JPS61138881A - Vertical shaft pelton turbine - Google Patents

Abstract

PURPOSE:To decrease the floor area to be excavated and reduce a term of setting works, by installing an upper cover to be fixed by an upper cover setting leg, set to the upper surface of a high rigid casing, and enabling a supporting length of an upper cover arm and the setting leg to be reduced. CONSTITUTION:A high rigid casing 5 secures to its upper pat an upper cover setting leg 13, while this setting leg 13 sets an upper cover 7, arranged protruding from a housing 4, to be fixed. In this way, a supporting length of an upper cover arm 7c and the setting leg 13 can be reduced. As a result, the manufacturing cost of a setting part can be reduced while the deformation at concrete placing time can be suppressed because of no necessity for increasing the rigidity as in the past. Further a term of setting works can be reduced because the works both reduce an excavation area of base rock and require only one time concrete placing.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a Pelton water turbine, and more particularly to a vertical shaft Belton water turbine that aims to shorten the installation period.

[Technical background of the invention and its problems]

Conventionally, as shown in FIG. 3, a vertical shaft Belton turbine is fixed to the lower end of a main shaft 1 and has a water jet device 3 disposed around the outer periphery of nine runners 2. This water ejecting device 3 passes through a housing 4 and is connected to a spiral casing 5. Also runner 2
An upper cover 7 is installed on the upper part of the runner to prevent the high-pressure water ejected from the water ejecting device 3 to the runner 2 from scattering into the water turbine chamber 6.
is provided. The upper cover 7 is divided into an inner upper cover 7a and an outer upper cover 7b to facilitate disassembly and assembly of the runner 2, and forms a runner chamber 8 together with the housing 4.

The vertical shaft Belton turbine configured in this way has a housing 4.
It is customary to bury the outside of the pipe in concrete and install it. Therefore, the rock is excavated in advance to ensure sufficient space for installing the casing 5, and then a horizontal floor surface 9 is formed with concrete on the outside of the housing 4.

A plurality of casing installation legs 10 that support the casing 5 are arranged on this floor surface 9, and a level adjustment device 1 such as a cotcoo is installed.
The casing 5 is installed and fixed via 1. The casing 5 is attached to the floor surface 9 by means of support fittings 12 such as turnbuckles.
Connect and fix. Further, the water jet device 3 installed through the nozzle 4 is connected and fixed to the casing 5 after adjusting its position with the runner 2.

On the other hand, the outer upper cover 7b provided on the upper part of the runner 2
A plurality of upper cover arms 7C are provided radially extending from the outer upper cover 7b so as to be supported by the outer upper cover 7b. The upper cover arm 7C has upper cover installation legs 13,
It is installed and fixed via the level adjustment device 14, and the support metal fittings 15
It is connected and fixed to the floor surface 9 by -. In order to prevent concrete from flowing into the runner chamber 8 and water turbine chamber 6 during concrete pouring, the outer upper cover 7b connects the nozzle 4 and the pit liner 16, and then concrete is poured.

However, in this conventional vertical shaft Belton turbine,
Since the upper cover installation legs 13 are arranged outside the casing 5, the excavated floor area becomes large. This resulted in problems such as an increase in the Confucian area, concrete pouring and curing period, etc. Further, the upper cover arm 7C to which the outer upper cover 7bK is fixed is cantilevered up to the upper cover installation leg 13 during the concrete pouring period. Therefore, it is necessary to increase the rigidity of the upper cover arm 7C and the upper cover installation leg 13 to prevent deformation due to their own weight and loads such as buoyancy due to concrete pouring, and to slow down the concrete pouring speed. This increased production costs and construction time.

On the other hand, as a method of shortening the length of the upper cover arm 7C to prevent deformation and reduce the excavation area, an upper cover installation leg may be arranged between the housing 4 and the casing 5. In this case, a space is required to install the upper cover installation legs 13, which makes the casing 5 unnecessarily large, which is not a good idea. Therefore, as shown in Figure 4, a method is used in which concrete is poured in two stages. That is,
After the casing 5 is installed and fixed in the same configuration as shown in FIG. 3, primary concrete is poured up to a predetermined level 17 above the casing 5. After the concrete hardens, the upper cover installation legs 13 are placed near the outer periphery of the Ujifugu 4 on the level 17 floor surface. The outer upper cover 7b is the level adjustment device 1
4 to the upper cover installation legs 13, and also to the floor surface of the level 17 using the supporting metal fittings 15, and then a secondary concrete IJ is poured.

In this case, concrete was poured twice, which caused the problem that the installation work required a long period of time.

[Purpose of the invention]

SUMMARY OF THE INVENTION An object of the present invention is to provide a vertical shaft Belton water turbine that reduces the excavated floor area and shortens the installation period.

[Summary of the invention]

In order to achieve the above object, the present invention provides a housing arranged around the outer periphery of the runner, an upper cover connected to the housing and covering the upper surface of the runner, a casing arranged around the outer periphery of the housing so as to surround the runner, and a casing arranged around the outer periphery of the runner. In a vertical shaft Belton turbine having a casing installation device for installing and fixing the casing to the floor surface around the outer periphery of the housing, an upper cover installation device is fixed to the upper part of the casing. is installed and fixed, thereby reducing the floor area around the outer periphery of the housing and, as a result, reducing the excavation area of the rock.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIG. Components that are the same as those in the prior art shown in FIGS. 3 and 4 are designated by the same reference numerals, and their explanations will be omitted.

8 is a runner chamber, and in this runner chamber 8, a runner 2 fixed to the main shaft 1 and a water jet device [3 are arranged. Also, the upper surface of the runner chamber 8, the inner upper cover 73 and the outer upper cover 7
It is separated from the water turbine chamber 6 by an upper cover 7 composed of b. Furthermore, the water ejecting device 3 passes through a housing 4 that forms the outer peripheral wall of the runner chamber 8 and is connected to the casing 5. This casing 5 has a casing level adjustment device 11
The casing 5 is supported by casing installation legs 10 disposed on the floor surface 9 via the support metal fittings 12 and is connected and fixed to the floor surface 9 . Further, the upper cover arm 7C extending from the outer upper cover 7b is supported via the upper cover installation legs 13 and the level adjustment device 14 arranged on the upper surface of the casing 5, and is connected and fixed to the floor surface 9 by the support fittings 15. has been done. Further, a pit liner 16 is provided on the upper surface of the outer upper cover 7b to form a water turbine chamber 6.

To install the cross-axis Pelton water turbine configured in this manner, the housing 4 is placed and concrete is poured into the bedrock to form an icy flat floor surface 9. After casing installation legs 10 are arranged and fixed on this floor surface 9, the casing 5 is temporarily placed via a casing level adjustment device 11. The casing 5 is level-adjusted and fixed by a casing level adjustment device 11, and is connected and fixed to the floor surface 9 by a support fitting 12.

Then, the water jet device 3 is attached by penetrating the housing 4,
Adjust the position with the runner 2 and connect and fix it to the casing 5. Furthermore, upper cover installation legs 13 are provided on the upper surface of the casing 5.
At the same time, the outer upper cover 7b is temporarily placed via the level adjustment device 14. This outer upper cover 7b is level-adjusted and fixed by a level adjustment device 14, and the floor surface 9
and are connected and fixed by a support fitting 15. After the housing 4 and the pit liner 16 are connected to the outer upper cover 7b, concrete is poured to bury and fix a part of the casing 5 and the outer upper cover 7b.

As explained above, according to this embodiment, the upper cover installation legs 13 are installed on the upper surface of the highly rigid casing 5.
The support length of the upper cover arm 7C and the upper cover installation leg 13 can be shortened. As a result, there is no need to increase rigidity as in the past, so manufacturing costs for installation parts can be reduced and deformation during concrete pouring can be suppressed.

Furthermore, since the excavation area of the bedrock is reduced and concrete can be poured in one time, the installation period can be shortened.

Another embodiment of the invention shown in FIG.
The outer upper cover inner peripheral part 7d is an exposed part and the upper cover installation frame 7e is a concrete buried part.
Each of them is connected by a bolt 18, and the other structure is the same as that of the previous embodiment. In this way, the load acting on the special cover installation legs 13 for concrete pouring only needs to be taken into account from the white path of the installation pedestal 7e, which simplifies the installation support devices such as the top cover installation pedestal 7e and the top cover installation legs 13. can be converted into Further, after concrete is poured, the level of the upper cover 7 can be easily adjusted at the fastening surface with the upper cover mounting frame 7e, which is even better than the previous embodiment.

〔Effect of the invention〕

As explained above, according to the present invention, the supporting length of the outer upper cover installation device can be shortened, so that the excavated floor area and the installation period can be shortened.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a cross-axis Pelton turbine showing one embodiment of the present invention, FIG. 2 is a cross-sectional view showing another embodiment of the present invention, and FIG.
1 and 4 are cross-sectional views showing a conventional cross-axis Pelton water turbine. 2.Runner 4.Using 5.Casing 71. Upper cover 7a...Inner upper cover 7
b. Outer upper cover 70...upper cover arm 7d
Outer upper cover inner peripheral part 7e...upper cover installation frame
9. Floor surface 10. Casing installation leg 13. Upper cover installation leg Representative Patent attorney Kensuke Chika (and 1 other person) Figure 1 Figure 2 Figure 3! ! l Figure 4

Claims (2)

[Claims] (1) A housing arranged around the outer periphery of the runner, an upper cover connected to the housing and covering the upper surface of the runner, a casing arranged around the outer periphery of the housing, and a casing arranged on the floor around the outer periphery of the housing. A vertical shaft Belton water turbine having a casing installation device for installing and fixing the turbine, characterized in that an upper cover installation device is fixed to the upper part of the casing, and the upper cover, which is arranged to protrude from the housing, is installed and fixed by the upper cover installation device. Vertical shaft Belton water turbine. (2) The vertical shaft Belton water turbine according to claim 1, wherein the upper cover is detachably formed in separate parts inside the housing.