CN107309068B

CN107309068B - Gypsum board leftover bits are collected and are broken up conveyor

Info

Publication number: CN107309068B
Application number: CN201710739567.4A
Authority: CN
Inventors: 张可栋; 宋庆海; 韩奋进; 刘彬
Original assignee: Taishan Gypsum Xuancheng Co ltd
Current assignee: Taishan Gypsum Xuancheng Co ltd
Priority date: 2017-08-25
Filing date: 2017-08-25
Publication date: 2023-03-31
Anticipated expiration: 2037-08-25
Also published as: CN107309068A

Abstract

A gypsum board leftover material collecting, scattering and conveying device belongs to the technical field of gypsum board processing and production. The powder screening device comprises a coarse material inlet, a vibration mechanism, a plurality of layers of powder screening nets arranged on the vibration mechanism, a finished product discharge port and a circulating discharge port; the crushing device comprises a raw material inlet, a circulating feed inlet, a crushing mechanism and a coarse material outlet; the coarse material outlet is connected with the coarse material inlet, and the circulating discharge port is connected with the circulating feed port; the collecting device is arranged below the finished product discharge port and comprises a base, a supporting frame arranged on the base and a plurality of universal wheels arranged below the base; a dustproof mechanism is arranged between the supporting frame and the finished product discharge port, and a positioning mechanism is arranged at the universal wheel. The invention can finish the processing treatment of the gypsum board leftover material with high efficiency and high quality.

Description

Gypsum board leftover bits are collected and are broken up conveyor

Technical Field

The invention relates to the technical field of gypsum board processing production, in particular to a gypsum board leftover material collecting, scattering and conveying device.

Background

At present, after a gypsum board is formed and dried, rough edge portions need to be sawn and trimmed, the gypsum board is transferred to a subsequent edge sealing and packaging process after the rough edge portions are fixed to a certain length and accurate size, and a large amount of gypsum dust and broken edge scraps carrying paper strips and paper wool can be generated in the edge sealing and packaging process of the gypsum board or during the sawing of filler strips for packaging the gypsum board. The conventional treatment mode is to collect the scrap pieces separately or intensively and convey the scrap pieces to a designated place for secondary centralized crushing treatment, so that the dust amount is large, the time and the labor are wasted, and particularly, the waste scrap pieces and the powder of the gypsum boards are scattered, so that the conventional treatment mode is not environment-friendly and cannot be matched with the productivity of high-speed gypsum board lines.

The specifications of the powder materials after the gypsum board leftover materials are treated by the existing crushing devices are uneven, and great influence is caused on subsequent reutilization. In addition, the powder after the processing cannot be transferred quickly.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a gypsum board leftover collecting, scattering and conveying device which can efficiently and high-quality finish the processing of gypsum board leftover.

The purpose of the invention is realized by the following technical scheme:

a gypsum board leftover material collecting, scattering and conveying device, which comprises a powder sieving device, a crushing device and a collecting device,

the powder screening device comprises a coarse material inlet, a vibration mechanism, a plurality of layers of powder screening nets arranged on the vibration mechanism, a finished product discharge port and a circulating discharge port;

the crushing device comprises a raw material inlet, a circulating feed inlet, a crushing mechanism and a coarse material outlet; the coarse material outlet is connected with the coarse material inlet, and the circulating discharge hole is connected with the circulating feed hole;

the collecting device is arranged below the finished product discharge port and comprises a base, a supporting frame arranged on the base and a plurality of universal wheels arranged below the base; a dustproof mechanism is arranged between the supporting frame and the finished product discharge port, and a positioning mechanism is arranged at the universal wheel;

the dustproof mechanism comprises a dustproof cover connected to the finished product discharge port, a positioning clamping groove arranged on the outer side of the supporting frame, and a positioning ring arranged at one end of the dustproof cover and matched with the positioning clamping groove;

the positioning mechanism comprises a plurality of limiting blocks, limiting grooves arranged in a plurality of different directions of the limiting blocks, a plurality of connecting plates connected with the limiting blocks, and a lifting assembly arranged on the connecting plates.

When the material crusher works, leftover materials are poured from a raw material inlet of the crushing device, coarse materials after the leftover materials are crushed by the crushing device enter a powder sieving device through a coarse material outlet and a coarse material inlet and are sieved by the powder sieving device, qualified powder is collected by a collecting device through a finished product discharge port, unqualified materials with larger particles enter the crushing device again through a circulating discharge port and a circulating feed port and are crushed again together with other raw materials until the materials meet the requirements and are discharged from a finished product discharge port. The collecting device can be conveniently transferred through the universal wheel at the bottom, and when the collecting device needs to be stopped and positioned, the universal wheel is limited to different orientations through the limiting groove of the limiting block, so that the collecting device is prevented from moving. In addition, because collection device's mobility, its and sieve the characteristics that dustproof mechanism between the powder device need have convenient dismouting, so dust cover one end of this device links to each other with the finished product discharge gate, and the other end can convenient the carrying on joint of positioning groove of collection device and dismantle through the position circle, when guaranteeing dustproof effect, ensures whole efficiency.

Preferably, a plurality of elastic clamping heads are arranged on the inner side wall of the positioning clamping groove. The elastic clamping head improves the stability of the positioning ring clamped into the positioning clamping groove, and meanwhile, the smoothness of the positioning ring during disassembly cannot be influenced.

Preferably, a hanging groove for hanging the positioning ring is formed in the finished product discharge port. The hanging groove is convenient for hanging the dust cover in a detachable state.

Preferably, the positioning ring is provided with a handle, and the handle comprises an extending part partially inserted into the positioning clamping groove and an operating part forming a certain angle with the extending part. The handle is more convenient for the disassembly and assembly operation of the positioning ring and the dust cover.

Preferably, the lifting assembly comprises a rack connected with the connecting plate, a gear matched with the rack, a rotating shaft connected with the gear, and a rocker arranged at the end part of the rotating shaft. The lifting assembly is simple in structure and convenient to operate, the gear is driven to rotate through the rocking of the rocker, the gear drives the rack to move up and down, the rack is connected with the connecting plate, the connecting plate and the limiting block move up and down along with the rack, the limiting groove limits the universal wheel when the limiting plate moves downwards, the whole collecting device is positioned, the limiting plate breaks away from the limiting effect when the collecting device moves upwards, and the collecting device can move freely.

Preferably, the opening of the limiting groove is provided with an inclined leading-in surface. The leading-in surface is more convenient for the action that the universal wheel is sleeved in the limiting groove.

Preferably, a material conveying channel and a plurality of fans are arranged between the coarse material outlet and the coarse material inlet. The fans are used for ensuring that coarse materials can smoothly enter the powder sieving device.

The invention has the advantages that: simple structure, convenient to use can accomplish the transportation process that breaks up to gypsum board leftover bits high-efficiently, high quality.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the positioning mechanism in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Embodiment 1, as shown in fig. 1-2, the invention comprises a powder sieving device 1, a crushing device 2 and a collecting device 3, wherein the powder sieving device 1 comprises a coarse material inlet 11, a vibrating mechanism, a plurality of layers of powder sieving nets arranged on the vibrating mechanism, a finished product discharge port 12 and a circulating discharge port 13; the crushing device 2 comprises a raw material inlet 21, a circulating feed inlet 22, a crushing mechanism and a coarse material outlet 23; the coarse material outlet 23 is connected with the coarse material inlet 11, and the circulating discharge hole 13 is connected with the circulating feed hole 22; the collecting device 3 is arranged below the finished product discharge port 12 and comprises a base 31, a supporting frame 32 arranged on the base 31 and a plurality of universal wheels 33 arranged below the base 31; a dustproof mechanism is arranged between the supporting frame 32 and the finished product discharge port 12, and a positioning mechanism is arranged at the universal wheel 33; the dustproof mechanism comprises a dustproof cover 41 connected to the finished product discharge port 12, a positioning clamping groove 42 arranged on the outer side of the supporting frame 32, and a positioning ring which is arranged at one end of the dustproof cover 41 and matched with the positioning clamping groove 42; the positioning mechanism comprises a plurality of limiting blocks 51, limiting grooves arranged in different directions of the limiting blocks 51, a connecting plate 52 connected with the limiting blocks 51 and a lifting assembly arranged on the connecting plate 52. And a plurality of elastic clamping heads are arranged on the inner side wall of the positioning clamping groove 42. And a hanging groove 121 for hanging the positioning ring is formed in the finished product discharge port 12. The positioning ring is provided with a handle 6, and the handle 6 comprises a part of an extending part inserted into the positioning clamping groove 42 and an operating part forming a certain angle with the extending part. The lifting assembly comprises a rack 531 connected with the connecting plate 52, a gear 532 matched with the rack 531, a rotating shaft 533 connected with the gear 532, and a rocker 534 arranged at the end of the rotating shaft 533. An inclined leading-in surface is arranged at the opening of the limiting groove. A material conveying channel 7 and a plurality of fans 8 are arranged between the coarse material outlet 23 and the coarse material inlet 11.

When the material crusher works, leftover materials are poured from a raw material inlet of the crushing device, coarse materials after the leftover materials are crushed by the crushing device enter a powder sieving device through a coarse material outlet and a coarse material inlet and are sieved by the powder sieving device, qualified powder is collected by a collecting device through a finished product discharge port, unqualified materials with larger particles enter the crushing device again through a circulating discharge port and a circulating feed port and are crushed again together with other raw materials until the materials meet the requirements and are discharged from a finished product discharge port. And collection device can conveniently shift through the universal wheel of bottom to when needing it to stop the location, the spacing groove through the stopper limits the universal wheel in different orientations, in order to avoid its removal. In addition, because collection device's mobility, its and sieve the characteristics that dustproof mechanism between the powder device need have convenient dismouting, so dust cover one end of this device links to each other with the finished product discharge gate, and the other end can convenient the carrying on joint of positioning groove of collection device and dismantle through the position circle, when guaranteeing dustproof effect, ensures whole efficiency.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. A gypsum board leftover material collecting, scattering and conveying device is characterized by comprising a powder sieving device (1), a crushing device (2) and a collecting device (3),

the powder screening device (1) comprises a coarse material inlet (11), a vibration mechanism, a plurality of layers of powder screening nets arranged on the vibration mechanism, a finished product discharge port (12) and a circulating discharge port (13);

the crushing device (2) comprises a raw material inlet (21), a circulating feed inlet (22), a crushing mechanism and a coarse material outlet (23); the coarse material outlet (23) is connected with the coarse material inlet (11), and the circulating discharge hole (13) is connected with the circulating feed hole (22);

the collecting device (3) is arranged below the finished product discharge port (12) and comprises a base (31), a supporting frame (32) arranged on the base (31) and a plurality of universal wheels (33) arranged below the base (31); a dustproof mechanism is arranged between the supporting frame (32) and the finished product discharge port (12), and a positioning mechanism is arranged at the universal wheel (33);

the dustproof mechanism comprises a dustproof cover (41) connected to the finished product discharge port (12), a positioning clamping groove (42) arranged on the outer side of the supporting frame (32), and a positioning ring which is arranged at one end of the dustproof cover (41) and matched with the positioning clamping groove (42); a plurality of elastic clamping heads are arranged on the inner side wall of the positioning clamping groove (42);

the positioning mechanism comprises a plurality of limiting blocks (51), limiting grooves arranged in different directions of the limiting blocks (51), a connecting plate (52) connected with the limiting blocks (51), and a lifting assembly arranged on the connecting plate (52); the lifting assembly comprises a rack (531) connected with the connecting plate (52), a gear (532) matched with the rack (531), a rotating shaft (533) connected with the gear (532), and a rocker (534) arranged at the end part of the rotating shaft (533).

2. The gypsum board leftover collecting, scattering and conveying device according to claim 1, wherein a hanging groove (121) for hanging the positioning ring is formed in the finished product discharging port (12).

3. The gypsum board leftover collecting and scattering conveying device according to claim 1, wherein a handle (6) is arranged on the positioning ring, and the handle (6) comprises a protruding portion partially inserted into the positioning clamping groove (42) and an operating portion forming a certain angle with the protruding portion.

4. A gypsum board scrap collecting and scattering conveying device according to claim 1, wherein an inclined lead-in surface is arranged at the opening of the limiting groove.

5. The gypsum board scrap collecting and scattering conveyor device according to claim 1, wherein a feed delivery channel (7) and a plurality of fans (8) are arranged between the coarse material outlet (23) and the coarse material inlet (11).