CN216068801U

CN216068801U - Soaking mechanism and soil processing equipment based on same

Info

Publication number: CN216068801U
Application number: CN202121271455.9U
Authority: CN
Inventors: 杨涛
Original assignee: Anhui Chaodong Mining High Tech Materials Co ltd
Current assignee: Anhui Chaodong Mining High Tech Materials Co ltd
Priority date: 2021-06-08
Filing date: 2021-06-08
Publication date: 2022-03-18
Anticipated expiration: 2031-06-08

Abstract

The utility model discloses a soaking mechanism and soil processing equipment based on the mechanism, in order to solve the problem that soil is soaked in liquid and gathered together and can not be soaked fully, a storage cavity for storing soil is arranged, during operation, liquid enters the interior of a hollow pipe through a circulating pipeline, enters and exits the storage cavity through scouring holes distributed on the hollow pipe in a circular track and is carried out of the soil in the storage cavity in a controlled amount, so that the soil and the liquid are fully mixed, a fully mixed soil-liquid mixture enters a soaking cavity in a processing box for soaking again, the soaked soil is extruded into a collecting cavity through a filter plate with holes at the bottom of a fine cavity, the soil can be fully crushed during extrusion, the mixing degree of the soil and the liquid is increased, the soil-liquid mixture collected in the collecting cavity can collide with a first movable plate to rotate by taking a rotating shaft as an axis, at the moment, the soil liquid mixture enters a dewatering cavity for dewatering.

Description

Soaking mechanism and soil processing equipment based on same

Technical Field

The utility model relates to the technical field of soil processing equipment, in particular to a soaking mechanism and soil processing equipment based on the same.

Background

When the soil needs to be activated or the soil is loaded with nano iron and the like, the soil needs to be ground and crushed firstly, and then the soil and deionized water are mixed and stirred and then subjected to subsequent processing, so that the soil is fully activated or loaded with nano iron and the like.

In the prior art, when soil is soaked in deionized water for mixing, the soil cannot be fully soaked due to mutual gathering of the soil during soaking, and a conventional stirring device is used for mixing to a certain degree, so that the deionized water cannot fully enter each soil particle; therefore, the soaking mechanism and the soil processing equipment based on the mechanism are provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a soaking mechanism and soil processing equipment based on the soaking mechanism.

In order to achieve the above object, the present invention provides an infusion mechanism, comprising:

the device comprises a processing box, wherein a feeding hopper is fixedly arranged above the processing box, a hopper partition block is arranged in the middle of the feeding hopper, a blanking hole is formed in the bottom of the hopper partition block, the feeding hopper is divided into a feeding cavity, a storage cavity and a blanking hole which are distributed up and down by the blanking hole, the feeding cavity, the storage cavity and the blanking hole are communicated between the feeding cavity and the storage cavity, a hollow pipe is integrally arranged at the bottom of the hopper partition block, the bottom of the hollow pipe is fixed on the upper surface of the processing box, a plurality of groups of scouring holes are formed in the outer ring of the hollow pipe, the scouring holes are distributed in a circular track and are communicated between the storage cavity and the interior of the hollow pipe, and the bottom of the hollow pipe is communicated with the interior of the processing box;

the inside from the top down of processing case has set gradually the soakage chamber, has collected the chamber, has removed the water chamber, has discharged the chamber, has circulated the chamber, and bottom one side of soakage chamber is provided with the subdivision chamber, the position that the chamber was collected in subdivision chamber lower extreme intercommunication is provided with foraminiferous filter plate, it is provided with the promotion unit to remove one side that the water chamber is close to the subdivision chamber, the tip of promotion unit is provided with the stripper plate that slides and set up in removing the water intracavity portion, the upper end in circulation chamber is provided with the circulation channel with department water chamber one side intercommunication, and the lateral surface of processing case is provided with the circulation unit that communicates the circulation intracavity portion, the upper end intercommunication of circulation unit has the circulation pipeline that stretches into the hollow tube upper end, and when the circulation unit was with the water of collecting in the circulation chamber through the circulation pipeline when inhaling the hollow tube, water in the hollow tube was through scouring the soil that the hole was saved in with the storage chamber and is erodeed in the soakage chamber.

As a further optimization of the scheme, the hopper partition block is of a conical structure, and the whole hopper is of a funnel-shaped structure.

In order to solve the problem that soil is soaked in liquid and gathered together with each other and can not be soaked fully, a storage cavity for storing soil is arranged, when the device works, the liquid enters the interior of a hollow pipe through a circulating pipeline, enters and exits the storage cavity through scouring holes distributed on the hollow pipe in a circular track manner and carries out quantity-controlled soil in the storage cavity, so that the soil and the liquid are fully mixed, the fully mixed soil-liquid mixture enters a soaking cavity in a processing box for soaking again, the soaked soil enters a filter plate with holes at the bottom of a fine cavity and is extruded into a collecting cavity, the soil can be broken fully during extrusion, so that the mixing degree of the soil and the liquid is increased, the soil-liquid mixture collected in the collecting cavity can collide with a first movable plate to rotate by taking a rotating shaft as an axis, at the moment, the soil-liquid mixture enters a dewatering cavity for dewatering, and a squeezing plate is pushed by a pushing unit during dewatering, make the stripper plate extrude soil liquid mixture toward dewatering chamber one side to supply circulation unit circulation to use in making the liquid in the soil get into the circulation chamber of inflow in the circulation passageway, and start the transmission unit and drive the second fly leaf and rotate downwards, can make the soil that contains the liquid content less get into and discharge in the chamber and discharge.

This device set soak, the hierarchical soaking of soil, dewatering, cyclic utilization liquid, arrange material in an organic whole, it is efficient to soak soil.

As a further optimization of the above scheme, a first partition plate, a second partition plate, a third partition plate and a fourth partition plate are sequentially and fixedly arranged in the processing box from top to bottom, the first partition plate, the second partition plate and the third partition plate are arranged in parallel, a soaking cavity is formed between the first partition plate and the inner wall above the processing box, a collecting cavity is formed between the first partition plate and the second partition plate, a water outlet cavity is formed between the second partition plate and the third partition plate, a discharge cavity is formed between the third partition plate and the fourth partition plate, a circulation cavity is formed between the fourth partition plate and the bottom of the processing box, and the fourth partition plate is arranged in an inclined manner.

In this embodiment, be used for depositing soil raw materials in the reinforced chamber, soil raw materials can be followed the loading hopper and slowly get into the soil in the storage chamber through the feed opening and supply to the soil in the storage chamber, when circulating line inputs liquid in to the hollow tube, liquid is constantly with soil ration erode to the hollow tube in and the soakage chamber of putting into, can be abundant mixed liquid and soil, the shape that erodees the hole sets up rationally, water in the hollow tube can form and erode the water course that the hole shape is unanimous when the import of scouring hole upper portion enters, can get into hollow tube lower part export when the soil in the storage chamber is gone out to the water in the water course and get into again in the hollow tube.

As the further optimization of above-mentioned scheme, one side that the subdivision chamber was kept away from to the second baffle is provided with first notch, the activity is provided with first fly leaf in the first notch, the one end that processing incasement wall was kept away from to first fly leaf is passed through the axis of rotation and is rotated and connect in first notch, the last fixed surface of second baffle is provided with the activity laminating and is in first fly leaf top and stop first fly leaf pivoted limiting plate that makes progress, be provided with the torsional spring between axis of rotation and the first fly leaf.

Further, when the liquid soil mixture contradicts first fly leaf upper portion, press to move first fly leaf and use the axis of rotation to rotate as the axle and open for the liquid soil mixture can one-wayly get into except that in the water cavity, and the limiting plate blocks that first fly leaf upwards rotates and avoids the liquid soil mixture backward flow in the water cavity, and the first fly leaf of torsional spring control resets and gets into first notch, when the extrusion removes the liquid soil mixture in the water cavity, also can promote first fly leaf by extruded liquid soil mixture and reset, avoids the liquid soil mixture backward flow to get into and collects in the chamber.

As a further optimization of the above scheme, one end of the third partition plate, which is far away from the subdivision cavity, is provided with a second notch, a second movable plate is movably arranged inside the second notch, a rubber ring sealed between the second movable plate and the inner wall of the second notch is fixedly arranged at the outer ring of the second movable plate, one end of the second movable plate, which is far away from the inner wall of the processing box, is fixedly arranged on the driving shaft, and a transmission unit for driving the driving shaft to rotate is fixedly arranged outside the rear side of the processing box.

It should be noted that, after the liquid soil mixture in the dewatering cavity is extruded, the second movable plate can be driven by the transmission unit to rotate upwards, and the extruded soil is discharged into the discharge cavity to be collected.

As the further optimization of above-mentioned scheme, circulation channel sets up in the inner layer structure of processing case, and circulation channel's one end communicates in the top in circulation chamber, and the other end communicates in one side in the chamber that dewaters, and one side in circulation channel intercommunication chamber that dewaters is provided with the multiunit inlet opening, and the opening part of inlet opening is fixed to be provided with and to filter cotton piece.

Specifically, when removing the liquid soil mixture in the water cavity and being extruded, liquid can supply the circulation unit to circulate and use in the bottom entering circulation chamber of rethread circulation channel through the inlet opening during getting into circulation channel, and filter cotton piece and avoided impurity such as soil to get into circulation channel, and second fly leaf outer lane seals through the rubber circle, and liquid can not get into the discharge chamber when conveniently removing the extrusion of liquid soil mixture in the water cavity.

As a further optimization of the scheme, a door body is arranged on one side of the discharge cavity and arranged on the processing box.

Wherein, the soil in the chamber is conveniently discharged when the door body is opened.

The utility model also discloses soil processing equipment which comprises the soaking mechanism.

In this embodiment, soil processing equipment can be used to the soaking processing of attapulgite.

The soaking mechanism and the soil processing equipment based on the same have the following beneficial effects:

the utility model relates to a soaking mechanism and soil processing equipment based on the mechanism, which aims to solve the problem that soil is soaked in liquid and gathered together and can not be soaked fully, a storage cavity for storing soil is arranged, when in work, the liquid enters the interior of a hollow pipe through a circulating pipeline, enters and exits the storage cavity through scouring holes distributed on the hollow pipe in a circular track and is carried out of the soil in the storage cavity in a controlled amount, so that the soil and the liquid are fully mixed, a fully mixed soil-liquid mixture enters a soaking cavity in a processing box for soaking again, the soaked soil is extruded into a collecting cavity through a filter plate with holes at the bottom of a fine cavity, the soil can be fully crushed in the extruding process, the mixing degree of the soil and the liquid is increased, the soil-liquid mixture collected in the collecting cavity can collide against a first movable plate to rotate by taking a rotating shaft as an axis, at the moment, the soil-liquid mixture enters a dewatering cavity for dewatering, during dewatering, the extrusion plate is pushed by the pushing unit, so that the soil liquid mixture is extruded towards one side of the dewatering cavity by the extrusion plate, liquid in the soil enters the circulating cavity flowing into the circulating channel to be recycled by the circulating unit, the transmission unit is started to drive the second movable plate to rotate downwards, and the soil with lower liquid content can enter the discharging cavity to be discharged.

There have been disclosed in detail certain embodiments of the utility model with reference to the following description and drawings, and it is to be understood that the embodiments of the utility model are not limited thereby, but are intended to cover within the spirit and scope of the appended claims, many changes, modifications, and equivalents.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the internal structure of the processing box of the present invention;

fig. 4 is an enlarged view of the structure at B in fig. 1 according to the present invention.

In the figure: the device comprises a processing box 1, a first partition plate 2, a circulating pipeline 3, a feeding hopper 4, a feeding cavity 5, a storage cavity 6, a hollow pipe 7, a fine division cavity 8, a perforated filter plate 9, a pushing unit 10, an extrusion plate 11, a door body 12, a fourth partition plate 13, a second partition plate 14, a third partition plate 15, a first movable plate 16, a second movable plate 17, a circulating channel 18, a circulating cavity 19, a circulating unit 20, a hopper partition block 21, a discharging hole 22, a scouring hole 23, a water inlet hole 24, a filter cotton block 25, a rubber ring 26, a driving shaft 27, a second notch 28, a transmission unit 29, a rotating shaft 30, a first notch 31 and a limiting plate 32.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the utility model and not to limit the scope of the utility model.

It should be noted that when an element is referred to as being "disposed on," or provided with "another element, it can be directly on the other element or intervening elements may also be present, when an element is referred to as being" connected, "or coupled to another element, it can be directly on the other element or intervening elements may be present, and" fixedly coupled "means that the element is fixedly coupled in many ways, which are not intended to be within the scope of the present disclosure, the terms" vertical, "" horizontal, "" left, "" right, "and the like are used herein for illustrative purposes only and are not intended to be a single embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items;

referring to the attached drawings 1-4 of the specification, the utility model provides a technical scheme: an infusion mechanism comprising:

the processing box comprises a processing box 1, wherein a feeding hopper 4 is fixedly arranged above the processing box 1, a hopper spacer block 21 is arranged in the middle of the feeding hopper 4, a blanking hole 22 is formed in the bottom of the hopper spacer block 21, the feeding hopper 4 is divided into a feeding cavity 5, a storage cavity 6 and a blanking hole 22 which are distributed vertically by the blanking hole 22, the feeding cavity 5 and the storage cavity 6 are communicated between the feeding cavity 5 and the storage cavity 6, a hollow pipe 7 with the bottom fixed on the upper surface of the processing box 1 is integrally arranged at the bottom of the hopper spacer block 21, a plurality of groups of scouring holes 23 are formed in the outer ring of the hollow pipe 7, the scouring holes 23 are distributed in a circular track and are communicated between the storage cavity 6 and the interior of the hollow pipe 7, and the bottom of the hollow pipe 7 is communicated with the interior of the processing box 1;

the processing box 1 is internally provided with a soaking cavity, a collecting cavity, a dewatering cavity, a discharging cavity and a circulating cavity 19 from top to bottom in sequence, one side of the bottom of the soaking cavity is provided with a subdivision cavity 8, the lower end of the subdivision cavity 8 is communicated with the collecting cavity and is provided with a perforated filter plate 9, one side of the dewatering cavity close to the subdivision cavity 8 is provided with a pushing unit 10, the end part of the pushing unit 10 is provided with a squeezing plate 11 which is arranged in the dewatering cavity in a sliding way, the upper end of the circulating cavity 19 is provided with a circulating channel 18 communicated with one side of the dewatering cavity, the outer side surface of the processing box 1 is provided with a circulating unit 20 communicated with the inside of the circulating cavity 19, the upper end of the circulating unit 20 is communicated with a circulating pipeline 3 extending into the upper end of the hollow pipe 7, when the circulation unit 20 sucks the water collected in the circulation chamber 19 into the hollow tube 7 through the circulation pipe 3, the water in the hollow pipe 7 flushes the soil stored in the material storage cavity 6 in the soaking cavity through the flushing hole 23.

The hopper spacing block 21 is in a conical structure, and the whole hopper 4 is in a funnel-shaped structure.

In order to solve the problem that soil is soaked in liquid and gathered together with each other and can not be soaked fully, a storage cavity 6 for storing soil is arranged, when the device works, the liquid enters the hollow pipe 7 through a circulating pipeline 3, enters and exits the storage cavity 6 through scouring holes 23 distributed on the hollow pipe 7 in a circular track and is taken out of the soil in the storage cavity 6 in a controlled amount, so that the soil and the liquid are fully mixed, the fully mixed soil-liquid mixture enters the soaking cavity in the processing box 1 to be soaked again, the soaked soil enters the filter plate 9 with holes at the bottom of the fine cavity 8 to be extruded into the collecting cavity, the soil can be broken fully in the extruding process, the mixing degree of the soil and the liquid is increased, the soil-liquid mixture collected in the collecting cavity can abut against the first movable plate 16 to rotate by taking the rotating shaft 30 as a shaft, at the moment, the soil-liquid mixture enters the dewatering cavity to be dewatered, when in dewatering, the pushing unit 10 pushes the squeezing plate 11, so that the squeezing plate 11 squeezes the soil liquid mixture to one side of the dewatering cavity, so that the liquid in the soil enters the circulating cavity 19 flowing into the circulating channel 18 for the circulating unit 20 to use circularly, and the transmission unit 29 is started to drive the second movable plate 17 to rotate downwards, so that the soil with low liquid content enters the discharging cavity to be discharged.

The inside of processing case 1 is fixed with first baffle 2 from top to bottom in proper order, second baffle 14, third baffle 15, fourth baffle 13, first baffle 2, second baffle 14, third baffle 15 parallel arrangement, constitute between first baffle 2 and the 1 top inner wall of processing case and soak the chamber, constitute between first baffle 2 and the second baffle 14 and collect the chamber, constitute between second baffle 14 and the third baffle 15 and go out the water chamber, constitute between third baffle 15 and the fourth baffle 13 and discharge the chamber, form circulation chamber 19 between fourth baffle 13 and the 1 bottom of processing case, fourth baffle 13 slope sets up.

In this embodiment, be used for depositing soil raw materials in the reinforced chamber 5, soil raw materials can be followed loading hopper 4 and slowly get into in the storage chamber 6 through unloading hole 22 and supply the soil in the storage chamber 6, when circulating line 3 imports liquid to hollow tube 7, liquid is constantly with quantitative washing away of soil to the hollow tube 7 in and the infiltration chamber of putting into, can fully mixed liquid and soil, the shape of washing away hole 23 sets up rationally, water in the hollow tube 7 can form and wash away the water course that hole 23 shape is unanimous when going into along washing away the import of hole 23 upper portion, can get into hollow tube 7 lower part export reentrant hollow tube 7 when the soil in the storage chamber 6 is gone out to the water in the water course.

One side of the second partition plate 14, which is far away from the subdivision cavity 8, is provided with a first notch 31, a first movable plate 16 is movably arranged in the first notch 31, one end of the first movable plate 16, which is far away from the inner wall of the processing box 1, is rotatably connected in the first notch 31 through a rotating shaft 30, a limiting plate 32, which is movably attached above the first movable plate 16 and blocks the first movable plate 16 from rotating upwards, is fixedly arranged on the upper surface of the second partition plate 14, and a torsion spring is arranged between the rotating shaft 30 and the first movable plate 16.

Further, when the liquid soil mixture collides against the upper portion of the first movable plate 16, the first movable plate 16 is pressed to rotate and open around the rotating shaft 30, so that the liquid soil mixture can enter the dewatering cavity in a single direction, the limiting plate 32 blocks the first movable plate 16 from rotating upwards to avoid backflow of the liquid soil mixture in the dewatering cavity, the torsion spring controls the first movable plate 16 to reset into the first notch 31, and when the liquid soil mixture in the dewatering cavity is squeezed, the squeezed liquid soil mixture can also push the first movable plate 16 to reset, so that backflow of the liquid soil mixture into the collecting cavity is avoided.

A second notch 28 is formed in one end of the third partition 15 away from the subdivision chamber 8, a second movable plate 17 is movably arranged inside the second notch 28, a rubber ring 26 sealed between the second movable plate 17 and the inner wall of the second notch 28 is fixedly arranged at the outer ring of the second movable plate 17, one end of the second movable plate 17 away from the inner wall of the processing box 1 is fixedly arranged on a driving shaft 27, and a transmission unit 29 for driving the driving shaft 27 to rotate is fixedly arranged outside the rear side of the processing box 1.

It should be noted that, after the liquid soil mixture in the dewatering cavity is squeezed, the second movable plate 17 can be driven by the transmission unit 29 to rotate upwards, and the squeezed soil is discharged to the discharge cavity for collection, in the device, the transmission unit 29 can use a motor or the like, the pushing unit 10 can use a waterproof electric push rod or the like, and the circulating unit 20 can use a suction pump or the like.

Circulation channel 18 sets up in the interior layer structure of processing case 1, and circulation channel 18's one end communicates in the top in circulation chamber 19, and the other end communicates in one side of dewatering chamber, and one side that circulation channel 18 communicates dewatering chamber is provided with multiunit inlet opening 24, and the opening part of inlet opening 24 is fixed to be provided with and filters cotton piece 25.

Specifically, when the liquid soil mixture in the dewatering chamber is extruded, liquid can get into circulation channel 18 through inlet opening 24 in, supply circulation unit 20 circulation use in the bottom entering circulation chamber 19 of rethread circulation channel 18, and filter cotton piece 25 has avoided impurity such as soil to get into circulation channel 18, and second fly leaf 17 outer lane seals through rubber circle 26, and liquid can not get into the chamber of discharging when the liquid soil mixture extrudees in the dewatering chamber conveniently.

One side of the discharge cavity is provided with a door body 12, and the door body 12 is arranged on the processing box 1.

Wherein, when the door body 12 is opened, soil in the discharge cavity is convenient to discharge.

The utility model also discloses soil processing equipment which comprises any one of the soaking mechanisms.

The embodiment provides a soak mechanism and soil processing equipment based on this mechanism, the working process as follows:

It should be understood that the present invention is not limited to the particular embodiments described herein, but is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the appended claims.

Claims

1. An infusion mechanism, comprising:

2. The steeping mechanism of claim 1 wherein: the funnel spacer block is conical structure, the whole hopper that is of leaks hopper-shaped structure.

3. The steeping mechanism of claim 1 wherein: the inside of processing case is fixed from top to bottom in proper order and is provided with first baffle, second baffle, third baffle, fourth baffle, first baffle, second baffle, third baffle parallel arrangement constitute the soaking chamber between first baffle and the processing incasement top inner wall, constitute between first baffle and the second baffle and collect the chamber, constitute out the water cavity between second baffle and the third baffle, constitute the discharge chamber between third baffle and the fourth baffle, form the circulation chamber between fourth baffle and the processing bottom of the case portion, fourth baffle slope sets up.

4. The steeping mechanism of claim 3 wherein: one side that the subdivision chamber was kept away from to the second baffle is provided with first notch, the activity is provided with first fly leaf in the first notch, the one end that processing incasement wall was kept away from to first fly leaf is passed through the axis of rotation and is rotated and connect in first notch, the last fixed surface of second baffle is provided with the activity laminating and is in first fly leaf top and block the first fly leaf limiting plate that makes progress the pivoted, be provided with the torsional spring between axis of rotation and the first fly leaf.

5. The steeping mechanism of claim 3 wherein: the one end that the subdivision chamber was kept away from to the third baffle is provided with the second notch, the inside activity of second notch is provided with the second fly leaf, the fixed rubber circle that is provided with between second fly leaf and second notch inner wall in outer lane department of second fly leaf, the one end that processing incasement wall was kept away from to the second fly leaf is fixed to be set up in the drive shaft, the outside fixed drive shaft pivoted transmission unit that is provided with of rear side of processing case.

6. The steeping mechanism of claim 1 wherein: circulation channel sets up in the interior layer structure of processing case, and circulation channel's one end communicates in the top in circulation chamber, and the other end communicates in one side in the dewatering chamber, and one side in circulation channel intercommunication dewatering chamber is provided with the multiunit inlet opening, and the opening part of inlet opening is fixed to be provided with and filters cotton piece.

7. The steeping mechanism of claim 3 wherein: and a door body is arranged on one side of the discharge cavity and arranged on the processing box.

8. A soil processing equipment which characterized in that: comprising the steeping mechanism as claimed in any of the claims 1 to 7.