JPS6016699A - Shield propelling method by two-stage jack - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a shield propulsion method in tunnel excavation.

For tunnel excavation using shields, shield propulsion jaws,
The shield is advanced while receiving the reaction force of the force with the assembled segments, but at this time, the advancement of the shield and the assembly of the segments are performed alternately, and the shield is stopped until the assembly of one row of segments is completed. ◎The shield propulsion method of the present invention uses a telescopic two-stage jack consisting of a first jack, a second jack, and a jack as the shield propulsion jack, and assembles the segments. It is characterized by the fact that the inside also promotes the shield,
The purpose is to significantly shorten the construction period for tunnel excavation using the shield.

The present invention will be specifically explained below based on the drawings.

In Fig. 1 showing a conventional example of tunnel excavation using a shield, 1 is a shield, 2H cutter, 3 is a skin rate, 4 is a shield propulsion jack, and 5 is an erector-16.
is a segment, and FIG. 1 shows the state immediately before the stopped shield starts moving forward.

FIG. 2 shows the arrangement of the shield propulsion jacks 4, and FIG. 3 shows the formation of one row of lining rings by segments 6. In the case shown, three shield propulsion jacks 4 are arranged. The trap is such that the reaction force acts on one segment 6.

In this conventional example, the shield J [was used].
Although the shield propulsion jack according to the present invention is of the usual form consisting of a cylinder and a piston, as shown in FIG. This is a two-stage jack that combines the jacks 8 in a telescopic manner.

In FIG. 4, reference numeral 9 denotes a cylinder of a second jack 8 fixed to the inner surface of the skin plate 3 of the shield via a pair of main girders 10. A cylinder 11 is fitted in the shape of a piston, and a piston rod 12 of the first jack 7 is fitted into the cylinder 11. The cylinders 11 of each 2' stage jack arranged in the circumferential direction of the shield are integrally connected via an inner girder 13.

In the construction method of the present invention, the shield is advanced even during segment assembly using the special jack as described above, and one embodiment of the method will be described below with reference to FIG.

Activate the first jack 7 from state A to enter the state, and when the piston rod of the first jack and key 7 has extended to an appropriate length beyond the middle of the segment, one segment is moved as shown in state C. Start assembling row B segments by retracting the piston rod of the jack.

At the same time, the second jack 8 of each jack is activated to move the shield forward, but at this time, the reaction force of the jack in state C acts on the inner girder 13 and the first jack 7 of the other jack shown in FIG. and the column A segment.

In state 2, the assembly of the segment behind the jacket in state No. 2 has been completed, and the other segments of row B are being assembled, and of course the shield continues to move forward at this time as well.

In state E, all segments of column B are assembled, and
The shield is shown advanced as far as necessary to assemble the next row of segments. Here, the first jacks 7 of all the jacks are actuated to advance their cylinders to the state shown in FIG. 1, which corresponds to the state entrance.

Therefore, again, let the state ノ\, 2, ho, and so on,
By repeating this, it is possible to excavate a tunnel without stopping the shield.

The present invention uses the aforementioned two-stage jack for propulsion and advances the shield even during segment assembly, so the tunnel excavation period can be shortened by a large amount (about half). Not only that, the device used only requires replacing the jack part of the conventional shield,
It is also advantageous in this respect.

[Brief explanation of the drawing]

Fig. 1 is an overall view showing the mode of tunnel excavation by the shield, Fig. 2 is a layout diagram of the shield propulsion jack, Fig. 3 is an assembly diagram of the segments, and Fig. 4 is the installed state of the shield propulsion jack used in the present invention. FIG. 5 is an explanatory diagram of one embodiment of the present invention. In the figure, 3... skin plate, 7... first jack, 8... second jack, 9.11... cylinder, 1
2... Piston rod, 13... Inner girder 0 Patent applicant Fudo Construction Co., Ltd. Agent Patent attorney Tsukasa Someya Figure 1 Item 4 O Figure 5 Procedural amendment 1981 Patent application no. No. 122234 2 Title of the invention Based on 2-stage Nyaya. -7 Soup propulsion method 3 Relationship with the weight of the person making the amendment Patent applicant address 2-1 Udagawa-cho, Shibuya-ku, Tokyo 5 Amendment 6u Ordinance 1 old j Spontaneous 'i,,')'1
j,',,'1j (6 Number of inventions increased by amendment 0 7 Subject of amendment (contents of amendment) 1 Akira1t (II-Zen, page 1, line 6 was revised as -1.11 Two.

Claims (1)

[Claims] Shield propulsion by a two-stage jack, characterized in that a telescopic two-stage jack consisting of a first jack and a second jack is used as the shield propulsion jack, and the shield is propelled even during segment assembly. Construction method.