JP2011252369A - Method for loosening soil material and apparatus therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for loosening soil material and an apparatus therefor, which loosens the soil material for use in soil cement raw material, allowing construction soil and construction sludge to be recycled and compacted.SOLUTION: A method for loosening soil material and an apparatus therefor comprise the steps of scooping up a soil material 1 in a trommel basket 4, transferring the trommel basket 4 to above a soil loosening tank 6, rotating the trommel 5 while supplying fresh water 12 or soil loosening water 15 into the trommel 5 for loosening the soil material 1 in the trommel 5 with the rotation of the trommel 5 and the fresh water 12 or the soil loosening water 15, and supplying the soil material 1 as the soil loosening water 15 to the soil loosening tank 6 through a screen 5a of the trommel 5 while sieving gravel 14 of the soil material 1 with the trommel 5 to be separated in the trommel 5.

Description

  In the present invention, in order to reuse and reduce the volume of construction generated soil and construction sludge generated in large quantities from various construction work and civil engineering work, these soil materials are defrosted and used as a raw material for soil cement. The present invention relates to a method and apparatus for degreasing soil materials.

  The soil cement method has attracted attention as an effective utilization measure for reusing construction-generated soil and construction sludge as construction by-products generated in large quantities from various construction works and civil engineering works. This soil cement method is to improve the fluidity of the soil generated at the construction site, etc., or mix muddy water and muddy water with solidifying material in an appropriate composition to achieve fluidity and material separation resistance suitable for the application. It is a construction method in which it is poured into a necessary place such as backfilling, backfilling, etc., and placed, and after waiting for solidification in an appropriate curing state, the process is terminated.

  Construction generated soil is a general term for earth and sand consisting of gravelly soil, sandy soil, cohesive soil, etc. generated from various construction works and civil engineering works. This does not apply to industrial waste specified in the law. On the other hand, construction sludge refers to those treated as industrial waste as stipulated in the Waste Disposal Law among mud-like excavated materials and mud water generated from excavation work for various construction works and civil engineering works. The muddy state refers to a state in which a standard dump truck cannot be piled up and exhibits fluidity that prevents people from walking on it.

  In order to reuse construction generated soil, construction sludge and other soil materials as the raw material for soil cement in the soil cement method, water or turbidity / muddy water is added to these soil materials to obtain a predetermined moisture content. It is necessary to adjust and remove gravel that is larger than a certain size. According to the quality standards for soil cement, the general backfill material is 40 mm or less, and the backfill material around the buried pipe is 13 mm or less.

  Conventionally, as means for thawing construction generated soil, construction sludge and other soil materials, as shown in FIG. 11, a soil material 32 and water 33 are put into a thawing tank 31, and a standard bucket 35 of a backhoe 34 is used. In use, the agitation is performed in the thawing tank 31 by the operation of the bucket 35 (see Patent Document 1, Non-Patent Document 1, pages 181 and 222). Further, as shown in FIG. 12, instead of the standard bucket 35, a skeleton bucket 36 having a mesh-like gap formed at the bottom of the bucket is used to stir in the thawing tank 31, or FIG. As shown in FIG. 1, the mixing bucket 37 having a stirring mechanism inside is used instead of the standard bucket 35 and stirring is performed in the demud tank 31. The standard bucket 35, skeleton bucket 36, and mixing bucket 37 equipped on these backhoes 34 can also be used as a means for transferring construction generated soil and construction sludge to soil removal tank 31.

  Alternatively, in place of the standard bucket 35, a thaw removing means using a construction machine (Patent Document 1) equipped with a stirring device is also provided. In this way, after the stirring is completed, the defatted water as a raw material for the soil cement is manufactured by separating and removing gravels having a predetermined size or more using a vibrating screen.

  Further, a rotary shaft is disposed along the horizontal direction at the center position of the cross section of the horizontal cylindrical drum having a material inlet at the upper part and a material outlet having a gate that can be opened and closed at the lower part. There has also been provided a mud removal device comprising a mixer in which a drive source for rotationally driving the rotary shaft is arranged on the side of a horizontal cylindrical drum (Patent Document 2).

Japanese Patent Laid-Open No. 10-147950 JP 2002-285571 A

“Soil fluidization method” (pages 181 and 222) Gigaku Publishing, September 25, 2007

  However, in the thaw removing means using the standard bucket 35 of the backhoe 34 shown in FIG. 11, the stirring power of the bucket 35 is weak and sufficient stirring cannot be performed, and when removing gravel from the inside of the thaw tank 31. It is impossible to drain the water using the bucket 35. On the other hand, according to the mud removal means using the skeleton bucket 36 shown in FIG. 12, a grid-like gap is formed at the bottom of the bucket, so when removing gravel, drainage is performed using this skeleton bucket 36. Although it can be performed, the stirring force is weak and sufficient stirring cannot be performed. On the other hand, according to the mud removal means using the mixing bucket 37 shown in FIG. 13, sufficient stirring can be efficiently performed by the stirring device in the mixing bucket. The operation stops or causes a failure.

  The mud removal means shown in Patent Document 1 uses a stirrer as an attachment for the backhoe, and even if surrounded by a protective frame, it is difficult to effectively prevent gravel from biting into the stirrer. However, gravel bites into the agitator and the operation stops or causes a failure. Furthermore, in any of the means, it is necessary to remove gravel using a vibrating screen after thawing, so that the thawing operation becomes two complicated steps.

  In the mud removal means shown in Patent Document 2, a dedicated mixer is required, it is difficult to respond quickly at each site, and since it is agitated with shovel blades, there is gravel like the mixing bucket 37 , It will bite into the stirring blades and operation will stop, or it will cause failure. Therefore, it can only cope with mud soil mainly composed of viscous soil that does not contain gravel. Furthermore, since the demolition means shown in Patent Documents 1 and 2 does not have a means for transporting soil material of construction generated soil or construction sludge, a separate means for transporting soil material to a thaw tank or a sludge device is required. And

  That is, according to the conventional thawing means, there are merits and demerits, respectively, the efficiency of thawing is not good in any means, and it is impossible to classify gravel at the same time as thawing. It will take time.

  Therefore, the present invention makes it possible to use these soil materials efficiently and in a short time in order to reuse and reduce the volume by making the construction generated soil, construction sludge and other soil materials usable as the raw material of the soil cement. It is an object of the present invention to provide a method and an apparatus for degreasing soil materials, which can be demolitioned at the same time and can classify and remove gravel at the same time.

  In order to achieve the object of the present invention, after the soil material is scooped up in the trommel bucket, the trommel bucket is moved above the thawing tank to rotate the trommel, and in the trommel, fresh water By supplying the mud water, the soil material in the trommel is thawed by the rotation of the trommel and the fresh water or the thawed water supplied in the trommel, and supplied to the thaw tank as thaw water through the trommel screen. Based on this method, the soil material gravel is classified and separated into the trommel.

  Then, as fresh water supplied into the trommel, the fresh water stored in the thaw tank in advance is supplied using a thaw water pump, or as the mud water supplied into the trommel, the thaw water stored in the thaw tank. Is supplied using a demolition water pump. As a trommel screen, a screen capable of classifying gravels of 40 mm or more or 13 mm or more is used. In addition, the gravels classified by the trommel are discharged from the trommel to the gravel yard, and a stirrer is installed in the thawing tank. The stored mud water is transferred to the mud tank using a transfer pump.

  That is, by installing the trommel bucket on the backhoe, the trommel bucket is moved to the soil material storage location, the soil material is scooped up, moved to the upper side of the thaw tank, and the trommel is driven to rotate. Then, after the thawing and classification of the soil material in the trommel is completed, it is moved to the gravel yard, and the gravel separated in the trommel is discharged to the graveyard. As the soil material, the construction generated soil and / or construction sludge is defrosted.

  In addition, a soil material consisting of a trommel bucket equipped on the backhoe, a thaw tank, a thaw water pump for supplying fresh water or mud water into the trommel bucket, and a fresh water tank for supplying fresh water into the thaw tank. Providing a thaw device. In addition, a stirrer will be installed in the mud tank. More specifically, the trommel bucket is composed of a trommel bucket mounted on the backhoe, a thaw tank, a thaw pump for supplying fresh water or thawed water to the trommel bucket, and a stirrer installed in the thaw tank. In addition to supplying fresh water or thawed water from the thawing pump to the soil material that has been sprinkled, the trommel is rotated and driven to thaw the soil material in the trommel and through the trommel screen as thawing water. The agitation water supplied to the thawing tank is stirred by a stirrer installed in the thawing tank, and the gravel of the soil material is classified by the trommel and separated into the trommel.

  And, as a trommel screen in the trommel bucket, use a screen that can classify gravels of 40 mm or more or 13 mm or more, set up a gravel place to discharge the gravel classified by the trommel from the inside of the trommel, defrost from the soil material, A transfer pump for transferring the demolition water stored in the demolition tank and a mud storage tank for storing the transferred demolition water are installed, and the construction generated soil and / or construction sludge is defrosted as a soil material.

  According to the present invention having the above-described configuration, the trommel is rotated and supplied into the trommel by using the trommel bucket for the demolition work of various soil materials such as construction generated soil and construction sludge for producing the soil cement. The dewatering efficiency is increased by the fresh water or the dewatered mud water, and the efficiency can be improved. In addition, gravel that is larger than the mesh size of the trommel screen is classified into the trommel, so that the mud and the classification can be performed simultaneously. For this reason, classification work using a vibrating screen after thawing for removing gravel, which has been an essential process in the past, is not required.

  Moreover, it is not necessary to immerse the trommel bucket in the thawing tank, and the viscous soil that has come out of the trommel screen using the agitator installed in the thawing tank can also be defrosted in the thawing tank. , More accurate and reliable demolition work can be carried out. Therefore, various soil materials can be reused as raw materials for soil cement at each site, and volume reduction can be performed efficiently and in a short time.

BRIEF DESCRIPTION OF THE DRAWINGS The system figure which shows schematically the mud removal method and apparatus of the soil material concerning this invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Process explanatory drawing of this invention. Explanatory drawing of the principal part of the conventional mud removal method of soil material. Explanatory drawing of the principal part of the conventional mud removal method of soil material. Explanatory drawing of the principal part of the conventional mud removal method of soil material.

  DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of a soil material thawing method and apparatus according to the present invention will be described below with reference to the drawings. The soil material targeted by the present invention covers all soils such as gravel soil, sandy soil, cohesive soil and the like that can be used as a raw material for soil cement, and there is no limitation on the type and cause of occurrence. In particular, the main object is construction-generated soil and construction sludge generated in large quantities in various construction work and civil engineering work, such as excavation work of cast-in-place piles and continuous underground walls. In the present invention, these soil materials are adjusted to a predetermined moisture content in order to be used as a raw material for soil cement, and are also pulverized to a defatted water from which gravels having a predetermined size or more are removed.

  FIG. 1 is a system diagram schematically showing a soil material thawing method and apparatus according to the present invention, FIG. 2 is an overall layout diagram of a soil material thawing apparatus at a construction site, and FIGS. FIG. In the figure, reference numeral 1 denotes a soil material as a demolition target composed of construction generated soil and construction sludge, and is accumulated in a soil material tank 1a installed in a predetermined area at a construction site or the like. First, as shown in Step A of FIG. 1 and FIG. 3, the backhoe 2 with the trommel bucket 4 attached to the tip of the arm 3 is moved to the soil material tank 1 a, and the soil material 1 is scooped into the trommel bucket 4. Install in a position where you can. In FIG. 1, Step A to Step N indicated by alphabets indicate each demelting process of the demelting method, and each process surrounded by a frame TR indicates a demelting process using the trommel bucket 4.

  The present invention is characterized in that the thrommel bucket 4 is used to simultaneously perform the thawing and classification, thereby shortening the thawing time and increasing the efficiency. The trommel bucket 4 itself used in the present invention is a known configuration that is used by being attached to the tip of the arm 3 of the backhoe 2, and a trommel 5 that is a cylindrical rotary sieve is rotatably mounted in the bucket. Yes. The trommel 5 is rotated at a predetermined speed by the hydraulic pressure from the hydraulic unit of the backhoe 2, the stored items in the bucket are inverted, and the stored items are screened and classified by the screen 5 a of the trommel 5.

  Then, from the state of Step A, the arm 3 is driven to scrape the soil material 1 into the trommel bucket 4, and the soil material 1 shown in Step B is taken up. Next, as shown in Step C and FIG. 4, the backhoe 2 is moved to the thaw tank 6, and the trommel bucket 4 is installed above the thaw tank 6. The backhoe 2 in FIG. 2 shows the state of step C. By moving rightward from the state shown in FIG. 2, the soil material 1 shown in Step A can be moved to a position where it can be scraped off. In FIG. 2, reference numeral 27 denotes a second backhoe fitted with a standard bucket, in order to more smoothly perform the mud removal work when the soil material 1 is silt clay having a strength that is particularly difficult to thaw. In order to prepare and stir by adding water in advance. Therefore, whether or not the second backhoe 27 is used can be arbitrarily selected.

  The thaw tank 6 is a tank of a predetermined volume size, and one or a plurality of stirrers 7 are arranged at the bottom, and a thaw water pump 8 is installed. A supply pipe 9 extends upward from the demolition water pump 8, and a nozzle 9 a is provided at the tip of the supply pipe 9. The trommel bucket 4 in the step C is installed above the mud tank 6 so as to face the nozzle 9a.

  Next, as shown in step D (step D1) and FIG. 5, fresh water 12 is supplied from the fresh water tank 10 to the sludge tank 6 using the pump 11. The fresh water 12 may be any water as long as it can be used for thawing the soil material 1, and mud can also be used. When a certain amount of fresh water is stored in the thaw tank 6, as shown in step E and FIG. 5, the fresh water 12 is supplied to the trommel bucket 4 through the supply pipe 9 and the nozzle 9a using the thaw water pump 8. Supply. The fresh water 12 may be injected at a predetermined pressure. At the same time, the trommel 5 is driven to rotate as indicated by step F and an arrow 13 in FIG. By supplying the fresh water 12 and rotating the trommel 5 continuously, the soil material 1 accommodated in the trommel bucket 4 is defrosted as shown in step G and FIG. That is, it is sufficient that the soil material 1 stored in the trommel 5 can be thawed by the rotation of the trommel 5 and the fresh water 12. On the other hand, the gravel 14 contained in the soil material 1 is classified by the trommel 5, and the gravel 14 having a size larger than that of the screen 5 a remains in the trommel 5. The screen 5a of the trommel 5 has a mesh size that can classify gravel exceeding 40 mm, but the size is appropriately set according to the use of the demolition water.

  As shown in Step H, the eroded soil material 1 becomes the thawing water 15 and passes through the screen 5a of the trommel 5 and falls into the thawing tank 6. And after the demolition water 15 is supplied, it is integrated with the clear water 12 supplied from the fresh water tank 10, and is sucked by the demud water pump 8 as the demolition water 15 and circulated and supplied from the nozzle 9a to the trommel bucket 4. . You may make it inject | pour this demolition water 15 with a predetermined pressure. That is, it is only necessary that the soil material 1 accommodated in the trommel 5 can be thawed by the rotation of the trommel 5 and the demolition water 15. In addition, the supply amount of the fresh water 12 supplied from the fresh water tank 10 is set according to the capacity of the thaw tank 6, the properties of the soil material 1 to be thawed and the properties of the soil cement to be produced, and step D (step D2). ) And FIG. 6, the supply of the fresh water 12 is stopped when a preset supply amount is reached.

  After all the mud removal of the soil material 1 taken into the trommel bucket 4 is completed, the rotation of the trommel 5 is stopped as shown in Step I, and the supply of the fresh water 12 or the mud water 15 is stopped as shown in Step J. . Then, as shown in Step K and FIG. 6, the backhoe 2 is moved to the gravel place 16, and as shown in Step L, the gravel 14 that is classified by the screen 5 a of the trommel 5 and remains in the trommel 5 is removed. It is discharged to the storage 16.

  Then, as shown in FIG. 7, the process returns to step A again, the backhoe 2 is moved to the soil material tank 1a, the process of step B is performed in which the soil material 1 is scooped into the trommel bucket 4, and the backhoe 2 is removed from the mud tank. The process of Step C in which the trommel bucket 4 is placed above the mud tank 6 is performed by moving to Step 6, and thereafter the steps from Step D to Step L are repeated as many times as necessary.

  In addition, when the gravel 14 classified in the trommel bucket 4 is a trace amount, you may move to the process shown to step A as it is, without performing the discharge process of the gravel 14 shown to step K, L.

  When the sludge water 15 shown in Step H starts to be supplied into the thaw tank 6, the stirrer 7 is used in the thaw tank 6 as necessary, as shown in Step M and FIGS. The demolition water 15 in the mud tank 6 is stirred continuously or at any time. This is for more surely defloating the soil material 1 such as the viscous soil that has passed through the screen 5a of the trommel 5.

  When the production of the predetermined amount of the demolition water 15 is completed in the demolition tank 6, as shown in Step N and FIG. 9, the transfer pump 17 installed in the demolition tank 6 is driven, and the produced demolition water 15 is As shown in FIG. 10, all are transferred to the mud storage tank 18. And the demolition water 15 is manufactured to the demolition tank 6 which became empty shown in FIG. Thereafter, this process is repeated.

  2 is stored while being continuously or intermittently stirred by one or a plurality of stirrers 19 installed at the bottom of the mud tank 18. The In order to produce a soil cement using the defatted water 15 as a raw material, a required amount of the defluted water 15 is supplied from the mud storage tank 18 to the kneading unit 21 using a transfer pump 20 as shown in FIG. By supplying a required amount of cement from 22 to the kneading unit 21 and kneading, a soil cement having fluidity and material separation resistance suitable for the application is manufactured. Then, the manufactured soil cement is transported from the concrete pump 23 to the site and placed. In FIG. 2, 24 is a generator, 25 is a management room for carrying out a thawing operation, and 26 is a high-pressure washing machine for washing various devices.

  According to the method and apparatus for thawing soil material according to the present invention, by performing a thawing operation of various soil materials such as construction generated soil and construction sludge for producing soil cement using a trommel bucket, The rotation of the trommel and the fresh water or the dewatered mud supplied into the trommel can increase the efficiency of the demolition and increase the efficiency. In addition, gravel that is larger than the mesh size of the trommel screen is classified into the trommel, so that the mud and the classification can be performed simultaneously. For this reason, classification work using a vibrating screen after thawing for removing gravel, which has been an essential process in the past, is not required.

  Moreover, it is not necessary to immerse the trommel bucket in the thawing tank, and the viscous soil that has come out of the trommel screen using the agitator installed in the thawing tank can also be defrosted in the thawing tank. , More accurate and reliable demolition work can be carried out. Therefore, various soil materials can be reused as raw materials for soil cement at each site, and volume reduction can be performed efficiently and in a short time.

DESCRIPTION OF SYMBOLS 1 ... Soil material 2,27 ... Backhoe 3 ... Arm 4 ... Trommel bucket 5 ... Trommel 5a ... Screen 6 ... Demudging tank 7, 19 ... Stirrer 8 ... Demudging water pump 9 ... Supply pipe 9a ... Nozzle 10 ... Fresh water tank 11 ... Pump 12 ... Shimizu 14 ... Gravel 15 ... Demolition water 16 ... Gravel place 17 ... Transfer pump 18 ... Mud storage tank

Claims (16)

  After the soil material is scooped up in the trommel bucket, the trommel bucket is moved above the thaw tank, and the trommel is driven to rotate. The soil material in the trommel is thawed with fresh water or thawed water supplied into the trommel and supplied to the thaw tank as thawed water through the trommel screen. A method for deflocculating soil materials characterized by separating them.   The method for degreasing a soil material according to claim 1, wherein as fresh water supplied into the trommel, fresh water stored in advance in a thaw tank is supplied using a demud water pump.   The method for degreasing a soil material according to claim 1, wherein the demolition water stored in the demolition tank is supplied using a demolition water pump.   4. The method for deflocculating soil material according to claim 1, 2 or 3, wherein a screen capable of classifying gravels of 40 mm or more or 13 mm or more is used as a trommel screen.   The method for degutting soil material according to claim 1, 2, 3, or 4, wherein the gravel classified by the trommel is discharged from the trommel to the gravel yard.   The method for degreasing a soil material according to claim 1, 2, 3, 4 or 5, wherein a stirrer is installed in the demolition tank and the demolition water in the demolition tank is stirred.   The method for deflocculating a soil material according to claim 1, 2, 3, 4, 5 or 6, wherein the mud water stored in the thaw tank is transferred to the mud tank using a transfer pump. .   By installing the trommel bucket on the backhoe, the trommel bucket is moved to the storage location for the soil material, the soil material is scooped up, moved to the upper side of the thaw tank, and the trommel is driven to rotate. The gravels separated in the trommel are discharged to the gravel yard after the thawing / classification of the soil material is completed, and discharged into the gravel yard. Method of thawing soil materials.   The method for deflocculating a soil material according to claim 1, 2, 3, 4, 5, 6, 7 or 8, wherein the construction generated soil and / or the construction sludge is defrosted as the soil material.   It consists of a trommel bucket equipped on the backhoe, a thaw tank, a thaw water pump for supplying fresh water or sludge water into the trommel bucket, and a fresh water tank for supplying fresh water into the thaw tank. Soil material thawing equipment.   A trommel bucket equipped on the backhoe, a thaw tank, a thaw water pump that supplies fresh water or thawed water into the trommel bucket, a fresh water tank for supplying fresh water into the thaw tank, and a thaw tank A soil material de-mudging device characterized by comprising an agitator. It consists of a trommel bucket equipped on the backhoe, a thaw tank, a thaw water pump that supplies fresh water or thaw water into the trommel bucket, and a stirrer installed in the thaw tank,
Supplying fresh water or mud water from the demolition water pump to the soil material sprinkled in the trommel bucket and rotating the trommel to defloat the soil material in the trommel and dissolve it as thaw water through the trommel screen. Soil that is supplied to the mud tank, stirs the demolition water supplied to the demolition tank with an agitator installed in the demolition tank, classifies the gravel of the soil material by the trommel, and separates it into the trommel Material thaw device.   13. The soil material delamination device according to claim 10, 11 or 12, wherein a screen capable of classifying gravels of 40 mm or more or 13 mm or more is used as a trommel screen in a trommel bucket.   14. The soil material delamination device according to claim 10, 11, 12, or 13, wherein a gravel yard for discharging gravel classified by the trommel is installed.   15. The pump according to claim 10, 11, 12, 13, or 14 provided with a transfer pump for defloating the soil material and transferring the demolition water stored in the demolition tank and a mud storage tank for storing the transferred demolition water. Soil material thawing equipment.   The soil material dehumidifying device according to claim 10, 11, 12, 13, 14 or 15, wherein the soil generated from construction and / or construction sludge is defrosted as the soil material.

Images