JP4679948B2 - Pneumatic caisson - Google Patents

Description

  The present invention relates to a pneumatic caisson suitable for efficiently inspecting and repairing an excavator even if it is a small-diameter caisson provided with a maintenance lock.

  FIG. 10 is a longitudinal side view showing an example of the prior art.

  A conventional pneumatic caisson 41 shown in FIG. 10 includes a caisson housing 42, a blade opening 43, a working chamber slab 44, and an upper slab 45.

  A space surrounded by the blade opening 43 and the work chamber slab 44 is a work chamber 46.

  A space surrounded by the caisson housing 42, the working chamber slab 44, and the upper slab 45 is partitioned into a maintenance lock 51 for excavator, a lifting chamber 52 for workers, and a double slabman lock 53 by partition walls 47 and 48. Has been.

  The partition walls 47 and 48 are each provided with a transverse opening 49 having a transverse hatch 50.

  The working chamber slab 44 is provided with an excavator recovery opening 54 at a position communicating with the maintenance lock 51, and a man opening 55 at a position communicating with the double slab manlock 53.

  On the other hand, the material lock opening 56 is provided above the excavator collection opening 54 in the upper slab 45, and the lift device opening 57 is provided at a position communicating with the lift chamber 52.

  A traveling rail 58 is laid on the ceiling of the work chamber 46. An excavator 59 is suspended from the traveling rail 58. The excavator 59 is remotely operated by a control signal issued from a remote operation room 60 installed on the ground or the like.

  An excavator recovery hatch 61 having a hatch 62 is attached to the excavator recovery opening 54.

  A man hatch 63 having a hatch 64 is attached to the man opening 55.

  On the lower surface of the upper slab 45, an excavator collection device 65 is disposed above the excavator collection hatch 61.

  A material shaft 66 having a hatch 67 is attached to the material lock opening 56. A material lock 68 having a lower hatch 69 and an upper hatch 70 is connected to the upper portion of the material shaft 66.

  A lifting device 71 is inserted into the lifting device opening 57 from above the upper slab 45 to the inside of the lifting chamber 52. An elevator 72 for workers is provided inside the lifting device 71.

  The working chamber 46, the maintenance lock 51, the lifting chamber 52, and the double slabman lock 53 are provided with pressure increasing / decreasing devices (not shown) that can be controlled from the outside of the caisson housing 42.

  In the pneumatic caisson 41 configured as described above, the excavator 59 travels along the traveling rail 58 by the control signal from the remote operation chamber 60, excavates the ground G at the bottom of the work chamber 46, and the caisson housing 42 is Let it sink.

  The excavated earth and sand of the ground G is loaded into an earth and sand bucket (not shown), and is carried out from the working chamber 46 to the ground through the excavator recovery hatch 61, the maintenance lock 51, the material shaft 66 and the material lock 68, and is discharged.

  When the excavator 59 is inspected and repaired and can be recovered by the maintenance lock 51, the excavator 59 is removed from the work chamber 46 through the excavator recovery hatch 61 by the excavator recovery device 65 provided in the maintenance lock 51. It collects in the maintenance lock 51 and depressurizes to atmospheric pressure. Then, an operator gets on the elevator 72 of the elevator device 71 and descends into the elevator chamber 52, enters the maintenance lock 51 from the elevator chamber 52 through the transverse opening 49 provided in the partition wall 47, and moves the excavator 59 Check and make necessary repairs.

  After the excavator 59 has been inspected and repaired, the worker enters the lift chamber 52 through the maintenance opening 51 through the transverse opening 49, climbs using the lift 72 of the lift device 71, and exits the ground.

  On the other hand, the excavator 59 that has been inspected and repaired pressurizes the maintenance lock 51 to the same pressure as that in the work chamber 46, returns the maintenance lock 51 to the work chamber 46 through the excavator recovery hatch 61, and transfers to the traveling rail 58. It is used again for excavation of the ground G.

  When a failure occurs in the excavator 59 that cannot be recovered by the maintenance lock 51, an operator gets on the elevator 72 of the elevator 71 and enters the elevator chamber 52. The double slab man lock 53 is entered through the opening 49, helium mixed gas equipment is mounted at a deep depth, and the work chamber 46 is entered from the double slab man lock 53 through the man hatch 63, and the excavator 59 Inspect, confirm, and repair the malfunctioning part.

After inspecting and repairing the excavator 59, the worker enters the man hatch 63 and the double slabman lock 53 from the work chamber 46, removes the helium mixed gas equipment at a constant pressure during decompression, and reduces the oxygen pressure. While performing, depressurize to atmospheric pressure. Then, the helium mixed gas equipment is returned to its original position, enters the lifting chamber 52 through the transverse opening 49, rises on the elevator 72 of the lifting device 71, and returns to the ground.
Japanese Patent No. 3405537

  By the way, in the above-mentioned prior art, the daily inspection, repair, assembly, and dismantling work of the excavator 59 is performed by collecting the excavator 59 in the maintenance lock 51 by remote control and inspecting the excavator 59 in the atmospheric pressure. ing.

  In addition, in the case where a failure occurs in which the excavator 59 cannot be recovered in the maintenance lock 51, a double slabman lock 53 is provided so that an operator can enter and exit the maintenance lock 51 and the double slabman lock 53. The lift chamber 52 is provided.

  However, when the prior art is a small-diameter caisson, a space surrounded by the caisson housing 42, the working chamber slab 44, and the upper slab 45 is divided into a maintenance lock 51, a lifting chamber 52, and a double slabman lock 53. There is a problem that the maintenance lock 51 having a required size cannot be secured.

  The present invention has been made in view of the above circumstances, and the object of the present invention is to secure a maintenance lock having a width necessary for collecting and inspecting and repairing an excavator even in a small-diameter caisson. To provide a pneumatic caisson.

  Another object of the present invention is to provide a pneumatic caisson that is easy to use, simplifies equipment, and can reduce equipment costs.

To achieve the pre-Symbol purpose, in the first aspect of the present invention of the present invention, the space surrounded by the caisson skeleton 2 and working chamber slab 4 and the upper slabs 5 and can be used as a maintenance lock 7, the working chamber slab 4 is provided with an excavator recovery opening 8 and an earth discharge opening 9, and an excavator recovery device 18 is attached to the upper slab 5 above the excavator recovery opening 8. The material lock opening 11 is provided above the portion 9, the manlock opening 12 is provided at a position disengaged from the material lock opening 11 and the excavator recovery device 18, and the excavator recovery opening 8 is provided. The excavator recovery hatch 13 is attached, the earth / sand carrying opening 15 is attached to the earth / sand carrying opening 9, and the material lock 22 has a material lock 22 at the upper part thereof. Attach the Rushafuto 21, wherein the man locking opening 12 is mounted a man shaft 27 having a man lock 29 comprises and upper lifting equipment 28 therein.

In order to achieve the above object, according to the second aspect of the present invention, a space surrounded by the caisson housing 2, the work chamber slab 4, and the upper slab 5 can be used as the maintenance lock 7, and the work chamber The slab 4 is provided with an excavator recovery opening 8, and the upper slab 5 is provided with an excavator recovery device opening 10 above the excavator recovery opening 8, along with a manlock opening 12. An excavator recovery hatch 13 is attached to the excavator recovery opening 8, and the excavator recovery apparatus opening 10 includes an excavator recovery apparatus 18 therein, and an opening for carrying out earth and sand. The excavator recovery device lock 17 having 17 'is attached, and the excavator recovery device lock 17 is connected to the upper part of the excavator recovery device lock 17' by the earth and sand carrying opening 17 ', and the material shaft 21 having the material lock 22 at the upper portion. Connected to the opening 12 for the manlock, a man shaft 27 having an elevating equipment 28 inside and having a manlock 29 on the top is attached, and the excavator recovery hatch 13, the maintenance lock 7, and the excavator recovery apparatus are used. The lock 17 is also used as earth and sand carrying means communicating with the material shaft 22 through the earth and sand carrying opening 17 '.

Furthermore, in order to achieve the object, in the invention described in claim 3 of the present invention, the space surrounded by the caisson skeleton 2 and working chamber slab 4 and the upper slabs 5 and can be used as a maintenance lock 7, the working The chamber slab 4 is provided with an excavator recovery opening 8 and an earth and sand carrying opening 9, and the upper slab 5 is provided with an excavator recovery device opening 10 above the excavator recovery opening 8. A material lock opening 11 is provided above the earth and sand carrying opening 9, a manlock opening 12 is provided at a position deviated from these openings, and the excavator recovery opening 8 has an excavator recovery. The excavator recovery device lock 17 having an excavator recovery device 18 is attached to the excavator recovery device opening 10. Mounting, A material shaft 21 having a material lock 22 is attached to the upper portion 11 for the real lock, and a man shaft 27 having an elevating equipment 28 inside and a manlock 29 is attached to the upper portion of the manlock opening 12. ing.

In the invention according to the first aspect of the present invention, the space surrounded by the caisson skeleton 2 and working chamber slab 4 and the upper slab 5 is available as a maintenance lock 7. The working room slab 4 is provided with an excavator recovery opening 8 to which an excavator recovery hatch 13 is attached. Further, an excavator collecting device 18 is attached to the upper slab 5 above the excavator collecting opening 8. Therefore, when the excavator is inspected and repaired, the excavator is recovered from the working chamber 6 into the maintenance lock 7 through the excavator recovery hatch 13 by the excavator recovery device 18. Therefore, even in the invention according to the second aspect, even in the case of a small-diameter caisson, there is an effect that the excavator can be thoroughly checked in the wide maintenance lock 7 and can be efficiently checked and necessary repairs can be performed.

Further, according to the first aspect of the present invention, the work chamber slab 4 is provided with the earth and sand carrying opening 9 and the earth and sand carrying hatch 15 is attached thereto. Further, the upper slab 5 is provided with a material lock opening 11 above the earth and sand carrying-out opening 9, and a material shaft 21 having a material lock 22 on the upper part is attached to the material lock opening 11. The excavated earth and sand can be loaded into the earth and sand bucket, and the earth and sand bucket can be freely carried out from the working chamber 6 to the ground through the earth and sand carrying hatch 15, the maintenance lock 7, the material shaft 19 and the material lock 20 and discharged.

Also in the invention according to claim 2 of the present invention, the space surrounded by the caisson housing 2, the working chamber slab 4 and the upper slab 5 can be used as the maintenance lock 7. Further, the excavator recovery opening 8 is provided in the work chamber slab 4, and the excavator recovery hatch 13 is attached thereto. On the other hand, the upper slab 5 is provided with an excavator recovery device opening 10 above the excavator recovery opening 8, and the excavator recovery device opening 10 has an excavator recovery device 18 therein. A machine recovery device lock 17 is attached. Therefore, when the excavator is inspected and repaired, the excavator is recovered from the working chamber 6 into the maintenance lock 7 through the excavator recovery hatch 13 by the excavator recovery device 18. Therefore, according to the invention described in claim 3, even with a caisson having a smaller diameter, there is an effect that the excavator can be efficiently checked in the wide maintenance lock 7 and can be efficiently inspected and necessary repairs can be performed. is there.

Further, according to the second aspect of the present invention, the earth and sand carrying-out opening 17 ′ is provided in the upper part of the excavator recovery device lock 17 and communicated with the earth and sand carrying-out opening 17 ′. The material shaft 21 which has is connected. Then, the excavated earth and sand are loaded into the earth and sand bucket, and the earth and sand bucket is loaded from the work chamber 6 to the excavator recovery hatch 13, the maintenance lock 7, the excavator recovery apparatus lock 17, the earth and sand carrying opening 17 ′, the material shaft 21 and the material. It can be carried out to the ground freely through the lock 22 and discharged.

In addition, in the invention described in claim 2 , in addition to omitting the partition wall having the transverse opening and the like, the earth and sand carrying hatch is omitted, and the material shaft 21 having the material lock 22 is communicated with the earth and sand carrying opening 17 '. Thus, since it is connected to the excavator recovery device lock 17, the facility can be further simplified and the facility cost can be greatly reduced.

Furthermore, in the invention according to claim 3 of the present invention, the space surrounded by the caisson housing 2, the working chamber slab 4 and the upper slab 5 can be used as the maintenance lock 7. Further, the working chamber slab 4 is provided with an excavator recovery opening 8 to which an excavator recovery hatch 13 is attached. Further, the upper slab 5 is provided with an excavator recovery device opening 10 above the excavator recovery opening 8, and the excavator provided with the excavator recovery device 18 in the excavator recovery device opening 10. A recovery device lock 17 is attached. Therefore, when the excavator is inspected and repaired, the excavator is recovered from the working chamber 6 into the maintenance lock 7 through the excavator recovery hatch 13 by the excavator recovery device 18. Therefore, the invention according to claim 4 also has an effect that even a small-caliber caisson can efficiently check the excavator within the wide maintenance lock 7 and perform necessary repairs.

  Embodiments of the present invention will be described below with reference to the drawings.

Basic configuration

1 and 2 show the basic configuration of the present invention. FIG. 1 is a longitudinal side view of a state in which the ground at the bottom of a work room is excavated, and FIG. 2 is a state in which the excavator is recovered in a maintenance lock. It is a vertical side view.

The pneumatic caisson 1 having the basic configuration of the present invention shown in FIGS. 1 and 2 includes a caisson housing 2, a blade edge 3, a working chamber slab 4, and an upper slab 5.

  A space surrounded by the blade edge 3 and the work chamber slab 4 is a work chamber 6.

  A space surrounded by the caisson housing 2, the working chamber slab 4, and the upper slab 5 can be used as a maintenance lock 7 for an excavator.

  The working chamber slab 4 is provided with an excavator collection opening 8. On the other hand, the upper slab 5 is provided with a material lock opening 11 and a manlock opening 12.

  The excavator recovery opening 8 is provided in the substantially central portion of the work chamber slab 4. An excavator recovery hatch 13 having a hatch 14 is attached to the upper portion of the excavator recovery opening 8.

  The material lock opening 11 is provided substantially on the center line of the excavator collection opening 8. A material shaft extension hatch 19 having a hatch 20 therein is attached to the upper portion of the material lock opening 11. A material shaft 21 is connected to the material shaft extension hatch 19. A material lock 22 having a lower hatch 23 and an upper hatch 24 is connected to the upper portion of the material shaft 21.

  An excavator recovery device 18 is attached to the upper slab 5 at the side of the material lock opening 11 so as to correspond to the excavator recovery hatch 13.

  The manlock opening 12 is provided beside the material lock opening 11. A man shaft extending hatch 25 having a hatch 26 inside is attached to the upper portion of the manlock opening 12. The man shaft extending hatch 25 is connected to a man shaft 27 having a stair as an elevating equipment 28 inside. A man lock 29 having a man hatch 30 is connected to the upper portion of the man shaft 27.

  A traveling / transverse rail 31 is laid on the ceiling of the work chamber 6. An excavator 32 is suspended from the traveling / crossing rail 31. This excavator 32 is remotely operated by a control signal emitted from a remote operation room 33 installed on the ground or in a suitable place in the caisson housing 2 so as to excavate the ground G at the bottom of the work room 6 in a normal use state. It has become.

  Inside the excavator recovery opening 8, a lifting rack 34 for excavator recovery is installed.

  When excavating the ground G at the bottom of the work chamber 6, a soil bucket 35 for carrying out excavated soil is provided. A wire rope 36 for lifting and pulling down is attached to the earth and sand bucket 35.

  The caisson housing 2 is provided with a pressure increasing / decreasing device 37 facing the maintenance lock 7. The pressurizing and depressurizing device 37 can be controlled from the outside of the caisson housing 2.

  The pneumatic caisson 1 configured as described above is used and operates as follows.

  First, when excavating the ground G at the bottom of the work chamber 6 and sinking the caisson housing 2, the excavator 32 is driven by a control signal issued from the remote operation chamber 33 while the work chamber 6 is maintained at a high atmospheric pressure. -Move along the transverse rail 31 and excavate the ground G with the excavation bucket 32 '.

  Then, the earth and sand bucket 35 is moved into the work chamber 6 through the material lock 22, the material shaft 21, the material lock opening 11, the maintenance lock 7, and the excavator recovery hatch 13 through the wire rope 36 shown by the phantom line in FIG. And place it on the ground G at the bottom of the working chamber 6. Next, the excavated earth and sand are loaded into the earth and sand bucket 35 by the excavating bucket 32 ′, and the earth and sand bucket 35 is pulled up to the ground by the wire rope 36 and discharged.

  All the above operations are repeated by remote operation, the ground G at the bottom of the work chamber 6 is excavated, and the caisson housing 2 is sunk.

  Next, when the excavator 32 is inspected and repaired, it is performed as follows.

(A) The earth and sand bucket 35 is pulled up into the material shaft 21 or the material lock 22 and the hatch 20 in the material shaft extension hatch 19 is closed.
(B) The excavator 32 in the working chamber 6 is moved from the traveling / crossing rail 31 to the lifting platform 34 installed in the excavator collection opening 8.
(C) The lifting platform 34 is pulled up by the excavator collecting device 18 that has been previously suspended on the lifting platform 34, and the excavator 32 is collected in the maintenance lock 7 as shown by the solid line in FIG.
(D) After collecting the excavator 32 in the maintenance lock 7, the hatch 14 of the excavator collection hatch 13 is closed.
(E) The inside of the maintenance lock 7 is depressurized to the atmospheric pressure by the pressure increasing / decreasing device 37, and the atmospheric pressure is maintained.
(F) An operator gets off the manlock 29 using the lifting equipment 28 in the manshaft 27 and enters the maintenance lock 7. Then, the worker checks the excavator 32 and repairs it if necessary.
(G) After inspecting and repairing the excavator 32, the worker climbs the lifting equipment 28 in the man shaft 27, enters the man lock 29, closes the man hatch 30, and exits from the man lock 29.
(H) After pressurizing the maintenance lock 7 to the same pressure as the working chamber 6, the excavator recovery device 18 lowers the lifting platform 34 and the excavator 32, passes through the excavator recovery hatch 13, and the excavator In the state where 32 is suspended, the lifting mount 34 is suspended in the excavator collection opening 8. Next, the excavator 32 is moved from the lifting platform 34 to the traveling / crossing rail 31 and suspended in a usable state as shown by a solid line in FIG.
(I) Then, the excavator 32 is operated again to perform excavation work.

  By the way, when a failure occurs in which the excavator 32 cannot be recovered in the maintenance lock 7 and the inside of the maintenance lock 7 can be decompressed, the hatch 14 of the excavator recovery hatch 13 and the hatch 19 for extending the material shaft. Close the hatch 20.

  Next, the worker descends from the manlock 29 using the lifting equipment 28 in the man shaft 27, enters the maintenance lock 7 through the man shaft extension hatch 25, and pressurizes the maintenance lock 7 to the pressure in the work chamber 6. Subsequently, the hatch 14 of the excavator recovery hatch 13 is opened, the excavator recovery opening 8 is entered into the working chamber 6, the excavator 32 is inspected, and necessary repairs are performed.

  After the inspection and repair of the excavator 32, the worker returns from the working chamber 6 to the maintenance lock 7 through the excavator recovery opening 8 and the excavator recovery hatch 13, and tightens the hatch 14 of the excavator recovery hatch 13. The maintenance lock 7 is depressurized to atmospheric pressure, enters the man shaft 27 through the man lock opening 12 through the man shaft extension hatch 25, climbs using the lifting equipment 28 in the man shaft 27, and moves the man lock 29. Go through the ground.

  However, when a failure occurs that prevents the excavator 32 from being collected in the maintenance lock 7 and when a failure occurs that prevents the maintenance lock 7 from being externally depressurized, the following operation is performed. The excavator 32 is inspected and repaired.

(A) The man hatch 30 is closed, and the inside of the manlock 29 is returned to atmospheric pressure. An operator enters the manlock 29 under atmospheric pressure.
(B) In the manlock 29, for example, when working at a high pressure and at a deep depth, the worker is equipped with a helium mixed gas equipment and is in a state where the pressure is reduced to a constant pressure at the time of decompression. Wear high-pressure oxygen equipment.
(C) The inside of the manlock 29 is pressurized to the same pressure as the maintenance lock 7.
(D) Opening the man hatch 30, the worker gets down using the lifting / lowering equipment 28 of the man shaft 27, enters the maintenance lock 7 through the man shaft extending hatch 25, passes through the excavator recovery hatch 13, and then enters the work room. 6 is entered, the excavator 32 is inspected, the fault location is confirmed, and necessary repairs are performed.
(E) After inspecting and repairing the excavator 32, the worker enters the maintenance lock 7 through the excavator recovery hatch 13 from the work chamber 6, and then opens the manlock opening 12 and the manshaft extension hatch 25. , Using the lifting and lowering equipment 28 of the man shaft 27, opening the man hatch 30, entering the man lock 29, closing the man hatch 30, returning the man lock 29 to atmospheric pressure, helium mixed gas equipment and high partial pressure Take off the oxygen equipment, return it to its original position, and exit the manlock 29 to the ground.

As can be understood from the above description, according to this basic configuration , the space surrounded by the caisson housing 2, the working chamber slab 4, and the upper slab 5 can be used as the maintenance lock 7. However, the excavator 32 is recovered in the maintenance lock 7 by using the excavator recovery device 18 attached to the upper slab 5, and the excavator 32 is efficiently inspected and repaired by a worker. Can do.

Further, according to this basic configuration , when the excavator 32 breaks down and the excavator 32 cannot be recovered from the work chamber 6 into the maintenance lock 7, the worker can move the manlock 29 to the man shaft 27, The maintenance lock 7 and the excavator recovery hatch 13 can be freely entered into the work room 6 to check and repair the faulty excavator 32. After the excavator 32 is inspected and repaired, the worker can work. From the chamber 6, it passes through the excavator recovery hatch 13, the maintenance lock 7 and the man shaft 27 and enters the man lock 29, where it can freely come out to the ground.

Further, in this basic configuration , the excavated earth and sand are loaded into the earth and sand bucket 35, and the earth and sand bucket 35 is freely carried out from the working chamber 6 to the ground through the excavator recovery hatch 13, the maintenance lock 7, the material shaft 21, and the material lock 22. Can be soiled.

  Here, when the material shaft 21 and the man shaft 27 are added, by closing the hatch 20 of the material shaft extending hatch 19 and the hatch 26 of the man shaft extending hatch 25, regardless of the atmospheric pressure in the maintenance lock 7, The material shaft 21 and the man shaft 27 can be added. However, even if both extension hatches are not provided, the volume becomes large, but the maintenance lock 7 can be set to atmospheric pressure, so that both shafts can be added.

Furthermore, in this basic configuration , the operator's elevator room, double slabman lock, and the partition wall that divides these rooms are omitted, and a space surrounded by the caisson housing 2, work room slab 4, and upper slab 5 is excavated. Since the maintenance lock 7 for the machine is released, the equipment can be simplified and the equipment cost can be reduced.

Next, FIG. 3 is a longitudinal side view showing a first embodiment of the present invention.

In the first embodiment shown in FIG. 3, an earth discharge opening 9 is provided beside the excavator recovery opening 8 in the work chamber slab 4.

  On the other hand, the upper slab 5 is provided with a material lock opening 11 substantially on the center line of the earth and sand carrying-out opening 9.

  The earth and sand carrying opening 15 is provided with a earth and sand carrying hatch 15 having a hatch 16.

  A material shaft extension hatch 19 having a hatch 20 is attached to the material lock opening 11. A material shaft 21 is connected to the upper portion of the material shaft extension hatch 19. A material lock 22 having a lower hatch 23 and an upper hatch 24 is connected to the upper portion of the material shaft 21.

Thus, in this first embodiment, when carrying out the earth and sand excavated by the excavator 32, the earth and sand bucket 35 is loaded with the excavated earth and sand, the hatch 16 of the earth and sand carrying out hatch 15, and the hatch 19 of the material shaft extending hatch 19. 20, the lower hatch 23 of the material lock 22 is opened, and the earth and sand bucket 35 is moved from the work chamber 6 to the earth and sand bucket 35 by the wire rope 36, the maintenance lock 7, the material lock opening 11, the material shaft extension hatch 19, The material passes through the material shaft 21 and the lower hatch 23, temporarily stops in the material lock 22, closes the lower hatch 23, depressurizes the lock to atmospheric pressure, opens the hatch 24, and transports it to the ground for discharging.

Other configurations and operations of the first embodiment are the same as the basic configuration .

4 to 6 show a second embodiment of the present invention, FIG. 4 is a longitudinal side view, FIG. 5 is a sectional view taken along line AA in FIG. 4, and FIG. It is line sectional drawing.

In the second embodiment shown in FIGS. 4 to 6, the excavator recovery device opening 10 is provided substantially on the center line of the excavator recovery opening 8 in the upper slab 5.

  An excavator recovery device lock 17 is attached to the excavator recovery device opening 10 so as to correspond to the excavator recovery hatch 13. The excavator recovery device lock 17 is provided with an opening 17 'for carrying out earth and sand. Further, an excavator recovery device 18 is mounted inside the excavator recovery device lock 17.

  A material shaft extending hatch 19 having a hatch 20 is provided in the earth and sand carrying opening 17 ′ provided in the excavator recovery device lock 17. A material shaft 21 is connected to the material shaft extension hatch 19. A material lock 22 having a lower hatch 23 and an upper hatch 24 is connected to the upper portion of the material shaft 21.

In the second embodiment, the excavator recovery hatch 13, the maintenance lock 7, and the excavator recovery device lock 17 are connected to the material shaft 21 through the earth and sand carrying opening 17 ′ and the material shaft extension hatch 19. It is also used as an earth and sand transport means.

Therefore, in the second embodiment, when the excavator 32 is inspected and repaired, the earth and sand bucket 35 is pulled up in the material shaft 21, in the material lock 22, or outside as indicated by a virtual line in FIG. Close the hatch 20 of the material shaft extension hatch 19.

  Next, the hatch 14 of the excavator recovery hatch 13 is opened, the excavator recovery device 18 is fed out from the excavator recovery device lock 17, and is hung on the lifting platform 34 installed in the excavator recovery opening 8. .

  Subsequently, the excavator 32 is moved from the traveling / traverse rail 31 to the lifting platform 34.

  Then, the excavator collecting device 18 that has been previously suspended on the lifting rack 34 is lifted up by the excavator collecting apparatus 18, and the excavator 32 is collected in the maintenance lock 7 as indicated by a virtual line in FIG. Perform repairs.

Moreover, when carrying out excavation earth and sand in this 2nd Example, it carries out as follows.

  First, the lifting mount 34 in the excavator collection opening 8 is removed in advance.

  Next, the earth and sand bucket 35 is moved to the material lock 22, the material shaft 21, the material shaft extension hatch 19, the earth and sand carrying opening 17 ′, the excavator recovery device lock 17, the maintenance lock 7 and the excavator recovery via the wire rope 36. Guided into the work chamber 6 through the hatch 13 and placed on the ground G at the bottom of the work chamber 6.

  Then, the earth and sand bucket 35 is loaded with excavated earth and sand by the excavating bucket 32 ′ of the excavator 32.

  Next, the earth and sand bucket 35 loaded with the excavated earth and sand is pulled up by the wire rope 36, the excavator recovery hatch 13, the maintenance lock 7, the excavator recovery device lock 17, the earth and sand carrying opening 17 ', the material shaft from the work chamber 6 It is carried to the ground through the extension hatch 19, the material shaft 21 and the material lock 22, and is discharged.

According to the second embodiment, the excavator recovery hatch 13, the maintenance lock 7 and the excavator recovery device lock 17 are connected to the material shaft 21 through the earth and sand carrying opening 17 ′ and the material shaft extension hatch 19. Since it is also used as the earth and sand carrying means that communicates, the maintenance lock 7 having a necessary width is secured even in the caisson having a smaller diameter, and the excavator 32 is collected in the maintenance lock 7 and the excavator 32 is recovered. Can be checked and repaired efficiently and efficiently.

Other configurations and operations of the second embodiment are the same as the basic configuration .

FIGS. 7 to 9 show a third embodiment of the present invention. FIG. 7 is a longitudinal side view, FIG. 8 is a cross-sectional view taken along the line CC of FIG. 7, and FIG. It is D line sectional drawing.

In the third embodiment shown in FIGS. 7 to 9, the excavator recovery device opening 10 is provided substantially on the center line of the excavator recovery opening 8 in the upper slab 5.

  An excavator recovery device lock 17 is attached to the excavator recovery device opening 10. The excavator recovery device lock 17 is equipped with an excavator recovery device 18.

Thus, in this third embodiment the excavator 32 and collected in the maintenance lock 7, when inspection and repair, feeding the excavator collecting device for locking 17 excavator recovery device equipped in the 18, the The excavator collecting device 18 is lifted and held on the mount 34. Then, the excavator 32 is moved from the traveling / crossing rail 31 to the lifting platform 34. Next, the lifting platform 34 is pulled up by the excavator collecting device 18, and the excavator 32 is collected in the maintenance lock 7 for inspection and repair.

Other configurations and operations of the third embodiment are the same as those of the second embodiment.

  In each embodiment, the material shaft extending hatch 19 and the manshaft extending hatch 25 may be omitted.

BRIEF DESCRIPTION OF THE DRAWINGS FIG . 1 shows a basic configuration of the present invention, and is a longitudinal side view of a state where a ground at the bottom of a work chamber is excavated. In the same basic composition , it is a vertical side view of the state where the excavator was collected in the maintenance lock. It is a vertical side view which shows the 1st Example of this invention. It is a vertical side view which shows the 2nd Example of this invention. It is the sectional view on the AA line of FIG. It is the BB sectional view taken on the line of FIG. It is a vertical side view which shows the 3rd Example of this invention. It is CC sectional view taken on the line of FIG. It is the DD sectional view taken on the line of FIG. It is a vertical side view which shows an example of a prior art.

DESCRIPTION OF SYMBOLS 1 Pneumatic caisson 2 Caisson housing 3 Cutting edge 4 Working room slab 5 Upper slab 6 Working room 7 Maintenance lock 8 Excavator collection opening 9 Sediment unloading opening 10 Excavator collection apparatus opening 11 Material lock opening DESCRIPTION OF SYMBOLS 12 Manlock opening 13 Excavator recovery hatch 15 Sediment transport hatch 17 Excavator recovery device lock 18 Excavator recovery device 19 Material shaft extension hatch 21 Material shaft 22 Material lock 25 Manshaft extension hatch 27 Manshaft 28 Elevating equipment 29 Manlock 31 Traveling and traversing rail 32 Excavator 33 Remote control room 37 Pressurizing / depressurizing device G Ground at the bottom of work room 17 'Opening for carrying out earth and sand provided in excavator recovery device lock

Claims (3)

The space surrounded by the caisson housing (2), the working room slab (4) and the upper slab (5) can be used as a maintenance lock (7).
The working chamber slab (4) is provided with an excavator collection opening (8) and an earth and sand carrying opening (9) ,
An excavator recovery device (18) is attached to the upper slab (5) above the excavator recovery opening (8), and a material lock opening (11) above the earth and sand carrying opening (9 ). Providing a manlock opening (12) at a position disengaged from the material lock opening (11) and the excavator recovery device (18) ,
The excavator recovery hatch (13) is attached to the excavator recovery opening (8), the earth and sand discharge hatch (15) is attached to the earth and sand discharge opening (9), and the material lock opening (11) is attached with a material shaft (21) having a material lock (22) at the top, the manlock opening (12) is provided with an elevating device (28) inside and a manlock (29) at the top. fitted with a man shaft (27) having,
Pneumatic caisson characterized by that. The space surrounded by the caisson housing (2), the working room slab (4) and the upper slab (5) can be used as a maintenance lock (7).
The working chamber slab (4) is provided with an excavator collection opening (8 ) ,
The upper slab (5) is provided with an excavator recovery device opening (10) above the excavator recovery opening (8), and a manlock opening (12) is provided beside it .
An excavator recovery hatch (13) is attached to the excavator recovery opening (8), and the excavator recovery apparatus opening (10) is provided with an excavator recovery device (18) inside and at the top. An excavator recovery device lock (17) having an earth discharge opening (17 ') is attached, and an upper portion of the excavator recovery device lock (17) is communicated with the earth discharge opening (17'). A material shaft (21) having a material lock (22) at the top is connected, and the manlock opening (12) is provided with a lifting device (28) inside and a man lock (29) at the top. Attach the shaft (27),
Sediment connecting the excavator recovery hatch (13), maintenance lock (7), and excavator recovery device lock (17) to the material shaft (22) via the sediment transport opening (17 '). Also used as an unloading means,
Pneumatic caisson characterized by that. The space surrounded by the caisson housing (2), the working room slab (4) and the upper slab (5) can be used as a maintenance lock (7).
The working chamber slab (4) is provided with an excavator collection opening (8) and an earth and sand carrying opening (9) ,
The upper slab (5) is provided with an excavator recovery device opening (10) above the excavator recovery opening (8), and a material lock opening above the earth and sand carrying opening (9). (11) is provided, man locking opening (12) provided at a position deviated from the openings,
An excavator recovery hatch (13) is attached to the excavator recovery opening (8), and a sediment transport hatch (15) is attached to the sediment transport opening (9). An excavator recovery device lock (17) equipped with an excavator recovery device (18) is attached to the opening (10), and the material lock opening (11) has a material lock (22) at the top. A shaft (21) was attached, and the manlock opening (12) was provided with a man shaft (27) having an elevating equipment (28) inside and having a manlock (29) in the upper part ,
Pneumatic caisson characterized by that.

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