roller have the same structure.

Furthermore, in the oblique three-roller calender for the GPPS board production line, the upper calender roll specific adjusting assembly and the lower calender roll distance adjusting assembly each include a distance coarse adjustment motor, a middle screw and two symmetrically arranged screw lifters, the distance coarse adjustment motor is connected with the middle screw, the middle screw is connected with the two symmetrically arranged screw lifters, the two symmetrically arranged screw lifters are respectively located at two ends of the middle screw, and the upper calender roll supporting seat and the lower calender roll supporting seat are connected with the screw lifters. The distance coarse adjustment motor firstly performs coarse adjustment on the distance, and in order to achieve the size precision, a fine adjustment hand wheel is adopted to perform fine adjustment on the distance.

Furthermore, one end of the middle screw rod of the oblique three-roller calender of the GPPS plate production line is connected with a fine adjustment hand wheel.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: oblique three-roller plating press of GPPS panel production line, set up the calender roll in the press polish frame, middle calender roll and lower calender roll, be convenient for once accomplish the finished product suppression to GPPS panel, be a contained angle setting in the frame through inclining mutually between three calender roll and the press polish frame, be convenient for install GPPS panel additional on three-roller press polish device and the behavior of observation device of being convenient for, go up the function that the calender roll concrete adjusting part and lower calender roll apart from adjusting part interval coarse tune and fine setting simultaneously, can guarantee size precision when having guaranteed the distance between the quick adjustment calender roll, have very high spreading value.

Drawings

Fig. 1 is a side view of an inclined three-roller calender of the GPPS panel production line of the present invention;

fig. 2 is a front view of the inclined three-roller calender of the GPPS panel production line of the present invention;

FIG. 3 is a schematic view of a partial structure of an inclined three-roller calender of the GPPS plate production line of the present invention;

fig. 4 is a schematic structural view of the walking roller of the present invention.

In the figure: the device comprises a calender frame 601, a calender horizontal traveling mechanism 602, an upper calender roll 603, a middle calender roll 604, a lower calender roll 605, an upper calender roll specific adjusting component 606, a lower calender roll distance adjusting component 607, a traveling base 608, a traveling driving motor 609, a traveling driving reducer 610, a traveling driving gear 611, a traveling driving rack 612, a traveling roller 613, a V-shaped moving guide rail 614, a V-shaped limiting groove 615, a calender roll supporting seat 616, an upper calender roll sliding rail 617, a lower calender roll sliding rail 618, an upper calender roll sliding block 619, an upper calender roll supporting seat 620, a lower calender roll sliding block 621, a lower calender roll supporting seat 622, a distance rough adjusting motor 623, a middle screw 624, a screw lifter 625 and a fine adjusting hand wheel 626.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the recitation of a first feature "on" or "under" a second feature may include the recitation of the first and second features being in direct contact, and may also include the recitation of the first and second features not being in direct contact, but being in contact with another feature between them. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Examples

The skew three-roller calender of the GPPS panel production line as shown in fig. 1 and 2 comprises a calender frame 601, a calender horizontal traveling mechanism 602, an upper calender roller 603, an intermediate calender roller 604, a lower calender roller 605, an upper calender roller specific adjustment assembly 606 and a lower calender roller distance adjustment assembly 607, wherein the calender frame 601 is arranged on the calender horizontal traveling mechanism 602, the upper calender roller 603, the intermediate calender roller 604 and the lower calender roller 605 are all arranged on the calender frame 601, the upper calender roller 603, the intermediate calender roller 604 and the lower calender roller 605 are on the same plane, the upper calender roller 603, the intermediate calender roller 604 and the lower calender roller are arranged obliquely on the plane on which the lower calender roller is located, the upper calender roller 603, the intermediate calender roller 604 and the lower calender roller 605 are arranged in the order from top to bottom, the upper calender roller specific adjustment assembly 606 and the lower calender roller distance adjustment assembly 607 are respectively arranged on the upper and lower ends of the calender frame 601, the upper calender roller specific adjustment assembly 606 and the upper calender roller 605 are connected, and the lower calender roller distance adjustment assembly 605 is connected with the upper calender roller 603 and the lower calender roller 607.

The calender horizontal walking mechanism 602 comprises a walking base 608, a walking driving motor 609, a walking driving speed reducer 610, a walking driving gear 611 and a walking driving rack 612, wherein the walking driving rack 612 is fixedly arranged on the ground or a working plane, the walking driving motor 609 and the walking driving speed reducer 610 are both fixedly arranged on the walking base 608, the walking driving motor 609 is connected with the walking driving speed reducer 610, the walking driving speed reducer 610 is connected with the walking driving gear 611, and the walking driving gear 611 is meshed with the walking driving rack 612. The travel driving motor 609 is activated to rotate the travel driving gear 611, so that the travel driving gear 611 horizontally moves along the travel driving rack 612.

As shown in fig. 3, a set of traveling rollers 613 is disposed on the traveling base 608, two parallel V-shaped moving rails 614 are disposed on the ground or the working plane, the two parallel V-shaped moving rails 614 and the traveling driving rack 612 are disposed in parallel, the two parallel V-shaped moving rails 614 are disposed on two sides of the traveling driving rack 612, the traveling rollers 613 are disposed on the V-shaped moving rails 614, and the traveling rollers 613 and the V-shaped moving rails 614 are connected in a rolling manner. A V-shaped limiting groove 615 is formed in the outer surface of the traveling roller 613, and the tip of the V-shaped moving guide rail 614 is disposed in the V-shaped limiting groove 615.

In the above structure, the middle calender roll 604 is a fixed structure and is fixed between the upper calender roll 603 and the lower calender roll 605, the upper calender roll 603 and the lower calender roll 605 can move on the calender frame 601 through the upper calender roll specific adjusting component 606 and the lower calender roll distance adjusting component 607 respectively to adjust the distance between the upper calender roll 603 and the lower calender roll 605 and the middle calender roll 604, two symmetrically arranged calender roll supporting seats 616 are fixed on the calender frame 601, the middle calender roll 604 is arranged on the two symmetrically arranged calender roll supporting seats 616, and the upper calender roll 603 and the lower calender roll 605 are connected with the calender frame 601 in a sliding way. The calender comprises a calender frame 601, and is characterized in that an upper calender roll slide rail 617 and a lower calender roll slide rail 618 which are arranged in parallel are arranged on the calender frame 601, an upper calender roll slide block 619 is connected to the upper calender roll slide rail 617, an upper calender roll support seat 620 is connected to the upper calender roll slide block 619, the upper calender roll 603 is arranged on the upper calender roll support seat 620, a lower calender roll slide block 621 is connected to the lower calender roll slide rail 618, a lower calender roll support seat 622 is connected to the lower calender roll slide block 621, and the lower calender roll 605 is arranged on the lower calender roll support seat 622.

The upper calender roll specific adjustment module 606 and the lower calender roll distance adjustment module 607 shown in fig. 4 have the same structure. The upper calender roll specific adjusting component 606 and the lower calender roll distance adjusting component 607 both comprise a distance coarse adjusting motor 623, an intermediate screw 624 and two symmetrically arranged screw lifters 625, the distance coarse adjusting motor 623 is connected with the intermediate screw 624, the intermediate screw 624 is connected with the two symmetrically arranged screw lifters 625, the two symmetrically arranged screw lifters 625 are respectively positioned at two ends of the intermediate screw 624, and the upper calender roll supporting seat 620 and the lower calender roll supporting seat 622 are connected with the screw lifters 625. The distance coarse adjustment motor 623 is started, and two symmetrically arranged lead screw lifters 625 at two sides can be synchronously driven to transmit through the middle lead screw 624, so that the lead screw lifters 625 drive the upper calender roll 603 to move along the inclined plane.

In addition, one end of the intermediate screw 624 is connected with a fine adjustment hand wheel 626. When the small distance between the upper calender roll 603 and the lower calender roll 605 needs to be adjusted, the fine adjustment hand wheel 626 is rotated, and the intermediate screw 624 is driven by the fine adjustment hand wheel 626 to carry out transmission, so that the upper calender roll 603, the intermediate calender roll 604 and the lower calender roll 605 can be adjusted to the optimal distance according to specific use requirements.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides an oblique three-roller plating press of GPPS panel production line which characterized in that: the calender comprises a calender frame (601), a calender horizontal walking mechanism (602), a top calender roll (603), a middle calender roll (604), a bottom calender roll (605), a top calender roll specific adjusting component (606) and a bottom calender roll distance adjusting component (607), wherein the calender frame (601) is arranged on the calender horizontal walking mechanism (602), the top calender roll (603), the middle calender roll (604) and the bottom calender roll (605) are all arranged on the calender frame (601), the top calender roll (603), the middle calender roll (604) and the bottom calender roll (605) are positioned on the same plane, the planes on which the top calender roll (603), the middle calender roll (604) and the bottom calender roll (605) are positioned are obliquely arranged, the top calender roll (603), the middle calender roll (604) and the bottom calender roll (605) are arranged in sequence from top to bottom, the top calender roll specific adjusting component (606) and the bottom calender roll distance adjusting component (607) are respectively arranged on the calender frame (601), the top calender roll specific adjusting component (605) and the bottom calender roll (607) are connected with the top calender roll (606) and the bottom calender roll specific adjusting component (607).

2. The inclined three-roll calender for the GPPS plate production line according to claim 1, wherein: the horizontal travelling mechanism (602) of the calender comprises a travelling base (608), a travelling driving motor (609), a travelling driving speed reducer (610), a travelling driving gear (611) and a travelling driving rack (612), wherein the travelling driving rack (612) is fixedly arranged on the ground or a working plane, the travelling driving motor (609) and the travelling driving speed reducer (610) are both fixedly arranged on the travelling base (608), the travelling driving motor (609) is connected with the travelling driving speed reducer (610), the travelling driving speed reducer (610) is connected with the travelling driving gear (611), and the travelling driving gear (611) is meshed with the travelling driving rack (612).

3. The inclined three-roll calender for the GPPS plate production line according to claim 2, wherein: the walking mechanism is characterized in that a group of walking rollers (613) are arranged on the walking base (608), two V-shaped moving guide rails (614) which are arranged in parallel are arranged on the ground or a working plane, the two V-shaped moving guide rails (614) which are arranged in parallel and the walking driving rack (612) are arranged in parallel, the two V-shaped moving guide rails (614) which are arranged in parallel are respectively positioned on two sides of the walking driving rack (612), the walking rollers (613) are arranged on the V-shaped moving guide rails (614), and the walking rollers (613) are in rolling connection with the V-shaped moving guide rails (614).

4. The inclined three-roll calender for the GPPS plate production line as claimed in claim 3, wherein: the outer surface of the walking roller (613) is provided with a V-shaped limiting groove (615), and the tip of the V-shaped moving guide rail (614) is arranged in the V-shaped limiting groove (615).

5. The inclined three-roll calender for the GPPS plate production line according to claim 1, wherein: two symmetrically-arranged calender roll supporting seats (616) are fixedly arranged on the calender frame (601), the middle calender roll (604) is arranged on the two symmetrically-arranged calender roll supporting seats (616), and the upper calender roll (603) and the lower calender roll (605) are both connected with the calender frame (601) in a sliding manner.

6. The inclined three-roll calender for the GPPS plate production line according to claim 5, wherein: the calender is characterized in that an upper calender roll slide rail (617) and a lower calender roll slide rail (618) are arranged on the calender frame (601) in parallel, an upper calender roll slide block (619) is connected to the upper calender roll slide rail (617), an upper calender roll support seat (620) is connected to the upper calender roll slide block (619), an upper calender roll (603) is arranged on the upper calender roll support seat (620), a lower calender roll slide block (621) is connected to the lower calender roll slide rail (618), a lower calender roll support seat (622) is connected to the lower calender roll slide block (621), and the lower calender roll (605) is arranged on the lower calender roll support seat (622).

7. The inclined three-roll calender for the GPPS plate production line according to claim 6, wherein: the upper calender roll specific adjusting component (606) and the lower calender roll distance adjusting component (607) have the same structure.

8. The inclined three-roll calender for the GPPS plate production line according to claim 7, wherein: the upper calender roll specific adjusting assembly (606) and the lower calender roll distance adjusting assembly (607) respectively comprise a distance coarse adjusting motor (623), an intermediate screw rod (624) and two symmetrically arranged screw rod lifters (625), the distance coarse adjusting motor (623) is connected with the intermediate screw rod (624), the intermediate screw rod (624) is connected with the two symmetrically arranged screw rod lifters (625), the two symmetrically arranged screw rod lifters (625) are respectively positioned at two ends of the intermediate screw rod (624), and the upper calender roll supporting seat (620) and the lower calender roll supporting seat (622) are connected with the screw rod lifters (625).

9. The inclined three-roll calender for the GPPS plate production line according to claim 8, wherein: one end of the middle screw rod (624) is connected with a fine adjustment hand wheel (626).

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