JPH08159626A - Artificial snow falling machine - Google Patents

Abstract

PURPOSE: To perform a well-balanced distribution of an air expansion energy in an expansion turbine in an artificial snow falling machine using the expansion turbine between a compressor and an axial power generator so as to make a compact-sized artificial snow falling machine. CONSTITUTION: There are provided an expansion turbine 2 for adiabatically expanding air to perform cooling operation, an axial power generator 12 arranged coaxially with the expansion turbine 2, a compressor 1 and a nozzle 6 for injecting water to a discharging side of the expansion turbine 2, wherein air compressed by the compressor 1 is fed from air coolers 3 and 4 into the expansion turbine 2. Air compressed at the compressor 1 is not fed to the expansion turbine 2, but discharged into the surrounding air so as to eliminate the air coolers 3 and 4, respectively.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an artificial snowfall machine using an expansion turbine.

[0002]

2. Description of the Related Art As a conventional artificial snowfall machine, there is a compressor expansion turbine type. As shown in FIG. 3, this artificial snowfall machine includes an expansion turbine 2 for adiabatically expanding and cooling the air and a cold air generator combined with the compressor 1 for compressing the air, which is coaxially installed with the expansion turbine 2. It is composed of a nozzle 6 for spraying water supplied from a water pump 8 to a discharge side through a water supply pipe 9.
The compressor 1 driven by the expansion turbine 2 compresses the air from the suction pipe 7, introduces the compressed air into the upper expansion turbine 2 cooled by the intercoolers 3 and 4, and adiabatically expands the air to cool it. Then, the expansion turbine 2 is driven while cooling to cool air. By spraying water from the nozzle 6 into the duct 5 on the discharge side of the expansion turbine 2 that discharges this cold air, snow is generated.

Another example of a conventional artificial snowfall machine is:
There is a shaft generator / expansion turbine type. As shown in FIG. 4, this artificial snowfall machine is equipped with an expansion turbine 2 that adiabatically expands and cools air, and a shaft power generation that is equipped coaxially with the expansion turbine 2 and that includes a stator 10 and a rotor 11 that converts expansion energy of air into electric energy. It is composed of a cold air generator combined with a machine 12, and a nozzle 6 for spraying water supplied from a water pump 8 through a water supply pipe 9 to the discharge side of the expansion turbine 2. The air introduced into the expansion turbine 2 through the suction pipe 7 is adiabatically expanded by the expansion turbine 2 to be cooled to be cold air and drive the expansion turbine 2. Snow is generated by spraying water from the nozzle 6 into the duct 5 on the discharge side of the expansion turbine 2 from which the cool air is discharged. Further, the shaft generator 12 generates electric energy by the electromagnetic action between the rotor 11 driven by the expansion turbine 2 and the stator 10.

[0004]

In the above-mentioned conventional compressor / expansion turbine type artificial snow machine, the expansion energy of the air in the expansion turbine 2 is entirely used as the power of the coaxial compressor 1. The air energy is high and as a result the air temperature is high. Therefore, in order to obtain the planned cool air at the outlet of the expansion turbine 2, it is necessary to reduce the increased air temperature to the set value, and there is a problem that the intercoolers 3 and 4 must be enlarged. It was

In the conventional shaft generator / expansion turbine type artificial snow machine, since the expansion energy of the air in the expansion turbine 2 is entirely converted into electric energy in the shaft generator 12, the intermediate cooler is used. No longer needed
Although the device is small, there is a problem in that the power receiving equipment needs to be modified or newly installed, and the initial cost increases.

[0006] The present invention is intended to provide an artificial snowfall machine that can solve the above problems.

[0007]

[Means for Solving the Problems]

(1) The artificial snowfall machine of the present invention cools the expansion turbine that adiabatically expands and cools the air, the shaft generator and the compressor that are respectively installed coaxially with the expansion turbine, and the air compressed by the compressor. It is characterized by comprising an air cooler introduced into the expansion turbine, and a spraying means for spraying water to the discharge side of the expansion turbine.

(2) The artificial snowfall machine of the present invention is an expansion turbine for adiabatically expanding and cooling air, a shaft generator coaxial with the expansion turbine and a compressor for discharging discharge air to the atmosphere, And a spray means for spraying water to the discharge side of the expansion turbine.

In the present invention (1), the air compressed by the compressor driven by the expansion turbine is adiabatically expanded in the upper expansion turbine cooled by the air cooler to become cold air. Snow is generated by spraying water from the spraying means into the cold air discharged from the expansion turbine.

Further, since the shaft generator and the compressor are provided coaxially with the expansion turbine, the expansion energy of the air in the expansion turbine is distributed and converted into the compression work of the compressor and the electric work of the shaft generator. Therefore, the expansion energy of the air in the expansion turbine can be distributed in a good balance between the compression work of the air in the compressor and the electric work in the shaft generator, and the adiabatic expansion efficiency of the expansion turbine can be improved. Can be generated. Further, the air cooler can be made smaller, and the device can be made compact, and the shaft generator can also have a small capacity, so that addition and modification of peripheral equipment can be small.

In the present invention (2), snow is generated by injecting water from the spraying means into the cold air that is adiabatically expanded in the expansion turbine, cooled, and discharged.

Further, as in the case of the present invention (1), since the shaft generator and the compressor are provided coaxially with the expansion turbine, the expansion energy of the air in the expansion turbine causes the compression work of the compressor and the electric power of the shaft generator to increase. It is distributed in a balanced manner and converted into work. Furthermore, since the air discharged from the compressor is released to the atmosphere, there is no need to provide an air cooler for cooling the air compressed by the compressor and introducing it into the expansion turbine as in the present invention (1). The device can be made more compact.

[0013]

1 is a block diagram of a first embodiment of the present invention.
It will be explained by. 1 is pressure from the suction pipe 7: 6 to 7
K is a compressor to which compressed high-pressure low-temperature air of 4 to 6 ° C. is supplied, and 12 is a shaft generator equipped with a stator 10 and a rotor 11.
2 and the compressor 1 are coaxially equipped with an expansion turbine 2 that adiabatically expands and cools air, and the expansion turbine 2 drives the rotor 11 of the shaft generator 12 and the compressor 1.

The discharge side of the compressor 2 is connected to the suction side of the expansion turbine 2 via a primary intercooler 3 and a secondary intercooler 4. Further, a plurality of nozzles 6 for spraying water supplied from a water pump 8 through a drain pipe 9 into the duct 5 on the discharge side of the expansion turbine 2 are provided.

In this embodiment, the high-pressure low-temperature air having a pressure of 6 to 7 K and a temperature of 4 to 6 ° C. that has passed through the suction pipe 7 is driven by the expansion energy of the air in the coaxial expansion turbine 2 in the compressor 1. It is pressurized by and becomes high temperature and high pressure air. This high-temperature and high-pressure air is cooled in the primary intercooler 3 and the secondary intercooler 3 to obtain a temperature of 1
It becomes high pressure air below 0 ° C.

The cooled high pressure air is introduced into the expansion turbine 2 and adiabatically expanded. By this, -100
The expansion turbine 2 is driven while low-pressure cold air of ℃ to -130 ℃ is obtained. This low-pressure cold air is used by the expansion turbine 2
The water sprayed from the nozzle 6 into the discharge side duct 5 is cooled to produce snow.

A shaft generator 1 mounted coaxially by an expansion turbine 2 driven by adiabatic expansion of air.
The rotor 11 of No. 2 and the compressor 1 are driven. The driven compressor 1 compresses air as described above, and the rotor 11 of the shaft generator 12 rotates at high speed to generate electric power by electromagnetic action between the rotor 11 and the stator 10.

As described above, the expansion energy of the air in the expansion turbine 2 is distributed and converted into the compression work of the air of the compressor 1 and the electric work of the shaft generator 12.
Therefore, the expansion energy of the air in the expansion turbine 2 can be distributed in a well-balanced manner to the compression work of the air in the compressor 1 and the electric work of the shaft generator 12, so that the adiabatic expansion efficiency of the expansion turbine can be improved, and cold air of sufficiently low temperature can be obtained. Can be generated. Further, the temperature rise of the air due to compression in the compressor 1 is suppressed to a low level, the primary and secondary intermediate air coolers 3 and 4 can be downsized to make the device compact, and the shaft generator 12 that generates electric power. The capacity will be small and addition and modification of peripheral equipment will be small.

A second embodiment of the present invention will be described with reference to FIG. The present embodiment differs from the first embodiment of the present invention in that compressed high-pressure low-temperature air having a pressure of 6 to 7 K and a temperature of 4 to 6 ° C. is sucked from an intake pipe 7 of an expansion turbine 2. The air is sucked into the compressor 1 through the air suction port 13 and the compressor 1
The primary and secondary intercoolers 3 and 4 are omitted so that the air compressed in Step 2 is released to the atmosphere through the atmosphere outlet 14, and there is no difference in the other configuration. 2, the same reference numerals as in FIG. 1 are given and the description thereof is omitted.

In the present embodiment, the pressure supplied from the suction pipe 7 is 6 to 7 K and the temperature is 4 to 6 ° C.
Adiabatic expansion is performed in the expansion turbine 2, and -80 ° C to -1
The low-pressure cold air of 30 ° C. is obtained, and the expansion turbine 2 is driven. This low-pressure cold air is the first embodiment of the present invention.
As in the case of the embodiment, the water sprayed from the nozzle 6 into the duct 5 on the discharge side of the expansion turbine 2 is cooled to generate snow.

A shaft generator 1 mounted coaxially by an expansion turbine 2 driven by adiabatic expansion of air.
The rotor 11 of No. 2 and the compressor 1 are driven. The driven compressor 1 compresses the air sucked from the air suction port 13 and discharges the compressed air to the air from the air discharge port 14, and in the shaft generator 12, the first embodiment of the present invention. Generates electric power as well.

In this way, in the present embodiment, the expansion energy of the air in the expansion turbine 2 that obtains the cold air that produces artificial snow is distributed in a well-balanced manner between the compression work of the air in the compressor 1 and the electric work of the shaft generator 12. In addition, the apparatus can be made more compact without the need for the primary and secondary intermediate air coolers 3 and 4 in the first embodiment of the present invention.

[0023]

According to the artificial snowfall machine of the present invention described in claim 1, since the shaft generator and the compressor are provided coaxially with the expansion turbine, the expansion energy of the air in the expansion turbine is well balanced. Is converted into electric power generated by the machine and air compression work in the compressor,
The adiabatic expansion efficiency of the expansion turbine is improved, and cold air of sufficiently low temperature can be generated.

Further, as the apparatus, since the expansion energy of air in the expansion turbine is divided into the compression work of the air and the electric energy, the cooler for cooling the air compressed and heated by the compressor is downsized. In addition to being compact, the shaft generator also has a small capacity, so the power receiving equipment and the like can be downsized.

Further, in the artificial snowfall machine of the present invention described in claim 2, since the shaft generator and the compressor are provided coaxially with the expansion turbine, the same as the invention described in claim 1 In addition, the expansion energy of the air in the expansion turbine can be converted in good balance into the electric power generated by the shaft generator and the compression work of the air in the compressor.

Furthermore, since the air compressed in the compressor is discharged to the atmosphere, a cooler for the air compressed in the compressor is not required, and the apparatus can be made more compact.

[Brief description of drawings]

FIG. 1 is a schematic diagram of a first embodiment of the present invention.

FIG. 2 is a schematic diagram of a second embodiment of the present invention.

FIG. 3 is a schematic view of a conventional compressor / expansion turbine type artificial snow machine.

FIG. 4 is a schematic view of a conventional shaft generator / expansion turbine type artificial snow machine.

[Explanation of symbols]

 1 Compressor 2 Expansion Turbine 3 Primary Intercooler 4 Secondary Intercooler 5 Duct 6 Nozzle 7 Suction Pipe 8 Water Pump 9 Water Supply Pipe 10 Stator 11 Rotor 12 Axial Generator 13 Atmosphere Inlet 14 Atmosphere Outlet

Claims (2)

[Claims] 1. An expansion turbine that adiabatically expands and cools air, a shaft generator and a compressor that are respectively installed coaxially with the expansion turbine, and air that cools the air compressed by the compressor and introduces it to the expansion turbine. An artificial snowmaking machine comprising a cooler and spraying means for spraying water to the discharge side of the expansion turbine. 2. An expansion turbine that adiabatically expands and cools air, a shaft generator that is coaxial with the expansion turbine, a compressor that discharges discharge air to the atmosphere, and water spray on the discharge side of the expansion turbine. An artificial snowfall machine comprising a spraying means for