JPH07119155A - Soil and sand carrying-out device for pneumatic caisson - Google Patents

Abstract

PURPOSE:To improve the unmanned carrying-out efficiency of soil and sand by providing a sliding gate adjusting the discharge of soil and sand into a bucket and a soil and sand transfer means guiding soil and sand from a workroom and installing a clamshell bucket to an extensible rod. CONSTITUTION:A workroom 7, a material shaft 10 and a pressure vessel 3 are communicated in an airtight manner. Soil and sand excavated in the workroom 7 are lifted by a clamshell bucket 8 moved by the contraction operation of a rod 14, and carried into the pressure vessel 3. A soil and sand receiving plate 15 for the vessel 3 is tilted up to a position, where the receiving plate 15 is connected to a chute 12. Soil and sand are discharged from the bucket 8, and guided into the chute 12. Soil and sand are stored until the volume of soil and sand reaches the same volume of a bucket 11. Lastly, soil and sand are transferred into the bucket 11 and removed. Accordingly, carrying-out is unmanned, and discharging operating efficiency can be improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sediment carrying-out device for carrying excavated soil to the ground under atmospheric pressure in a pneumatic caisson method.

[0002]

2. Description of the Related Art Generally, a pneumatic caisson method uses a caisson made of reinforced concrete on the ground and sends compressed air to a working room of this caisson,
Drill while removing groundwater. Further, it is known that the earth and sand at the time of excavation is carried out to the ground under atmospheric pressure through a material lock by a earth and sand bucket.

In order to efficiently carry out the excavated earth and sand by the earth and sand bucket, two earth and sand buckets are used, and one earth and sand bucket is used while the filled excavated earth and sand is taken out to the ground. , The other sediment bucket is loaded with excavated sediment.

Then, a human being replaces the two earth and sand buckets in the caisson work chamber.
In this case, since the working environment is bad in the working chamber due to high pressure, high temperature and high humidity, there is a problem that when the caisson depth increases, the workable time is shortened for safety and hygiene, and the working efficiency is significantly lowered.

In order to solve these problems, in the past, Japanese Patent Laid-Open Nos. 58-20829 and 60-181422,
JP-A-63-110322 and JP-A-63-206524 have been proposed.

[0006]

However, according to the above-mentioned conventional JP-A-58-20829, JP-A-63-110322, and JP-A-63-206524, the excavated sediment is the caisson. Since it is carried out onto the work room slab, it will be discharged into the water when water as a load is put into the caisson to accelerate the settlement.

For this reason, the excavated earth and sand discharged into the water must be separated from the earth and sand when it is carried out by the above-ground carrier. Moreover, in any of the publications, the scale of such unloading equipment becomes very large.

From the above, the Japanese Patent Laid-Open No. 58-20829, Japanese Patent Laid-Open No. 63-110322, and Japanese Patent Laid-Open No. 63-206524 require the separation of soil and water as described above. Therefore, excavation and unloading work will be inefficient.

On the other hand, in the above-mentioned conventional Japanese Patent Laid-Open Nos. 58-20829 and 60-181422, a movable unloading crane is installed at the highest position of the shaft.
You have to move every time you carry out sediment.

Therefore, since the crane moves every time the earth and sand are carried out, there is concern about the strength of the entire shaft. Further, as the caisson sinks, it is necessary to add the shaft, but in the case of this conventional example, it is necessary to remove the heavy top shaft and add the shaft.

From the above, the Japanese Patent Laid-Open No. 58-20829 and Japanese Patent Laid-Open No. 60-181422 have anxiety about the strength of the shaft and require the work of removing the top weight shaft when adding the shaft. Therefore, excavation and unloading work must be performed carefully, and this conventional example also has poor work efficiency.

When the caisson depth becomes large, it is possible to use a clamshell bucket to carry the excavated soil from the work room to the ground, but in this case too, it takes too much time and the work efficiency decreases. Becomes

The present invention was devised in view of the above-mentioned circumstances, and an object thereof is to efficiently carry out an excavated earth and sand carrying-out work in a pneumatic caisson method, which has a bad working environment, by an apparatus having a simple structure. An object of the present invention is to provide a sediment carrying-out device for a pneumatic caisson which can be easily and surely carried out even in a large-depth caisson without lowering the temperature.

[0014]

The earth and sand carrying-out device A of the present invention is installed upright on a slab 2 of a caisson body 1 and the slab 2
The material shaft 10 and the pressure vessel 3 that are in air-tight communication with the lower working chamber 7 and the chute 12 that are arranged in an air-tight communication with each other are provided on the material shaft 10 side of the chute 12. It is attached to the slide gate 13 that can move up and down to adjust the storage of the sediment in the chute and the discharge to the excavated sediment delivery sediment bucket 11 in the material shaft, and the end of the hanging material provided in the pressure vessel 3. In order to guide the excavated earth and sand from the work chamber 7 supplied by the clamshell bucket 8 to the chute 12, there is provided a sand and sand transshipment means B including a tiltable earth and sand receiving plate 15 provided in the pressure vessel 3.

According to the earth and sand carrying-out device A of the present invention, the clamshell bucket 8 is attached to the suspending member in the pressure vessel 3, for example, the tip of the extendable rod 14.
The clamshell bucket is prevented from falling when landing in the work room 7, and the efficiency of carrying out excavated soil that has unmanned the work room 7 is improved.

In addition, the chute 12 and the clamshell bucket 8 transfer the excavated earth and sand from the working chamber 7 to the chute 12.
Sediment receiving plate 15 for guiding to and storage of sediment in chute 12,
The excavated sediment transferred from the working chamber 7 by the clamshell bucket 8 is transferred to the sediment bucket 11 for carrying out the excavated earth and sand in the material shaft by the earth and sand transshipment means B having a simple structure including the slide gate 13 for adjusting the discharge. Send it easily and surely, and make the excavation work carried out inexpensively and efficiently.

Further, the earth and sand receiving plate 15 and the slide gate 13 in the earth and sand carrying-out device A of the present invention are provided in the airtight pressure vessel 3 and the material shaft 10 so as to operate under pressure and pressure, and airtightness is required. A simple structure is acceptable.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The sediment carrying-out device for pneumatic caisson according to the present invention will be described below with reference to the embodiments shown in the drawings.

The earth and sand unloading device A (see FIG. 1) for unloading the excavated earth and sand to the outside under atmospheric pressure is formed below the slab 2 and the pressure vessel 3 standing upright on the slab 2 of the caisson body 1. And a working chamber 7 communicating with the pressure vessel 3 through an opening 6 formed in the slab 2, and a suspending material provided in the pressure vessel 3, for example, a retractable rod 14 or a wire that moves up and down. Work room 7 attached to the end of the rope
A clamshell bucket 8 that conveys the earth and sand excavated in the pressure vessel 3 and a standing position in the vicinity of the pressure vessel 3 in a state of airtightly communicating with the pressure vessel 3 and the working chamber 7,
An air lock chamber (hereinafter referred to as a material lock) 16 is provided on the top portion, and a material shaft 10 having an earth and sand bucket 11 for excavating and carrying out excavated earth and sand, which is vertically movably arranged therein.

Further, the earth and sand carrying-out device A is provided with a chute 12 in which the material shaft 10 and the pressure vessel 3 are communicated in an airtight manner, and the chute 12 on the material shaft 10 side. A slide gate 13 that can move up and down to adjust the storage and discharge of sediment, and a tilt provided in the pressure vessel 3 to guide the excavated sediment from the working chamber 7 supplied by the clamshell bucket 8 to the chute 12. It has a sediment transfer means B consisting of a free earth and sand receiving plate 15.

The pressure vessel 3 in this embodiment is erected at a substantially central portion of the slab 2 in the caisson body 1, and has a shaft 5 and a hatch 4 at the top. Further, at the position where the chute 12 is provided in the pressure vessel 3, a sediment receiving plate 15 and an outer peripheral sediment guiding plate 18 are provided.

The slab 2 communicating with the pressure vessel 3
The opening 6 is provided with a hatch 9 on the side of the working chamber 7. Further, when the hatch 9 is open, the clamshell bucket 8 at the tip of the rod 14 provided in the pressure vessel 3 passes through the opening 6 from the earth and sand excavation position in the working chamber 7 to extract excavated earth and sand. It can be transported and moved to a position above the chute 12 and the earth and sand receiving plate 15 in the pressure vessel 3.

The material shaft 10 has an earth and sand bucket 11 from a material lock 16 arranged vertically movable therein, and at the end of the work chamber 7 side when the earth and sand bucket 11 is used for excavating earth and sand. There is provided a earth and sand bucket pedestal 17 for supporting at.

To carry out the excavated earth and sand in the caisson method using the earth and sand carrying-out device A having the above-mentioned structure, the following procedure is carried out.

First, as shown in FIG. 1, the excavated earth and sand excavated in the working chamber 7 is lifted by the clamshell bucket 8 which is moved by the reduction operation of the rod 14, and the slab 2 is moved.
It is conveyed from the opening 6 to the inside of the pressure vessel 3.

The clamshell bucket 8 here
Is a rod 14 whose movement is expanded and contracted by a hydraulic cylinder.
In addition, the rod 14 prevents the fall of the work chamber 7 at the time of landing. Also, with this rod 14, a reaction force at the time of excavation can be expected.

Next, when the clamshell bucket 8 is moved to a position above the earth and sand receiving plate 15 in the pressure vessel 3 by the contraction operation of the rod 14 as shown in FIG. 2, it is positioned vertically in the pressure vessel 3. The earth and sand receiving plate 15 (see FIGS. 1 and 4) that has been used is tilted by the hydraulic cylinder 20 to a position (see FIGS. 2, 3 and 5) where it is connected to the chute 12.

Next, when the earth and sand receiving plate 15 is tilted to the connecting position to the chute 12, the earth and sand receiving plate 15 is moved to the earth and sand receiving plate 15.
The excavated earth and sand in the working chamber 7 is discharged from the clamshell bucket 8 that has moved to a position above 15. Then, the earth and sand discharged to the earth and sand receiving plate 15 are guided into the chute 12 by the earth and sand receiving plate 15.

At the time of discharging the excavated sediment to the sediment receiving plate 15, an outer periphery sediment guiding plate 18 for guiding the sediment into the chute 12 is previously provided around the sediment receiving plate 15 in the pressure vessel 3. It is installed. Therefore, the earth receiving plate
Sediment released to 15 is all shot 12 without spilling
Can be guided inside.

When the excavated sediment is discharged to the sediment receiving plate 15, the slide gate 13 on the material shaft 10 side of the chute 12 is closed by a hydraulic cylinder 19 as shown in FIGS. 1 and 4. Has become. Therefore, it is lifted and transported by the clamshell bucket 8,
The excavated earth and sand guided into the chute 12 is repeatedly stored in the chute every time the clamshell bucket 8 conveys the same until the capacity of the earth and sand bucket 11 is reached.

Next, the excavated earth and sand is stored inside the chute 12 by the amount of the earth and sand bucket 11 (see FIG. 1).
Then, as shown in FIGS. 2 and 5, the slide gate 13 is opened by the hydraulic cylinder 19 and the excavated sand is discharged from the chute 12. Then, the excavated earth and sand are transferred to the earth and sand bucket 11 which has passed through the material lock 16 and descended onto the earth and sand bucket pedestal 17 at the lower end of the material shaft 10, that is, the earth bucket directly down the chute 12.

Next, the earth and sand bucket 11 is moved upward,
The excavated soil transported from the work chamber 7 is discharged by the clamshell bucket 8 to the ground through the material lock 16 at atmospheric pressure.

By these things, it is possible to carry out the work of carrying out the excavated sand in the caisson method using the sand carrying-out device A.

[0034]

According to the earth and sand carrying-out device of the present invention, the chute, the earth and sand receiving plate that guides the excavated earth and sand transferred from the working chamber by the clamshell bucket to the chute, and the slide that adjusts the accumulation and discharge of the earth and sand in the chute. With a simple structure of sediment transfer means consisting of a gate, it is possible to transfer the earth and sand excavated by the clamshell bucket to the earth and sand bucket through the earth and sand transfer means when burying the box by the pneumatic caisson method. Therefore, even in the deep-deep caisson, it is possible to efficiently carry it out to the ground unattended.

Further, by attaching to the tip of the expandable rod in the pressure vessel, it is possible to prevent the clamshell bucket from falling when landing in the working chamber. Therefore, it is possible to improve the efficiency of carrying out the excavated soil by unmanning the working chamber.

Further, the excavated earth and sand transferred from the working chamber by the clamshell bucket is easily and reliably transferred to the earth and sand bucket for unloading in the material shaft by the earth and sand transposing means having a simple structure consisting of the chute, the earth and sand receiving plate and the slide gate. It is possible to carry out the excavated earth and sand removal work inexpensively and efficiently.

Further, since the equipment for the earth and sand receiving plate and the slide gate operate under the pressure and pressure in the airtight pressure vessel and the material shaft, a simple structure which does not require airtightness can be used. .

Moreover, such a simple structure facilitates the automatic control of the earth and sand carrying-out device and promotes the unmanned excavation and discharge work.

[Brief description of drawings]

FIG. 1 is a schematic cross-sectional view showing when excavated sediment is discharged into a chute in the sediment carrying-out device for pneumatic caisson of the present invention.

FIG. 2 is a schematic cross-sectional view showing when excavated sediment is discharged to a sediment bucket in the sediment carrying-out device for pneumatic caisson of the present invention.

FIG. 3 is a sectional view taken along the line Φ-Φ of FIG.

FIG. 4 is a partial schematic view showing a state in which a slide gate of a chute is closed in the sediment carrying-out device for pneumatic caisson of the present invention.

FIG. 5 is a partial schematic view showing a state in which the slide gate of the chute is opened in the sediment carrying-out device for pneumatic caisson of the present invention.

[Explanation of symbols]

A ... Sediment unloading device, B ... Sediment transfer means, 1 ... Caisson body, 2 ... Slab, 3 ... Pressure vessel, 5 ... Shaft, 6 ...
Opening, 7 ... Work room, 8 ... Clamshell bucket, 9 ...
Hatch, 10 ... Material shaft, 11 ... Sediment bucket,
12 ... shoot, 13 ... slide gate, 14 ... rod, 15 ...
Sediment support plate, 16 ... Material lock, 17 ... Sediment bucket support, 18 ... Perimeter sediment guide plate.

 ─────────────────────────────────────────────────── ─── Continued Front Page (71) Applicant 000219406 Toa Construction Industry Co., Ltd. 5 Yonbancho, Chiyoda-ku, Tokyo (71) Applicant 000222668 Toyo Construction Co., Ltd. 4-1-1 Koraibashi, Chuo-ku, Osaka-shi, Osaka ( 72) Inventor Jiro Fukui 1 Asahi, Tsukuba City, Ibaraki Prefectural Civil Engineering Research Institute, Ministry of Construction (72) Shigeru Takagi 1 Asahi, Tsukuba City, Ibaraki Prefectural Civil Engineering Research Institute, Ministry of Construction (72) Koji Nukazawa, Bunkyo-ku, Tokyo Otowa 2-chome No. 10-2 Foundation Law Center for Advanced Construction Technology (72) Inventor Tadamitsu Hirata 1-1-13 Yamashita, Okayama City, Okayama Prefecture Ouchigumi Co., Ltd. (72) Inventor Jiro Kakuda Tokyo 1-24-4 Shinkawa, Chuo-ku, Otoyo Construction Co., Ltd. (72) Inventor Hideo Kitagawa 5 Yonbancho, Chiyoda-ku, Tokyo Toa Construction Industry Co., Ltd. (72) Inventor Katsumi Hayashi 4-1-1 Koraibashi, Chuo-ku, Osaka City, Osaka Prefecture Toyo Construction Co., Ltd.

Claims (1)

[Claims] 1. A pressure vessel 3 erected on a slab 2 of a caisson body 1, and a pressure vessel 3 formed below the slab 2,
A working chamber 7 communicating with the pressure vessel 3 through an opening 6 formed in the slab 2 and a tip end of a suspending material provided in the pressure vessel 3 are excavated in the working chamber 7. The clamshell bucket 8 that conveys the deposited earth and sand into the pressure vessel 3 through the opening 6, and a standing position in the vicinity of the pressure vessel 3 in an airtight communication with the pressure vessel 3 and the working chamber 7, An air lock chamber (material lock) 16 provided in and a material shaft 10 having an earth and sand bucket 11 for digging and unloading sand, which is vertically movable inside and out,
It is a sediment carrying-out device A which carries out the earth and sand excavated in the working chamber 7 to the outside under atmospheric pressure by the earth and sand bucket 11 in the air lock chamber 16, and the material shaft 10 and the pressure vessel 3 are in an airtight communication state. A chute 12 arranged as described above, and a slide that is provided on the material shaft 10 side of the chute 12 and that is capable of moving up and down for adjusting the storage of sediment in the chute and the discharge to the sediment bucket 11 in the material shaft 10. Sediment transshipment means comprising a gate 13 and a tiltable earth and sand receiving plate 15 provided in the pressure vessel 3 for guiding the excavated earth and sand from the working chamber 7 supplied by the clamshell bucket 8 to the chute 12. The excavated earth and sand transported by the clamshell bucket 8 from the working chamber 7 to the pressure vessel 3 by the material shaft 10 In wait to have pneumatic caisson for sand unloading apparatus characterized by being configured to be transshipped to sediment bucket 11.