CN105480636A - Automatic mortar raw material processing equipment - Google Patents

Abstract

The invention discloses automatic mortar raw material processing equipment which comprises a raw material conveying device and a vibrating screen device, wherein the raw material conveying device comprises a rack and a conveyor belt; a gas cushion cabin is further arranged on the rack; a cushion plate is arranged on the top of the gas cushion cabin; the conveyor belt is supported on the cushion plate for being conveyed; the cushion plate, in a conveying direction of the conveyor belt, is distributed with a plurality of gas vent holes; an upper sealing cover covers above the conveyor belt; the conveyor belt, the gas cushion cabin and the upper sealing cover are positioned in a dustproof housing; the vibrating screen device is provided with two layers of thick and thin screens; the thick screens are arranged below the conveying tail end of the conveyor belt; and the thin screens are arranged below the thick screens. According to the automatic mortar raw material processing equipment, the conveying process is sealed throughout the process, and dust pollution can be effectively prevented in the conveying process; and meanwhile, mortar raw materials are directly conveyed to the vibrating screen device through the conveyor belt for being screened, and are finally directly conveyed to a material barrel for being stored, so that the mortar production efficiency is improved.

Description

A kind of mortar raw material automated processing equipment

Technical field

The present invention relates to mortar raw material automated processing equipment.

Background technology

Existing dry powder and mortar adopts the mode of belt conveying to carry to vibration screen device substantially, sieve, but problems of the prior art are, when dry powder and mortar is placed on load-transfer device, friction force between load-transfer device and transmission platform is very large, so traditional type of transmission power consumption is very large, transmission efficiency is low, very easily produce the phenomenon that dust disorderly flies in addition during dry powder and mortar conveying, environmental pollution is also very large.

Summary of the invention

Technical matters to be solved by this invention is just to provide a kind of mortar raw material automated processing equipment, enhances productivity, avoids dust pollution.

For solving the problems of the technologies described above, the present invention adopts following technical scheme: a kind of mortar raw material automated processing equipment, comprise raw material conveying device and vibration screen device, described raw material conveying device comprises frame, load-transfer device, described frame is provided with the actuating device driving load-transfer device transmission, described frame is also provided with air cushion cabin, the top in described air cushion cabin is provided with backing plate, described load-transfer device support is carried on backing plate, described backing plate has multiple deflation hole along tape transport directional spreding, described air cushion cabin is connected with the gas feeder to air cushion cabin air feed, seal closure is covered with above described load-transfer device, described load-transfer device, air cushion cabin, upper seal closure is all positioned at dust-proof housing, described vibration screen device is provided with the two-layer screen cloth of thickness, wide-meshed screen is located at below the conveying end of load-transfer device, fine screen mesh is located at below wide-meshed screen, barrel is provided with below the feed opening of wide-meshed screen, the feed opening of fine screen mesh connects intermediate blanking bucket, material-falling hopper is provided with below fine screen mesh, intermediate blanking bucket and material-falling hopper connect the first feedway and the second feedway respectively, also barrel is provided with below the conveying end of described first feedway and the second feedway.

Preferably, the arc of described backing plate to be cross-sectional plane be arc, described arc is concave configuration.

Preferably, described upper seal closure shape of cross section is inverted U structure.

Preferably, the bottom of described dust-proof housing is infundibulate, bottom bell-shaped, be provided with dust removal port.

Preferably, described wide-meshed screen mesh diameter is 1.5 ~ 2 times of fine screen mesh mesh diameter.

Preferably, described barrel comprises barrel body, the top of barrel body is provided with pulley bracket, pulley bracket is provided with two pulleys, a pulley is positioned at inside barrel body, it is peripheral that another pulley is positioned at barrel body, two pulleys are installed with steel cable rope, steel cable rope end, inner side is hung with measurement iron block, and steel cable rope end, outside connects one and shakes the hand, and shakes the hand and is positioned at barrel body bottom portion, the center of shaking the hand is provided with miniature gears, miniature gears engages a big gear wheel, and described big gear wheel center is provided with pointer, and pointer is to having calibrated disc.

The present invention is carried by air cushion cabin bearing conveying belt, substantially reduces the running resistance of load-transfer device, drastically reduce the area conveying energy consumption, improve transport efficiency.In addition, the present invention is also provided with seal closure above load-transfer device, load-transfer device, air cushion cabin, upper seal closure are all positioned at dust-proof housing simultaneously, such course of conveying is all closed completely, can effectively prevent course of conveying from producing dust pollution, meanwhile, mortar raw material is delivered directly on vibration screen device through load-transfer device and sieves, the last barrel that is directly delivered to again stores, and improves mortar production efficiency.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the invention will be further described:

Fig. 1 is the structural representation of raw material conveying device;

Fig. 2 is the structural representation of barrel;

Fig. 3 is barrel local structure schematic diagrams;

Fig. 4 is the structural representation of vibration screen device.

Detailed description of the invention

As shown in Figures 1 to 4, a kind of mortar raw material automated processing equipment, comprise raw material conveying device and vibration screen device 3, raw material conveying device comprises frame, load-transfer device 1, described frame is provided with the actuating device driving load-transfer device transmission, described frame is also provided with air cushion cabin 11, the top in described air cushion cabin is provided with backing plate, described load-transfer device support is carried on backing plate, described backing plate is distributed with multiple deflation hole 111 along throughput direction, described air cushion cabin is connected with the gas feeder toward air cushion cabin air feed, seal closure 12 is covered with above described load-transfer device, described load-transfer device 1, air cushion cabin 11, upper seal closure 12 is all positioned at dust-proof housing 13, the top of described dust-proof housing is connected with powder dust adsorbing device, described powder dust adsorbing device comprises blower fan, described blower fan produces suction and the dust in dust-proof housing is transported to spraying box by sweep-up pipe, spray assemblies is provided with above described spraying box, pond is connected with below described spraying box.

Further, the arc of described backing plate to be cross-sectional plane be arc, described arc is concave configuration.Described upper seal closure shape of cross section is inverted U structure.The bottom of described dust-proof housing is infundibulate, is provided with dust removal port 14 bottom bell-shaped, and the dust gathered by dust-proof housing bottom by dust removal port is removed.

Actuating device comprises the active roll being located at frame tail end and the driven running roller being located at frame head end, load-transfer device is around between active roll and driven running roller, active roll is driven by motor, and driven by motor active roll rotates, driving conveying belt transmission when active roll rotates.Gas feeder comprises blower fan, blower fan is toward air cushion cabin air feed, air cushion cabin internal gas pressure increases, gas is discharged through deflation hole subsequently, form very thin air film between the load-transfer device of gas on upper strata of discharging and the roof in air cushion cabin, this air film, by the load-transfer device jack-up on upper strata, makes the friction between the roof in the load-transfer device on upper strata and air cushion cabin convert flow friction to, relative to the mode of traditional carrying roller rolling transmission used for conveyer belt, friction force reduces greatly.

The dust that upper seal closure 12 can effectively prevent dry powder and mortar from kicking up in course of conveying disorderly flies, and material completely is all limited in seal closure, avoids dust environment generation dust pollution to external world.Because load-transfer device 1, load-transfer device 1, air cushion cabin 11, active roll, driven running roller and portion chassis are all positioned at dust-proof housing 13, make to leak the material of running out from upper seal closure 12 and can not spread in external environment.

As shown in Figure 4, vibration screen device 3 is located on support, described vibration screen device is provided with the two-layer screen cloth of thickness, wherein fine screen mesh 32 is located at below wide-meshed screen 31, a barrel 33 is provided with below the feed opening 311 of wide-meshed screen, the feed opening of fine screen mesh connects intermediate blanking bucket 321, and be provided with material-falling hopper 322 below fine screen mesh, intermediate blanking bucket and material-falling hopper connect the first feedway 34 and the second feedway 35 respectively.Described wide-meshed screen mesh diameter is 1.5 ~ 2 times of fine screen mesh mesh diameter.First feedway and the second feedway are band conveyor, are also provided with barrel below the conveying end of the first feedway and the second feedway

The mortar stayed on wide-meshed screen falls into barrel from wide-meshed screen feed opening, stay the mortar on fine screen mesh fall intermediate blanking bucket from the feed opening of fine screen mesh and be delivered to barrel by feedway, and fall into material-falling hopper from the mortar that fine screen mesh mesh falls and be delivered to barrel through feedway, such mortar is divided into three grades through sieving machine and stores stand-by, structure is simple, and screening efficiency is high.

As shown in Figures 2 and 3, the dry powder and mortar that barrel 2 is come for Storing and conveying, barrel 2 comprises barrel body, barrel body is tapered, the advantage of taper is that bottom can store material more, upper end bore is less, in unit height, material changes greatly, facilitate measurement like this, the top of its barrel body is provided with pulley bracket 21, pulley bracket is provided with two pulleys 22, as two pulleys in figure on the same line, it is the fulcrum of pulley bracket in the middle of two pulleys, preferably, pulley bracket is articulated with barrel body top by this fulcrum, hinged advantage is that pulley bracket can rotate, by the time toward in barrel body during blowing, pulley bracket can rotate and hold up, do not affect blowing, in two pulleys, a pulley is positioned at inside barrel body, directly over opening, steel cable rope end, inner side is hung with measurement iron block, be convenient for measuring iron block decline and enter into barrel body interior, it is peripheral that another pulley is positioned at barrel body, two pulleys are installed with steel cable rope 24, steel cable rope end, outside connects one and shakes the hand 25, shake the hand and 25 be positioned at barrel body bottom portion, be located at bottom conveniently survey crew operation, 25 centers of shaking the hand are provided with miniature gears 202, miniature gears engages a big gear wheel 201, described big gear wheel center is provided with pointer 26, pointer is to having calibrated disc, pinion rotation one ringlet, big gear wheel then rotates little lattice, described miniature gears center is provided with rolling wheel 28, described steel cable rope 24 is fixed on rolling wheel 28, described miniature gears and big gear wheel outside are provided with oval case 27, described calibrated disc is provided with on oval case, oval case can be large, miniature gears provides a protective effect, because large, usually coating butter is wanted to be lubricated between miniature gears, if often expose oil in atmosphere easily deterioration failure occurs, and assorted dirt is more in building enterprise, if small particle enters between cog, then the consequences such as latch can be caused, and had oval case, calibrated disc can be put on oval case, attractive in appearance practical again.

During use, survey crew only need shake shaking the hand bottom barrel, need not run down, rotation is shaken the hand, to shake the hand driven gear, also drive rolling wheel simultaneously, be positioned at steel cable rope inside barrel and can drop in storehouse down because be hung with measurement iron block, when touching the bed of material, stop shake, now by good for big gear wheel needle dial record, record rear beginning back to shake, often shake a circle, pointer is driven to pass by lattice, pulley bracket is provided with limiting stopper 23, return shake limiting stopper 23 after shake the hand can not continue shake, now record the lattice number of pointer instruction, calculate according to the gear ratio of large miniature gears and rolling wheel diameter again, just the vacant height dimension of material in storehouse is obtained, material capacity in convenient calculating outbound, alleviate the working strength of survey crew, decrease work risk, accelerate measuring speed, ensure that measurement accuracy.

Claims (6)

1. a mortar raw material automated processing equipment, comprise raw material conveying device and vibration screen device, it is characterized in that: described raw material conveying device comprises frame, load-transfer device, described frame is provided with the actuating device driving load-transfer device transmission, described frame is also provided with air cushion cabin, the top in described air cushion cabin is provided with backing plate, described load-transfer device support is carried on backing plate, described backing plate has multiple deflation hole along tape transport directional spreding, described air cushion cabin is connected with the gas feeder to air cushion cabin air feed, seal closure is covered with above described load-transfer device, described load-transfer device, air cushion cabin, upper seal closure is all positioned at dust-proof housing, described vibration screen device is provided with the two-layer screen cloth of thickness, wide-meshed screen is located at below the conveying end of load-transfer device, fine screen mesh is located at below wide-meshed screen, barrel is provided with below the feed opening of wide-meshed screen, the feed opening of fine screen mesh connects intermediate blanking bucket, material-falling hopper is provided with below fine screen mesh, intermediate blanking bucket and material-falling hopper connect the first feedway and the second feedway respectively, also barrel is provided with below the conveying end of described first feedway and the second feedway.

2. a kind of mortar raw material automated processing equipment according to claim 1, is characterized in that: the arc of described backing plate to be cross-sectional plane be arc, described arc is concave configuration.

3. a kind of mortar raw material automated processing equipment according to claim 2, is characterized in that: described upper seal closure shape of cross section is inverted U structure.

4. a kind of mortar raw material automated processing equipment according to claim 1, is characterized in that: the bottom of described dust-proof housing is infundibulate, bottom bell-shaped, be provided with dust removal port.

5. a kind of mortar raw material automated processing equipment according to claim 1, is characterized in that: described wide-meshed screen mesh diameter is 1.5 ~ 2 times of fine screen mesh mesh diameter.

6. a kind of mortar raw material automated processing equipment according to claim 1, it is characterized in that: described barrel comprises barrel body, the top of barrel body is provided with pulley bracket, pulley bracket is provided with two pulleys, a pulley is positioned at inside barrel body, it is peripheral that another pulley is positioned at barrel body, two pulleys are installed with steel cable rope, steel cable rope end, inner side is hung with measurement iron block, steel cable rope end, outside connects one and shakes the hand, shake the hand and be positioned at barrel body bottom portion, the center of shaking the hand is provided with miniature gears, miniature gears engages a big gear wheel, described big gear wheel center is provided with pointer, pointer is to having calibrated disc.