CN109335801B - Mica paper and glass fiber cloth stacking device - Google Patents

Abstract

The invention relates to the field of mica paper processing, and provides a mica paper and glass fiber cloth stacking device, which comprises a paper lifting table unit, a middle unit and a finished product lifting table unit from an incoming end to an outgoing end, wherein a middle unit support is formed by welding square steel and is connected with the paper lifting table unit, the middle unit support is divided into two layers, the lower layer of the middle unit support is level to the highest layer of the paper lifting table, two paper clamp grabbing moving brackets are respectively arranged on two sides of the middle unit support, a glass fiber cloth box is arranged at the upper layer of the middle unit support at the incoming end, glass fiber cloth lifting equipment is arranged on the upper part of the glass fiber cloth box, glass fiber cloth clamping moving brackets are horizontally arranged next to the glass fiber cloth box, and the two glass fiber cloth clamping moving brackets are respectively arranged on two sides of the upper layer of the middle unit support. According to the invention, the mica paper cut by the paper cutting machine and the glass fiber cloth can be stacked, so that the produced mica paper is directly in butt joint with the press, the production efficiency is improved, and the requirement of the production scale is met.

Description

Mica paper and glass fiber cloth stacking device

Technical Field

The invention relates to a mica paper processing device, in particular to a mica paper and glass fiber cloth stacking device.

Background

In the production process of the mica plate, a paper cutter cuts rolled mica paper into 1 m multiplied by 1.2 m large sheets, a plurality of groups (3-6 sheets are 1 group) of large sheets of mica paper and a plurality of pieces of glass fiber cloth are crossly and orderly stacked, and then the mica paper is pressed into a plate by a press machine. The glass fiber cloth plays an isolating role to prevent a plurality of mica boards from being bonded together, so that a thin mica board can be produced, and a plurality of mica boards can be pressed at one time.

The size of the mica paper is 1 meter multiplied by 1.2 meters, and the size of the glass fiber cloth is 1.1 meter multiplied by 1.3 meters.

In the existing production process, the paper cutting machine is automatic, but the stacking of mica paper and glass fiber cloth is completely operated manually. Along with the increase of production scale, in long-term practical application, we need to use a mica paper and glass fiber cloth stacking device, and can automatically stack mica paper and glass fiber cloth, and obviously the equipment used today can not meet the use requirement.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a mica paper and glass fiber cloth stacking device which can automatically stack mica paper and glass fiber cloth.

In order to achieve the technical purpose, the scheme provided by the invention is as follows: the mica paper and glass fiber cloth stacking device comprises a paper lifting table unit, a middle unit and a finished product lifting table unit from an incoming material end to a material removing end, wherein the paper lifting table unit comprises a paper lifting table support, a speed reducing motor A, a screw lifter A, a screw nut A and a paper lifting table, the paper lifting table support is a cuboid square frame welded by square steel and is horizontally placed on the ground, two speed reducing motors A are arranged on two sides of the bottom end of the paper lifting table support, the two speed reducing motors A are respectively connected with the two screw lifters A, the two screw lifters A are respectively arranged in the middle parts of two sides of the paper lifting table support, the bottoms of the two screw lifters A are connected with the paper lifting table support, the screw ends of the screw lifters A are connected with the paper lifting table through the screw nut A, two corners of the material removing end of the paper lifting table are respectively provided with a notch, and the incoming material end of the paper lifting table unit is in butt joint to a paper cutter; wherein the middle unit comprises a middle unit support, a paper clamp grab moving bracket, a glass fiber cloth box, a glass fiber cloth clamp grab moving bracket, an idler B, a driving wheel B, a gear motor B, a synchronous belt B, a clamp grab B, a glass fiber cloth lifting device, an idler C, a driving wheel C, a gear motor C, a synchronous belt C, a clamp grab lifting bracket, a guide rod cylinder and a clamp grab C, the middle unit support is formed by welding square steel and is connected with a paper lifting table unit, the middle unit support is divided into two layers, the lower layer is level with the highest height of the paper lifting table, two paper clamp grab moving brackets are respectively arranged on two sides of the middle unit support, the length of the feed end of the paper clamp grab moving bracket extends to 1/3 of the paper lifting table, the feed end of the paper clamp grab moving bracket extends to the finished lifting table, 1/3 more feed end of the paper clamp grab moving bracket is provided with the idler B, the end of the material removing end of each paper clamp grabbing moving bracket is provided with a synchronous wheel driving wheel B, the driving wheel B is connected with a speed reducing motor B, a synchronous belt B is sleeved between each group of driving wheels B and an idler wheel B, each synchronous belt B is provided with a clamp grabbing B, the height dimension of the clamp grabbing B is matched with a notch of a paper lifting table, the speed reducing motor B is arranged on a middle unit support, a glass fiber cloth box is arranged at the upper material supplying end of the middle unit support, a glass fiber cloth lifting device is arranged at the upper part of the glass fiber cloth box, a glass fiber cloth clamp grabbing moving bracket is horizontally arranged next to the glass fiber cloth box, the two glass fiber cloth clamp grabbing moving brackets are respectively arranged at two sides of the upper layer of the middle unit support, the length of the material supplying end of the glass fiber cloth clamp grabbing moving bracket extends to 1/3 of the glass fiber cloth box, the material removing end is longer than a finished lifting table, the material removing end is aligned with the paper clamp grabbing moving support end, an idler wheel C is arranged at the material inlet end of each glass fiber cloth clamp grabbing moving support, a driving wheel C is arranged at the material removing end of each glass fiber cloth clamp grabbing moving support, the driving wheel C is connected with a speed reducing motor C, a synchronous belt C is sleeved between each group of driving wheels C and the idler wheel C, a clamp grabbing lifting support is arranged on each synchronous belt C, 1 guide rod air cylinder is arranged on each clamp grabbing lifting support, the end of each air cylinder is punched down, a clamp grab C is arranged at the end of each guide rod air cylinder, the highest lifting height of the clamp grab C is matched with the lifting height of glass fiber cloth by glass fiber cloth lifting equipment, the lowest lifting height of the clamp grab C is matched with the lifting height of a finished product lifting table, and a speed reducing motor C is arranged on a middle unit support; the finished product lifting table unit comprises a finished product lifting table support, speed reducing motors D, screw lifters D, screw nuts D and a finished product lifting table, wherein the finished product lifting table support is a cuboid square frame welded by square steel and is horizontally arranged on the ground, two speed reducing motors D are arranged on two sides of the lower end of the finished product lifting table support and are respectively connected with the two screw lifters D, the two screw lifters D are respectively installed in the middle of two sides of the finished product lifting table support, the bottoms of the screw lifters D are connected with the finished product lifting table support, and screw ends of the screw lifters D are connected with the finished product lifting table through the screw nuts D.

In the technical scheme, the two sides of the material removing end of the paper clip grabbing moving support and the glass fiber cloth clip grabbing moving support are provided with the stable supporting legs, one ends of the stable supporting legs are connected to the ends of the paper clip grabbing moving support and the glass fiber cloth clip grabbing moving support, and the other ends of the stable supporting legs are fixed on the ground.

In the technical scheme, the whole device is a strip-shaped production line, and has the length of 6 meters and the width of 1.5 meters.

In the above technical solution, the specification of the paper lifting table support is 1.4 m×1.5 m.

In the technical scheme, the baffle plates are arranged around the glass fiber distribution box to form a U-shaped material box, the glass fiber cloth in the glass fiber distribution box is stacked, and the specification of the glass fiber distribution box is 1.1 m multiplied by 1.3 m.

In the technical scheme, the specification of the finished lifting table support is 1.5 m multiplied by 1.5 m.

Compared with the prior art, the invention has the beneficial effects that: mica paper and glass fiber cloth cut by the paper cutting machine can be stacked according to a preset program, so that manual operation is avoided. Therefore, the produced mica paper is directly in butt joint with a press, the intermediate process is reduced, the production efficiency is improved, and the requirement of the production scale is met.

Drawings

FIG. 1 is a front view of a mica paper and glass cloth stacking device of the present invention.

FIG. 2 is a top view of the mica paper and glass cloth stacking device of the present invention.

Wherein: 1. a paper lifting table support, 2, a gear motor A, 3, a screw lifting machine A, 4, a screw nut A, 5, a paper lifting table, 6, a middle unit support, 7, a paper clamp grabbing motion support, 8, a glass fiber distribution box, 9, a glass fiber cloth clamp grabbing motion support, 10, an idler wheel B, 11, a driving wheel B, 12, a gear motor B, 13, a synchronous belt B, 14, a clamp grabbing B, 15, a glass fiber cloth lifting device, 16, an idler wheel C, 17, a driving wheel C, 18, a gear motor C, 19, a synchronous belt C, 20, a clamp grabbing lifting support, 21, a guide rod cylinder, 22, a clamp grabbing C, 23, a finished product lifting table support, 24, a gear motor D, 25, a screw lifting machine D, 26, a screw nut D, 27, a finished product lifting table, 28, a stable support leg and 29.

Detailed Description

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

The embodiment provides a mica paper, fine cloth stacking device of glass, as shown in fig. 1, fig. 2: from the incoming material end to the material removing end, the device comprises a paper lifting table unit, a middle unit and a finished product lifting table unit, wherein the paper lifting table unit comprises a paper lifting table support 1, a gear motor A, a screw rod lifter A, a screw rod nut A and a paper lifting table 5, the paper lifting table support 1 is a cuboid square frame welded by square steel and is horizontally arranged on the ground, two gear motors A are arranged on two sides of the bottom end of the paper lifting table support 1 and are respectively connected with the two screw rod lifters A, the two screw rod lifters A are respectively arranged in the middle of two sides of the paper lifting table support 1, the bottom of the two screw rod lifters A are connected with the paper lifting table support 1, the screw rod end is connected with the paper lifting table 5 through the screw rod nut A, the screw rod lifter A has strong rigidity, one side of the two sides is provided with enough strength, so that the paper lifting table 5 does not need a guide rail, and stable lifting can be realized through the rigidity of the screw rod lifter A itself. Two corners of the material removing end of the paper lifting table 5 are provided with two notches, a part of the material receiving end of the paper lifting table 5 is butted to the paper cutter 29, mica paper cut by the paper cutter 29 is received on the paper lifting table, and a bridge and a buffer for connecting the whole device with the paper cutter are formed.

The middle unit comprises a middle unit support 6, a paper clamp grab moving bracket 7, a glass fiber cloth box 8, a glass fiber cloth clamp grab moving bracket 9, an idler B, a driving wheel B, a gear motor B, a synchronous belt B, a clamp grab B, glass fiber cloth lifting equipment 15, an idler C, a driving wheel C, a gear motor C, a synchronous belt C, a clamp grab lifting bracket 20, a guide rod cylinder 21 and a clamp grab C, wherein the middle unit support 6 is formed by welding square steel and is partially connected with a paper lifting table 5, the middle unit support 6 is divided into two layers, the lower layer height is flush with the highest height of the paper lifting table 5, two sides of the paper clamp grab moving bracket 7 are respectively provided with the two paper clamp grab moving brackets 7, the length of a material end of the paper clamp grab moving bracket 7 extends to 1/3 of the paper lifting table 5, the total length of the material end of the paper clamp grab moving bracket 7 is 1/3 more than that of the finished lifting table 27, the idler B is arranged at the material end of each paper clamp grab moving bracket 7, the material end of each paper clamp grab moving bracket 7 is provided with the idler B, the driving wheel B is arranged at the material end of the paper clamp grab moving bracket 7, the driving wheel B is connected with the gear motor B, the gear motor B is connected with the gear motor B, the gear B is matched with the gear B in a group B to the size of the idle lifting table B, and can be driven to move along the synchronous belt B, and the paper clamp moving table 5, and the paper clamp moving bracket B is just rotates along the gear B, and the gear B is matched with the gear B, and the size is driven to move the gear B to the paper clamp moving bracket 5.

At the upper layer of the intermediate unit support 6, a glass fiber cloth box 8 is installed, and at the upper portion of the glass fiber cloth box 8, a glass fiber cloth lifting device 15, which is a device for separating a single piece of stacked glass fiber cloth, is installed, which can lift one side of one glass fiber cloth at a time by a predetermined height so as to clamp the C. Next to the glass fiber cloth box 8 is a glass fiber cloth clamping and grabbing moving bracket 9 which is horizontally placed, two glass fiber cloth clamping and grabbing moving brackets 9 are respectively installed on two sides of the upper layer of the middle support 6, the glass fiber cloth clamping and grabbing moving brackets 9 are long, the length of the material inlet ends of the glass fiber cloth clamping and grabbing moving brackets 9 extends to 1/3 of the length of the glass fiber cloth box 8, the material outlet ends of the glass fiber cloth clamping and grabbing moving brackets 8 pass through a finished product lifting table 23, 1/3 of the material outlet ends of the glass fiber cloth clamping and grabbing moving brackets are aligned with the ends of the paper clamping and grabbing moving brackets 7, idle wheels C are installed at the material inlet end ends of each glass fiber cloth clamping and grabbing moving bracket 9, driving wheels C are installed at the material outlet ends of each glass fiber cloth clamping and grabbing moving bracket 9, driving wheels C are connected with a gear motor C, a synchronous belt C is sleeved between each driving wheel C and the idle wheels C, clamping and lifting brackets 20 are installed on each synchronous belt C, 1 guide rod cylinder 21 is arranged on each clamping lifting bracket 20, the ends of the guide rods are punched down, the ends of each guide rod cylinder 21 are installed, and the clamping C is installed, and the lifting of the clamping cylinders can control lifting of the clamping C. The highest height of the clamp grab C, which is just matched with the height of the glass fiber cloth lifting device for lifting the glass fiber cloth, can be clamped to the glass fiber cloth, and is just matched with the height of the finished product lifting table, so that the glass fiber cloth is placed on the finished product lifting table. The gear motor C is arranged on the middle unit support 6, and when the gear motor C rotates, the motor drives the driving wheel C to rotate, so that the synchronous belt C is driven to move, the clamping grab lifting support is driven to move, and further the clamping grab C is linearly moved along the feeding and discharging direction.

The finished product lifting table 27 comprises a finished product lifting table support 23, a gear motor D, screw lifters D, screw nuts D and a finished product lifting table 27, wherein the finished product lifting table support 23 is a cuboid square frame welded by square steel and is horizontally arranged on the ground, two gear motors D are arranged on two sides of the lower end of the finished product lifting table support 23 and are respectively connected with the two screw lifters D, the two screw lifters D are respectively arranged in the middle of two sides of the finished product lifting table support 23, the bottoms of the two screw lifters D are connected with the finished product lifting table support 23, screw ends of the screw lifters are connected with the finished product lifting table 27 through the screw nuts D, the screw lifters D have strong rigidity, one side of the two sides is provided with a screw nut D, and the strength of the screw nuts D is enough, so that the finished product lifting table does not need a guide rail, and stable lifting can be realized through the rigidity of the screw lifters D. The finished product lifting table unit forms a finished product stacking area of the whole device.

In the above embodiment, since the paper clip grabbing moving support 7 and the glass fiber cloth clip grabbing moving support 9 extend too far, two stabilizing support legs 28 are arranged on two sides of the material removing end of the paper clip grabbing moving support 7 and the glass fiber cloth clip grabbing moving support 9, one ends of the stabilizing support legs 28 are connected to the ends of the paper clip grabbing moving support 7 and the glass fiber cloth clip grabbing moving support 9, and the other ends of the stabilizing support legs 28 are fixed on the ground. Has stabilizing effect.

In the above embodiment, the whole set of device is a strip-shaped production line, and has a length of 6 meters and a width of 1.5 meters.

In the above embodiment, the specification of the paper elevating platform support is 1.4 m x 1.5 m,

in the embodiment, the baffle plates are arranged around the glass fiber distribution box to form a U-shaped material box, the glass fiber cloth boxes are stacked with glass fiber cloth in stacks, the specification of the glass fiber cloth boxes is 1.1 m multiplied by 1.3 m,

in the above embodiment, the specification of the finished elevating platform support is 1.5 m×1.5 m.

Description of the operation mode

And arranging a sufficient number of glass fiber fabrics in the glass fiber fabric boxes in a flush manner.

The single mica paper produced by the paper cutting machine is stacked on the paper lifting table one by one stably, one paper is stacked on each paper, the speed reducing motor A rotates for a corresponding circle number, the screw rod lifter A is driven to rotate, the paper lifting table is lowered by a certain distance (generally 1.5 times of the thickness of one paper, and the thickness of the paper stack) so that the next paper can be placed on the previous paper stably and neatly, and the speed reducing motors A on two sides synchronously operate, so that the paper lifting table can be lowered horizontally.

Meanwhile, the gear motor D can rotate corresponding turns, and then drives the screw lifter D to rotate, so that the finished product lifting table can be operated to a certain height, a stack of paper can be placed on the finished product lifting table stably and neatly, and the gear motors D on two sides can synchronously operate, so that the paper lifting table can be lifted horizontally.

When the preset mica paper quantity is arranged on the paper lifting table (3-6 sheets), the gear motor B is started, then the driving wheel B is driven, the driving wheel B drives the synchronous belt B, the synchronous belt B drives the clamping gripper B to linearly move in the feeding direction, and the clamping gripper B clamps the piles through the notch of the paper lifting table. At the moment, the gear motor B reverses, so that the clamp gripper B moves linearly in the feeding direction, and further the piled mica paper is dragged and dropped onto the finished product lifting table, the clamp gripper B is loosened, and one paper stacking action is completed. The gear motors B on the two sides synchronously run so as to smoothly drag and drop the piled mica paper onto a finished product lifting table.

Meanwhile, the gear motor D can rotate corresponding turns, and then drives the screw lifter D to rotate, so that the finished product lifting table can be operated to a certain height, one piece of glass fiber cloth can be stably and orderly placed on the finished product lifting table, and the gear motors D on two sides can synchronously operate, so that the paper lifting table can be lifted horizontally.

Every time a pile of mica paper drags and drops on the finished product elevating platform, gear motor C starts, and then drives drive wheel C, drive wheel C drives hold-in range C, hold-in range C takes the clamp to grab elevating bracket, press from both sides and grab elevating bracket and go forward material direction rectilinear movement, and then drive clamp and grab C and go forward material direction rectilinear movement, and simultaneously, glass fine cloth mentions equipment and mentions a limit of a glass fine cloth a take the altitude, this altitude just with press from both sides the altitude that grabs C centre gripping one level, guide arm cylinder also can retract for press from both sides and grab C and rise to glass fine cloth mentioning the same altitude that glass fine cloth mentions equipment. The clamping grabs C clamp the glass fiber cloth. At this time, gear motor C reverses for press from both sides and grab C and go the direction rectilinear movement of material, guide arm cylinder also can stretch out simultaneously, makes press from both sides and grab C decline to the same height of finished product elevating platform, and then drags the fine cloth of glass to the finished product elevating platform, accomplishes a sign indicating number and puts up fine cloth action of glass. The gear motors C on the two sides synchronously run so as to smoothly drag and drop the piled mica paper onto the finished product lifting table. The above process is repeated until there is a desired number of finished products on the finished product lift table.

What is not described in detail in this specification is prior art known to those skilled in the art.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather to enable any modification, equivalent replacement, improvement or the like to be made within the spirit and principles of the invention.

Claims (6)

1. Mica paper, fine cloth stacking device of glass, its characterized in that: the device comprises a paper lifting table unit, a middle unit and a finished product lifting table unit from an incoming material end to a material removing end, wherein the paper lifting table unit comprises a paper lifting table support, a speed reducing motor A, a screw lifter A, a screw nut A and a paper lifting table, the paper lifting table support is a cuboid square frame welded by square steel and is horizontally arranged on the ground, two speed reducing motors A are arranged on two sides of the bottom end of the paper lifting table support, the two speed reducing motors A are respectively connected with the two screw lifters A, the two screw lifters A are respectively arranged in the middle parts of two sides of the paper lifting table support, the bottoms of the two screw lifters A are connected with the paper lifting table support, the screw ends of the screw lifters A are connected with the paper lifting table through the screw nut A, gaps are formed in two corners of the material removing end of the paper lifting table, and the incoming material end of the paper lifting table unit is butted to a paper cutter; wherein the middle unit comprises a middle unit support, a paper clamp grab moving bracket, a glass fiber cloth box, a glass fiber cloth clamp grab moving bracket, an idler B, a driving wheel B, a gear motor B, a synchronous belt B, a clamp grab B, a glass fiber cloth lifting device, an idler C, a driving wheel C, a gear motor C, a synchronous belt C, a clamp grab lifting bracket, a guide rod cylinder and a clamp grab C, the middle unit support is formed by welding square steel and is connected with a paper lifting table unit, the middle unit support is divided into two layers, the lower layer is level with the highest height of the paper lifting table, two paper clamp grab moving brackets are respectively arranged on two sides of the lower layer of the middle unit support, the length of the incoming material end of the paper clamp grab moving bracket extends to 1/3 of the paper lifting table, the material removing end of the paper clamp grab moving bracket is longer than the finished product lifting table, the idler B is arranged at the material end of the incoming end of each paper clamp grab moving bracket, the end of the material removing end of each paper clamp grabbing moving bracket is provided with a synchronous wheel driving wheel B, the driving wheel B is connected with a speed reducing motor B, a synchronous belt B is sleeved between each group of driving wheels B and an idler wheel B, each synchronous belt B is provided with a clamp grabbing B, the height dimension of the clamp grabbing B is matched with a notch of a paper lifting table, the speed reducing motor B is arranged on a middle unit support, a glass fiber cloth box is arranged at the upper material supplying end of the middle unit support, a glass fiber cloth lifting device is arranged at the upper part of the glass fiber cloth box, a glass fiber cloth clamp grabbing moving bracket is horizontally arranged next to the glass fiber cloth box, the two glass fiber cloth clamp grabbing moving brackets are respectively arranged at two sides of the upper layer of the middle unit support, the length of the material supplying end of the glass fiber cloth clamp grabbing moving bracket extends to 1/3 of the glass fiber cloth box, the material removing end is longer than a finished lifting table, the material removing end is aligned with the paper clamp grabbing moving support end, an idler wheel C is arranged at the material inlet end of each glass fiber cloth clamp grabbing moving support, a driving wheel C is arranged at the material removing end of each glass fiber cloth clamp grabbing moving support, the driving wheel C is connected with a speed reducing motor C, a synchronous belt C is sleeved between each group of driving wheels C and the idler wheel C, a clamp grabbing lifting support is arranged on each synchronous belt C, 1 guide rod air cylinder is arranged on each clamp grabbing lifting support, the end of each air cylinder is punched down, a clamp grab C is arranged at the end of each guide rod air cylinder, the highest lifting height of the clamp grab C is matched with the lifting height of glass fiber cloth by glass fiber cloth lifting equipment, the lowest lifting height of the clamp grab C is matched with the lifting height of a finished product lifting table, and a speed reducing motor C is arranged on a middle unit support; the finished product lifting table unit comprises a finished product lifting table support, speed reducing motors D, screw lifters D, screw nuts D and a finished product lifting table, wherein the finished product lifting table support is a cuboid square frame welded by square steel and is horizontally arranged on the ground, two speed reducing motors D are arranged on two sides of the lower end of the finished product lifting table support and are respectively connected with the two screw lifters D, the two screw lifters D are respectively installed in the middle of two sides of the finished product lifting table support, the bottoms of the screw lifters D are connected with the finished product lifting table support, and screw ends of the screw lifters D are connected with the finished product lifting table through the screw nuts D.

2. The mica paper and glass fiber cloth stacking device according to claim 1, wherein: the paper clamp grabs the moving support, and the glass fiber cloth clamp grabs the moving support's material end both sides of going to be equipped with stable landing leg, and stable landing leg's one end is connected and is grabbed the moving support at the paper clamp, and the glass fiber cloth clamp grabs the moving support's end, and stable landing leg's the other end is fixed subaerial.

3. The mica paper and glass fiber cloth stacking device according to claim 1, wherein: the whole set of device is a strip-shaped production line, and has the length of 6 meters and the width of 1.5 meters.

4. The mica paper and glass fiber cloth stacking device according to claim 1, wherein: the specification of the paper lifting table support is 1.4 m×1.5 m.

5. The mica paper and glass fiber cloth stacking device according to claim 1, wherein: the baffle plates are arranged around the glass fiber distribution box, the glass fiber cloth in a pile is stacked in the glass fiber distribution box, and the specification of the glass fiber distribution box is 1.1 m multiplied by 1.3 m.

6. The mica paper and glass fiber cloth stacking device according to claim 1, wherein: the specification of the finished lifting table support is 1.5 m multiplied by 1.5 m.