CN212215738U - Erythromycin fungus dreg crushing device integrating shearing, conveying and screening - Google Patents

Abstract

A erythromycin mushroom residue crushing device integrating shearing, conveying and screening comprises a crusher, and the device comprises a rack, wherein a cylinder is arranged on the rack, a spiral shearing conveying shaft is arranged in the cylinder, and the spiral shearing conveying shaft is driven by a first motor; the opening on one side of the barrel is just opposite to the winch protective cover, a winch is installed in the winch protective cover, and the winch extends out of the winch protective cover and then is connected with the second motor. The utility model provides a pair of collect and cut, carry, screen erythromycin fungus sediment breaker as an organic whole, can guarantee that the fungus sediment is the tiny particle and passes through, avoid blockking up boiler furnace hood.

Description

Erythromycin fungus dreg crushing device integrating shearing, conveying and screening

Technical Field

The utility model relates to a breaker, especially a erythromycin fungus sediment breaker that collects shearing, transport, screening as an organic whole.

Background

The solid waste generated in the erythromycin production process is erythromycin mushroom dregs, and the main components of the mushroom dregs are mycelium, unused culture medium, metabolite generated in the fermentation process, degradation products of the culture medium, flocculating agent, acidifying agent, filter aid, residual organic solvent, residual antibiotic, metabolic intermediate and the like added in the extraction process. According to investigation, the amount of the erythromycin bacterial dregs generated by each pharmaceutical enterprise producing erythromycin drugs is between tens of thousands of tons and hundreds of thousands of tons every year, and the large amount causes great difficulty in the treatment of the erythromycin bacterial dregs. The national records of dangerous waste revised after 2008 locates the dangerous waste and requires incineration disposal. In the process of disposing the erythrocin bacterial slag by adopting an incineration technology, the blocky volume of the bacterial slag pretreated by the plate-and-frame filter is too large (the length and the width are 1m and 1.5 m), on one hand, the bacterial slag cannot be fully combusted in an incineration hearth, and the energy consumption is increased; on the other hand, the blast cap is easily blocked by the material with the granularity larger than 20 mm.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a erythromycin fungus sediment breaker that collects shearing, transport, screening as an organic whole is provided, can guarantee that the fungus sediment is the tiny particle and passes through, avoids blockking up boiler furnace hood.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

a erythromycin mushroom residue crushing device integrating shearing, conveying and screening comprises a rack, wherein a barrel is arranged on the rack, a spiral shearing conveying shaft is arranged in the barrel, and the spiral shearing conveying shaft is driven by a first motor; the opening on one side of the barrel is just opposite to the winch protective cover, a winch is installed in the winch protective cover, and the winch extends out of the winch protective cover and then is connected with the second motor.

The first motor drives the spiral shearing conveying shaft to rotate right, the second motor drives the winch to rotate left, and the spiral shearing conveying shaft and the winch run in a differential mode.

The spiral shearing conveying shaft comprises a rotating shaft, shearing blades are arranged on the rotating shaft at intervals along the spiral direction, and the left and right sides of the shearing blades are divided into two groups.

The winch comprises a plate frame, a plurality of toothed plates are installed in the plate frame, the toothed plates and the plate frame form a spider-web type structure, and a tooth part faces one side of the spiral shearing conveying shaft.

The utility model relates to a collect shearing, transport, screening erythromycin fungus sediment breaker as an organic whole has following technological effect:

1) the primary shearing of the shearing blades distributed spirally, the secondary shearing of the winch and the screening can ensure that the mushroom dregs are small particles (the diameter is less than 20 mm) to pass through, so that the blockage of a blast cap of a boiler furnace is avoided.

2) The spiral piece of the spiral shearing conveying shaft is designed in a breaking mode, so that fungus residues are prevented from being adhered and extruded into clusters, and normal operation of equipment is guaranteed; the spiral piece through carrying the axle with the spiral shearing adopts the design of shearing blade formula, can directly cut the breakage to the fungus sediment, avoids the extrusion and destroys the original moisture structure of fungus sediment, prevents to ooze sewage pollution surrounding environment.

3) The capstan winch of through adopting the spider-web type design has the pinion rack on the capstan winch, and the capstan winch setting utilizes the axis thrust that the screw shear carried the axle to produce to release the mixture at the tip of barrel, and ejection of compact direction is unanimous with thrust, guarantees that the ejection of compact is more thorough, avoids blockking up.

4) The turning of carrying the axle through turning to with the capstan winch and screw shear sets up opposite and differential design, and equipment ejection of compact tolerance rate is high, and is big according to material condition adjustment range, guarantees ejection of compact granularity, guarantees the ejection of compact simultaneously more thoroughly, avoids blockking up, makes things convenient for equipment regular maintenance to maintain convenient to detach, clearance.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a schematic structural view of the middle screw shearing conveying shaft of the present invention.

Fig. 4 is a front view of the middle screw shearing conveying shaft of the present invention.

Fig. 5 is a top view of the winch of the present invention.

Fig. 6 is a schematic structural diagram of the winch of the present invention.

In the figure: the device comprises a rack 1, a cylinder 2, a spiral shearing conveying shaft 3, a first motor 4, a winch shield 5, a winch 6, a second motor 7, a rotating shaft 3-1, a shearing blade 3-2, a disc frame 6-1 and a toothed plate 6-2.

Detailed Description

As shown in figures 1-6, the erythromycin mushroom dreg crushing device integrating shearing, conveying and screening comprises a rack 1, wherein a barrel body 2 is installed on the rack 1, a feeding hole is formed in the upper end of the barrel body 2, and a discharging hole is formed in one end of the barrel body 2 in an open mode. A spiral shearing conveying shaft 3 is arranged in the cylinder body 2, and the spiral shearing conveying shaft 3 is driven by a first motor 4; the opening of one side of the barrel 2 is just opposite to the winch shield 5, the winch 6 is installed in the winch shield 5, and the winch 6 extends out of the winch shield 5 and then is connected with the second motor 7.

Here, the first motor 4 and the second motor 7 are both variable frequency adjustable speed motors. The first motor 4 drives the spiral cutting conveying shaft 3 to rotate rightwards, the second motor 7 drives the winch 6 to rotate leftwards, the rotating speed is stepless adjustable, and the differential speed runs. The mushroom dreg material can be cut into small blocks when passing through the spiral cutting conveying shaft, then is slowly pushed to move forward by the inclined spiral blade, and repeats the process, and after reaching the granularity requirement, the mushroom dreg material is filtered and screened by the winch 6 and falls onto the belt conveyer with coal running below.

The first motor 4 drives the spiral shearing conveying shaft 3 to rotate rightwards, the second motor 7 drives the winch 6 to rotate leftwards, and the spiral shearing conveying shaft 3 and the winch 6 run at a different speed.

The spiral cutting conveying shaft 3 comprises a rotating shaft 3-1, cutting blades 3-2 are arranged on the rotating shaft 3-1 at intervals along the spiral direction, and the cutting blades 3-2 are divided into two groups on the left and right. The outer end of each cutting blade 3-2 is provided with a notch. The spiral blades are arranged in a disconnected mode, so that adhesion of the mushroom dregs can be prevented, the mushroom dregs can be extruded into a mass, normal operation of equipment is guaranteed, and the mushroom dregs can be slowly conveyed forwards; through setting up helical blade into the shearing blade formula, can be with the quick breakage of fungus sediment piece under the prerequisite of not destroying the original water-containing structure of fungus sediment, prevent to ooze sewage pollution surrounding environment.

The winch 6 comprises a disc frame 6-1 and a disc frame 6-1, a plurality of toothed plates 6-2 are mounted in the disc frame 6-1, the toothed plates 6-2 and the disc frame 6-1 form a spider-web structure, and tooth parts face one side of the spiral shearing conveying shaft 3. Through setting up the spider-web type capstan winch, and set up at 2 tip of barrel, can carry out the secondary screening like this and broken, supply the following material of 20mm normally evenly to pass through, prevent to block up boiler furnace hood.

The working principle and the process are as follows: one variable frequency speed regulating motor drives the spiral shearing conveying shaft to rotate rightwards, the other variable frequency speed regulating motor drives the winch to rotate leftwards, the rotating speed is stepless and adjustable, and the differential speed runs; after being sheared into small blocks by the spiral shearing conveying shaft, the bacteria slag materials are slowly pushed to move forwards by the inclined spiral blades, the processes are repeated, after the particle size requirement is met, the bacteria slag materials are filtered and screened by the winch and fall onto the belt conveyor running with coal below, after being conveyed by the plurality of belt conveyors in a relay mode, the bacteria slag materials are uniformly wrapped by coal powder and enter the incineration equipment of the boiler hearth to be sufficiently and uniformly combusted, and the harmless, reduction and recycling treatment of wastes is achieved.

Claims (4)

1. The utility model provides a collect shearing, transport, screening erythromycin fungus sediment breaker as an organic whole which characterized in that: the device comprises a rack (1), wherein a cylinder (2) is arranged on the rack (1), a spiral shearing conveying shaft (3) is arranged in the cylinder (2), and the spiral shearing conveying shaft (3) is driven by a first motor (4); barrel (2) one side opening is just to installing capstan winch guard shield (5), installs capstan winch (6) in capstan winch guard shield (5), and capstan winch (6) stretch out after capstan winch guard shield (5) and are connected with second motor (7).

2. The erythromycin mushroom dreg crushing device integrating shearing, conveying and screening as claimed in claim 1, wherein the crushing device comprises: the first motor (4) drives the spiral shearing conveying shaft (3) to rotate forwards, the second motor (7) drives the winch (6) to rotate backwards, and the spiral shearing conveying shaft (3) and the winch (6) run in a differential mode.

3. The erythromycin mushroom dreg crushing device integrating shearing, conveying and screening as claimed in claim 1, wherein the crushing device comprises: the spiral cutting conveying shaft (3) comprises a rotating shaft (3-1), cutting blades (3-2) are arranged on the rotating shaft (3-1) at intervals along the spiral direction, and the cutting blades (3-2) are divided into two groups on the left and the right.

4. The erythromycin mushroom dreg crushing device integrating shearing, conveying and screening as claimed in claim 1, wherein the crushing device comprises: the winch (6) comprises a plate rack (6-1), a plurality of toothed plates (6-2) are mounted in the plate rack (6-1), the toothed plates (6-2) and the plate rack (6-1) form a spider-web type structure, and tooth parts face one side of the spiral shearing conveying shaft (3).

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