• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to an incinerator for crematories, including a combustion chamber provided with charge inlet, flue gas outlet, supply means for combustion air, heat supply means and ash outlet. The novelty resides in the fact that the combustion chamber is placed in a unit which is movable, between two positions, relative to at least one stationary end wall in which the charge inlet and the flue gas outlet are provided, and is divided into at least two compartments which communicate with each other at some distance from the flue gas outlet and are adapted to be positioned, one at a time, at respectively the charge inlet and the flue gas outlet. The heat supply means works in the compartment present at the charge inlet at just that moment, and the combustion gases from said compartment will pass the other compartment on their way towards the flue gas outlet. The essential combustion of a charge introduced into the incinerator takes place in the compartment where the heat supply means is working, at the same time as the final burnout of a preceding charge takes place in the other compartment which has been displaced to a position adjacent the flue gas outlet and through which the combustion gases pass on their way to said outlet.
    公开号:SU871744A3
    申请号:SU782692100
    申请日:1978-11-30
    公开日:1981-10-07
    发明作者:Альбертссон Серен
    申请人:Бруун Энд Серенсен Аб (Фирма);
    IPC主号:
    专利说明:

    one
    This invention relates to incinerators and may be used in crematoriums.
    A famous cremation furnace, containing a combustion chamber, in one of the end walls of which are located devices for supplying fuel and air, and in the other - an opening for loading material and releasing gas-discharging combustion products, and ash chamber t1.
    The disadvantage of such a furnace is the need to continuously promote the material to be combusted during the combustion process, which is associated with. physical and moral oppression of the service personnel. In addition, the movement of material is possible only after achieving a high degree of combustion, which requires a long discharge of each load and, therefore, additional energy consumption.
    The purpose of the invention is to reduce manual labor and increase the efficiency of the process.
    This is achieved by the fact that in a cremation furnace, containing a combustion chamber, in one of the end walls of which there are devices for feeding
    fuel and air, and in another opening for loading the material and releasing combustion gases, and the ash chamber, the combustion chamber is rotatable around a horizontal axis with respect to at least one fixed end wall in which there are openings for loading material and releasing gas combustion products, while the combustion chamber is equipped with a partition dividing it into interconnected compartments.
    The partition is installed with a gap relative to the end wall opposite to the wall having openings for loading and removal of combustion products.
    The combustion chamber, divided into compartments, is made with the possibility of rotation relative to two end walls.
    权利要求:
    Claims (5)
    [1]
    In the side wall of the combustion chamber, air channels are provided to the compartments communicating through the passageways with the air supply unit located in the end wall. The holes for supplying air to the compartments are tangential and directed along the rotation of the combustion chamber. FIG. Figure 1 shows a cremation furnace, view from the side of one end wall; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. 2; in fig. 4 shows a section | B-B in FIG. 2; in fig. 5 - cremation furnace, view with opposite end wall. The cremation furnace contains a stationary frame 1 and a rotating combustion chambers 2. Frame 1 contains two end walls 3 and 4 held by a support plate 5. One end wall 3 has a loading hole b made with a sliding lid and a hole 7 for exhausting gaseous about the products of combustion. The other end wall 4 is flush with the loading opening of version 8, in which there is not a ft or gas burner 9, a system. ducts 10 for supplying air and an opening 11 through which the ash can be collected in an ash chamber 12 formed with a discharge opening. On the end walls 3 and 4, podiipnik tools are made for the shafts 13 holding the combustion chamber 2. The combustion chamber 2 contains a cylindrical side wall 14 surrounding the combustion chamber divided by a partition 15 into two compartments 16 and 17. The channels 18 and 19 are intended for air entering the combustion zone communicates with the system of channels 10 for air in the end wall 4 and leads to compartments 16 and 17. Channels 18 are inclined so as not to be clogged by residues occurring after the combustion, during rotation of the combustion chamber 2 in direction the arrows. The baffle 15 is slightly shorter than the ijaMepa of combustion, whereby a combustion hole 20 is formed between the two compartments at the end of the bulkhead, which is remote from the bore 6 for loading, at this end the baffle 15 has a protruding edge 21. In the end wall 4 there is a connection 22 air injected into the combustion zone and an opening for observation. Surfaces of end walls 3 and rb grown to the combustion chamber consist of heat-resistant material. The end walls are made of metal structures and are covered with a metal sheet on the outside. The furnace works as follows. After the cremation furnace is heated to a predetermined temperature, the feed material intended for combustion is fed through the opening 6 into the compartment 16, where it will lie on the partition 15, subjected to burning gases on both sides. In the initial stage of the combustion process, during which the burning material is subjected not only to direct heating from the oil nozzle, but also to intense thermal radiation from the heated walls and from the partition 15, there is a rapid destruction of the combustible substance | moisture. This is accompanied by a second phase of combustion, in which most of the remaining combustible material is burned. Throughout the process, the gases generated during combustion are removed through the BOTTOM compartment 17 to the opening 7 for the release of the gaseous combustion products. After these phases have passed, the oil in the injector is temporarily turned off and the combustion chamber is rotated 180, so that the compartment 16 for combustion with the combustion products contained therein will occupy a lower position. During rotation, the combustion products will continuously move and entice, which facilitates subsequent final combustion. During operation, the outlet for the release of gaseous combustion products will first be connected to compartment 17, then to both compartments 16 and 17, and finally to one compartment 16. Thus, during the rotation process, the chamber will also be emptied. The air supply channels are arranged so that the air supply is temporarily stopped during the rotation operation, but air can also be provided during the rotation of the combustion chamber, for example, through curved slots in the end wall 4. When the compartment 16 reaches its lower position , another loading material, which is assigned for combustion, flows through the opening 6 into compartment 17, after which the combustion begins again. The hot gases that form during combustion will now pass from the compartment 17 through the lower compartment 16, and this additionally heats the partition 15, as a result of which there is a complete burning of the residues remaining from the previous load and contained in the said compartment. When the material to be combusted in the upper compartment passes through the phases mentioned above, the final combustion in the lower compartment is also achieved. Before the chamber is removed again, the remaining ash falls into chamber 12, from which it can be removed. The process then repeats. In addition to the fact that a cremation oven eliminates the difficulties associated with manual operations, it provides a more efficient combustion due to the fact that the material used for combustion is subjected to continuous heating and mixing. The fact that the combustion products can be moved to another position to continue burning after the first phase of the combustion process and introducing another load at the same time without any risk of mixing the loads also makes it possible to shorten the interval between loading operations, resulting in reduced energy consumption . The additional heat generated from the combustible components of the later loading is used for the final burning of the previous loading. Claim 1. Stove for creme containing KcLMepy combustion, in one of the end walls of which there are devices. for supplying fuel and air, and in the other - openings for loading material and releasing gaseous combustion products, and an ash chamber, so that in order to reduce manual labor and increase the efficiency of the process, the combustion chamber rotatably around, a horizontal axis with respect to at least one fixed end wall in which openings for loading material and releasing gaseous combustion products are placed, while the combustion chamber is provided with a partition separating it soobschgioschies interconnected compartments.
    [2]
    2. Bake pop, 1, characterized in that the partition wall is installed with a gap relative to the end wall opposite to the wall, having openings for loading and removal of combustion products.
    [3]
    3.Pech on PP. 1 and 2, that is, with the fact that the combustion chamber is divided into. the compartments are slotted with the possibility of rotation relative to two end walls.
    [4]
    4. The furnace according to claim 3, characterized in that in the side wall of the combustion chamber there are channels for supplying air to the compartments communicating through the passage channels with the device for supplying air located in the tyrc wall.
    [5]
    5. Bake pop. Zi 4, characterized in that the air inlets are tangential and directed along the rotation of the combustion chamber. Sources of information taken into account in the examination 1. USSR author's certificate 218365, cl. F 23 G 1/00, 1965. //; yg / jf fS -gddsg ji: i) i: w //////// - - TTGTGP M. btd Y777 // /////// A rJ - / 7 /
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    类似技术:
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    同族专利:
    公开号 | 公开日
    JPS5485575A|1979-07-07|
    US4257335A|1981-03-24|
    FR2410785B1|1983-03-18|
    IT1100400B|1985-09-28|
    FR2410785A1|1979-06-29|
    BE872381A|1979-03-16|
    IT7830375D0|1978-11-30|
    CA1104425A|1981-07-07|
    SE423141B|1982-04-13|
    ES475541A1|1979-04-01|
    SE7713569L|1979-05-31|
    DE2850698A1|1979-06-07|
    GB2009376A|1979-06-13|
    NL7811661A|1979-06-01|
    GB2009376B|1982-03-24|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE4325423A1|1993-07-29|1995-02-02|Abb Management Ag|Coffin-introducing machine for crematorium furnaces|US1742868A|1926-09-27|1930-01-07|Morse Boulger Destructor Co|Crematory|
    DE627058C|1933-11-16|1936-03-07|Didier Werke Akt Ges|Incinerator|
    FR815229A|1936-03-16|1937-07-08|Slaughterhouse waste incineration oven|
    US2625121A|1948-04-22|1953-01-13|Leonard H Vanderwerf|Method and apparatus for consuming bodies|
    FR1090109A|1953-09-23|1955-03-28|Process for the destruction, by combustion, of any body, and furnace for carrying out the process|
    US2889143A|1957-09-03|1959-06-02|Warford A Reaney|Preheater for rotary kiln|
    DE1262310B|1962-06-19|1968-03-07|Metallgesellschaft Ag|Rotary kiln for the reduction of iron oxides|
    DK102587C|1963-11-13|1965-09-13|Dano Ingenioerforretning & Mas|Horizontal rotary kiln for incineration of household waste, industrial waste and other waste materials, and molded stone pairs for masonry vaults in the kiln.|
    US3306237A|1964-01-28|1967-02-28|Jr George E Ransom|Rotary incinerator and method of operating same|
    FR1412454A|1964-07-17|1965-10-01|Soudure Autogene Francaise|Incinerator intended for the destruction of organic matter|
    US3452972A|1966-06-23|1969-07-01|Donald Beggs|Furnace hearth|
    US3441259A|1967-09-01|1969-04-29|Pacific Scientific Co|Heat treating furnace|
    US3819323A|1972-03-17|1974-06-25|Midland Ross Corp|Minimum scale reheating furnace and means relating thereto|
    US3837301A|1973-07-10|1974-09-24|Tabo Ind Ab|Apparatus for preparing ashes in crematories|
    US3861335A|1973-08-20|1975-01-21|Progressive Trade Corp|Incineration system|
    US4043746A|1974-09-19|1977-08-23|Polysius Ag|Method for the heat treatment of fine-grained materials containing alkali compounds|
    US3998703A|1975-02-06|1976-12-21|Salem Corporation|Method of treating materials on a rotary hearth|
    US4092098A|1976-11-01|1978-05-30|Monsanto Company|Method and apparatus for improved in situ combustion of pyrolysis gases in a kiln|US4401038A|1981-12-03|1983-08-30|Segrest William W|Progressive moveable hearth cremator|
    FR2614392B1|1987-04-23|1989-10-13|Huret Christian|PERFECTED CREMATORY OVEN|
    AU7699691A|1990-10-12|1992-05-20|Termorak, Inc.|A device in kilns|
    HU222415B1|2000-07-13|2003-07-28|Gábor Földes|Crematation apparatus with rotation system|
    US6729247B2|2001-12-04|2004-05-04|Andrew Brown|Mobile crematorium|
    DE10212719A1|2002-03-21|2003-10-02|Hans-Jakob Peters|Methods and devices for accelerating the transformation of a corpse into ashes or dust|
    KR20030081694A|2002-04-12|2003-10-22|강재원|Ejecting carriage type cremator|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE7713569A|SE423141B|1977-11-30|1977-11-30|DEVICE IN THE BURNER OF CREMATORIES|
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