CN219685885U - Sheet material receiving device after cutting of heat preservation boards - Google Patents

Abstract

The utility model relates to a sheet material receiving device after cutting of heat preservation boards, which comprises a frame, wherein a lifting mechanism for receiving sheets output by a chain conveyor is arranged on the frame, and the sheets falling from the lifting mechanism are received by a loading mechanism; the frame comprises two vertical plates, the front end and the rear end of the two vertical plates are connected through two mounting plates, and each mounting plate is connected with the upper parts of the two vertical plates; the lifting mechanism comprises two brackets, the two brackets are respectively arranged on the two mounting plates, each bracket comprises a moving plate positioned at the outer side of each mounting plate, a plurality of lifting rods are fixedly connected on each moving plate, through holes for each lifting rod to penetrate through are formed in the corresponding mounting plates, and the lifting rods on the two brackets are arranged at intervals; and a power mechanism for driving the two movable plates to synchronously approach or synchronously separate is arranged on one of the vertical plates. Through the cooperation of lifting mechanism and loading mechanism, can accomplish through the mode of mechanical operation and connect the material and pile high action, save the cost of labor.

Description

Sheet material receiving device after cutting of heat preservation boards

Technical Field

The utility model relates to a receiving device, in particular to a sheet receiving device after cutting of heat preservation boards.

Background

The foam insulation board is a basic material for processing the building outer wall decoration insulation board at present, and before the foam insulation board is put into use, the foam insulation board needs to be divided into sections, and the existing cutting procedures in a factory at present are as follows: the plate to be cut is conveyed by a chain conveyor, and the original thicker plate is divided into a plurality of thinner plates by a plurality of electric heating wires when the plate passes through the electric heating wire cutting machine. An unpowered roller conveying frame for receiving the sheets is arranged on one side of the electric heating wire cutting machine, the cut sheets are conveyed to the unpowered roller conveying frame under the pushing of the follow-up plates, the sheets on the unpowered roller conveying frame are piled together by workers, and when the sheets are piled to a certain height, the sheets are conveyed in a concentrated mode.

In the production process, the cut sheets output from the chain conveyor are required to be specially arranged for workers to carry out high stacking arrangement, so that labor cost of enterprises is increased. Based on the problem, the inventor provides a sheet material receiving device after cutting of heat preservation boards, and the actions of receiving and stacking are completed through mechanical operation, so that labor cost is saved.

Disclosure of Invention

The utility model provides a sheet material receiving device for cut heat-insulating boards, which aims at the defects of the prior art.

The utility model is realized by the following technical scheme that the sheet material receiving device after cutting the thermal insulation sheet material comprises a frame, wherein a lifting mechanism for receiving a sheet material output by a chain conveyor is arranged on the frame, and the sheet material falling from the lifting mechanism is received by a loading mechanism; the frame comprises two vertical plates, the front end and the rear end of the two vertical plates are connected through two mounting plates, and each mounting plate is connected with the upper parts of the two vertical plates; the lifting mechanism comprises two brackets, the two brackets are respectively arranged on the two mounting plates, each bracket comprises a moving plate positioned at the outer side of each mounting plate, a plurality of lifting rods are fixedly connected on each moving plate, through holes for each lifting rod to penetrate through are formed in the corresponding mounting plates, and the lifting rods on the two brackets are arranged at intervals; and a power mechanism for driving the two movable plates to synchronously approach or synchronously separate is arranged on one of the vertical plates. The lifting rods are used as carriers for carrying sheets, and the lifting rods on the two brackets are close to each other and are arranged at intervals during material receiving, and the sheets are lifted through the lifting rods. When the lifting mechanism needs to discharge, the lifting rods on the two brackets are far away under the drive of the power mechanism, the lifting rods do not support the sheets any more, and the sheets fall onto the loading mechanism below.

Preferably, the power mechanism is a bidirectional cylinder, double-sided push rods of the bidirectional cylinder are respectively fixed with the two movable plates, and the two movable plates can be synchronously close or synchronously far away under the drive of the bidirectional cylinder, so that the requirements of receiving and discharging are met.

Preferably, a stop plate is connected between the two mounting plates and stops when the sheet contacts the stop plate.

Preferably, in order to realize automatic discharging, a proximity switch is arranged on the limiting plate, the proximity switch is in circuit connection with the input end of a programmable logic controller, and the output end of the programmable logic controller is in circuit connection with a bidirectional cylinder. When the sheet approaches the proximity switch, the proximity switch transmits signals to the programmable logic controller, and the programmable logic controller sends out instructions to control the bidirectional air cylinder to act, and the two moving plates are synchronously far away, so that the sheet falls onto the loading mechanism below.

Preferably, the loading mechanism comprises a receiving plate positioned below the two brackets, the receiving plate is in sliding connection with the two vertical plates, and travelling wheels are arranged on the bottom surface of the receiving plate. Through the arrangement of the travelling wheels, the material receiving plate can move freely, and after receiving materials, the material receiving plate can be pulled out from the lower part of the frame, so that sheets can be conveniently and intensively transferred.

Preferably, the opposite positions of the inner walls of the two vertical plates are respectively provided with a chute, and the two ends of the receiving plate are respectively positioned in the two chutes and can move along the chutes.

The beneficial effects of the utility model are as follows:

1. the divided sheets conveyed from the chain conveyor are received by the lifting mechanism, then the sheets falling from the lifting mechanism are received by the loading mechanism, and when the sheet bundle on the receiving plate reaches a certain height, the receiving plate is pulled out from the lower part of the frame for centralized transfer. Through the cooperation of lifting mechanism and loading mechanism, can accomplish through the mode of mechanical operation and connect the material and pile high action, save the cost of labor.

2. The lifting rods are used as carriers for carrying sheets, and the lifting rods on the two brackets are close to each other and are arranged at intervals during material receiving, and the sheets are lifted through the lifting rods. When the lifting mechanism needs to discharge, the lifting rods on the two brackets are far away under the drive of the power mechanism, the lifting rods do not support the sheets any more, and the sheets fall onto the loading mechanism below.

3. Through the arrangement of the travelling wheels, the material receiving plate can move freely, and after receiving materials, the material receiving plate can be pulled out from the lower part of the frame, so that sheets can be conveniently and intensively transferred.

Drawings

FIG. 1 is a top view of a receiving device according to the present utility model in a receiving state;

FIG. 2 is a top view of the unloading state of the receiving device of the present utility model;

FIG. 3 is a schematic view of the structure of the direction A in FIG. 1;

FIG. 4 is a top plan view of the combined relationship of the receiving device and chain conveyor of the present utility model;

the figure shows:

1. the device comprises a vertical plate, 2, a mounting plate, 3, a moving plate, 4, a ram, 5, a receiving plate, 6, a bidirectional cylinder, 7, a proximity switch, 8, a limiting plate, 9, a sheet, 10, a chute, 11, travelling wheels, 12 and a chain conveyor.

Detailed Description

In order to clearly illustrate the technical characteristics of the scheme, the scheme is explained below through a specific embodiment.

As shown in fig. 1 to 4, the present utility model includes a frame on which a lifting mechanism for receiving a sheet 9 output from a chain conveyor is provided, and the sheet 9 dropped from the lifting mechanism is received by a loading mechanism. The frame includes two risers 1, and the front and back both ends of two risers 1 are connected through two mounting panels 2, and every mounting panel 2 is connected with the upper portion of two risers 1. The lifting mechanism comprises two brackets, the two brackets are respectively arranged on the two mounting plates 2, each bracket comprises a moving plate 3 positioned on the outer side of the mounting plate 2, a plurality of lifting rods 4 are fixedly connected on the moving plate 3, through holes for each lifting rod 4 to penetrate through are formed in the corresponding mounting plate 2, and the lifting rods 4 on the two brackets are arranged at intervals. A power mechanism for driving the two moving plates 3 to approach or separate synchronously is mounted on one of the vertical plates 1. The pickers 4 on the two brackets are close to each other and are arranged at intervals when receiving materials by taking the pickers 4 as carriers for receiving the sheets 9, and the sheets 9 are lifted by the pickers 4. When the lifting mechanism needs to discharge, the lifting rods 4 on the two brackets are far away under the drive of the power mechanism, the lifting rods 4 do not support the sheet 9 any more, and the sheet 9 falls onto the loading mechanism below.

In this embodiment, the power mechanism is a bidirectional cylinder 6, the cylinder body of the bidirectional cylinder 6 is fixedly connected with the vertical plate 1, the push rods on two sides of the bidirectional cylinder 6 are respectively fixed with the two moving plates 3, and the two moving plates 3 can be synchronously approaching or synchronously separating under the drive of the bidirectional cylinder 6, so that the requirements of receiving and discharging are met.

In the present embodiment, the limiting plate 8 is connected between the two mounting plates 2, and stops when the sheet 9 contacts the limiting plate 8.

Further, in order to realize automatic discharging, a proximity switch 7 is installed on a limiting plate 8, the proximity switch 7 is in circuit connection with the input end of a programmable logic controller, and the output end of the programmable logic controller is in circuit connection with the bidirectional cylinder 6. The programmable logic controller is of ohm-dragon CP1H series PLC, the circuit connection portions of the proximity switch 7, the bidirectional cylinder 6 and the programmable logic controller are not improved and the existing connection form is adopted, and the circuit connection relationship is well known to those skilled in the art, and is explicitly described in the related patent documents, so that the detailed circuit connection relationship is not repeated. When the sheet 9 approaches the proximity switch 7, the proximity switch 7 transmits a signal to the programmable logic controller, and the programmable logic controller sends an instruction to control the bidirectional cylinder 6 to act, so that the two moving plates 3 are synchronously far away, and the sheet 9 falls onto a loading mechanism below.

The loading mechanism comprises a receiving plate 5 positioned below the two brackets, the receiving plate 5 is in sliding connection with the two vertical plates 1, and travelling wheels 11 are arranged on the bottom surface of the receiving plate 5. The material receiving plate 5 can freely move through the arrangement of the travelling wheels 11, and can be pulled out from the lower part of the frame after receiving materials, so that the sheets 9 can be conveniently and intensively transferred. Further, as shown in fig. 3, the opposite positions of the inner walls of the two vertical plates 1 are respectively provided with a chute 10, and two ends of the receiving plate 5 are respectively positioned in the two chute 10 and can move along the chute 10.

In specific use, the divided sheets 9 conveyed from the chain conveyor 12 are received by the lifting mechanism, then the sheets 9 falling from the lifting mechanism are received by the loading mechanism, and when the sheets 9 on the receiving plate 5 are piled up to a certain height, the receiving plate 5 is pulled out from the lower part of the frame for centralized transfer. Through the cooperation of lifting mechanism and loading mechanism, can accomplish through the mode of mechanical operation and connect the material and pile high action, save the cost of labor.

Of course, the above description is not limited to the above examples, and the technical features of the present utility model that are not described may be implemented by or by using the prior art, which is not described herein again; the above examples and drawings are only for illustrating the technical scheme of the present utility model and not for limiting the same, and the present utility model has been described in detail with reference to the preferred embodiments, and it should be understood by those skilled in the art that changes, modifications, additions or substitutions made by those skilled in the art without departing from the spirit of the present utility model and the scope of the appended claims.

Claims (6)

1. Sheet material receiving device after insulation board cutting, its characterized in that: the device comprises a frame, wherein a lifting mechanism for receiving sheets output by a chain conveyor is arranged on the frame, and the sheets falling from the lifting mechanism are received by a loading mechanism; the frame comprises two vertical plates, the front end and the rear end of the two vertical plates are connected through two mounting plates, and each mounting plate is connected with the upper parts of the two vertical plates; the lifting mechanism comprises two brackets, the two brackets are respectively arranged on the two mounting plates, each bracket comprises a moving plate positioned at the outer side of each mounting plate, a plurality of lifting rods are fixedly connected on each moving plate, through holes for each lifting rod to penetrate through are formed in the corresponding mounting plates, and the lifting rods on the two brackets are arranged at intervals; and a power mechanism for driving the two movable plates to synchronously approach or synchronously separate is arranged on one of the vertical plates.

2. The cut sheet material receiving device of thermal insulation sheet material according to claim 1, wherein: the power mechanism is a bidirectional cylinder, and push rods on two sides of the bidirectional cylinder are respectively fixed with the two moving plates.

3. The cut sheet material receiving device of thermal insulation sheet material according to claim 1, wherein: a limiting plate is connected between the two mounting plates.

4. A cut sheet material receiving apparatus according to claim 3, wherein: and a proximity switch is arranged on the limiting plate and is in circuit connection with the input end of the programmable logic controller, and the output end of the programmable logic controller is in circuit connection with the bidirectional cylinder.

5. The cut sheet material receiving device of thermal insulation sheet material according to claim 1, wherein: the loading mechanism comprises a receiving plate positioned below the two brackets, the receiving plate is in sliding connection with the two vertical plates, and travelling wheels are arranged on the bottom surface of the receiving plate.

6. The cut sheet material receiving device of thermal insulation sheet material according to claim 5, wherein: the opposite positions of the inner walls of the two vertical plates are respectively provided with a chute, and the two ends of the receiving plate are respectively positioned in the two chutes and can move along the chutes.