CN108002006A - A kind of mineral wool board slewing - Google Patents

Abstract

The invention discloses a kind of mineral wool board slewing, including conveying workbench, rotary table and plate pushing structure；Wherein, the rotary table is arranged on the centre position of the conveying workbench, conveying workbench will treat that rotating mineral wool board is delivered on the rotary table, treat that rotating mineral wool board carries out 90 ° of rotation process by the rotary table, postrotational mineral wool board is pushed into follow-up conveying workbench by the plate pushing structure；Present invention can apply to mineral wool board producing equipment field, it can effectively overcome shortcoming existing in the prior art using the present invention, it can realize the optimal design-aside of mineral wool board rollgang, can realize effectively reduces space, while can provide enough installation spaces for parallel set of other parallel production lines.

Description

Mineral wool board rotary equipment

Technical Field

The invention relates to mineral wool board production equipment, in particular to mineral wool board rotating equipment.

Background

In the prior art, the mineral wool board has superior performances of sound absorption, non-combustion, heat insulation, decoration and the like, and is widely used for indoor decoration of various building suspended ceilings and wall-attached walls. The usual production process of mineral wool boards mainly comprises the following steps: loosening mineral wool, grinding paper and pulping, mixing and stirring, feeding into a constant tank, discharging pulp and screening, molding, feeding into a room and drying, discharging, cutting and puttying, drying, spraying, embossing, cutting, spraying gum, packaging and warehousing and the like. Among them, in the chamber-entering drying operation, it is often necessary to perform the drying operation through a drying kiln.

However, the roller conveyor as a mineral wool slab has the following disadvantages: in actual production, 4 edges of the mineral wool board need to be processed, wherein a group of opposite edges are processed firstly; then conveying the blank to the next production line which is arranged at a right angle with the current production line, and carrying out the opposite side processing of the rest group; the production line occupies a large area and is not beneficial to the parallel arrangement of other parallel production lines.

Disclosure of Invention

The invention solves the technical problem of providing mineral wool board rotating equipment, which can effectively overcome the defects in the prior art, realize the optimized setting of a mineral wool board conveying roller way, effectively reduce the occupied space and provide enough setting space for the parallel setting of other parallel production lines.

In order to solve the technical problem, the invention provides mineral wool board rotating equipment which comprises a conveying workbench, a rotating workbench and a push plate structure, wherein the conveying workbench is arranged on the conveying workbench; wherein,

the rotary workbench is arranged in the middle of the conveying workbench, the conveying workbench conveys the mineral wool board to be rotated to the rotary workbench, the mineral wool board to be rotated is rotated by 90 degrees through the rotary workbench, and the push plate structure pushes the rotated mineral wool board into the subsequent conveying workbench;

the rotary worktable comprises a circular platform, a rotary support, a control circuit and a stepping motor, wherein the circular platform is arranged above the rotary support, the rotary support is connected with the stepping motor through a rotating shaft, and the stepping motor drives the rotary support to drive the circular platform to rotate together.

Preferably, the above mineral wool board rotation apparatus may also be characterized in that,

the control circuit comprises a sensor and a controller, the sensor is arranged on the rotary workbench and far away from the end part of the input end of the mineral wool board, the sensor is used for detecting that the mineral wool board is conveyed to the rotary workbench and outputting a signal to the controller, and the controller controls the stepping motor to rotate for a preset angle according to the signal.

Preferably, the above mineral wool board rotation apparatus may also be characterized in that,

the push plate structure is arranged on the rotary workbench and is connected with a starting motor through a ball screw pair; before the rotary worktable performs rotary operation, the push plate structure is positioned on one side of the mineral wool plate on the rotary worktable; after the rotary worktable rotates, the push plate structure rotates along with the rotary worktable and is positioned at the inlet end of the mineral wool plate;

when after step motor rotatory preset angle, the controller output start signal give with starter motor, starter motor starts and orders about the push pedal structure through ball screw substructure and carries out the push pedal operation, the push pedal structure will the mineral wool board pushes away in subsequent transport table.

Preferably, the above mineral wool board rotation apparatus may also be characterized in that,

and a glass plate is arranged on the circular platform.

Preferably, the above mineral wool board rotation apparatus may also be characterized in that,

and an elastic rubber pad is embedded in the working surface of the push plate structure.

The technical scheme of the invention has the following beneficial effects:

according to the invention, the processing of four sides of the mineral wool board along the same conveying direction can be realized through the optimally arranged rotating structure, the push plate structure arranged on the rotating workbench, the glass board, the elastic rubber pad and the like; the layout of the conveying roller ways in a workshop can be optimized, necessary space for parallel arrangement can be provided for a parallel production line on one side of a conveying workbench of the conveying roller ways, and the conventional vertically arranged conveying workbench can be effectively avoided; the operation of push pedal can be simplified, and panel propelling movement operation can be realized only through the propelling movement of single direction or the operation of returning, can effectively guarantee the surface quality of mineral wool board.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic view of a mineral wool slab conveying apparatus according to the prior art;

fig. 2 is a schematic structural view of a mineral wool board rotating device according to an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Referring to fig. 1 and 2, the invention provides a mineral wool board rotating device, which comprises conveying workbenches 3 and 10, a rotating workbench 5 and a push plate structure 8; the rotary workbench 5 is arranged in the middle of the conveying workbench, the conveying workbench conveys the mineral wool board to be rotated to the rotary workbench 5, the mineral wool board to be rotated is rotated by 90 degrees through the rotary workbench 5, and the push plate structure 8 pushes the rotated mineral wool board into the subsequent conveying workbench; the rotary worktable 5 comprises a circular platform, a rotary support 9, a control circuit and a stepping motor, the circular platform is arranged above the rotary support, the rotary support is connected with the stepping motor through a rotating shaft, and the stepping motor drives the rotary support to drive the circular platform to rotate together.

In the concrete operation, the mineral wool board 1 finishes the cutting operation of a pair of tenon edges through an edge milling structure 2 arranged above a conveying workbench; the rotary workbench 5 which is optimally arranged is added in the middle of the conveying workbench, so that the mineral wool board can be processed along the same conveying direction at four sides; the layout of the conveying roller ways in a workshop can be optimized, necessary spaces for parallel arrangement can be provided for parallel production lines on one side of the conveying workbench, and the conventional vertically arranged conveying workbench can be effectively avoided.

In the technical scheme provided by the invention, the control circuit can comprise a sensor 4 and a controller 6, the sensor 4 is arranged at the end part, far away from the input end of the mineral wool board, of the rotary worktable 5, the sensor 4 is used for detecting that the mineral wool board is conveyed onto the rotary worktable 5 and outputting a signal to the controller 6, and the controller 6 controls the stepping motor to rotate by a preset angle according to the signal.

In the concrete operation, whether the mineral wool board is conveyed above the rotary worktable 5 can be detected by the sensor 4; in order to be able to guarantee that the entire mineral wool slab is only detected when it is conveyed onto the rotary table 5, the sensor 4 is therefore arranged at the end remote from the input end of the mineral wool slab. When the mineral wool board is completely conveyed to the rotary worktable 5, the sensor 4 detects the existence of the board and transmits a signal to the controller 6; the controller 6 includes a control circuit, and a stepping motor for driving the rotation table 5 to rotate is started by the output of the control circuit and rotates 90 °. It should be noted that the operations such as the detection of the above signals can be realized by a control circuit, and the components thereof all belong to electrical components commonly used in the field; in addition, the control structure does not involve a software program.

The push plate structure 8 can be arranged on the rotary workbench 5, and the push plate structure 8 is connected with the starting motor 7 through a ball screw pair; before the rotary workbench 5 is rotated, the push plate structure 8 is positioned on one side of the mineral wool plate on the rotary workbench 5; after the rotary workbench 5 is rotated, the push plate structure 8 rotates along with the rotary workbench 5 and is positioned at the inlet end of the mineral wool plate; after the stepping motor rotates by a preset angle, the controller 6 outputs a starting signal to the starting motor, the starting motor starts and drives the push plate structure 8 to perform push plate operation through the ball screw pair structure, and the push plate structure 8 pushes the mineral wool plate into a subsequent conveying workbench.

In the concrete operation, the aforementioned control circuit is connected with the starting motor of the push plate structure 8, and after the stepping motor completes 90-degree rotation operation, the push plate structure 8 arranged on the rotary worktable 5 is positioned behind the mineral wool board (i.e. near the end of the input end of the mineral wool board). The control circuit outputs a starting signal of a starting motor 7, the starting motor is started, and the rotary motion is converted into linear motion through a ball screw pair, so that the pushing operation of the mineral wool board is realized; when the mineral wool board is pushed to a preset distance (at the moment, the mineral wool board completely enters a subsequent roller conveyor), the control circuit controls the starting motor to rotate reversely and returns to the initial position; meanwhile, the control circuit controls the stepping motor of the rotary table 5 to rotate in the reverse direction and also returns to the initial position. Waiting for the next mineral wool slab conveying, rotating and pushing operation. It should be noted that the rotation of the rotary table 5 by 90 ° may be clockwise rotation or counterclockwise rotation, both based on the fact that the pushing plate is located behind the mineral wool plate after the rotation by 90 °.

The push plate structure 8 in the prior art is set on the conveying workbench, and the position of the push plate structure is lower than the conveying platform of the conveying workbench in the initial state, or the position of the push plate structure is one side of the conveying workbench so as not to influence the conveying of the mineral wool plate. When the push plate operation is required, the push plate structure 8 is firstly moved to the position of the conveying platform, namely the rear position of the mineral wool plate on the conveying workbench; further, the pushing operation of the plate can be performed.

However, according to the technical scheme provided by the invention, the push plate structure 8 is arranged on the rotary workbench 5, so that the' when the rotary workbench 5 is at the initial position, the push plate structure 8 is positioned at the side for conveying the mineral wool board; after the rotary workbench 5 finishes the rotary operation, the push plate structure 8 is positioned at the rear position of the mineral wool plate, so that the operation of the push plate can be simplified, and the plate pushing operation can be realized only through the pushing or returning operation in a single direction. In addition, the control circuit can be effectively connected with the stepping motor of the rotary worktable 5 and the starting motor of the push plate structure 8, and can realize the unified control of operation.

Furthermore, in order to effectively ensure that the surface of the mineral wool board is not scratched on the rotary worktable 5; the circular platform in the invention can be provided with a glass plate; in addition, in order to effectively ensure that the side edge of the mineral wool board is not scratched in the pushing process, an elastic rubber pad can be embedded in the working surface of the push plate structure 8. The glass plate and the elastic rubber pad are arranged to effectively ensure the surface quality of the mineral wool plate.

According to the invention, the processing of four sides of the mineral wool board along the same conveying direction can be realized through the optimally arranged rotating structure, the push plate structure arranged on the rotating workbench, the glass board, the elastic rubber pad and the like; the layout of the conveying roller ways in a workshop can be optimized, necessary space for parallel arrangement can be provided for a parallel production line on one side of a conveying workbench of the conveying roller ways, and the conventional vertically arranged conveying workbench can be effectively avoided; the operation of pushing the plate can be simplified, the plate pushing operation can be realized only through the pushing or returning operation in a single direction, and the surface quality of the mineral wool plate can be effectively ensured; easy to popularize and implement.

It should be understood by those skilled in the art that the embodiments of the present invention are described above, but the description is only for the convenience of understanding the present invention and is not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. Mineral wool board rotating equipment is characterized by comprising a conveying workbench, a rotating workbench and a push plate structure; wherein,

the rotary workbench is arranged in the middle of the conveying workbench, the conveying workbench conveys the mineral wool board to be rotated to the rotary workbench, the mineral wool board to be rotated is rotated by 90 degrees through the rotary workbench, and the push plate structure pushes the rotated mineral wool board into the subsequent conveying workbench;

the rotary worktable comprises a circular platform, a rotary support, a control circuit and a stepping motor, wherein the circular platform is arranged above the rotary support, the rotary support is connected with the stepping motor through a rotating shaft, and the stepping motor drives the rotary support to drive the circular platform to rotate together.

2. Mineral wool slab rotation apparatus according to claim 1,

the control circuit comprises a sensor and a controller, the sensor is arranged on the rotary workbench and far away from the end part of the input end of the mineral wool board, the sensor is used for detecting that the mineral wool board is conveyed to the rotary workbench and outputting a signal to the controller, and the controller controls the stepping motor to rotate for a preset angle according to the signal.

3. Mineral wool slab rotation apparatus according to claim 2,

the push plate structure is arranged on the rotary workbench and is connected with a starting motor through a ball screw pair; before the rotary worktable performs rotary operation, the push plate structure is positioned on one side of the mineral wool plate on the rotary worktable; after the rotary worktable rotates, the push plate structure rotates along with the rotary worktable and is positioned at the inlet end of the mineral wool plate;

when after step motor rotatory preset angle, the controller output start signal give with starter motor, starter motor starts and orders about the push pedal structure through ball screw substructure and carries out the push pedal operation, the push pedal structure will the mineral wool board pushes away in subsequent transport table.

4. Mineral wool slab rotation apparatus according to any one of claims 1 to 3,

and a glass plate is arranged on the circular platform.

5. Mineral wool slab rotation apparatus according to any one of claims 1 to 3,

and an elastic rubber pad is embedded in the working surface of the push plate structure.