JP5509886B2 - Bentonite mixed soil preparation apparatus and bentonite mixed soil preparation method - Google Patents

Description

  The present invention relates to a production apparatus for producing bentonite mixed soil by mixing bentonite with sand and gravel and a method for producing bentonite mixed soil using this apparatus.

  The bentonite mixed soil is produced by mixing bentonite, sand and gravel at a predetermined ratio.

  As a production method thereof, for example, there is a method in which the volumes of bentonite, sand and gravel are respectively measured and supplied into the stirring equipment and mixed in the stirring equipment.

  Further, for example, Patent Document 1 discloses a storage facility for storing bentonite, sand and gravel together, and a bentonite, sand and gravel supplied from the storage facility for producing bentonite mixed soil. A bentonite mixed soil preparation apparatus including a stirring and mixing facility is disclosed. According to this bentonite mixed soil preparation device, the bentonite, sand and gravel supplied from the storage facility to the stirring and mixing facility are first kneaded with a stirrer, then added with water and then mixed again to form the bentonite mixed soil. Produced.

JP-A-10-100132

  However, in the method of measuring the volumes of bentonite, sand and gravel and supplying them into the stirring equipment, there is a problem that the work of preparing the bentonite mixed soil is a batch process and the processing efficiency is poor.

Further, the method described in Patent Document 1 described above has the following problems.
(1) Since water is added to the bentonite mixed soil kneaded in the stirring and mixing equipment and stirred with a stirrer, a large amount of bentonite adheres to the stirrer. Thereby, the mixing ratio of bentonite may fall, and the mixing ratio of bentonite mixed soil may not become a predetermined value. In addition, it takes time and effort to clean the bentonite adhering to the stirrer. And, since the bentonite is discarded after cleaning, the material is wasted.
(2) Since water is jetted into the bentonite mixed soil that has been kneaded in the stirring and mixing facility, the water directly contacts the bentonite, and the bentonite absorbs the water, so that the bentonite becomes ball-shaped. . Thereby, bentonite is not uniformly distributed in the bentonite mixed soil, and unevenness occurs in the bentonite mixed soil.
(3) Since the bentonite is present in the uppermost layer during conveyance from the time when the bentonite is charged until it is mixed, dust is generated.

  Therefore, the present invention has been made in view of the above problems, and it is possible to continuously and efficiently produce bentonite mixed soil that can suppress generation of dust and has a uniform quality and has no unevenness. It is an object of the present invention to provide a mixed soil preparation device and a method for preparing bentonite mixed soil using the device.

The present invention is a bentonite mixed soil preparation device for preparing bentonite mixed soil,
A plurality of belt conveyors arranged in series;
A sand supply unit for supplying sand to the belt conveyor disposed on the upstream side of the belt conveyor disposed on the most downstream side;
A bentonite supply unit that is provided on the downstream side of the sand supply unit and supplies bentonite on the sand supplied to the belt conveyor;
A gravel supply unit that is provided downstream of the bentonite supply unit and supplies gravel on the bentonite supplied to the belt conveyor,
A water supply unit that is provided between at least one of the sand supply unit and the bentonite supply unit or downstream of the gravel supply unit and supplies water toward the belt conveyor,
It is characterized by providing.

  According to the present invention, bentonite is not supplied to the belt of the belt conveyor by supplying the bentonite after the sand is supplied to the belt conveyor. Therefore, it is possible to prevent bentonite from adhering to the belt. Furthermore, since water is not supplied directly to bentonite, bentonite can be prevented from becoming ball-shaped.

  In addition, since the plurality of belt conveyors are arranged in series, sand, bentonite, and gravel are mixed in the process of falling from the upstream belt conveyor to the downstream belt conveyor at the connecting portion between the belt conveyors. Thereby, in combination with the fact that bentonite does not bead as described above, bentonite, sand and gravel are uniformly distributed, and high-quality bentonite mixed soil with a constant blending ratio is continuously obtained, and It can be produced efficiently.

  Moreover, since the gravel is supplied onto the bentonite supplied to the belt conveyor, the sand and bentonite are covered with the gravel, so that generation of dust due to bentonite can be suppressed.

  In the present invention, a plurality of the sand supply unit and the bentonite supply unit may be provided.

  According to the present invention, by providing a plurality of the sand supply parts and the bentonite supply parts, a plurality of sand and gravel are alternately laminated, so that a bentonite mixed soil can be produced efficiently.

  Moreover, in this invention, it is good also as providing the said other gravel supply part further upstream than the said sand supply part arrange | positioned most upstream.

  According to the present invention, gravel is supplied further upstream than the sand supply unit disposed on the most upstream side, and therefore sand and bentonite supplied from the sand supply unit and the bentonite supply unit are adjacent to each other. It will enter the gap between gravel. Thereby, generation | occurrence | production of the dust by bentonite can be suppressed more reliably.

In the present invention, the sand supply unit is
A tank for sand to store sand;
A sand weight measuring instrument for measuring the weight of sand in the sand tank;
A sand feeder for adjusting the discharge amount of sand according to the weight of the sand measured by the sand weight measuring instrument;
It is good also as providing.

  According to the present invention, a desired amount of sand can be accurately supplied.

In the present invention, the gravel supply section is
A gravel tank for storing gravel,
A gravel weight measuring instrument for measuring the gravel weight in the gravel tank;
A gravel feeder for adjusting the discharge amount of gravel according to the gravel weight measured by the gravel weight measuring instrument;
It is good also as providing.

  According to the present invention, a desired amount of gravel can be accurately supplied.

In the present invention, the bentonite supply unit is
A bentonite tank for storing bentonite;
A bentonite weight measuring device for measuring the weight of bentonite in the bentonite tank;
A bentonite feeder for adjusting the amount of bentonite discharged according to the weight of bentonite measured by the bentonite weight measuring device;
It is good also as providing.

  According to the present invention, a desired amount of bentonite can be accurately supplied.

In the present invention, the water supply unit is
A water tank for storing water;
A water meter for measuring the amount of water in the water tank;
A water feeder for adjusting the amount of water discharged according to the amount of water measured by the water meter;
It is good also as providing.

  According to the present invention, a desired amount of water can be accurately supplied.

Further, the present invention provides a bentonite mixed soil preparation method using the bentonite mixed soil preparation device according to any of the above-described inventions,
Sand is supplied to the belt conveyor, or a sand supplying step of supplying sand on top of the bentonite when already bentonite to the belt conveyor is supplied, bentonite on the sand supplied to the belt conveyor And the bentonite supply step of supplying the sand and bentonite supply step of performing both steps one by one, or repeating both the steps twice or more ,
After the sand and bentonite supply step, a gravel supply step of supplying gravel on the bentonite supplied to the belt conveyor,
A mixing step of mixing the sand, bentonite and gravel supplied to the belt conveyor on the belt and at the connecting portion while being conveyed by the plurality of belt conveyors arranged in series;
Immediately after the bentonite supplying step and immediately after the sand supplying step except between the gravel supplying step or the sand supplying step, after the gravel supplying step, or immediately before the most upstream sand supplying step. A water supply step for supplying water toward the belt conveyor,
It is characterized by preparing bentonite mixed soil continuously.

  Moreover, this invention is good also as providing the other gravel supply process which supplies gravel to the said belt conveyor before the said sand and bentonite supply process.

  Moreover, this invention is good also as providing the other water supply process of supplying water toward the said belt conveyor before the said other gravel supply process.

  ADVANTAGE OF THE INVENTION According to the present invention, a bentonite mixed soil preparation device capable of continuously and efficiently producing a bentonite mixed soil that can suppress the generation of dust, has a uniform quality, and is uniform, and bentonite mixing using the device A method for producing soil can be provided.

1 is an overall schematic diagram showing a bentonite mixed soil preparation device according to an embodiment of the present invention. It is the figure which added the position which can supply water to FIG. It is a figure which shows the state which provided two sets of sand and a bentonite supply part on the 1st belt conveyor. It is a figure which shows the state which provided the other gravel supply part on the 1st belt conveyor. It is a top view which shows the other example of arrangement | positioning of a belt conveyor. It is a top view which shows the other example of arrangement | positioning of a belt conveyor.

  Hereinafter, a preferred embodiment of the bentonite mixed soil preparation device 1 according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is an overall schematic diagram showing a bentonite mixed soil preparation device 1 according to an embodiment of the present invention.
As shown in FIG. 1, the bentonite mixed soil preparation apparatus 1 includes a plurality of belt conveyors 2 (2a to 2d) arranged in series, sand and bentonite for supplying sand S and bentonite B to the first belt conveyor 2a. Supply section 3, gravel supply section 4 provided downstream of sand and bentonite supply section 3 for supplying gravel G, water supply section 5 for supplying water, and adjacent belt conveyor 2 (2a to 2d) And a damper chute 6 provided therebetween.

  In the present embodiment, a case where four belt conveyors 2 (2a to 2d) are arranged in series will be described.

  The sand and bentonite supply part 3 is provided on the downstream side of the sand supply part 7 and the sand supply part 7 for supplying the sand S to the first belt conveyor 2a arranged on the most upstream side. And bentonite supply unit 8 for supplying bentonite B.

  The sand supply unit 7 was measured by a sand tank 7a for storing the sand S, a sand weight measuring device 7b for measuring the weight of the sand S in the sand tank 7a, and a sand weight measuring device 7b. And a sand feeder 7c for adjusting the discharge amount of the sand S in accordance with the weight of the sand S.

  The amount of sand S supplied to the first belt conveyor 2a is determined in advance by design or the like, and is adjusted by the sand feeder 7c so as to be this amount (sand supply step).

  The bentonite supply unit 8 was measured by a bentonite tank 8a for storing bentonite B, a bentonite weight measuring device 8b for measuring the weight of bentonite B in the bentonite tank 8a, and a bentonite weight measuring device 8b. A bentonite feeder 8c for adjusting the discharge amount of bentonite B according to the weight of bentonite B;

  The amount of bentonite B supplied to the first belt conveyor 2a is determined in advance by design or the like, and is adjusted by the bentonite feeder 8c so as to be this amount (bentonite supply step).

  Bentonite B is supplied to form a layer on the sand S. Thereby, the sand S and the bentonite B are laminated | stacked on the 1st belt conveyor 2a.

  The gravel supply unit 4 was measured by a gravel tank 4a for storing gravel G, a gravel weight measuring instrument 4b for measuring the weight of the gravel G in the gravel tank 4a, and a gravel weight measuring instrument 4b. A gravel feeder 4c for adjusting the discharge amount of the gravel G according to the weight of the gravel G.

  The amount of gravel G supplied to the first belt conveyor 2a is determined in advance by design or the like, and is adjusted by the gravel feeder 4c so as to be this amount (gravel supply step).

  Gravel G is supplied so as to form a layer on bentonite B. Thereby, as shown in the A section enlarged view in FIG. 1, the sand S, bentonite B, and gravel G are sequentially laminated on the first belt conveyor 2a.

  Thus, by providing the gravel G in the uppermost layer so as to cover the bentonite B and the sand S, generation of dust by the bentonite B can be suppressed by the gravel G.

  The sand S, bentonite B, and gravel G stacked on the first belt conveyor 2a are transported on the first belt conveyor 2a and are transferred to the first belt conveyor 2b at the connecting portion 9a. It is mixed in the process of dropping from the belt conveyor 2a to the second belt conveyor 2b. (Mixing process).

In this mixing step, the sand S, bentonite B, and gravel G are stacked in this order from the bottom to the top on the first belt conveyor 2a, but these fall to the second belt conveyor 2b. Due to the influence of the air resistance generated at the time, the falling speed of the fine sand S or bentonite B becomes slow. As a result, the falling speed of the gravel G in the upper layer becomes larger than the falling speed of the bentonite B and sand S in the lower layer, so that the gravel G, bentonite B and sand S are more It will be mixed uniformly.
Furthermore, since the damper chute 6 is provided in the connecting part 9 a, the sand S, bentonite B and gravel G pass through the damper chute 6, thereby further uniformly mixing.

  Similarly to the connecting portion 9a, the same applies to the connecting portion 9b between the second belt conveyor 2b and the third belt conveyor 2c, and the connecting portion 9c between the third belt conveyor 2c and the fourth belt conveyor 2d. An effect can be obtained. Therefore, when it is conveyed on the fourth belt conveyor 2d, it is in a sufficiently mixed state.

  And water is injected from the water supply part 5 when thrown into the storage tank 10 for temporarily storing the bentonite mixed soil 11 from the 4th belt conveyor 2d (water supply process).

  The water supply unit 5 includes a water tank 5a for storing water, a water weight measuring device 5b for measuring the weight of water in the water tank 5a, and water measured by the water weight measuring device 5b. A water feeder 5c for adjusting the discharge amount of water according to the weight, and a nozzle 5d that is attached to the tip of the water feeder 5c and injects water are provided. In the present embodiment, the method of supplying a predetermined amount of water by measuring the weight of water has been described. The amount of water may be supplied.

  The amount of water ejected from the nozzle 5d is determined in advance by design or the like, and is adjusted by the water feeder 5c so as to be this amount.

  According to the bentonite mixed soil preparation device 1 described above, bentonite B is supplied onto the sand S on the belt 12, so that the bentonite B can be prevented from adhering to the belt 12. In addition, since water is supplied to the mixed soil in which the sand S, bentonite B, and gravel G are sufficiently mixed, and no water is supplied directly to the bentonite B, the bentonite B becomes ball-shaped. Can be prevented.

  Moreover, sand S, bentonite B, and gravel G are conveyed on the belt conveyor 2 (2a-2d) provided in series, and are mixed in the process of falling in the connection parts 9a-9c. Thereby, combined with the fact that the bentonite B does not bead as described above, the high-quality bentonite mixed soil 11 in which the sand S, bentonite B and gravel G are uniformly distributed and the mixing ratio is constant is obtained. It can be produced continuously and efficiently.

  In addition, when the gravel G is supplied onto the sand S and the bentonite B, the generation of dust due to the sand S and the bentonite B can be suppressed by the gravel G.

  Furthermore, the sand supply part 7, the bentonite supply part 8, the gravel supply part 4 and the water supply part 5 are measuring instruments 4b for measuring the weight of each material stored in each tank 4a, 5a, 7a, 8a. Since 5b, 7b, 8b are provided, the amount previously determined by design or the like can be accurately supplied to the belt conveyor 2.

  In addition, although this embodiment demonstrated the case where water was supplied immediately before throwing the bentonite mixed soil 11 into the storage tank 10 from the 4th belt conveyor 2d, it is not limited to this, For example, FIG. As shown in FIG. 2, between the sand supply part 7 and the bentonite supply part 8 (arrow C in FIG. 2), between the gravel supply part 4 and the downstream end of the first belt conveyor 2a (in FIG. 2). It is good also as supplying water to one or more places among the arrow D) and the connection part 9a (arrow E in FIG. 2). In short, water should not be supplied directly to bentonite B, that is, water should not be supplied when bentonite B is laminated on the uppermost layer.

Moreover, although this embodiment demonstrated the case where sand and the bentonite supply part 3 comprised from the sand supply part 7 and the bentonite supply part 8 were provided, it is not limited to this number, Gravel supply A plurality of sets may be provided on the upstream side of the portion 4. For example, as shown in FIG. 3, when two sets of sand and bentonite supply units 3 are provided, the sand S and bentonite B are placed on the first belt conveyor 2a that has passed through these sand and bentonite supply units 3. Are alternately stacked two layers at a time (refer to the F section enlarged view in FIG. 3). Thereafter, when passing through the gravel supply unit 4, the gravel G is stacked thereon (see an enlarged view of the H portion in FIG. 3). Even in this state, as described above, the gravel G is provided in the uppermost layer so as to cover the bentonite B and the sand S, so that generation of dust can be suppressed.
Even when a plurality of sets of sand and bentonite supply units 3 are provided, water may be supplied to the bentonite mixed soil 11 between the sand supply unit 7 and the bentonite supply unit 8 by each water supply unit 5. .
Although not shown, water may be supplied upstream of the most upstream sand supply unit 7.

Moreover, although this embodiment demonstrated the case where the sand and bentonite supply part 3 and the gravel supply part 4 provided in the downstream were provided, it is not limited to this, As shown in FIG. Alternatively, another gravel supply unit 14 may be provided further upstream than the sand supply unit 7 of the most upstream sand and bentonite supply unit 3.
The other gravel supply unit 14 also includes a gravel tank 4a, a gravel weight measuring device 4b, and a gravel feeder 4c in the same manner as the gravel supply unit 4, and the amount determined by design or the like is determined by the belt conveyor 2. (Other gravel supply process).
In such a case, the gravel G is first supplied from the other gravel supply unit 14 to the first belt conveyor 2a, and then the sand S and bentonite B are supplied, so that it passes through the sand and bentonite supply unit 3. On the first belt conveyor 2a, two layers of sand S and bentonite B are alternately stacked on the gravel G (see an enlarged view of the portion I in FIG. 4). Part of the sand S and bentonite B enters the gap between the adjacent gravels G, so that the generation of dust can be more reliably suppressed. Thereafter, when passing through the gravel supply unit 4, the gravel G is stacked thereon (see an enlarged view of the J portion in FIG. 4).
In addition, although not shown in figure, you may supply water upstream from the other gravel supply part 14 of the most upstream.

  In addition, in this embodiment, although the case where the some belt conveyor 2 (2a-2d) was arrange | positioned linearly was demonstrated, it is not limited to this, As shown in FIG. As shown in FIG. 6, it may be arranged such that the downstream side is branched into a plurality of branches. In short, it may be arranged so that sand S or the like can be continuously conveyed to the downstream side.

DESCRIPTION OF SYMBOLS 1 Bentonite mixed soil preparation apparatus 2 Belt conveyor 2a 1st belt conveyor 2b 2nd belt conveyor 2c 3rd belt conveyor 2d 4th belt conveyor 3 Sand and bentonite supply part 4 Gravel supply part 4a Gravel tank 4b Gravel weight Measuring instrument 4c Gravel feeder 5 Water supply part 5a Water tank 5b Water weight measuring instrument 5c Water feeder 5d Nozzle 6 Damper chute 7 Sand supply part 7a Sand tank 7b Sand weight measuring instrument 7c Sand feeder 8 Bentonite supply part 8a Bentonite tank 8b Bentonite weight measuring instrument 8c Bentonite feeder 9a Transit 9b Transit 9c Transit 10 Reservoir 11 Bentonite mixed soil 12 Belt 14 Other gravel supply S Sand B Bentonite G Gravel

Claims (10)

A bentonite mixed soil preparation device for preparing bentonite mixed soil,
A plurality of belt conveyors arranged in series;
A sand supply unit for supplying sand to the belt conveyor disposed on the upstream side of the belt conveyor disposed on the most downstream side;
A bentonite supply unit that is provided on the downstream side of the sand supply unit and supplies bentonite on the sand supplied to the belt conveyor;
A gravel supply unit that is provided downstream of the bentonite supply unit and supplies gravel on the bentonite supplied to the belt conveyor,
A water supply unit that is provided between at least one of the sand supply unit and the bentonite supply unit or downstream of the gravel supply unit and supplies water toward the belt conveyor,
A bentonite mixed soil preparation device comprising:   The bentonite mixed soil preparation device according to claim 1, wherein a plurality of the sand supply unit and the bentonite supply unit are provided.   The bentonite mixed soil preparation device according to claim 1, further comprising the other gravel supply unit further upstream than the sand supply unit disposed on the most upstream side. The sand supply unit
A tank for sand to store sand;
A sand weight measuring instrument for measuring the weight of sand in the sand tank;
A sand feeder for adjusting the discharge amount of sand according to the weight of the sand measured by the sand weight measuring instrument;
The bentonite mixed soil preparation device according to any one of claims 1 to 3, wherein the bentonite mixed soil preparation device is provided. The gravel supply section
A gravel tank for storing gravel,
A gravel weight measuring instrument for measuring the gravel weight in the gravel tank;
A gravel feeder for adjusting the discharge amount of gravel according to the gravel weight measured by the gravel weight measuring instrument;
The bentonite mixed soil preparation device according to any one of claims 1 to 3, wherein the bentonite mixed soil preparation device is provided. The bentonite supply unit is
A bentonite tank for storing bentonite;
A bentonite weight measuring device for measuring the weight of bentonite in the bentonite tank;
A bentonite feeder for adjusting the amount of bentonite discharged according to the weight of bentonite measured by the bentonite weight measuring device;
The bentonite mixed soil preparation device according to any one of claims 1 to 3, wherein the bentonite mixed soil preparation device is provided. The water supply unit is
A water tank for storing water;
A water meter for measuring the amount of water in the water tank;
A water feeder for adjusting the amount of water discharged according to the amount of water measured by the water meter;
The bentonite mixed soil preparation device according to any one of claims 1 to 3, wherein the bentonite mixed soil preparation device is provided. In the preparation method of bentonite mixed soil using the bentonite mixed soil preparation device according to any one of claims 1 to 7,
Sand is supplied to the belt conveyor, or a sand supplying step of supplying sand on top of the bentonite when already bentonite to the belt conveyor is supplied, bentonite on the sand supplied to the belt conveyor And the bentonite supply step of supplying the sand and bentonite supply step of performing both steps one by one, or repeating both the steps twice or more ,
After the sand and bentonite supply step, a gravel supply step of supplying gravel on the bentonite supplied to the belt conveyor,
A mixing step of mixing the sand, bentonite and gravel supplied to the belt conveyor on the belt and at the connecting portion while being conveyed by the plurality of belt conveyors arranged in series;
Immediately after the bentonite supplying step and immediately after the sand supplying step except between the gravel supplying step or the sand supplying step, after the gravel supplying step, or immediately before the most upstream sand supplying step. A water supply step for supplying water toward the belt conveyor,
A method for producing bentonite mixed soil, comprising continuously preparing bentonite mixed soil.   The method for producing bentonite mixed soil according to claim 8, further comprising another gravel supply step of supplying gravel to the belt conveyor before the sand and bentonite supply step.   The method for producing bentonite mixed soil according to claim 9, further comprising another water supply step of supplying water toward the belt conveyor before the other gravel supply step.