子分类:
- F24H1/225: ..{电力集中供热锅炉}
- F24H1/24: ..带有围绕一个或数个燃烧室的水套筒的(F24H 1/40,F24H 1/44优先)
- F24H1/34: ..水室位于燃烧室或数个燃烧室附近的,例如在上部或侧面(F24H 1/24,F24H 1/44优先)
- F24H1/38: ..水被装在分开的部件中的,例如在散热器式部件中的(F24H 1/40,F24H 1/44优先)
- F24H1/40: ..用水管或水管组的(F24H 1/44优先)
- F24H1/44: ..包含在F24H 1/24至F24H 1/40各组中的两种或多种类型的组合,{例如具有F24H 1/24至F24H 1/40各组中特征的组合的锅炉}
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Cogeneration apparatus | JP2010259183 | 2010-11-19 | JP2012112249A | 2012-06-14 | TAKITA YOSHIHARU |
| PROBLEM TO BE SOLVED: To provide a cogeneration apparatus that can be disposed near an outside wall of a house or the like.SOLUTION: The cogeneration apparatus 10 includes an electrical generator driven by an engine and a heat exchanger using waste heat of the engine as a heat source, both housed in a cogeneration case 11, and further includes internal fuel piping for externally supplying fuel to the engine and power wiring for supplying electrical power generated by the electrical generator to the outside. The cogeneration case 11 includes a substantially V-shaped lead-out part 39 capable of leading the fuel piping unit and the power wiring unit to the outside of the cogeneration case 11. | ||||||
| 82 | Fukugokyutoki | JP13033884 | 1984-06-25 | JPH0245786B2 | 1990-10-11 | WATANABE HIROAKI; FUJISHITA KAZUO; UEDA JUNICHI |
| 83 | JPS56501104A - | JP50196580 | 1980-08-15 | JPS56501104A | 1981-08-06 | |
| 84 | JPS5027141A - | JP4860774 | 1974-04-30 | JPS5027141A | 1975-03-20 | |
| 85 | 熱媒ボイラシステム | JP2016101379 | 2016-05-20 | JP2017207258A | 2017-11-24 | 宮崎 遼太 |
| 【課題】熱媒ボイラ2の起動時に、燃焼制御部71による制御方法を変更することなく熱媒油の温度上昇速度を緩やかに制御し、循環ポンプ35に対する熱衝撃を緩和し、循環ポンプ35を長寿命化すること。 【解決手段】熱媒ボイラシステム1は、予め設定された目標温度と熱媒油温度検出部36により計測された熱媒検出温度との偏差に基づいて熱媒ボイラ2の燃焼状態を制御する燃焼制御部71と、熱媒ボイラ2が起動されたことを検知する起動検知部72と、起動検知部72により熱媒ボイラ2の起動が検知された時点t0における熱媒油温度検出部36による検出温度T0及び予め設定された単位時間あたりの昇温速度p(度/時間)に基づいて、時間t(t≧t0)における目標温度SP(t)を式1により設定する起動時目標温度設定部73と、を備える。 SP(t)=p(t−t0)+T0(式1) 【選択図】図1 |
||||||
| 86 | 流体循環式の暖房装置 | JP2016542694 | 2014-12-19 | JP2017505891A | 2017-02-23 | ヤン ジョン キム |
| 【課題】本発明は、流体の加熱および冷却を通って流体を循環させる流体循環式の暖房装置に関するもので、さらに詳しくは逆止弁(check valve)のような逆流防止手段の着脱が容易な流体循環式の暖房装置に関するものであり、逆流防止手段の交代が容易な構造の新しい流体循環式の暖房装置を提供することを目的とする。【解決手段】本発明に係る流体循環式の暖房装置は循環ライン、前記の循環ラインに取付される放熱部材、流体を加熱して膨張させるボイラー、流体を蓄えて前記ボイラーに供給する貯蔵タンク、前記ボイラーを制御するコントローラおよび前記ボイラーとコントローラを収容するハウジングを含んでおり、前記ハウジングに着脱可能に取付され、前記ハウジングに装着されると、前記ボイラーと前記貯蔵タンクとの間に配置した前記循環ラインと連通して前記循環ラインの流体の流れを一方向に制限する逆流防止手段をさらに含む。【選択図】図2 | ||||||
| 87 | 並列熱交換器を備えた温水装置 | JP2015512719 | 2013-05-13 | JP2015520352A | 2015-07-16 | エー. フィオリティ,ジェラルド |
| 温水装置は、複数の供給脚に分割するように構成された流体流入管路、および並列作動用に構成された複数の熱交換器を含む。各熱交換器は、外部ハウジング、液体の流入流れを外部ハウジングの中に受領するための流体流入管路のそれぞれの供給脚に連結された流入口、液体の流出流れが外部ハウジングから出ることを可能にするための流出口、および外部ハウジング内に位置付けられ、流入口から流出口まで外部ハウジングを通過する液体流れを加熱するように構成された熱交換要素を備える。温水装置は、燃焼室ハウジングおよび燃焼室ハウジング内部に位置付けられたバーナーを備える、バーナー組立体をさらに含む。バーナー組立体は、熱を液体流れに供給するための複数の熱交換器に結合される。【選択図】図1 | ||||||
| 88 | Water heater | JP2012114360 | 2012-05-18 | JP2013242055A | 2013-12-05 | OHAMA MASAHIRO; YAMADA MUNETAKA; NISHIYAMA YOSHIO; SANO MITSUHIRO; UNO KATSUHIKO; YASUI KEIKO |
| PROBLEM TO BE SOLVED: To provide a water heater which extends the service life of a scale control means.SOLUTION: A water heater includes: a hot water tank 57 which stores hot water; a water heater/heat exchanger 52 which heats hot water from the hot water tank 57; an inflow pipe 64 and an outflow pipe 65 which connect the hot water tank 57 and the water heater/heat exchanger 52; an inflow temperature detecting means 67 which detects a temperature of inflow water flowing into the water heater/heat exchanger 52; a control means 83; and a scale control means 76 which can be attached to and detached from the inflow pipe 64 and which adds a scale inhibitor 80 which prevents scale generation. The temperature of the inflow water in terminating heating operation for heating the hot water of the hot water tank 57 by the water heater/heat exchanger 52 is changed according to whether the scale control means 76 has been attached or not, thereby extending the service life of the scale inhibitor and reducing replacement or replenishment and maintenance cost. | ||||||
| 89 | Boiler unit | JP2011538049 | 2009-11-26 | JP2012510040A | 2012-04-26 | ジョン エヴァンズ クリストファー; デヴリアント ジェームス; ガーヴァン ブルース; バーナード ポール; モルガン ロバート |
| 【解決手段】筐体に収容されるボイラーユニット(100)であって、ボイラーユニット(100)はソリッドステートの熱電併給装置(130)を受け入れるように構成される。 ボイラーユニット(100)は、熱を発生する暖房装置(110)と、この暖房装置(110)及びソリッドステートの熱電併給装置(130)のそれぞれを独立して制御する制御ユニット(120)とを備えている。 ボイラーユニット(100)は、ソリッドステートの熱電併給装置(130)が存在しなくても動作可能である。
【選択図】図1 |
||||||
| 90 | Space heating and hot water supply apparatus | JP14725784 | 1984-07-16 | JPS6124927A | 1986-02-03 | KUROKI MASAAKI; HASHIZUME YOSHIMITSU; ITAZAWA MIKIO |
| PURPOSE:To conduct all of room heating, bath heating and hot water supply without using a circulation pump by directly utilizing the steam-generated pressure. CONSTITUTION:A steam generator 2 is heated by a gas burner 16 to generate the saturated steam, which is fed through a conduit 3 to radiator 5, bathtub 6 and storage type water heater 8 to heat the water in the bathtub 6 by giving off the latent heat of condensation, and to heat the ambient air by the radiator 5 by giving off part of the latent heat and sensible heat of condensation. Further, the condensate is stored in the water heater 8. Meanwhile, the condensate discharged from the radiator 5 is stored in the water heater 8 through a condensate pipe 4. | ||||||
| 91 | Complex hot water supplier | JP13033884 | 1984-06-25 | JPS618549A | 1986-01-16 | WATANABE HIROAKI; FUJISHITA KAZUO; UEDA JIYUNICHI |
| PURPOSE:To enable the effect of saving energy and the taking bath of a short period of time and improve the convenience of use of the bath by a method wherein the effect of bypassing operation in a water feeding circuit and the judgement of hot water feeding load may control an upper stream movable damper and a down stream movable damper. CONSTITUTION:When additional heating mode is set by a setting unit 34, a heat exchanger 18 is heated by a combustion part 32 to make an additional heating of water in a bath tub 20. Simultaneously, a driving valve 35 is opened, a down stream movable damper 39 is closed and an upper stream movable damper 38 is opened. Therefore, the waste heat calorie which may not be recovered by the heat exchanger 18 is passed through the upstream connection part 43, fed to the upstream side of the heat exchanger 40 by a blower 36, the heat exchanger 17 sufficiently absorbs heat and recovers the waste heat. During an additional heating of water the hot water cock 24 is opened and in case of a much volume of passed water, the combustion part 31 may start heating operation under the sensing of a water flow sensor 27. A hot water load is compared with a capacity of the combustion part 31 by a temperature sensor 21 and a signal control part 33 for a water volume sensor 46. If it is less than the capacity, it may perform the same action as that of the additional heating. Therefore, an additional heating is made to have a high performance and the effect of saving energy is improved. | ||||||
| 92 | Liquid fuel combustion device | JP11890284 | 1984-06-08 | JPS60263051A | 1985-12-26 | KAMISAKI KOUICHI |
| PURPOSE:To reduce the fluctuating width of supplying hot-water temperature by a method wherein a main body, having a combustion chamber, a heat exchanger and a main burner, and an auxiliary heating means, attached to the hot-water delivery pipe of the heat exchanger and heating hot-water in the hot-water delivery pipe, are provided in the device. CONSTITUTION:When the hot-water temperature in the heat exchanger 2 has risen to a preset temperature by the heating of main burner 4, a hot-water temperature sensor 17 detects it to put the main burner 4 OFF and the auxiliary burner 15 ON. When heating is finished, the hot-water temperature begins to reduce, however, heat is supplied by the auxiliary burner 15, therefore, lowering of the hot-water temperature may be reduced. | ||||||
| 93 | Water heater | JP10994881 | 1981-07-16 | JPS5812942A | 1983-01-25 | IIZUKA HIROYOSHI; MASAKI SABUROU |
| PURPOSE:To effectively utilize heat of exhaust gas by providing two heat exchangers by heating one of the heat exchangers by a combustion exhaust gas through heat medium water, heating another heat exchanger by the combustion exhaust gas and mixing and using waters in both heat exchangers. CONSTITUTION:Heat medium water 3 is accommodated in a main body 1 by leaving therein a space 2, and a combustion exhaust gas 5 of a combustion chamber 4 which heats the heat medium water 3 is supplied through a flue 6 into the space 2 at the upper part of the main body 1. Water 9 is caused to flow to a first heat exchanger 7 passing within the heat medium water 3 to heat the water 9 by means of the heat medium water 3. On the other hand, water 10 is caused to flow within a second heat exchanger 8 passing through the space 2 to heat the water 10 by means of the exhaust gas 5 of a high temperature, and the waters 9 and 10 are mixed to be used. By this arrangement, the heat effeciency can be improved. | ||||||
| 94 | JPS55500206A - | JP50045479 | 1979-03-06 | JPS55500206A | 1980-04-10 | |
| 95 | JPS50152340A - | JP1950175 | 1975-02-18 | JPS50152340A | 1975-12-08 | |
| 96 | WATER HEATING APPARATUS WITH PARALLEL HEAT EXCHANGERS | EP13791135 | 2013-05-13 | EP2867592A4 | 2016-03-30 | FIORITI GERALD A |
| A water heating apparatus includes a fluid inlet conduit configured to split into a plurality of supply legs, and a plurality of heat exchangers configured for parallel operation. Each heat exchanger includes an outer housing, an inlet connected to a respective supply leg of the fluid inlet conduit for receiving an inlet flow of liquid into the outer housing, an outlet for allowing an outlet flow of liquid to leave the outer housing, and a heat exchange element positioned within the outer housing and configured to heat a flow of liquid passing through the outer housing from the inlet to the outlet. The water heating apparatus further includes a burner assembly comprising a combustion chamber housing and a burner positioned internally within the combustion chamber housing. The burner assembly is coupled to the plurality of heat exchangers for supplying heat to the flow of liquid. | ||||||
| 97 | A BOILER UNIT | EP09760965.5 | 2009-11-26 | EP2364512B1 | 2016-01-06 | DEVRIENDT, James; EVANS, Christopher John; MORGAN, Robert; BARNARD, Paul; GIRVAN, Bruce |
| 98 | Cogeneration apparatus | EP11189561.1 | 2011-11-17 | EP2456290B1 | 2013-02-06 | Takita, Yoshiharu |
| 99 | Apparatus and method to optimize the functioning of a boiler to heat water | EP12156615.2 | 2012-02-23 | EP2492602A1 | 2012-08-29 | Palazzetti, Ruben |
Apparatus (10) to optimize the functioning of a boiler (11) suitable to heat water for a user machine (12) and having a delivery pipe (17), a return pipe (18). The apparatus comprises pumping means (13) suitable to make the water circulate in the boiler (11), between the return pipe (18) and the delivery pipe (17), at least a first temperature sensor (16a) to detect the temperature of the water in the delivery pipe (17), and also a second temperature sensor (16b) associated to the return pipe (18) and adjustment means (15, 21) associated to the pumping means (13), to selectively vary the flow rate of the pumping means (13) depending on the temperature detected by at least one of either the first temperature sensor (16a) or the second temperature sensor (16b).
|
||||||
| 100 | Warmwasseranlage und Verfahren zum Bereitstellen von Warmwasser | EP10193589.8 | 2010-12-03 | EP2333447A2 | 2011-06-15 | Melo, Marco |
Die Erfindung betrifft eine Warmwasseranlage (100) zur Bereitstellung von Warmwasser umfassend einen Gasbrenner (3), insbesondere einen internen Gasbrenner (3), und eine mit dem Gasbrenner (3) gekoppelte Wärmetauschereinrichtung (1), durch die das zu erwärmende Wasser über mindestens einen Strömungskanal (K) von einem Einlass (6) zu einem Auslass (4) strömt. Weiter betrifft die Erfindung ein Verfahren zum Bereitstellen von Warmwasser mittels einer Warmwasseranlage (100) mit einem Gasbrenner (3), umfassend ein Erwärmen eines eine Wärmetauschereinrichtung (1) über mindestens einen Strömungskanal (K) von einem Einlass (6) zu einem Auslass (4) durchströmendes Fluid mittels des Gasbrenners (3). Es ist eine Aufgabe der Erfindung, eine Warmwasseranlage und ein Verfahren zum Bereitstellen von Warmwasser mittels einer Warmwasseranlage zu schaffen, welche energetisch optimiert sind und entsprechend weniger Energie bei gleicher Wärmeleistung benötigen. Gekennzeichnet ist die Warmwasseranlage (100) dadurch, dass der mindestens eine Strömungskanal (K) mit einer Turbineneinheit (7) zur Erzeugung von elektrischer Energie durch das erwärmte Fluid fluidisch gekoppelt ist. Gekennzeichnet ist das Verfahren dadurch, dass zumindest ein Teil des erwärmten Fluids über eine Turbineneinheit (7) zur Erzeugung von elektrischer Energie geführt wird.
|
||||||
QQ群二维码
意见反馈
意见反馈