CN212491927U - Spiral slag lifting machine trapping box device - Google Patents

Abstract

The utility model discloses a spiral slag lifting machine entrapment case device, including connecing the material cell body, connect the material cell body to be the taper cell body, connect to be provided with the overflow mouth on the material cell body, connect to lie in the fixed lime mud that is arranged in the lime emulsion to overflow mouth output of overflow mouth department on the material cell body and carry out the seizure interception subassembly of interception, the utility model discloses a can filter the lime emulsion of the internal output of butt joint silo, can intercept the lime mud in the lime emulsion, reduce the emission of lime mud granule in the lime emulsion to the lime mud of interception can flow back once more to connect the silo internal, improve lime mud quality, its overall structure is simple, and it is convenient to make to overhaul and maintain, and this interception process need not workman's operation, convenient to use.

Description

Spiral slag lifting machine trapping box device

Technical Field

The utility model belongs to the technical field of lime emulsion production facility, specific design a sediment machine entrapment case device is carried to spiral that says so.

Background

In the existing lime milk industrial production, a slaker prepares lime blocks into lime milk, then the lime milk overflows from a screen of the slaker and enters a material receiving tank of a spiral slag lifting machine to be precipitated, so that part of fine particulate matters with large specific gravity in the lime milk can be settled and then are accumulated at the bottom of the material receiving tank, then a slag lifting spiral shaft of the spiral slag lifting machine drives spiral blades to rotate so as to continuously lift the settled particulate matters upwards and leave a liquid level to realize the separation of the lime slag and the lime milk, secondary extraction is realized, the quality of the lime milk is improved, the use requirement of a lower-section process is met, and then the lime milk is output through a discharge port on the material receiving tank and enters a next process.

However, in the slag extracting screw shaft of the spiral slag extractor in the prior art, the blades directly lift the lime slag from the receiving tank body, so that the slag extracting effect of the slag extracting screw shaft is not ideal, and the lime slag which is not extracted is left in the receiving tank body, thereby affecting the quality of the lime milk.

In view of the above, it is necessary to design a collection box to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved main technical problem of the utility model is to carry the defect that the sediment effect is poor in order to overcome the spiral and carry the sediment machine, provide one kind and can intercept the lime sediment in the lime emulsion of output, improve the spiral of lime emulsion quality and carry sediment machine entrapment case device.

In order to solve the technical problem, the utility model provides a following technical scheme:

the collecting box device of the spiral slag lifting machine comprises a material receiving groove body, wherein the material receiving groove body is a conical groove body, an overflow port is formed in the material receiving groove body, and a catching and intercepting component for intercepting lime slag in lime emulsion output by the overflow port is fixedly arranged at the position, located at the overflow port, of the material receiving groove body.

The following is the utility model discloses to above-mentioned technical scheme's further optimization:

the catching and intercepting component comprises a catching box which is fixedly arranged on the material receiving groove body and is close to the position of the overflow port, a filter cavity is arranged inside the catching box, and the filter cavity is communicated with the overflow port.

Further optimization: a discharge port is arranged on the position of the catching box far away from the overflow port and is communicated with the filter cavity in the catching box.

Further optimization: a first baffle and a second baffle are arranged in a filter cavity of the catching box, and the first baffle and the second baffle are respectively arranged at intervals in a staggered mode.

Further optimization: the first baffle is fixedly connected with the inner wall of the collecting box, and the lower end of the first baffle and the bottom of the collecting box are arranged at a certain distance.

Further optimization: the second baffle is fixedly connected with the inner wall of the catching box, and the upper end of the second baffle and the upper end surface of the inner wall of the catching box are arranged at a certain distance.

Further optimization: the first baffle and the second baffle are used for separating the filter cavity of the catching box into three cavities which are communicated in sequence.

Further optimization: a slag guide plate for enabling petrochemical slag intercepted in the catching box to flow back to the inside of the material receiving groove is arranged below the catching box.

Further optimization: the slag guide plate is obliquely arranged, one side of the slag guide plate, which is close to the material receiving groove body, is fixedly connected with the material receiving groove body, and one side of the slag guide plate, which is far away from the material receiving groove body, is fixedly connected with the joint of the second baffle and the catching box.

Further optimization: one end of the discharge port, which is far away from the catching box, is integrally connected with a connecting flange.

The above technical scheme is adopted in the utility model, when using, it is internal that the slaking machine prepares the lime emulsion row of accomplishing to go into and connect the silo, connects the lime mud granule in the lime emulsion that the silo was internal to hold to deposit in the bottom that connects the material cell body because of gravity.

At the moment, the driving motor outputs power to drive the slag lifting spiral shaft to rotate and drive the spiral blade to rotate, the spiral blade is used for lifting the lime slag at the bottom of the material receiving tank away from the liquid level through the matching of the slag lifting shell to realize the separation of the lime slag and the lime milk, so that the secondary extraction is realized, and the quality of the lime milk is improved.

When the liquid level of the lime emulsion that holds in connecing the silo body is higher than the overflow mouth, when the lime emulsion can get into the filter chamber of catching the case through the overflow mouth, the lime emulsion of filter chamber circulates along filtering channel, makes the lime emulsion form the baffling, and then can be arranged in intercepting the lime granule in the lime emulsion through first baffle and second baffle, guarantees the quality of lime emulsion, and then the lime emulsion passes through the discharge gate output, gets into next process.

The above technical scheme is adopted in the utility model, think about ingenious, rational in infrastructure, can filter the lime emulsion that the internal output of butt joint silo, can intercept the lime sediment in the lime emulsion, reduced the emission of lime sediment granule in the lime emulsion to the lime sediment of interception can flow back once more to connect the silo internal, improves lime emulsion quality, and its overall structure is simple, makes conveniently, and overhauls and maintains conveniently, and this interception process need not workman's operation, convenient to use.

And the lime slag precipitated in the material receiving tank body is extracted to the outside of the material receiving tank body through the lifting device, so that the extraction of the lime slag in the lime emulsion is realized, and the quality of the lime emulsion is improved.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

fig. 2 is a side view of the overall structure of an embodiment of the present invention;

fig. 3 is a top view of the overall structure of an embodiment of the present invention;

fig. 4 is a cross-sectional view of a lifting device in an embodiment of the present invention.

In the figure: 1-a catch tank; 2-a material receiving groove body; 3-a first baffle; 4-a second baffle; 5-a slag extracting spiral shaft and 6-an overflow port; 7-discharging port; 8-a connecting flange; 8-extracting a slag shell; 9-helical blades; 10-a drive motor; 11-a leak port; 12-slag guide plate.

Detailed Description

In an embodiment, referring to fig. 1 to 3, a collecting box device of a spiral slag extractor includes a material receiving tank body 2, the material receiving tank body 2 is a tapered tank body, an overflow port 6 is provided on the material receiving tank body 2, and a catching and intercepting component for intercepting lime slag in lime emulsion output from the overflow port 6 is fixedly provided on the material receiving tank body 2 at the overflow port 6.

The overflow port 6 is arranged on the material receiving groove body 2 and is close to the upper end of the material receiving groove body 2.

By the design, the lime emulsion in the material receiving groove body 2 can be output through the overflow port 6, so that the lime emulsion enters the next working procedure, and the catching and intercepting component can be used for catching and catching lime slag in the lime emulsion output by the overflow port 6, so that the quality of the output lime emulsion is improved.

And the overflow port 6 is arranged on the material receiving groove body 2 and is close to the upper end position of the material receiving groove body 2, so that the overflow port 6 is over against the upper-layer lime emulsion in the material receiving groove body 2, lime slag particles in the upper-layer lime emulsion are few, and then the lime particles caught and intercepted by the catching and intercepting component are few, and the quality of the output lime emulsion can be better ensured.

The catching and intercepting component comprises a catching box 1 which is fixedly arranged on the material receiving groove body 2 and is close to the position of the overflow port 6, a filter cavity is arranged inside the catching box 1, and the filter cavity is communicated with the overflow port 6.

A discharge port 7 is arranged at a position, far away from the overflow port 6, on the catching box 1, and the discharge port 7 is communicated with a filter cavity in the catching box 1.

A first baffle 3 and a second baffle 4 are arranged in a filter cavity of the catching box 1, and the first baffle 3 and the second baffle 4 are respectively arranged at intervals in a staggered mode.

The first baffle 3 is fixedly connected with the inner wall of the collecting box 1, and a certain distance is arranged between the lower end of the first baffle 3 and the bottom of the collecting box 1.

The second baffle 4 is fixedly connected with the inner wall of the collecting box 1, and a certain distance is reserved between the upper end of the second baffle 4 and the upper end face of the inner wall of the collecting box 1.

The first baffle 3 and the second baffle 4 are used for separating the filter cavity of the catching box 1 into three cavities which are communicated in sequence.

The cavities at the two sides of the first baffle plate 3 are communicated with the bottom of the collecting box 1 through a gap between the lower end of the first baffle plate 3.

And cavities at two sides of the second baffle 4 are communicated with the upper end surface of the inner wall of the collecting box 1 through a gap between the upper end of the second baffle 4 and the upper end surface of the inner wall.

And then the first baffle 3 and the second baffle 4 are used for separating the filter chamber of the catching box 1 into W-shaped filter channels, and the function of intercepting lime particles is achieved.

Design like this, when the lime emulsion in the material receiving tank body 2 passes through overflow mouth 6 and gets into the filter chamber of catching case 1, the lime emulsion in the filter chamber circulates along filtering channel, makes the lime emulsion form the baffling, and then can be used for intercepting the lime sediment granule in the lime emulsion through first baffle 3 and second baffle 4, makes qualified lime milk pass through discharge gate 7 output, gets into next process.

And one end of the discharge port 7, which is far away from the catching box 1, is integrally connected with a connecting flange 4.

The connecting flange 4 can be used for connecting a feed inlet of the next process with a discharge outlet 7 of the material receiving groove body 2 through a flange.

And a slag guide plate 12 for enabling petrochemical slag intercepted in the catching box 1 to flow back to the material receiving groove body 2 is arranged below the catching box 1.

The slag guide plate 12 is obliquely arranged, one side of the slag guide plate 12 close to the material receiving groove body 2 is fixedly connected with the material receiving groove body 2, and one side of the slag guide plate 12 far away from the material receiving groove body 2 is fixedly connected with the joint of the second baffle 4 and the collecting box 1.

By the design, lime mud particles in the lime emulsion intercepted by the first baffle 3 and the second baffle 4 can fall on the slag guide plate 12, and at the moment, the lime mud particles can be guided into the material receiving tank body 2 through the guide of the slag guide plate 12, so that the lime mud particles are precipitated again.

And a lifting device for extracting the lime mud in the material receiving groove body 2 is arranged in the material receiving groove body 2.

The lifting device comprises a slag lifting shell 8, the whole cross section of the slag lifting shell 8 is in a U shape, the lower end of the slag lifting shell 8 extends to the lowest position of the material receiving groove body 2, and the upper end of the slag lifting shell 8 inclines upwards to extend to the outside of the slag lifting shell 8.

The slag extracting shell 8 is obliquely arranged with the ground, and the inclination angle is 26 degrees.

The slag extracting screw shaft 5 is rotatably arranged in the slag extracting shell 8, and the outer surface of the slag extracting screw shaft 5 is spirally provided with helical blades 9.

By the design, the material receiving groove body 2 is used for containing lime emulsion flowing out of the slaker, and lime slag particles in the lime emulsion can be precipitated at the bottom of the material receiving groove body 2 due to gravity;

at the moment, the slag extracting spiral shaft 5 rotates to drive the spiral blade 9 to rotate, the spiral blade 9 is used for lifting the lime slag at the bottom of the material receiving tank body 2 away from the liquid level through the matching of the slag extracting shell 8, so that the separation of the lime slag and the lime milk is realized, the secondary extraction is realized, and the quality of the lime milk is improved.

The slag lifting screw shaft 5 is driven to rotate by a driving device, the driving device comprises a driving motor 10 fixedly installed at one end, far away from the material receiving tank body 2, of the slag lifting shell 8, and the power output end of the driving motor 10 is in transmission connection with the slag lifting screw shaft 5.

The driving motor 10 outputs power to drive the slag extracting spiral shaft 5 to rotate, and further, the spiral blade 9 is driven to rotate.

A plurality of leakage holes 11 are formed in the positions, close to the slag lifting spiral shaft 5, of the spiral blades 9, and the leakage holes 11 are arranged at intervals in an annular mode along the axis of the spiral blades 9.

The slag extraction screw shaft 5 drives the screw blade 9 to rotate and is used for stirring lime emulsion in the material receiving groove body 2, lime slag particles precipitated at the bottom of the material receiving groove body 2 are lifted in a rotating mode, the lime emulsion entering the slag extraction shell 8 can be discharged into the material receiving groove body 2 through the leakage port 11, separation of the lime slag in the lime emulsion is achieved, the lime slag is continuously lifted until being separated through rotation of the screw blade 9, and then the content of the lime particles in the lime emulsion is reduced.

A slag scrap discharge port is formed below one end, far away from the material receiving groove body 2, of the slag extracting shell 8.

Slag scraps in the material receiving tank body 2, which are driven by the slag-extracting spiral shaft 5 to rotate and be lifted out by the spiral blade 9, are discharged out of the slag-extracting shell 8 through the slag scrap discharge port.

When the lime receiving tank is used, the lime emulsion prepared by the slaking machine is discharged into the material receiving tank body 2, and lime slag particles in the lime emulsion contained in the material receiving tank body 2 can be precipitated at the bottom of the material receiving tank body 2 due to gravity.

At the moment, the driving motor 10 outputs working power to drive the slag extracting spiral shaft 5 to rotate and drive the spiral blade 9 to rotate, the spiral blade 9 is used for lifting the lime slag at the bottom of the material receiving tank body 2 away from the liquid level through the matching of the slag extracting shell 8 to realize the separation of the lime slag and the lime milk, so that the secondary extraction is realized, and the quality of the lime milk is improved.

When the liquid level of the lime emulsion contained in the material receiving tank body 2 is higher than the overflow port 6, the lime emulsion can enter the filtering cavity of the catching tank 1 through the overflow port 6, the lime emulsion in the filtering cavity circulates along the filtering channel, the lime emulsion forms a baffling effect, lime particles in the lime emulsion can be intercepted through the first baffle 3 and the second baffle 4, the quality of the lime emulsion is guaranteed, and then the lime emulsion is output through the discharge port 7 to enter the next process.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and variations can be made to the embodiments without departing from the principles and spirit of the invention.

Claims (10)

1. The utility model provides a spiral carries sediment machine catch box device, includes material receiving groove body (2), material receiving groove body (2) are taper cell body, its characterized in that: an overflow port (6) is arranged on the material receiving groove body (2), and a catching and intercepting component for intercepting lime slag in lime emulsion output by the overflow port (6) is fixedly arranged on the material receiving groove body (2) and positioned at the overflow port (6).

2. The spiral slag extractor collection box device of claim 1, wherein: the catching and intercepting component comprises a catching box (1) which is fixedly arranged on the material receiving groove body (2) and is close to the position of the overflow port (6), a filter cavity is arranged inside the catching box (1), and the filter cavity is communicated with the overflow port (6).

3. The spiral slag extractor collection box device of claim 2, wherein: a discharge hole (7) is arranged on the position of the catching box (1) far away from the overflow port (6), and the discharge hole (7) is communicated with the filter cavity in the catching box (1).

4. The spiral slag extractor collection box device of claim 3, wherein: a first baffle (3) and a second baffle (4) are arranged in a filter cavity of the catching box (1), and the first baffle (3) and the second baffle (4) are respectively arranged at intervals in a staggered mode.

5. The spiral slag extractor collection box device of claim 4, wherein: the first baffle (3) is fixedly connected with the inner wall of the catching box (1), and a certain distance is arranged between the lower end of the first baffle (3) and the bottom of the catching box (1).

6. The spiral slag extractor collection box device of claim 5, wherein: the second baffle (4) is fixedly connected with the inner wall of the catching box (1), and a certain distance is arranged between the upper end of the second baffle (4) and the upper end surface of the inner wall of the catching box (1).

7. The spiral slag extractor collection box device of claim 6, wherein: the first baffle (3) and the second baffle (4) are used for separating the filtering cavity of the catching box (1) into three cavities which are communicated in sequence.

8. The spiral slag extractor collection box device of claim 7, wherein: a slag guide plate (12) used for enabling petrochemical slag intercepted in the catching box (1) to flow back into the material receiving groove body (2) is arranged below the catching box (1).

9. The spiral slag extractor collection box device of claim 8, wherein: the slag guide plate (12) is obliquely arranged, one side of the slag guide plate (12) close to the material receiving groove body (2) is fixedly connected with the material receiving groove body (2), and one side of the slag guide plate (12) far away from the material receiving groove body (2) is fixedly connected with the joint of the second baffle (4) and the catching box (1).

10. The spiral slag extractor collection box device of claim 9, wherein: one end of the discharge port (7) far away from the catching box (1) is integrally connected with a connecting flange (4).

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