US3415574A - Tunnel driving machine steering system - Google Patents

Tunnel driving machine steering system Download PDF

Info

Publication number: US3415574A
Authority: US; United States
Prior art keywords: tunnel; trunnion; tunnel driving; machine; driving machine
Prior art date: 1966-03-11
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Expired - Lifetime

Application number

US621038A

Other languages

English (en)

Inventor

Lauber Ernst

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

MASCHINENFABRIK HABEGGER AG

Original Assignee

MASCHINENFABRIK HABEGGER AG

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1966-03-11

Filing date

1967-03-06

Publication date

1968-12-10

1967-03-06 Application filed by MASCHINENFABRIK HABEGGER AG filed Critical MASCHINENFABRIK HABEGGER AG

1968-12-10 Application granted granted Critical

1968-12-10 Publication of US3415574A publication Critical patent/US3415574A/en

1985-12-10 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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Classifications

- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21D—SHAFTS; TUNNELS; GALLERIES; LARGE UNDERGROUND CHAMBERS
- E21D9/00—Tunnels or galleries, with or without linings; Methods or apparatus for making thereof; Layout of tunnels or galleries
- E21D9/10—Making by using boring or cutting machines
- E21D9/1093—Devices for supporting, advancing or orientating the machine or the tool-carrier
- E—FIXED CONSTRUCTIONS
- E21—EARTH OR ROCK DRILLING; MINING
- E21D—SHAFTS; TUNNELS; GALLERIES; LARGE UNDERGROUND CHAMBERS
- E21D9/00—Tunnels or galleries, with or without linings; Methods or apparatus for making thereof; Layout of tunnels or galleries
- E21D9/10—Making by using boring or cutting machines
- E21D9/11—Making by using boring or cutting machines with a rotary drilling-head cutting simultaneously the whole cross-section, i.e. full-face machines
- E21D9/116—Making by using boring or cutting machines with a rotary drilling-head cutting simultaneously the whole cross-section, i.e. full-face machines by means of non-concentric rotary heads

Definitions

a tunnel driving system comprises a tunnel driving machine adapted to be guided by the walls of a tunnel being driven, a steering device consisting of a self-contained unit, and towing means detachably connecting said steering device as a trailer to said tunnel driving machine.
the rear end of the tunnel driving machine has a rearwardly extending trunnion, which is adjustable in two different directions which are normal to the axis of the trunnion and at an angle to each otherQ
the steering device comprises adjusting means which engage the trunnion and are operable to adjust the trunnion in said two directions.
This invention relates to a tunnel driving machine, which is guided by the wall of the tunnel behind the tools disposed on the forward face of the machine.
a tunnel When a tunnel is driven by a machine, it must be possible to correct an unintended deviation from the required direction of the tunnel as well as to drive a curved tunnel.
the main axis of the machine For these purposes, the main axis of the machine must be laterally displaced relative to the axis of the tunnel in a horizontal direction to the left and right and in a vertical direction upwardly and downwardly.
a machine which has a central axial main tube, which is provided in each of two spaced apart transverse planes with four hydraulic jacks, to which running gears are secured in such a manner that respective running gears roll along the tunnel floor, the tunnel roof and the two side walls of the tunnel.
the pistons of the rear jacks remain in an intermediate position and the running gears of these jacks define a point of reference whereas one of the forward jacks is extended and the opposite one is retracted so that the axis of the machine follows a curve.
this steering system requires a special de sign of the overall machine. It is unfavorable that the steering jacks are relatively close to the drilling or cutting tools, where the highest cutting forces are effective.
the adjustment of the jacks requires an expensive and complicated hydraulic control system and the operation is complicated and difficult.
Another known machine comprises a control shoe closely behind the drum which carries the cutting tools, and a supporting shoe at the rear portion of the machine.
the position of the control shoe is changed with the aid of a hydraulic jack whereas the supporting shoe serves as a point of reference.
the steering conditions are not clearly apparent and the steering device is very close to the cutting zone so that the possibility of an occurrence of errors during the correction is increased.
the same remark is applicable to a modification, in which adjustable running gears comprising rollers are used rather than the control shoe which slides on the floor of the tunnel.
Another known steering device which has been used originally with the so-called shield jacking machines, comprises advancing jacks, which are used also for a change in direction.
the advancing jacks are laterally disposed in most cases, a steering is possible ice only in a horizontal plane whereas vertical changes in direction are elfected by a vertical adjustment of the control shoe or running gears which have been described.
the design and operation are relatively complicated.
the advancing jacks are in most. cases obliquely arranged between the body of the machine and the lateral abutment plates so that difiicult geometrical conditions result during the driving of a tunnel along a curve and render an accurate steering almost impossible. Difiicult corrections must then be made by hand in accordance with special calculations, and an automatic control with this system is not possible.
the invention is essentially characterized in that the tunnel driving machine is provided with a steering device, which consists of a self-contained unit, which is independently supported in the tunnel and disposed behind the tunnel driving machine and is detachably connected to it by towing rods or the like, and the tunnel driving machine is provided at its rear end with a preferably central trunnion, which extends rearwardly and is held in the steering device for adjustment in two directions, which are at an angle to each other and normal to the axis of the trunnion, preferably in vertical and horizontal directions.
a steering device which consists of a self-contained unit, which is independently supported in the tunnel and disposed behind the tunnel driving machine and is detachably connected to it by towing rods or the like
the tunnel driving machine is provided at its rear end with a preferably central trunnion, which extends rearwardly and is held in the steering device for adjustment in two directions, which are at an angle to each other and normal to the axis of the t
the steering device is designated as an independent unit, it is not influenced 'by the design of the tunnel driving machine and the latter may have carrying bodies of various types, e.g., an assembly of tubular sections or a lattice structure or a central axial main element. It is sufiicient if the tunnel driving machine is provided with the rearwardly extending, central trunnion.
the steering device may be disconnected from the tunnel driving machine in the tunnel and can be separately transported too. It will be understood that an adjustment of the trunnion in one direction and/or the other will result in a change of the position of the axis of the machine relative to the tunnel axis so that the desired steering to both sides and upwardly and downwardly is enabled.
the movement of the trunnion is resolved into two components so that all directions can be obtained whereas the control is restricted to two straight-line movements so that the control device can be simple and clearly arranged.
the steering movement is transmitted to a point which is spaced as far as possible from the forward guide means for the tunnel driving machine so that the steering can be etfected with a higher accuracy and the rigid guidance of the tunnel driving machine in the tunnel is improved by the large length in which the machine is fixed.
Such rigid guidance is required for drilling in hard rock.
the tunnel driving machine can be guided and supported substantially by rigid parts.
Two screws which are adapted to be driven independently of each other, are provided for adjusting the trunnion. These screws may be driven by respective worm gearings, e.g., from an electric stop motor or a hydraulic motor. In contrast to hydraulic jacks, the screws can be controlled in a simple manner so that the possibility of errors in operation is much reduced]. If a self-holding bushbutton control system is employed for generating the adjusting commands, a first pair of pushbuttons for one movement, e.g., the horizontal movement, and another pair of pushbuttons for the other movement, e.g., for the vertical movement, are sufficient.
the pushbuttons may be mounted on a control panel which is remote from the machine and disposed, e.g., at the station where the direction of the tunnel axis is controlled so that the steering is remotely controlled.
the design according to the invention enables an automatic control of the adjustment of the trunnion.
a gyro compass provided with a course recorder may be mounted on the tunnel driving machine so that the deviation of the direction of the machine axis from the desired direction is indicated and transmitted to a surface integrator.
the integrator and the electronic control circuitry convert then the deviations from the course into control commands for switching the motors for driving the screws so that steering of the machine is fully automatic.
the operator of the machine may steer by a direct actuation of the pushbuttons.
the adjusting commands required for steering along an are or a pregiven curve may be stored as a program in the electronic control circuitry.
each spindle carries a crosshead, which is guided so as to be non-rotatable and provided with female screw threads, and a connecting-rod is connected to the crosshead and is formed at its other end with a bearing eye for the trunnion.
the trunnion is held in the two connecting-rods, each of which leads to a crosshead, and the trunnion can be adjusted as desired by a displacement of the crossheads by means of the screws.
the trunnion carries a bearing ring or the like, to which a tension element is connected, which extends approximately in the bisector of the angle between the screws and is connected to a. hydraulic jack, to which pressure fluid is constantly applied.
a carriage which is displaceable by one of the screws in a guide frame, and the trunnion is received by a bearing body, which is mounted in the carriage for displacement by the other screw in a direction which is transverse to the direction of movement of the carriage.
the housing or the like which contains the means for adjusting the trunnion is mounted with two rollers on rails which are carried by a lower carriage, and, by means of hydraulic jacks, to which pressure is constantly applied, the housing is urged against a skid which engages the roof of the tunnel.
the housing As the housing is mounted on the two rollers, it can follow the vertical adjustment of the trunnion and the resulting inclination of the machine axis and of the trunnion while the rollers perform slight movements along the rails.
the axes of the rollers are inclined relative to each other and the rollers have conical treads and conical flanges.
a force-transmitting connection between the housing or the like and the tunnel driving machine in the axial direction of the trunnion is obtained by the provision of at least one compression spring, which acts between the lower carriage and the housing or the like, and cooperating pressure and slide bars are mounted on the rear end face of the tunnel driving machine and the forward end wall of the housing.
Each of the rails for the carriage is supported by vertical and horizontal supports against two runners, which are interconnected by diagonal struts, and the supports and diagonal struts are exchangeable against similar elements, which are shorter or longer. It is thus possible to use the same carriage for tunnels which ditter in diameter, provided that the supports and struts are exchanged against longer or shorter ones.
supplemental members can be inserted between the housing or the like and the jacks which provide for the top support, or between these jacks and the sliding shoe.
the sliding shoe consists suitably of two lateral skids, which are connected by ribs, and of a cover sheet.
the carriage and the skids as well as the sliding shoe may be replaced by rollers or by crawler systems.
FIG. 1 is a side elevation showing a tunnel driving machine provided with a steering device
FIG. 2 is a similar view showing the steering device on a larger scale
FIG. 3 is a transverse sectional view taken on line III III of FIG. 2,
FIG. 4 is a transverse sectional view taken on line IV-1V of FIG. 2 in a tunnel which is smaller in diameter.
FIG. 5 is a longitudinal sectional view taken on line VV of FIG. 4.
FIG. 6 is a transverse sectional view taken on line VIVI of FIG. 2 on a smaller scale
FIG. 7 is a top plan view showing the towing rod assembly at the lower carriage.
FIG. 8 is a sectional view taken on the level of the top of the rails and showing the rollers
FIG. 9 is a diagrammatic view showing another means for adjusting the steering device.
the tunnel driving machine shown in FIG. 1 comprises a machine body 1, which is composed of a plurality of tube sections, and a drum 2, which is rotatably mounted on the front end of the machine body and carries the tool units 3.
a propulsion unit 4 comprising hydraulic jacks is provided for propelling the machine.
the tunnel driving machine comprises a sliding shoe 5, which bears on the floor of the tunnel.
a top sliding shoe 6 is forced by hydraulic jacks 7 against the roof of the tunnel and is connected by thrust rods 8 to the machine body 1.
a belt conveyor 9 serves for the removal of material.
a rearwardly extending, central trunnion 10 is pro vided at the rear end of the tunnel driving machine 1 and is held in the steering device for adjustment in vertical and horizontal directions.
the steering device comprises a support in the form of a housing 11, which consists of end plates and of spacing angles, which connect the end plates.
the housing 11 carries on the underside track rollers 12, which are mounted between oblique carrying plates and by which the housing is mounted on rails 13 of a lower carriage.
the track rollers 12 have conical treads and conical flanges so that the housing can be pivotally moved laterally, as is apparent from FIG. 8, and the housing 11 can also be forwardly and rearwardly inclined on the rails 13 with a slight rolling movement of the track rollers 12 on the rails 13.
a compression spring 14 bears on the carriage and produces a force P to force the housing 11 against the rear end wall of the tunnel driving machine 1.
Pressure bars 15 and slide bars 16 (FIG. 6), which cross the pressure bars, are provided on the rear end wall of the machine 1 and on the forward end wall of the housing, respectively.
Each of the two rails 13 of the carriage is supported by struts 17 on two skids 18, which are interconnected by diagonal struts 19.
Cross-connectors 20 are provided between the rails 13 and the lower skids 18.
the supports 17 and the diagonal struts 19 may be replaced by similar elements, which are shorter or longer. This is apparent from a comparison of FIGS. 3 and 4. In this way, the carriage can be adapted to different tunnel diameters.
a walk-on platform 21 may be provided on the carriage and may be used in applying gunite to the tunnel wall or for drilling holes for anchors to be inserted into .5 the rock.
a core drilling machine 22 may be mounted on the carriage for transverse movement.
Core drilling or probing operations before the tunnel driving machine may be carried out with this core drilling machine through the hollow trunnion 10, the machine body 1, and the drum 2, which has a central bore.
Such core drilling operations furnish valuable geological information concerning the nature of the rock and the occurrence of water during the tunnel driving operation.
the housing 11 is supported at the top by hydraulic jacks 23, to which pressure fluid is constantly applied, against a sliding shoe, which contacts the roof of the tunnel and consists of two lateral skids 24, which are connected by ribs 25, and of a cover sheet 26.
a plurality of supplemental members 27 are inserted between the jacks 23 and the housing 11 (FIGS. 2 and 3). In tunnels which are smaller in diameter, the number of these supplemental members, which are entirely identical, is correspondingly reduced, as is shown in FIG. 4.
the skids 24 are articulatedly connected to the body 1 of the tunnel driving machine by towing rods 28.
a swing beam 29 is pivoted to the forward transverse tube 20 of the lower carriage and the lower towing rods 20 and pivoted to the swing beam 29 and connected to the machine body 1 (FIG. 7).
Two screws 31, 32 are provided for adjusting the trunnion 10.
the screws extend in vertical and horizontal directions, respectively, and are rotatably mounted in the housing and held against axial movement relative thereto.
Each screw 31, 32 carries a crosshead 33, which is provided with female screw threads and guided on side bars so as to be held against rotation. A rotation of the screws will thus result in a corresponding displacement of the associated crosshead.
Each crosshead 33 has connected to it a two-part connecting rod 34, which is formed at the other end with a bearing eye for the trunnion 10.
a bearing ring 35 is mounted on the trunnion between the connecting rods.
a roller chain 36 is connected to the bearing ring 35 and extends around a reversing roller 37 and then approximately in the bisector of the angle between the two connecting rods 34 to a piston drive 38. Oil under pressure is constantly applied to the rod end of the piston of the piston drive 38 so that a tensile force Z is exerted on the trunnion 10 and the entire adjusting device is held free of backlash. This is essential for a firm fixation of the tunnel driving machine.
FIG. 3 shows the trunnion in an intermediate position, in which the axis of the tunnel driving machine coincides with the axis of the tunnel.
the trunnion is horizontally adjusted by a distance Y in a vertical direction and by a distance X in a horizontal direction so that the axis of the tunnel driving machine deviates in "vertical and horizontal directions from the tunnel axis.
the tunnel can be driven with a downward inclination and at the same time with a curvature to the right. This adjustment with the aid of the screws is required not only for driving curved portions of the tunnel but also for a correction of unintended deviations from the intended axis of the tunnel.
Each of the two screws 31, 32 is driven from an electric stop motor 39 by means of a flexible coupling, a worm gearing 40 land a chain drive 41.
the motor must be a stop motor so that the rotor is immediately braked when the adjusting command has ceased, and the rotor is then blocked so that an unintended adjustment is prevented.
a hydraulic motor may be provided, to which oil under pressure is applied and which has such a small rotor mass that it is immediately stopped when the supply of oil has been shut oif.
the control may be eifected by electric contacts with the aid of magnetic valves, which shut oif the supply and discharge of hydraulic oil to and from the motor to block the same when the valves are in an intermediate position.
FIG. 9 shows a different means for adjusting the trun- 6. nion 10. This means is similar in operation to a compound slide.
a carriage 42. is mounted in the housing 11 for upward and downward displacement by a screw 31.
the worm wheel of the worm gearing 40 is formed with the female screw threads and the screw 31 is held against rotation.
a bearing body 43 is mounted in the carriage 42 and receives the trunnion 10. The bearing body 43 can be reciprocated in a horizontal direction, transversely to the direction of movement of the carriage 42, by the screw 32.
Each of the worm gearings. 40 is driven by an electric or hydraulic motor.
a tunnel driving system which comprises a tunnel driving machine adapted to be guided along the walls of a tunnel being driven, a steering device consisting of a self-contained unit, towing means connecting said steering device as a trailer to said tunnel driving machine, and means for supporting said tunnel driving machine and said steering device independently of each other in said tunnel, said tunnel driving machine having a rear end, which carries a rearwardly extending trunnion and which is adjustable in two different directions, which are normal to the axis of said trunnion and at an angle to each other, said steering device comprising adjusting means, which engage said trunnion land are operable to adjust said trunnion in said two directions.
said steering device comprises a frame, in which said screws are rotatably and axially non-displaceably mounted, each of said screws carries a crosshead, which has female screw threads engaging the respective screw, guide means are provided in engagement with said crossheads to hold the same against rotation, and two connecting rods are provided, each of which is connected at one end to one of said crossheads and is formed at its other end with a bearing eye engaging said trunnion.

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Engineering & Computer Science (AREA)
Mining & Mineral Resources (AREA)
Environmental & Geological Engineering (AREA)
Life Sciences & Earth Sciences (AREA)
General Life Sciences & Earth Sciences (AREA)
Geochemistry & Mineralogy (AREA)
Geology (AREA)
Lining And Supports For Tunnels (AREA)
Excavating Of Shafts Or Tunnels (AREA)

US621038A 1966-03-11 1967-03-06 Tunnel driving machine steering system Expired - Lifetime US3415574A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
DEM0068725		1966-03-11

Publications (1)

Publication Number	Publication Date
US3415574A true US3415574A (en)	1968-12-10

Family

ID=7312745

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US621038A Expired - Lifetime US3415574A (en)	1966-03-11	1967-03-06	Tunnel driving machine steering system

Country Status (7)

Country	Link
US (1)	US3415574A (es)
AT (1)	AT269033B (es)
BE (1)	BE694915A (es)
CH (1)	CH450476A (es)
ES (1)	ES337841A1 (es)
FR (1)	FR1512947A (es)
GB (1)	GB1125118A (es)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3963080A (en) *	1975-01-29	1976-06-15	Dresser Industries, Inc.	Tunneling machine for boring a side drift
EP0141799A1 (de) *	1983-07-15	1985-05-15	VOEST-ALPINE Aktiengesellschaft	Einrichtung zur Korrektur der Steuerung oder Anzeige der Position eines Schrämwerkzeuges einer Schrämmaschine
US4818025A (en) *	1986-11-14	1989-04-04	Hecla Mining Company	Narrow opening mechanical miner
US7695071B2 (en) *	2002-10-15	2010-04-13	Minister Of Natural Resources	Automated excavation machine
US20180043601A1 (en) *	2015-03-02	2018-02-15	Syncro S.R.L.	Calibration cage for the production of blown films
CN111119911A (zh) *	2019-12-04	2020-05-08	中铁隧道集团二处有限公司	一种用于掘进机的液动移位装置

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE4413235C2 (de) *	1994-04-15	1999-04-29	Voest Alpine Tunneltechnik Gmb	Tunnelbohrmaschine bzw. Rohrvortriebsmaschine
CN107653890B (zh) *	2017-10-17	2023-05-26	中交第二航务工程局有限公司	一种下穿隧道的移动式支护结构
CN110905532B (zh) *	2019-11-11	2024-06-11	中交第四航务工程局有限公司	一种带有防喷涌装置的盾构螺旋机
CN113294168B (zh) *	2021-07-07	2022-08-16	青岛市地铁四号线有限公司	一种地铁修建用tbm端井挖掘设备用支撑装置

Citations (5)

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Publication number	Priority date	Publication date	Assignee	Title
DE833335C (de) *	1950-09-20	1952-03-06	Deilmann Bergbau G M B H C	Einrichtung zur Bestimmung der Bohrrichtung von Gesteinsbohrloechern waehrend des Betriebes
US2756036A (en) *	1951-09-21	1956-07-24	Kent C Mcintyre	Excavating apparatus with relatively slidable supporting elements
US3061287A (en) *	1959-04-17	1962-10-30	Goodman Mfg Co	Feeding means for rotary head tunneling machine
US3203737A (en) *	1963-03-18	1965-08-31	Robbins & Assoc James S	Rock driling machine
US3345108A (en) *	1965-09-22	1967-10-03	Hughes Tool Co	Tunneling machine steering system

1967
- 1967-01-27 AT AT77967A patent/AT269033B/de active
- 1967-02-17 CH CH260767A patent/CH450476A/de unknown
- 1967-03-01 GB GB9730/67A patent/GB1125118A/en not_active Expired
- 1967-03-02 FR FR97134A patent/FR1512947A/fr not_active Expired
- 1967-03-02 BE BE694915D patent/BE694915A/xx not_active Expired
- 1967-03-06 US US621038A patent/US3415574A/en not_active Expired - Lifetime
- 1967-03-10 ES ES337841A patent/ES337841A1/es not_active Expired

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
DE833335C (de) *	1950-09-20	1952-03-06	Deilmann Bergbau G M B H C	Einrichtung zur Bestimmung der Bohrrichtung von Gesteinsbohrloechern waehrend des Betriebes
US2756036A (en) *	1951-09-21	1956-07-24	Kent C Mcintyre	Excavating apparatus with relatively slidable supporting elements
US3061287A (en) *	1959-04-17	1962-10-30	Goodman Mfg Co	Feeding means for rotary head tunneling machine
US3203737A (en) *	1963-03-18	1965-08-31	Robbins & Assoc James S	Rock driling machine
US3345108A (en) *	1965-09-22	1967-10-03	Hughes Tool Co	Tunneling machine steering system

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3963080A (en) *	1975-01-29	1976-06-15	Dresser Industries, Inc.	Tunneling machine for boring a side drift
EP0141799A1 (de) *	1983-07-15	1985-05-15	VOEST-ALPINE Aktiengesellschaft	Einrichtung zur Korrektur der Steuerung oder Anzeige der Position eines Schrämwerkzeuges einer Schrämmaschine
US4578627A (en) *	1983-07-15	1986-03-25	Voest-Alpine Aktiengesellschaft	Device for correcting the control or the display of the position of a cutting tool of a cutting machine
US4818025A (en) *	1986-11-14	1989-04-04	Hecla Mining Company	Narrow opening mechanical miner
US7695071B2 (en) *	2002-10-15	2010-04-13	Minister Of Natural Resources	Automated excavation machine
US8016363B2 (en)	2002-10-15	2011-09-13	Eric Jackson	Automated excavation machine
US20180043601A1 (en) *	2015-03-02	2018-02-15	Syncro S.R.L.	Calibration cage for the production of blown films
CN111119911A (zh) *	2019-12-04	2020-05-08	中铁隧道集团二处有限公司	一种用于掘进机的液动移位装置
CN111119911B (zh) *	2019-12-04	2024-04-30	中铁隧道集团二处有限公司	一种用于掘进机的液动移位装置

Also Published As

Publication number	Publication date
AT269033B (de)	1969-03-10
FR1512947A (fr)	1968-02-09
ES337841A1 (es)	1968-03-01
BE694915A (es)	1967-08-14
DE1534647A1 (de)	1969-02-20
GB1125118A (en)	1968-08-28
CH450476A (de)	1968-01-31

Publication	Publication Date	Title
US3415574A (en)	1968-12-10	Tunnel driving machine steering system
US4497378A (en)	1985-02-05	Drilling and bolting turret
US3951215A (en)	1976-04-20	Mobile drilling and bolting machine
US3422949A (en)	1969-01-21	Mobile bridge conveyor steering system
US3437380A (en)	1969-04-08	Steering method and apparatus
US3072241A (en)	1963-01-08	Apparatus for displacing a longitudinal mining conveyor
DE2558647A1 (de)	1977-06-30	Anordnung zum vortrieb von strecken und zum einbringen von streckenausbau
US3504944A (en)	1970-04-07	Devices for tensioning a conveyor in a mineral mining installation
US4526495A (en)	1985-07-02	Mine roof support assembly
EP0199771B1 (de)	1989-01-04	Teilschnittmaschine zum profilgenauen schneiden eines bogenförmigen streckenquerschnittes
US4134620A (en)	1979-01-16	Channelling machine for cutting a preliminary groove around the working face of a tunnel
US3920277A (en)	1975-11-18	Tunnel boring machine roll correction
CN116950673A (zh)	2023-10-27	一种导洞扩孔隧道掘进机及其施工方法
US4355924A (en)	1982-10-26	Tunnel-driving apparatus
US3691775A (en)	1972-09-19	Mineral mining installations
DE3009558A1 (de)	1981-09-24	Buehne fuer den streckenvortrieb im berg- und tunnelbau
US2734724A (en)	1956-02-14	larcxn
DE3415502A1 (de)	1985-10-31	Teilschnittmaschine fuer den streckenvortrieb
US3419312A (en)	1968-12-31	Planer guide arrangement for extraction of mineral in longwall mining operations
US2729946A (en)	1956-01-10	Machine for installing metal mine props
US4380410A (en)	1983-04-19	Mine-roof support
CN113738338B (zh)	2023-04-11	钻孔角度自动调整系统、钻孔工作机构及矿山钻车
US4173280A (en)	1979-11-06	Apparatus for driving a mining machine into a driveway extending from a mining roadway
US2626139A (en)	1953-01-20	Mining machine
US3695718A (en)	1972-10-03	Raise boring machine