CN211914964U - Be used for prosthetic horizontal processing apparatus of soil - Google Patents

Abstract

The utility model belongs to the technical field of the soil remediation technique and specifically relates to a horizontal processing apparatus for soil remediation. The utility model discloses a horizontal processing apparatus for soil remediation has the inside stand pipe of outside transmission cover at the horizontal fixed connection surface cover of horizontal processing incasement portion, be fixed with the rotatory overhead driving motor who is used for controlling outside transmission cover at horizontal processing roof portion, it is inside with lower drainage intracavity portion to put the inlet connecting pipe and put the feed liquor connecting pipe on a left side with the leading-in overhead respectively of gas liquid for processing through left side, then it exports the bar exhaust leakage fluid dram of gas liquid for processing from outside transmission cover lateral surface through overhead gas vent and bottom leakage fluid dram, carry the soil of coming in with the conveying pipeline at last and carry out the hybrid processing, and stir the processing through the side direction stirring vane on the outside transmission cover lateral wall to soil, promote the treatment effeciency, make the treatment of single equipment more diversified, the degree of integrating is low, the space occupies for a short time, the cost reduction.

Description

Be used for prosthetic horizontal processing apparatus of soil

Technical Field

The utility model belongs to the technical field of the soil remediation technique and specifically relates to a horizontal processing apparatus for soil remediation.

Background

Soil remediation is a technical measure to restore normal function to contaminated soil. In the soil remediation industry, the existing soil remediation technologies can be more than one hundred, the common technologies can be more than ten, and the existing soil remediation technologies can be roughly divided into three methods, namely physical methods, chemical methods and biological methods. Since the 80 s in the 20 th century, many countries in the world, especially developed countries, have established and developed contaminated soil remediation and remediation programs, thus forming an emerging soil remediation industry. Most simple structure of soil repair equipment on the market at present, inner structure is fixed, and is single to the repair mode of soil, leads to needing a plurality of equipment cooperations to use, and occupation space is big, and the cost is very high.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problem that exists among the above-mentioned background art, provide a horizontal processing apparatus that modified is used for soil remediation, solve the most simple structure of soil remediation equipment on the present market, inner structure is fixed, and is single to the repair mode of soil, leads to needing a plurality of equipment cooperations to use, and occupation space is big, problem that the cost is very high.

The utility model provides a technical scheme that its technical problem adopted is: a transverse processing device for soil remediation comprises a transverse processing box and an overhead driving motor fixed at the upper end of the transverse processing box, wherein an internal guide pipe is transversely and fixedly connected inside the transverse processing box, an internal separation baffle is transversely and fixedly connected inside the internal guide pipe, an upper air guide cavity and a lower liquid guide cavity are formed inside the internal guide pipe through the internal separation baffle, a left air inlet connecting pipe communicated with the interior of the upper air guide cavity and a left liquid inlet connecting pipe communicated with the interior of the lower liquid guide cavity are fixedly welded on the left side surface of the transverse processing box, an external transmission sleeve is sleeved on the outer side of the internal guide pipe, a plurality of lateral stirring blades distributed in an annular array are fixedly welded on the outer side surface of the external transmission sleeve, and strip-shaped exhaust and liquid discharge ports are formed on the outer side surface of the external transmission sleeve and positioned on two sides of the lateral stirring blades, the top end of the internal guide pipe is provided with an overhead exhaust port communicated with the interior of the overhead gas guide cavity, the bottom end of the internal guide pipe is provided with a bottom liquid discharge port communicated with the interior of the lower liquid guide cavity, and the outer side surface of the internal guide pipe is provided with an annular conical gear groove matched with the overhead driving motor.

Further, in order to match transmission, a rotating shaft at the lower end of the overhead driving motor is fixedly connected with an internal transmission shaft through a shaft coupler in the axial direction, a conical transmission gear matched with the annular conical gear groove is fixedly connected at the lower end of the internal transmission shaft in the axial direction, and the overhead driving motor is inserted into the annular conical gear groove through the conical transmission gear at the lower end of the internal transmission shaft and is in meshing transmission with the outer side face of the internal guide pipe.

Furthermore, in order to reduce the friction resistance, annular roller bearings are fixedly sleeved at two ends of the outer side surface of the internal guide pipe, and the external transmission sleeve is movably connected with the outer side of the internal guide pipe through the annular roller bearings.

Furthermore, in order to facilitate movable assembly, lateral movable supports are fixedly welded on the outer side surface of the external transmission sleeve and located on two sides of the strip-shaped exhaust liquid discharge port, the strip-shaped exhaust liquid discharge port is located on an arc-shaped sealing cover plate, and the arc-shaped sealing cover plate is inserted into the lateral movable supports through rotating shafts at two ends and is movably connected with the lateral movable supports.

Furthermore, in order to improve the transmission efficiency and the transmission stability, the inner side surface of the transverse processing box is provided with an arc-shaped lateral transmission groove matched with the internal transmission shaft, and the inner side surface of the transverse processing box is positioned on the outer side of the arc-shaped lateral transmission groove and is fixedly welded with a lateral limiting ring.

Furthermore, in order to facilitate material guiding and discharging, the upper end of the left side surface and the lower end of the right side surface of the transverse processing box are fixedly welded with material conveying pipelines with built-in spiral conveying rods.

The utility model has the advantages that the utility model discloses a horizontal processing device for soil remediation has the inside guide pipe of the external transmission sleeve on the horizontal fixed connection surface cover in the horizontal processing box, the top of the horizontal processing box is fixed with the top drive motor for controlling the rotation of the external transmission sleeve, the gas liquid for treatment is respectively guided into the upper and lower liquid guide cavities through the left air inlet connecting pipe and the left liquid inlet connecting pipe, then the gas liquid for treatment is guided out from the strip-shaped exhaust liquid outlet on the outer side surface of the external transmission sleeve through the top exhaust port and the bottom liquid outlet, finally the gas liquid for treatment is mixed with the soil conveyed in by the conveying pipeline, and the soil is stirred by the lateral stirring blades on the side wall of the external transmission sleeve, the processing efficiency is improved, the processing mode of single equipment is more diversified, the integration degree is low, the space occupation is small, the cost is reduced.

Drawings

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

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

FIG. 2 is a cross-sectional view of the interior of the horizontal treatment box of the present invention.

In the figure, 1, a transverse treatment box, 2, an overhead driving motor, 3, an internal guide pipe, 4, an internal separation clapboard, 5, an upper gas guide cavity, 6, a lower liquid guide cavity, 7, a left gas inlet connecting pipe, 8, a left liquid inlet connecting pipe, 9, an external transmission sleeve, 10, a lateral stirring blade, 11, a strip-shaped exhaust and discharge port, 12, an overhead exhaust port, 13, a bottom liquid discharge port, 14, an annular conical gear groove, 15, an internal transmission shaft, 16, a conical transmission gear, 17, an annular roller bearing, 18, a lateral movable support, 19, an arc-shaped sealing cover plate, 20, an arc-shaped lateral transmission groove, 21, a lateral limiting ring, 22, a spiral conveying rod and 23, a conveying pipeline are arranged.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The transverse processing device for soil remediation shown in figures 1 and 2 comprises a transverse processing box 1 and an overhead driving motor 2 fixed at the upper end of the transverse processing box 1, wherein the overhead driving motor 2 is powered and controlled by an external power supply to be opened and closed, an internal guide pipe 3 is transversely and fixedly connected inside the transverse processing box 1, an internal separation partition plate 4 is transversely and fixedly connected inside the internal guide pipe 3, an upper gas guide cavity 5 and a lower liquid guide cavity 6 are formed inside the internal guide pipe 3 through the internal separation partition plate 4, a left gas inlet connecting pipe 7 communicated with the inside of the upper gas guide cavity 5 and a left liquid inlet connecting pipe 8 communicated with the inside of the lower liquid guide cavity 6 are welded and fixed on the left side surface of the transverse processing box 1, an external transmission sleeve 9 is sleeved outside the internal guide pipe 3, and 2 lateral stirring blades 10 distributed in an annular array are welded and fixed on the outer side surface of the external transmission sleeve 9, the outer side surface of the external transmission sleeve 9 is positioned on two sides of the lateral stirring blade 10 and is provided with a strip-shaped exhaust liquid outlet 11, the top end of the internal guide pipe 3 is provided with an overhead exhaust port 12 communicated with the inside of the overhead gas guide cavity 5, the bottom end of the internal guide pipe 3 is provided with a bottom liquid outlet 13 communicated with the inside of the lower liquid guide cavity 6, and the outer side surface of the internal guide pipe 3 is provided with a ring-shaped conical gear groove 14 matched with the overhead driving motor 2.

Further, for the matching transmission, the lower end rotating shaft of the top drive motor 2 is axially and fixedly connected with an inner transmission shaft 15 through a coupling, the lower end of the inner transmission shaft 15 is axially and fixedly connected with a conical transmission gear 16 matched with the annular conical gear groove 14, the top drive motor 2 is inserted into the annular conical gear groove 14 through the conical transmission gear 16 at the lower end of the inner transmission shaft 15 and is in meshing transmission with the outer side surface of the inner guide pipe 3, further, for the reduction of the friction resistance, two ends of the outer side surface of the inner guide pipe 3 are fixedly sleeved with annular roller bearings 17, the outer side of the outer transmission sleeve 9 is movably connected with the outer side of the inner guide pipe 3 through the annular roller bearings 17, further, for the convenience of movable assembly, lateral movable supports 18 are welded and fixed on two sides of the outer side surface of the outer transmission sleeve 9 positioned at, the arc-shaped sealing cover plate 19 is used for closing the strip-shaped exhaust liquid discharge port 11 and is turned over to be opened and closed according to gravity, the arc-shaped sealing cover plate 19 is inserted into the lateral movable support 18 through rotating shafts at two ends and is movably connected with the lateral movable support 18, further, in order to improve the transmission efficiency and the transmission stability, an arc-shaped lateral transmission groove 20 matched with the internal transmission shaft 15 is arranged on the inner lateral surface of the transverse processing box 1, a lateral limiting ring 21 is fixedly welded on the inner lateral surface of the transverse processing box 1 outside the arc-shaped lateral transmission groove 20, further, in order to facilitate material guiding and discharging, a material conveying pipeline 23 with a built-in spiral conveying rod 22 is fixedly welded on the upper end of the left lateral surface and the lower end of the right lateral surface of the transverse processing box 1, the spiral conveying rod 22 in the material conveying pipeline 23 is controlled to rotate by an external, the utility model discloses a horizontal processing apparatus for soil remediation has the inside stand pipe 3 of outside transmission cover 9 at horizontal fixed connection surface cover in horizontal processing case 1 inside, be fixed with the overhead driving motor 2 that is used for controlling the rotation of outside transmission cover 9 at horizontal processing case 1 top, through left air inlet connecting pipe 7 and left feed liquor connecting pipe 8 with the gas liquid of handling respectively leading into overhead and lower drainage intracavity portion, then through overhead gas vent 12 and bottom drainage port 13 with the gas liquid of handling from the bar exhaust drainage port 11 of outside transmission cover 9 lateral surface, carry out the hybrid processing with the soil that conveying pipeline 23 carried in at last, and stir the processing through the lateral mixing blade 10 on the outside transmission cover 9 lateral wall to soil, promote the treatment effeciency, make the treatment mode of single equipment more diversified, the degree of integration is low, the occupied space is small, and the cost is reduced.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a horizontal processing apparatus for soil remediation, includes horizontal processing case (1) and fixes overhead driving motor (2) in horizontal processing case (1) upper end, characterized by: an inner guide pipe (3) is transversely and fixedly connected inside the transverse processing box (1), an inner separation partition plate (4) is transversely and fixedly connected inside the inner guide pipe (3), an upper gas guide cavity (5) and a lower liquid guide cavity (6) are formed inside the inner guide pipe (3) through the inner separation partition plate (4), a left gas inlet connecting pipe (7) communicated with the inside of the upper gas guide cavity (5) and a left liquid inlet connecting pipe (8) communicated with the inside of the lower liquid guide cavity (6) are fixedly welded on the left side surface of the transverse processing box (1), an outer transmission sleeve (9) is sleeved outside the inner guide pipe (3), a plurality of lateral stirring blades (10) arranged in an annular array are fixedly welded on the outer side surface of the outer transmission sleeve (9), and strip-shaped exhaust and liquid discharge ports (11) are formed on the outer side surface of the outer transmission sleeve (9) and positioned on two sides of the lateral stirring blades (10), the top end of the inner guide pipe (3) is provided with an overhead exhaust port (12) communicated with the inside of the overhead gas guide cavity (5), the bottom end of the inner guide pipe (3) is provided with a bottom liquid discharge port (13) communicated with the inside of the lower liquid guide cavity (6), and the outer side surface of the inner guide pipe (3) is provided with a ring-shaped bevel gear groove (14) matched with the overhead driving motor (2).

2. A lateral soil preparation device as defined in claim 1 wherein: the transmission device is characterized in that the lower end of the overhead driving motor (2) is provided with an internal transmission shaft (15) in a rotating shaft in an axial and fixed mode through a shaft coupler, the lower end of the internal transmission shaft (15) is provided with a conical transmission gear (16) matched with a conical gear groove (14) in a ring in an axial and fixed mode, and the overhead driving motor (2) is inserted into the conical transmission gear (16) at the lower end of the internal transmission shaft (15) in a ring mode to be arranged inside the conical gear groove (14) and be in meshing transmission with the outer side face of.

3. A lateral soil preparation device as defined in claim 1 wherein: the inner guide pipe (3) is characterized in that annular roller bearings (17) are fixedly sleeved at two ends of the outer side surface of the inner guide pipe (3), and the outer transmission sleeve (9) is movably connected with the outer side of the inner guide pipe (3) through the annular roller bearings (17).

4. A lateral soil preparation device as defined in claim 1 wherein: lateral movable supports (18) are fixedly welded on the two sides of a strip-shaped exhaust liquid discharge port (11) on the outer side surface of the external transmission sleeve (9), the strip-shaped exhaust liquid discharge port (11) is located on an arc-shaped sealing cover plate (19), and the arc-shaped sealing cover plate (19) is inserted into the lateral movable supports (18) through rotating shafts at the two ends and is movably connected with the lateral movable supports (18).

5. A lateral soil preparation device as defined in claim 1 wherein: the inner side surface of the transverse processing box (1) is provided with an arc-shaped lateral transmission groove (20) matched with the inner transmission shaft (15), and the inner side surface of the transverse processing box (1) is positioned at the outer side of the arc-shaped lateral transmission groove (20) and is fixedly welded with a lateral limiting ring (21).

6. A lateral soil preparation device as defined in claim 1 wherein: the upper end of the left side surface and the lower end of the right side surface of the transverse processing box (1) are respectively welded and fixed with a material conveying pipeline (23) with a built-in spiral conveying rod (22).

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