JP5467703B1 - Simple steam flow variable steam turbine engine - Google Patents
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Abstract
【課題】
蒸気タービン回転装置は大型固定式が主流であるが、ボイラーや一定圧力の蒸気がある場所に、規模に応じた蒸気タービンを提供する。
【解決手段】
薄目の対熱用ステンレス円盤2枚の間に、必要サイズに応じた羽根板を14枚以上10度前後の斜めに装着、放射する蒸気ノズルからでる蒸気の量に応じ、タービン回転部の外側に2ミリ以上の間隔を置いて、円全体を包むように、外側に円型ケースを設置、その一部に蒸気ノズルを取り付け固定、この円ケース300度反対側に蒸気排気口を開け、少量の蒸気エネルギーを利用、タービンが駆動する蒸気タービンエンジンを提供できる。
【選択図】図1【Task】
The steam turbine rotating device is mainly a large fixed type, but provides a steam turbine according to the scale in a place where there is a boiler or steam at a constant pressure.
[Solution]
Between two thin stainless steel disks for heat resistance, 14 or more blades according to the required size are mounted obliquely at around 10 degrees, and on the outside of the turbine rotating part according to the amount of steam emitted from the radiating steam nozzle A circular case is installed on the outside so as to wrap the entire circle at intervals of 2 mm or more, and a steam nozzle is attached and fixed to a part of the case. A steam exhaust port is opened on the opposite side of this circular case, and a small amount of steam is placed. A steam turbine engine that uses energy and is driven by a turbine can be provided.
[Selection] Figure 1
Description
本発明は、蒸気タービンで、タービンの羽根を蒸気衝動回転型とし、その構成は薄目の対熱用ステンレス円盤2枚の間に、必要サイズに応じた羽根板を14枚以上10度前後の斜めに装着、又この羽根板は前述のステンレス円盤の外周より放射する蒸気ノズルから出る蒸気の量に応じ2ミリ以上小さく蒸気が通りやすい作りとし、このステンレス円盤の中心部には、同円盤固定部品と中には、シャフトを通し、シャフトの両外側には、ピローベアリングをそれぞれ置き、タービン回転部分とし、このタービン回転部の外側に2ミリ以上の間隔を置いて、円全体を包むように外側に円型ケースを設置、その一部に蒸気ノズルを取り付け固定、この円ケース300度反対側に蒸気排気口を開け、このノズルから放射する蒸気がほぼ一順して中心部の回転タービンを回転させ、蒸気が排出する作りとし、復水器を添え、全体の製作加工が容易で少量の蒸気エネルギーを利用、タービンが駆動する構造を特徴とする簡易蒸気流量可変型蒸気タービンエンジンに関するものである。 The present invention is a steam turbine in which the blades of the turbine are of a steam impulse rotating type, and the configuration is between two thin stainless steel disks for heat-resistant, with 14 or more blade plates according to the required size being slanted to around 10 degrees. In addition, the vane plate is made to be smaller than 2 mm depending on the amount of steam emitted from the steam nozzle radiating from the outer periphery of the stainless steel disk, and the steam can pass easily. And inside the shaft, pillow bearings are placed on both outer sides of the shaft to make the turbine rotating part, and the outer part of the turbine rotating part is spaced outside by 2 mm or more to surround the entire circle. A circular case is installed, a steam nozzle is attached and fixed to a part of the case, a steam exhaust port is opened on the opposite side of this circular case, and the steam emitted from this nozzle is almost centered A simple steam flow variable steam turbine engine that features a structure that rotates a rotating turbine and discharges steam, is equipped with a condenser, is easy to manufacture and uses a small amount of steam energy, and is driven by a turbine. It is about.
従来から蒸気タービンは、タービンの羽根の一部を通過する蒸気機関車型、羽根に蒸気が当たる衝動型、大型発電機用には反動型が主流で、最近は小型発電用にフランジ型や蒸気が円をなし、スパイラルにネジ型に回転して放出され回転力を得るものなどが開発されているが、反動型で大型蒸気タービンが主に利用され大容量の蒸気を放出する設計となっている。 Conventionally, steam turbines are mainly steam locomotives that pass through some of the blades of the turbine, impulse types that impinge on the blades, and reaction types for large generators. Recently, flange types and steam have been used for small generators. Although a circle has been developed that rotates in a spiral screw shape to obtain rotational force, etc., a reaction-type large steam turbine is mainly used to release large volumes of steam. .
その他に、低温度蒸気タービン用に渦巻式タービン等の開発もなされているが、使用する回転力に限度があるものが多く、更に前述の反動型タービンは大型で蒸気流量が多く、発電機用で小型蒸気発電機や他の回転駆動用には、蒸気流量が少ない。衝動型タービンの開発が望まれる。 In addition, whirlwind turbines have been developed for low-temperature steam turbines, but many of them have limited rotational force, and the above-mentioned reaction type turbines are large and have a large steam flow rate. For small steam generators and other rotary drives, the steam flow is low. Development of an impulse turbine is desired.
特に蒸気タービンには、蒸気流量が少なく、蒸気エネルギーを最大限生かす手法と制御が安易な設計が求められる。 In particular, steam turbines are required to have a low steam flow rate and a design that makes maximum use of steam energy and easy control.
又、反動型は大型タービンが多く使用されている発電機も大型で設置条件も最良のため、放出される蒸気も最良の乾燥蒸気で、回転スピードが出るが、最良の条件が整わない、発電量が少ない発電装置や小型動力の駆動用には、水分が多い蒸気でも駆動する蒸気タービンの開発が必要である。 The recoil type generator is also a large generator with many large turbines, and the installation conditions are the best, so the steam that is released is the best dry steam and the rotational speed is high, but the best conditions are not met. Development of steam turbines that drive even steam with a lot of moisture is necessary for power generation devices with small amounts and for driving small power.
特にガスや重油を燃焼する蒸気ボイラーは、炉内の燃焼が安定するため、放出する蒸気ノズルの量の一定制御化が容易であるが、バイオマスを燃焼する蒸気ボイラーは、ボイラー炉の燃焼が不安定で温度の一定化が困難で、蒸気流量の安定化装置が必要などの課題が多い。 Especially for steam boilers that burn gas and heavy oil, the combustion in the furnace is stable, so it is easy to control the amount of steam nozzles to be released.However, steam boilers that burn biomass do not burn in the boiler furnace. There are many problems such as stable and difficult temperature stabilization and the necessity of a steam flow stabilization device.
最近では、原子力発電の事故もあって自然エネルギーへの移行が必要で更には、野菜ハウス、野菜工場、養魚場等へ使用する電力やヒーティング装置又、山林、竹林の製材所、木工所、産業廃棄処理業など個々の場所により発生する需要に応じた容量、性能、値段等規模に対応できる発電用蒸気ボイラー及び駆動用蒸気タービンの開発が急務である。 Recently, there is an accident of nuclear power generation, and it is necessary to shift to natural energy. In addition, power and heating equipment used for vegetable houses, vegetable factories, fish farms, mountain forests, bamboo forest sawmills, woodworks, There is an urgent need to develop a steam boiler for power generation and a steam turbine for driving that can respond to the scale of capacity, performance, price, etc. according to the demand generated by individual places such as industrial waste treatment industry.
本発明は、この様な従来の方式や構成が有していた問題点を解決しようとするものであり、小規模で安価な簡易蒸気流量可変型蒸気タービンエンジンを開発し提供する事を目的としたものである。 The present invention is intended to solve the problems of such conventional methods and configurations, and aims to develop and provide a small and inexpensive simple steam flow variable steam turbine engine. It is a thing.
解決しようとする問題点は、
(イ) 必要な場所に応じた多少水蒸気を含む蒸気タービン装置はどうすれば製作できるか。
(ロ) バイオマス、ガス、重油などあらゆる燃料に対応できる安定した回転蒸気ター
ビンはどうすれば製作出来るか。
The problem we are trying to solve is
(B) How can a steam turbine system that contains some steam depending on the required location be manufactured?
(B) How can a stable rotating steam turbine capable of handling any fuel such as biomass, gas, and heavy oil be produced?
請求項1の発明は、蒸気タービンに関するもので、タービンの羽根を蒸気衝動回転型とし、その構成は薄目の対熱用ステンレス円盤2枚の間に、必要サイズに応じた羽根板を
14枚以上10度前後の斜めに装着、又この羽根板は前述のステンレス円盤の外周より、放射する蒸気ノズルから出る蒸気の量に応じ2ミリ以上小さく、蒸気が通りやすい作りとし、このステンレス円盤の中心部には、同円盤固定部品と中にはシャフトを通し、シャフトの両外側には、ピローベアリングをそれぞれ置き、タービン回転部分とし、このタービン回転部の外側に2ミリ以上の間隔を置いて、円全体を包むように外側に円型ケースを設置、その一部に蒸気ノズルを取り付け固定、この円ケース300度反対側に蒸気排気口を開け、このノズルから放射する蒸気がほぼ一順して、中心部の回転タービンを回転させ、蒸気が排出する作りとし、復水器を添え、全体の製作加工が安易で、少量の蒸気エネルギーを利用、タービンが駆動する構造を特徴とする簡易蒸気流量可変型蒸気タービンエンジンを提供するものである。
The invention of claim 1 relates to a steam turbine, wherein the blades of the turbine are of a steam impulse rotating type, and the configuration thereof is between two thin stainless steel disks for heat resistance, and 14 or more blade plates according to the required size. Mounted at an angle of about 10 degrees, and this vane plate is smaller than 2 mm depending on the amount of steam emitted from the steam nozzle radiating from the outer periphery of the stainless steel disk, making it easy for steam to pass through. In the same disk fixing part and the shaft, the pillow bearings are placed on both outer sides of the shaft to make the turbine rotating part, and the outer part of the turbine rotating part is separated by 2 mm or more. A circular case is installed outside so as to wrap the whole, and a steam nozzle is attached and fixed to a part of the case. However, in order to rotate the rotating turbine in the center, steam is discharged, and a condenser is attached, the whole manufacturing process is easy, a small amount of steam energy is used, and the turbine is driven. A simple steam flow variable steam turbine engine characterized by the above is provided.
請求項2の発明は、蒸気タービンの回転数安定化には、回転タービンの中心シャフトの一部に磁石を取り付け、これを非接触センサーで感知しあらかじめ回転数をシーケンスやコントローラー記憶チップに設定しておき、指定数を超えると自動的、瞬時にスライドモーターに伝導、このスライドモーターの回転により、蒸気ノズルの補助サイドレバーが開放、同時に蒸気が放出し、主蒸気ノズルの圧力が低下し、蒸気タービンへの蒸気放射スピードが低下、同蒸気タービンの回転スピードも減少、一定の回転を維持、回転が安定すれば、前述の補助サイドレバーが元に戻り補助レバーからの蒸気の放出も止まる作りで、複雑な装置を必要とする事なく、安定した蒸気タービンの回転数が得られ小型蒸気タービンに最適な構造を特徴とする、請求項1に記載する簡易蒸気流量可変型蒸気タービンエンジンを提供するものである。 In the invention of claim 2, in order to stabilize the rotational speed of the steam turbine, a magnet is attached to a part of the central shaft of the rotating turbine, and this is detected by a non-contact sensor, and the rotational speed is set in a sequence or controller memory chip in advance. When the specified number is exceeded, it is automatically and instantaneously transmitted to the slide motor. The rotation of the slide motor opens the auxiliary side lever of the steam nozzle, and at the same time the steam is released, the pressure of the main steam nozzle drops, and the steam The steam radiation speed to the turbine decreases, the rotation speed of the steam turbine also decreases, maintains a constant rotation, and if the rotation stabilizes, the auxiliary side lever returns to the original state and the steam release from the auxiliary lever stops. It is possible to obtain a stable steam turbine speed without requiring complicated equipment, and to have a structure optimal for a small steam turbine. And it provides a simple steam flow variable steam turbine engine according to claim 1.
上記の発明1の作用は、次の通りである。蒸気衝動回転型で、蒸気の流れる空間を作り、円の300度まで蒸気を円誘導する事で水分の多い蒸気でも、蒸気をもれなく回転羽根を回し、蒸気エネルギーを効率よく利用できる作用があり、復水器を添えており、同じ蒸気を利用、水の使用を抑える作用もある。 The effect | action of said invention 1 is as follows. Steam impulse rotation type, creating a space where steam flows, and by guiding the steam to a circle of 300 degrees, even if there is a lot of moisture, there is an action that can rotate the rotating blade without leaking steam and efficiently use steam energy, A condenser is attached, and the same steam is used to reduce water usage.
第2の発明作用は、簡易流量可変で、蒸気タービンの回転数の正確さで蒸気発電機の回転数の安定化作用が生じた。 The second aspect of the invention is that the flow rate is stabilized and the rotation speed of the steam generator is stabilized with the accuracy of the rotation speed of the steam turbine.
前述した本願発明の簡易蒸気流量可変型蒸気タービンエンジンは、次の効果を発揮する。 The simple steam flow variable steam turbine engine of the present invention described above exhibits the following effects.
第1の発明効果は、
(イ)15気圧から30気圧と高気圧ではなく、完全な乾燥蒸気でもなく、水分を含む蒸気でも回転羽根と外側とのスペースの度合で十分タービンに利用できる。
(ロ)発明タービンは、ノズルから放出される蒸気エネルギーを蒸気機関車の蒸気ピストンと同等の力を得る事が出来る事と非接触型タービンであり、長期交換が不要。
(ハ)小型から中型まで、蒸気タービンの製作が安易などの効果がある。
The effect of the first invention is
(B) The pressure is not 15 to 30 atmospheres and high pressures, and it is not completely dry steam, and even steam containing moisture can be sufficiently used for the turbine due to the degree of space between the rotary blades and the outside.
(B) The invention turbine is a non-contact type turbine that can obtain the same energy as the steam piston of the steam locomotive for the steam energy released from the nozzle, and does not require long-term replacement.
(C) There are effects such as easy manufacture of steam turbines from small to medium.
第2の発明効果は、次の通りである。
蒸気ボイラーは、ガスや重油又は、石炭などであるが、石炭も粉炭にするため、重油等と同じく燃料投下制御が安易であるが、95%以上輸入に頼る事と、原子力の新設が困難な近時、バイオマスを燃料とする蒸気タービンの利用向上が求められ、正確さ、製作設置の安易さ、値段の安さでバイオマス蒸気タービン利用拡大が可能などの効果がある。
The effects of the second invention are as follows.
Steam boilers are gas, heavy oil, coal, etc., but coal is also pulverized, so fuel drop control is as easy as heavy oil, etc., but relying on imports of 95% or more is difficult to establish new nuclear power Recently, improvement in the use of steam turbines using biomass as fuel has been sought, and which has the effect of being able to expand the use of biomass steam turbines with accuracy, ease of production and installation, and low cost.
以上により、発明の簡易蒸気流量可変型蒸気タービンエンジンは、ガスや重油のボイラーの急変による蒸気量の急増や不安定なバイオマス燃焼ボイラーにも対応でき、タービンも作りやすく蒸気エネルギーを使用場所、利用目的に応じて発電利用、揚水ポンプ用、船舶用等の回転駆動用装置としてコンパクトに利用できる。 As described above, the simple steam flow variable steam turbine engine of the invention can cope with a sudden increase in steam volume due to sudden changes in gas and heavy oil boilers and unstable biomass combustion boilers, making it easy to make turbines where steam energy is used and used Depending on the purpose, it can be used in a compact form as a rotary drive device for power generation, pumping pumps, ships and the like.
前述の通り、簡易蒸気流量可変型蒸気タービンエンジンは、一定の圧力を有する蒸気があれば、必要な場所必要な規模に応じて蒸気エネルギーを回転エネルギーに転用できるコンパクトな装置として使用できるもので、製作、設置、メンテナンスも安易で普及しやすいデザインにまとめた形態とした。 As mentioned above, the simple steam flow variable steam turbine engine can be used as a compact device that can convert steam energy into rotational energy according to the required scale if there is steam with a certain pressure, Production, installation, and maintenance are easy and easy to spread.
以下、本発明の実施の形態を試作機でテストし、結果を参考にして図1〜図6に基づいて説明する。 Hereinafter, an embodiment of the present invention will be tested with a prototype, and the results will be described with reference to FIGS.
図1は、簡易蒸気流量可変型蒸気タービンエンジンの姿図である。図の装置は、1が全体のケースでデザイン的にもコンパクトに利用が容易で、2は別金具で積載にも便利で、換気口3で熱もこもらず、4は商品のサインで、5のコントローラースイッチもわかりやすくし、6は、転倒防止板で、7は、タイミングプーリやVプーリーなど回転を必要とする発電機や揚水ポンプ等に利用できるもので、8が装置への蒸気投入口接続フランジでしっかり固定し、蒸気をこの入口から投入する。 FIG. 1 is a view of a simple steam flow variable steam turbine engine. In the apparatus shown in the figure, 1 is the whole case, and it is easy to use in a compact design. 2 is a separate bracket for convenient loading. No heat is accumulated at the vent 3. 4 is a product sign. The controller switch is easy to understand, 6 is a fall prevention plate, 7 can be used for generators and pumps that require rotation, such as timing pulleys and V pulleys, 8 is a steam inlet to the equipment Secure with a connecting flange and feed steam through this inlet.
図2は、簡易蒸気流量可変型蒸気タービンエンジンのケース1を開いて、上からみた平面図で、9はピローベアリングで11のタービン羽根を両方から中心のシャフト10を通じ支えるもので、タービン羽根11の高速回転を可能とし、その中心シャフト10の先には12の回転磁石を固定、これを13の磁気センサーで回転数を感知する。 FIG. 2 is a plan view of the simple steam flow variable steam turbine engine 1 when viewed from above, and 9 is a pillow bearing that supports 11 turbine blades from both through the central shaft 10. The rotating shaft can be rotated at a high speed, and 12 rotating magnets are fixed to the tip of the central shaft 10, and the rotational speed is detected by 13 magnetic sensors.
図2で、11のタービン羽根は、14の主蒸気レバーから蒸気ノズル15を通じ、放出される蒸気で回転し、この蒸気の量を調整するのが、13で感知した。11のタービン羽根の回転数を19のコントローラーチップかシーケンスでタービンの回転数を設定しておき、16のスライドモーターが作動し、17のサイドレバーを押し、18の補助ノズルを開放して、余力の蒸気を放出し、15の主蒸気ノズルから出る蒸気の量を調整し、11のタービン羽根の回転数を一定化するもので、簡易型の蒸気タービンのシステムが一順できる。20はバッテリーで、内部は必要なモーター・コントローラーシステムの電源に利用。その他の数7,8は、図1の通りである。 In FIG. 2, 11 turbine blades are rotated by the steam discharged from the 14 main steam levers through the steam nozzle 15, and adjusting the amount of this steam was detected at 13. The number of turbine blades of 11 is set to 19 controller chips or a sequence of turbine blades, 16 slide motors are activated, 17 side levers are pushed, 18 auxiliary nozzles are opened, The amount of steam discharged from the 15 main steam nozzles is adjusted and the rotation speed of the 11 turbine blades is made constant, so that a simple steam turbine system can be achieved in order. 20 is a battery, and the inside is used for the power supply of the necessary motor controller system. The other numbers 7 and 8 are as shown in FIG.
図3は、蒸気タービン断面図である。
21のタビンケースの中に22の円形外枠ケースがあり、2の円形外より2ミリ以上内側に26のタービン固定部品を中心に11のタービン羽根を置き、23の矢印蒸気通過ラインは、蒸気が22の円形外枠ケースと11のタービン羽根の中間を通過する状態を示すもので、蒸気はケースの中に放出され、25の復水器内冷却水道パイプにより、蒸気より温水に戻り、その温水は、再度、蒸気ボイラーへ高圧ポンプで戻される。
FIG. 3 is a cross-sectional view of a steam turbine.
There are 22 circular outer frame cases in 21 tabin cases, 11 turbine blades centering on 26 turbine fixing parts are placed 2 mm or more inside from the outside of 2 circles, and 23 arrow steam passage lines 22 shows a state passing through the middle of 22 circular outer frame cases and 11 turbine blades. Steam is discharged into the case and returned to warm water from the steam by 25 condenser cooling water pipes. Is again pumped back to the steam boiler.
図3の通り本願発明は、蒸気が300度の円を経由して、タービン羽根11を回転させ蒸気エネルギーを回転エネルギーに替える事ができ、タービン回転数が7000から1万回転でも蒸気が22の円形外枠ケースで蒸気の力を生かす事が可能で、更に減速機で回転を落とすことで、タービンの回転軸力を減速機の倍数に応じ増加させ、発電機やポンプ等の回転駆動力を得ることができる。 As shown in FIG. 3, the present invention can rotate the turbine blade 11 via a circle of 300 degrees to change the steam energy to the rotational energy, and the steam is 22 even if the turbine speed is 7000 to 10,000. It is possible to make use of the power of steam with the circular outer frame case, and by further reducing the rotation with a speed reducer, the rotational shaft force of the turbine is increased according to the multiple of the speed reducer, and the rotational driving force of the generator, pump, etc. Can be obtained.
図4は、図3タービンの側面図で、15の主蒸気ノズルが下にあり、11のタービン羽根と22の円形外枠ケースとの間に2ミリ以上のすき間があるが、蒸気にスピードがあり、蒸気はこのすき間からほとんど漏れることなく回転する。数字9,12,26は、図1、図2,図3の通りである。 FIG. 4 is a side view of the turbine of FIG. 3, with 15 main steam nozzles below, and a clearance of 2 mm or more between 11 turbine blades and 22 circular outer case, but the speed of the steam is Yes, the steam rotates with little leakage from this gap. Numbers 9, 12, and 26 are as shown in FIGS.
図5には、タービン羽根部の断面図であるが、10のシャフトは、26のタービン固定部品とで固定され、ピローブロックベアリングに支えられ11のタービン羽根も固定され、
回転する構造で27のタービン羽根先端部は10度傾斜をつけ取り付け回転時風の力を和らげる効果を生じ、特に22の円形外枠ケースと27のタービン羽根先端部と間隔が蒸気の量及び水分の含有状態に応じ、大小決定し蒸気が高速で15の主蒸気ノズルから放出される蒸気は、27のタービンの羽根先端部に当たり、回転するもので、前述の間隔が蒸気が分散する事なく蒸気の束の様にして通過するため22の円形外枠ケースの中心部の開放部から蒸気はもれることなく300度反対側の蒸気放出口から復水器へ放出する。
FIG. 5 is a cross-sectional view of the turbine blade portion, in which 10 shafts are fixed to 26 turbine fixing parts, supported by pillow block bearings, and 11 turbine blades are also fixed.
In the rotating structure, the tip of the 27 turbine blades is attached with an inclination of 10 degrees to reduce the wind force during rotation. In particular, the distance between the 22 circular outer frame case and the 27 turbine blade tip is the amount of steam and moisture. The steam discharged from the 15 main steam nozzles at a high speed is determined according to the content of the steam and hits the tip of the turbine blade of the 27 turbine and rotates. In order to pass like a bundle of steam, steam is discharged from the steam outlet on the opposite side of 300 degrees to the condenser without leaking from the open part at the center of the 22 circular outer frame case.
図6は、簡易型蒸気流量可変装置で、14の主蒸気レバーを開放、15の主蒸気ノズルから蒸気が放出されるが、バイオマス等の燃料やガス、重油でもトラブルで火炎の制御が瞬時に変更不能時、蒸気の流量が急変、タービンの回転が高速となり、発電機や揚水ポンプ等の機械に損傷をあたえるため、タービンと連動しているセンサーの作動より16のスライドモーターが動き、28のスライドジャッキが伸縮し、17のサイドレバーが開閉し、18の補助ノズルから蒸気が自動で放出されるシステムで、大型の装置を必要とすることなく、簡易に正確に作動する蒸気流量可変装置を提供できる。 Fig. 6 shows a simplified steam flow variable device, with 14 main steam levers open and steam released from 15 main steam nozzles. Even with fuel such as biomass, gas, or heavy oil, flame control is instantaneous. When the change is impossible, the flow rate of steam changes suddenly, the turbine rotates at a high speed, and damages to machines such as generators and pumps. This is a system in which the slide jack expands and contracts, the 17 side levers open and close, and the steam is automatically discharged from the 18 auxiliary nozzles. Can be provided.
本願出願の簡易蒸気流量可変型蒸気タービンエンジンは、近時、特に原子力発電の事故により新設は困難として、発電の多様化が叫ばれ、その中で、自然エネルギーの地熱発電、バイオマス発電など蒸気タービン必要性が高まっている。その中で、低気圧で小規模の小型蒸気タービンが製作でき、設置、メンテナンス等が容易でトラブルのない、必要性のある場所に、必要な規模の蒸気タービンの提供ができる。船舶や揚水ポンプにも利用でき、工場排水、温泉地等においても使用できる蒸気タービンとして、日本全国でボイラーと共同生産加工し、需要にも十分応じられる装置である。 The simple steam flow variable steam turbine engine of the present application has recently been said to be difficult to install due to an accident in particular with nuclear power generation, and diversification of power generation has been called out. Among them, steam turbines such as natural energy geothermal power generation and biomass power generation There is a growing need. Among them, a small-sized small-sized steam turbine can be manufactured at a low pressure, and a steam turbine of a necessary scale can be provided in a place where there is a need, where installation and maintenance are easy and trouble-free. As a steam turbine that can be used for ships and pumps, and can also be used in industrial wastewater, hot springs, etc., it is a device that can be produced and processed jointly with boilers throughout Japan to meet demand.
特に、バイオマス発電機や揚水ポンプに適し、ボイラーとの併用で山林、竹林、木工所、製材所、木製産業廃棄物、農業での利用が拡大でき、野菜ハウス工場、ビニールハウス用、養魚場等発電とヒーター用には、蒸気タービンは必須の装置で産業上も利用効果大である。 Particularly suitable for biomass power generators and pumps, combined with boilers can be used in forests, bamboo forests, carpentry, sawmills, wooden industrial waste, agriculture, vegetable house factories, greenhouses, fish farms, etc. A steam turbine is an indispensable device for power generation and heating, and has a large industrial effect.
1.ケース
2.吊り金具
3.換気口
4.商品名サイン
5.コントローラー、スイッチ盤
6.転倒防止板
7.プーリー
8.蒸気投入口、接続フランジ
9.ピロー
10.シャフト
11.タービン羽根
12.回転磁石
13.磁気センサー
14.主ノズルレバー
15.主蒸気ノズル
16.スライドモーター
17.サイドレバー
18.補助ノズル
19.コントローラーチップ(又はシーケンス)
20.バッテリー
21.タービンケース
22.円形外枠ケース
23.矢印蒸気通過ライン
24.復水器ケース
25.復水器内冷却水道パイプ
26.タービン固定部品
27.タービン羽根先端部
28.スライドジャッキ
1. Case 2. Hanging bracket 3. Ventilation opening4. 4. Product name signature Controller, switch panel 6. 6. Fall prevention plate Pulley 8. 8. Steam inlet, connection flange Pillow 10. Shaft 11. Turbine blade 12. Rotating magnet 13. Magnetic sensor 14. Main nozzle lever 15. Main steam nozzle 16. Slide motor 17. Side lever 18. Auxiliary nozzle 19. Controller chip (or sequence)
20. Battery 21. Turbine case 22. Circular outer frame case 23. Arrow steam passage line 24. Condenser case 25. Condenser cooling water pipe 26. Turbine fixing part 27. Turbine blade tip 28. Slide jack
Claims (2)
In order to stabilize the rotation speed of the steam turbine, a magnet is attached to a part of the central shaft of the rotation turbine, which is detected by a non-contact sensor, and the rotation speed is set in the sequence or controller memory chip in advance. When it exceeds, it automatically conducts to the slide motor, and the rotation of the slide motor opens the auxiliary side lever of the steam nozzle. At the same time, the steam is released, the pressure of the main steam nozzle is reduced, and the steam radiation speed to the steam turbine. Reduces the rotation speed of the steam turbine, maintains a constant rotation, and if the rotation stabilizes, the auxiliary side lever returns to its original state and the steam release from the auxiliary lever stops, requiring a complicated device The stable speed of the steam turbine can be obtained, and the optimum structure for the small steam turbine is provided. Simple steam flow variable steam turbine engine.
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Citations (4)
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JPS50152103A (en) * | 1974-05-28 | 1975-12-06 | ||
JPS5425303A (en) * | 1977-07-28 | 1979-02-26 | Sadaji Sakai | Turbine |
JPH0481502A (en) * | 1989-12-09 | 1992-03-16 | Yasuro Nakanishi | Turbine and turbocharger using it |
JPH06159002A (en) * | 1991-05-16 | 1994-06-07 | Goodfire Stoves Corp | Small-sized turbine assembly |
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2013
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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JPS50152103A (en) * | 1974-05-28 | 1975-12-06 | ||
JPS5425303A (en) * | 1977-07-28 | 1979-02-26 | Sadaji Sakai | Turbine |
JPH0481502A (en) * | 1989-12-09 | 1992-03-16 | Yasuro Nakanishi | Turbine and turbocharger using it |
JPH06159002A (en) * | 1991-05-16 | 1994-06-07 | Goodfire Stoves Corp | Small-sized turbine assembly |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115575927A (en) * | 2022-10-25 | 2023-01-06 | 山东莱恩光电科技股份有限公司 | Laser radar device with modular structure |
CN115575927B (en) * | 2022-10-25 | 2023-10-13 | 山东莱恩光电科技股份有限公司 | Laser radar device with modularized structure |
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