CN210190118U - Evaporate and press air entrainment piece cutting waste recovery system - Google Patents

Abstract

The utility model discloses an autoclaved aerated block cutting waste recovery system, which comprises a waste collecting trench, a waste collecting device, a material blank turnover mechanism, a cutting station and a transverse and longitudinal cutting mechanism which are arranged on a work site; the waste receiving trench is arranged at the periphery of the waste receiving device and the blank turnover mechanism and used for collecting leftover materials cut off by the air-adding block blank, a downward slope of 5-10% is arranged from the cutting workshop to the batching ball milling workshop, and a flushing device is arranged at the upstream of the waste receiving trench; a waste receiving trough is arranged below the cutting station, and the waste receiving trench is in conduction connection with the waste receiving trough; the waste collecting device is obliquely arranged on the inner side of the waste collecting trench, the lower end of the waste collecting device is in lap joint with the waste collecting trench, and the upper part of the high end of the waste collecting device is positioned below the blank overturning mechanism. The utility model provides an it is little to take up an area of, and waste collection carries production line investment little, and the operation is low with maintenance cost, is favorable to improving enterprise economic benefits's evaporate and press piece cutting waste recovery system that adds of gassing.

Description

Evaporate and press air entrainment piece cutting waste recovery system

Technical Field

The utility model relates to an evaporate and press air entrainment piece production facility technical field, specifically be an evaporate and press air entrainment piece cutting waste recovery system.

Background

The autoclaved aerated block is formed by mixing cement, fly ash, aluminum powder and various additives, performing ball milling, stirring to form slurry, then performing casting molding, performing standing, primary curing, autoclaved curing and other procedures, and is not beneficial to the construction of a final product because a blank formed by casting and gas expansion has a large volume, and the blank must be cut and processed before the final product is formed to reach the required appearance size. In order to save raw materials, the waste materials cut by the gas filling block can be recycled. The waste materials cut by the autoclaved aerated block cutting section in the prior art are generally directly conveyed back to a raw material workshop for re-batching in a manual mode for use. The operation mode has high labor intensity and low efficiency, the on-site environmental sanitation of the cutting section is poor, and the aerated block waste cannot be continuously and quantitatively added into the crusher, so that the waste utilization is realized in a manual mode, and the requirement of modern assembly line operation cannot be met. The prior art also has an invention patent of an authorization publication No. CN104138790B for conveying waste materials by a belt conveyor, which utilizes a conveyor belt to collect the cutting waste materials of a transportation aerated block, and can save labor force, but the transportation equipment has high installation investment cost, high equipment operation power consumption, high use cost, high equipment maintenance cost, larger equipment occupation area, unfavorable production cost saving and reduction of the economic benefit of enterprises. Therefore, the autoclaved aerated block cutting waste recovery system which occupies a small area, has small investment on waste collection and conveying equipment, low operation cost, low equipment maintenance cost and is beneficial to improving the economic benefit of enterprises needs to be developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an it is little to take up an area of, and garbage collection conveying equipment invests for a short time, and the running cost is low, and the maintenance cost of equipment maintenance is low, is favorable to improving enterprise economic benefits's evaporate and press piece cutting waste recovery system that adds gas.

In order to achieve the above object, the utility model provides a following technical scheme: a recovery system for cutting waste materials by an autoclaved aerated block comprises a waste material receiving trench, a waste material receiving device, a material blank turnover mechanism, a cutting station, a transverse cutting mechanism and a longitudinal cutting mechanism, wherein the waste material receiving trench, the waste material receiving device, the material blank turnover mechanism, the cutting station, the transverse cutting mechanism and the longitudinal cutting mechanism are arranged in a work site; the waste receiving trench is arranged at the periphery of the waste receiving device and the blank overturning mechanism and used for collecting leftover materials cut by the air-adding block blank, the terminal of the waste receiving trench is connected with a waste slurry pool of the batching ball-milling workshop, the waste slurry pool of the waste receiving trench from the cutting workshop to the batching ball-milling workshop is provided with a downward slope of 5-10%, and the upstream of the waste receiving trench is provided with a flushing device; the cutting station is arranged between the transverse cutting mechanism and the longitudinal cutting mechanism, a waste receiving groove is arranged below the cutting station, and the waste receiving trench is in conduction connection with the waste receiving groove; connect the waste material device including connecing material swash plate and supporting seat, connect the material swash plate to pass through the inboard that the supporting seat slope set up at connecing the waste material trench, connect the low side of material swash plate and connect the overlap joint of waste material trench, material blank tilting mechanism corresponds the setting with the cutting station, when material blank tilting mechanism does not overturn, material blank tilting mechanism is located the top of connecing the material swash plate high-end, after material blank tilting mechanism overturns, material blank tilting mechanism is located the cutting station below and connects on the dirty tank.

Further, the blank turnover mechanism comprises an oil cylinder, a support pier, a blank placing first platform and a guide rail, wherein the support pier is fixedly arranged on the working field, the blank placing first platform is vertically and fixedly connected with the guide rail, the bottom of the blank placing first platform is connected with the working end of the oil cylinder, the cylinder body of the oil cylinder is arranged on the working field through an oil cylinder support, and the blank placing first platform and the guide rail are rotatably installed with the support pier through a bearing; the upper part of the guide rail is movably provided with a walking trolley, the upper part of the walking trolley is provided with a material blank placing second platform, and the upper plane of the material blank placing second platform is vertical to the upper plane of the material blank placing first platform.

Furthermore, the cutting station comprises a plurality of supporting ground beams which are arranged above the waste receiving groove in a crossing mode at equal intervals, the supporting ground beams are used for supporting a guide rail of the material blank overturning mechanism, two parallel rails are arranged above the cutting station, and the rails are used as supports for conversion and cutting operation of the transverse cutting mechanism and the longitudinal cutting mechanism.

Further, the transverse cutting mechanism comprises a second supporting column, a rail is arranged above the second supporting column, a second tensioning device is arranged on the rail, and a second steel wire rope is arranged between the second tensioning devices.

Further, the longitudinal cutting mechanism comprises a first supporting column, a track is arranged above the first supporting column, a first tensioning device is arranged on the track, and a first steel wire rope is arranged between the first tensioning devices.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a set up the oblique waste material device that connects below the material base tilting mechanism, set up and connect the waste material trench in the periphery of waste material device and material base tilting mechanism, make the low side overlap joint that connects the waste material device on connecting the waste material trench, when the material base after the rest cultivation is placed on the first platform and is demolishd the template on the material base, the waste material that falls down slips into and connects the waste material trench through the oblique material-receiving swash plate that connects; meanwhile, the utility model is provided with a waste material receiving groove below the cutting station, which can receive leftover materials when the material blank is cut on the cutting station; furthermore the utility model discloses will connect the waste tank and connect waste trench turn-on connection to the messenger connects the waste trench from the cutting workshop to batching ball-milling workshop waste slurry pond and sets up the decurrent slope of slope, when opening bath device in the upper reaches that connects the waste trench, and the waste material that falls into in connecing the waste trench just can flow into the waste slurry pond in batching ball-milling workshop along with the impulsive force of water and the slope that connects the waste trench. The utility model discloses a setting connects the waste material trench and adopts rivers to dash the waste material to batching ball-milling workshop, has alleviateed the intensity of labour of artificial clearance waste material, has improved the health in work place, has also reduced the input cost, the operation and the maintenance cost that adopt equipment such as conveyer to carry the waste material, has improved the economic benefits of enterprise.

Drawings

FIG. 1 is a schematic plan view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic structural view of the material blank turning mechanism when not turned;

fig. 4 is a schematic view of the connection structure of the longitudinal cutting mechanism, the transverse cutting mechanism and the cutting station.

In the figure: 1-a working site, 11-a waste receiving trench, 2-a waste receiving device, 21-a material receiving inclined plate, 22-a supporting seat, 3-a blank overturning mechanism, 31-an oil cylinder support, 32-an oil cylinder, 33-a blank placing first platform, 34-a blank placing second platform, 35-a walking trolley, 36-a guide rail, 37-a buttress, 38-a bearing, 4-a longitudinal cutting mechanism, 41-a first supporting column, 42-a first steel wire rope, 43-a first tensioning device, 5-a transverse cutting mechanism, 51-a second supporting column, 52-a second steel wire rope, 53-a second tensioning device, 6-a track, 7-a cutting station, 71-a supporting ground beam, 72-a waste receiving groove and 8-a flushing device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a recovery system for cutting waste materials by an autoclaved aerated block comprises a waste material receiving trench 11, a waste material receiving device 2, a material blank turnover mechanism 3, a cutting station 7, a transverse cutting mechanism 5 and a longitudinal cutting mechanism 4 which are arranged on a work site 1; the waste receiving trench 11 is arranged at the periphery of the waste receiving device 2 and the blank overturning mechanism 3 and is used for collecting and conveying leftover materials cut by the air-entraining block blank, the terminal of the waste receiving trench is connected with a waste slurry pool of the batching and ball-milling workshop, the waste slurry pool of the waste receiving trench 11 from the cutting workshop to the batching and ball-milling workshop is provided with a downward slope of 5-10%, and the upstream of the waste receiving trench 11 is provided with a flushing device 8; the cutting station 7 is arranged between the transverse cutting mechanism 5 and the longitudinal cutting mechanism 4, a waste receiving trough 72 is arranged below the cutting station 7, and the waste receiving trench 11 is in conduction connection with the waste receiving trough 72; connect waste device 2 including connecing material swash plate 21 and supporting seat 22, connect material swash plate 21 to pass through the inboard that supporting seat 22 slope set up in connecing waste material trench 11, connect the low side of material swash plate 21 and connect waste material trench 11 overlap joint, material blank tilting mechanism 3 corresponds the setting with cutting station 7, when material blank tilting mechanism 3 does not overturn, material blank tilting mechanism 3 is located the top of connecing material swash plate 21 high-end, material blank tilting mechanism 3 overturns the back, material blank tilting mechanism 3 is located the cutting station 7 below and connects on the waste material groove 72. The utility model discloses bath device 8's water derives from the circulating water after the waste water that each workshop section of workshop was collected deposits, can not waste the water resource.

The blank turnover mechanism 3 comprises an oil cylinder 32, a buttress 37, a blank placing first platform 33 and a guide rail 36, wherein the buttress 37 is fixedly arranged on the working site 1, the blank placing first platform 33 is vertically and fixedly connected with the guide rail 36, the bottom of the blank placing first platform 33 is connected with the working end of the oil cylinder 32, the cylinder body of the oil cylinder 32 is arranged on the working site 1 through an oil cylinder support 31, and the blank placing first platform 33 and the guide rail 36 are rotatably arranged with the buttress 37 through a bearing 38; the upper part of the guide rail 36 is movably provided with a walking trolley 35, the upper part of the walking trolley 35 is provided with a blank placing second platform 34, and the upper plane of the blank placing second platform 34 is vertical to the upper plane of the blank placing first platform 33.

The cutting station 7 comprises a plurality of supporting ground beams 71 which are arranged above the waste receiving trough 72 in a crossing mode at equal intervals, the supporting ground beams 71 are used for supporting the guide rails 36 of the material blank overturning mechanism 3, two parallel rails 6 are arranged above the cutting station 7, and the rails 6 are used as supports for carrying out conversion and cutting operation by the transverse cutting mechanism 5 and the longitudinal cutting mechanism 4.

The transverse cutting mechanism 5 comprises second supporting columns 51, a track 6 is arranged above the second supporting columns 51, second tensioning devices 53 are arranged on the track 6, and second steel wire ropes 52 are arranged between the second tensioning devices 53.

The longitudinal cutting mechanism 4 comprises a first supporting column 41, a rail 6 is arranged above the first supporting column 41, a first tensioning device 43 is arranged on the rail 6, and a first steel wire rope 42 is arranged between the first tensioning devices 43.

The working principle is as follows: the utility model discloses a set up the oblique waste material device 2 that connects below the material base tilting mechanism 3, set up and connect the waste material trench 11 in the periphery that connects waste material device 2 and material base tilting mechanism 3, make the low side overlap joint that connects the waste material device 2 connect on the waste material trench 11, when the blank after the rest culture is placed the first platform 33 on the blank and is demolishd the template, the waste material that falls down passes through the oblique material receiving swash plate 21 landing of slope and connects the waste material trench 11; meanwhile, the waste material receiving groove 72 is arranged below the cutting station 7, so that leftover materials generated when the material blank is cut on the cutting station 7 can be collected; in addition, the utility model discloses will connect waste chute 72 and connect waste trench 11 switch-on connection, and make and connect waste trench 11 to set up the downward slope of slope from the cutting workshop to batching ball-milling workshop waste slurry pool, when opening bath device 8 in the upper reaches of connecing waste trench 11, the waste material that falls into in connecing waste trench 11 and connecing waste chute 72 just can flow into the waste slurry pool in batching ball-milling workshop along with the impulsive force of water and the slope of connecing waste trench 11, need not artifical or mechanical equipment to carry the waste material; the labor intensity of manual waste cleaning is reduced, the sanitation of the working site 1 is improved, the investment cost and the operation and maintenance cost of conveying the waste by adopting equipment such as a conveyor are reduced, and the economic benefit of enterprises is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an evaporate and press cutting waste recovery system of air entrainment piece which characterized in that: comprises a waste collecting trench (11), a waste collecting device (2), a material blank turnover mechanism (3), a cutting station (7), a transverse cutting mechanism (5) and a longitudinal cutting mechanism (4) which are arranged on a working site (1); the waste receiving trench (11) is arranged at the periphery of the waste receiving device (2) and the blank turnover mechanism (3) and is used for collecting and conveying leftover materials cut from the air-entraining block blank, the terminal of the waste receiving trench is connected with a waste slurry pool of a batching ball-milling workshop, the waste slurry pool of the waste receiving trench (11) from the cutting workshop to the batching ball-milling workshop is provided with a downward slope of 5-10%, and the upstream of the waste receiving trench (11) is provided with a flushing device (8); the cutting station (7) is arranged between the transverse cutting mechanism (5) and the longitudinal cutting mechanism (4), a waste receiving trough (72) is arranged below the cutting station (7), and the waste receiving trench (11) is in conduction connection with the waste receiving trough (72); connect waste device (2) including connecing material swash plate (21) and supporting seat (22), connect material swash plate (21) to set up the inboard that connects waste drain (11) through supporting seat (22) slope, connect the low side of material swash plate (21) and connect waste drain (11) overlap joint, material blank tilting mechanism (3) correspond the setting with cutting station (7), when material blank tilting mechanism (3) do not overturn, material blank tilting mechanism (3) are located the top of connecing material swash plate (21) high-end, material blank tilting mechanism (3) upset back, material blank tilting mechanism (3) are located cutting station (7) below and connect on waste chute (72).

2. The autoclaved aerated block cutting waste recovery system according to claim 1, wherein: the blank turnover mechanism (3) comprises an oil cylinder (32), a buttress (37), a first platform (33) and a guide rail (36) are placed on a blank, the buttress (37) is fixedly arranged on the work site (1), the first platform (33) and the guide rail (36) are vertically and fixedly connected on the blank, the bottom of the first platform (33) is placed on the blank and is connected with the work end of the oil cylinder (32), the cylinder body of the oil cylinder (32) is arranged on the work site (1) through an oil cylinder support (31), and the first platform (33) and the guide rail (36) are placed on the blank and are rotatably installed with the buttress (37) through a bearing (38); the upper part of the guide rail (36) is movably provided with a traveling trolley (35), the upper part of the traveling trolley (35) is provided with a second platform (34) for placing blanks, and the upper plane of the second platform (34) for placing blanks is vertical to the upper plane of the first platform (33) for placing blanks.

3. The autoclaved aerated block cutting waste recovery system according to claim 1, wherein: the cutting station (7) comprises a plurality of supporting ground beams (71) which are arranged above the waste receiving groove (72) in a crossing mode at equal intervals, the supporting ground beams (71) are used for supporting guide rails (36) of the material blank overturning mechanism (3), two parallel rails (6) are arranged above the cutting station (7), and the rails (6) are used as supports for conversion and cutting operation of the transverse cutting mechanism (5) and the longitudinal cutting mechanism (4).

4. The autoclaved aerated block cutting waste recovery system according to claim 1, wherein: the transverse cutting mechanism (5) comprises second supporting columns (51), a track (6) is arranged above the second supporting columns (51), second tensioning devices (53) are arranged on the track (6), and second steel wire ropes (52) are arranged between the second tensioning devices (53).

5. The autoclaved aerated block cutting waste recovery system according to claim 1, wherein: the longitudinal cutting mechanism (4) comprises first supporting columns (41), a track (6) is arranged above the first supporting columns (41), first tensioning devices (43) are arranged on the track (6), and first steel wire ropes (42) are arranged between the first tensioning devices (43).

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