Integrated oil storage tank
阅读说明:本技术 集成式储油箱 (Integrated oil storage tank ) 是由 陈冰 李攀 周七二 王勋 徐大成 万里江 于 2020-07-10 设计创作,主要内容包括:本发明公开了一种集成式储油箱,包括:呈环形且用于存储回油的主体油箱,主体油箱连接有与其同轴设置的防冰散热箱,防冰散热箱上设有与主体油箱的内轴道连通的气动流道,内轴道和气动流道用于供分离出的含砂尘气流向外排出。防冰散热箱内设有沿其周线弯曲延伸的回转流道,回转流道的进油口与用于输送热回油的回油管的输出端连通,回转流道的出油口与主体油箱连通,回转流道用于使热回油在向前流动过程中散热冷却,同时对气动流道的壁面进行加热防冰以保证气动流道的气动性能。本发明的集成式储油箱工作时,气动流道壁面的温度始终达不到结冰的数值,进而达到防冰目的,保证气动流道的气动性能,同时热回油的蜿蜒流动过程中也达到散热冷却的目的。(The invention discloses an integrated oil storage tank, which comprises: the main oil tank is annular and used for storing return oil, the main oil tank is connected with an anti-icing heat dissipation box which is coaxially arranged with the main oil tank, a pneumatic flow channel communicated with an inner shaft channel of the main oil tank is arranged on the anti-icing heat dissipation box, and the inner shaft channel and the pneumatic flow channel are used for discharging separated sand-containing air flow outwards. The anti-icing heat dissipation box is internally provided with a rotary flow channel which extends along the curve of the circumference of the anti-icing heat dissipation box, an oil inlet of the rotary flow channel is communicated with an output end of an oil return pipe used for conveying hot return oil, an oil outlet of the rotary flow channel is communicated with a main oil tank, the rotary flow channel is used for enabling the hot return oil to dissipate heat and cool in the forward flowing process, and meanwhile, the wall surface of the pneumatic flow channel is heated and anti-icing so as to ensure the pneumatic performance of the. When the integrated oil storage tank works, the temperature of the wall surface of the pneumatic flow channel can not reach the icing numerical value all the time, so that the aim of anti-icing is fulfilled, the pneumatic performance of the pneumatic flow channel is ensured, and the aim of heat dissipation and cooling is fulfilled in the meandering flow process of hot return oil.)
1. An integrated storage tank, comprising:
the main oil tank (10) is annular and used for storing return oil, the main oil tank (10) is connected with an anti-icing heat dissipation tank (20) coaxially arranged with the main oil tank, a pneumatic flow channel (201) communicated with an inner shaft channel (101) of the main oil tank (10) is arranged on the anti-icing heat dissipation tank (20), and the inner shaft channel (101) and the pneumatic flow channel (201) are used for discharging separated air flow containing sand and dust outwards;
be equipped with in anti-icing heat dissipation case (20) along the crooked gyration runner that extends of its contour, the oil inlet of gyration runner communicates with the output that is used for carrying the time oil pipe of hot oil return, the oil-out of gyration runner with main part oil tank (10) intercommunication, the gyration runner is used for making hot oil return in-process heat dissipation cooling forward, and is right simultaneously the wall of pneumatic runner (201) heats anti-icing in order to guarantee the pneumatic performance of pneumatic runner (201).
2. The integrated tank assembly of claim 1,
the anti-icing and heat-dissipating box (20) comprises a hollow annular outer ring body (21), a hollow annular inner ring body (22) and hollow connecting blades (23) connected between the outer ring body (21) and the inner ring body (22);
the outer ring body (21) is coaxially connected with the main oil tank (10), and an inner channel of the outer ring body (21) forms an outer flow channel (202) for heat supply and oil return flow;
the inner ring body (22) is coaxially arranged in the outer ring body (21), and an inner channel of the inner ring body (22) forms an inner flow channel (203) for heat supply and oil return flow;
the inner cavity of the connecting blade (23) forms a connecting flow passage (204) which is communicated with the outer flow passage (202) and the inner flow passage (203), and the outer flow passage (202), the connecting flow passage (204) and the inner flow passage (203) form the rotary flow passage.
3. The integrated tank assembly of claim 2,
the outer ring body (21) is provided with a hot oil inlet (205) which is communicated with the oil return pipe to supply heat return oil to enter the rotary flow channel, and an oil return discharge port (206) which is communicated with the main oil tank (10) to supply cooled return oil to enter the main oil tank (10);
the oil return discharge port (206) is close to the hot oil inlet (205).
4. The integrated tank assembly of claim 3,
the number of the oil return discharge openings (206) is one or more, and the shape of the oil return discharge openings (206) is any shape.
5. The integrated tank assembly of claim 2,
the number of the connecting blades (23) is multiple;
the connecting blades (23) are sequentially arranged at intervals along the circumferential direction of the outer ring body (21) and the inner ring body (22), and gaps between the adjacent connecting blades (23) form the pneumatic flow channel (201).
6. The integrated tank assembly of claim 5,
the connecting blades (23) are the same in shape, or the connecting blades (23) are different in shape, or part of the connecting blades (23) are the same in shape, but the other parts of the connecting blades (23) are different in shape;
the connecting blades (23) are uniformly arranged at intervals along the circumferential direction of the outer ring body (21) and the inner ring body (22), or the connecting blades (23) are randomly arranged at intervals along the circumferential direction of the outer ring body (21) and the inner ring body (22).
7. The integrated tank assembly of claim 5,
the number of the connecting blades (23) and the gaps between the adjacent connecting blades (23) are adaptively set according to the size of the anti-icing heat dissipation box (20) and the pneumatic requirement of the air flow containing sand and dust.
8. The integrated tank assembly of claim 1,
the inner channel of the main oil tank (10) is a variable volume cavity with the sectional area changing along the circumferential direction.
9. The integrated tank assembly of claim 1,
the integrated oil storage tank is of an integrally formed structure.
Technical Field
The invention relates to the field of aircraft engines, in particular to an integrated oil storage tank.
Background
In order to meet the requirement of high structural efficiency of an aircraft engine, multiple functions of oil storage, oil return and heat dissipation, sand and dust prevention runners, blades, ice prevention of the runners and the blades and the like of an engine lubricating oil tank are expected to be highly integrated, so that the number of engine parts is reduced, the weight is reduced, and the reliability of the engine is improved.
The conventional aircraft engine oil tank is simple in structure and single in function, and can only be used for storing engine lubricating oil and dissipating heat of the lubricating oil. When air inlet anti-icing of a flow passage and a blade of an aviation turboshaft engine is required, the performance of the engine is reduced, and hot air is introduced from a compressor to perform anti-icing on the flow passage and a support plate; when oil return heat dissipation is needed, the oil return is generally dissipated by arranging a special lubricating oil air radiator, a lubricating oil combustion radiator and the like; when the sand-dust separation is required, the sand-dust separation is generally performed by arranging a sand-dust preventing device and a flow passage.
Disclosure of Invention
The invention provides an integrated oil storage tank, which aims to solve the technical problems of simple structure and single function of the existing oil storage tank.
The technical scheme adopted by the invention is as follows:
an integrated storage tank comprising: the main oil tank is annular and used for storing return oil, the main oil tank is connected with an anti-icing heat dissipation box which is coaxially arranged with the main oil tank, a pneumatic flow channel which is communicated with an inner shaft channel of the main oil tank is arranged on the anti-icing heat dissipation box, and the inner shaft channel and the pneumatic flow channel are used for discharging separated air flow containing sand and dust outwards; the anti-icing heat dissipation box is internally provided with a rotary flow channel which extends along the curve of the circumference of the anti-icing heat dissipation box, an oil inlet of the rotary flow channel is communicated with an output end of an oil return pipe used for conveying hot return oil, an oil outlet of the rotary flow channel is communicated with a main oil tank, the rotary flow channel is used for enabling the hot return oil to dissipate heat and cool in the forward flowing process, and meanwhile, the wall surface of the pneumatic flow channel is heated and anti-icing so as to ensure the pneumatic performance of the.
Furthermore, the anti-icing and heat-dissipating box comprises a hollow annular outer ring body, a hollow annular inner ring body and hollow connecting blades connected between the outer ring body and the inner ring body; the outer ring body is coaxially connected with the main oil tank, and an inner channel of the outer ring body forms an outer flow channel for heat supply and oil return flow; the inner ring body is coaxially arranged in the outer ring body, and an inner channel of the inner ring body forms an inner flow channel for heat supply and oil return flow; the inner cavity of the connecting blade forms a connecting flow passage for communicating the outer flow passage and the inner flow passage, and the outer flow passage, the connecting flow passage and the inner flow passage form a rotary flow passage.
Furthermore, the outer ring body is provided with a hot oil inlet which is communicated with the oil return pipe and used for supplying heat return oil to enter the rotary flow channel, and an oil return discharge port which is communicated with the main oil tank and used for cooling return oil to enter the main oil tank; the oil return discharge port is close to the hot oil inlet.
Furthermore, the number of the oil return discharge openings is one or more, and the shape of the oil return discharge openings is any shape.
Furthermore, the number of the connecting blades is multiple; the connecting blades are sequentially arranged at intervals along the circumferential direction of the outer ring body and the inner ring body, and gaps between adjacent connecting blades form a pneumatic flow channel.
Furthermore, the shapes of the plurality of connecting blades are the same, or the shapes of the plurality of connecting blades are all different, or the shapes of part of the connecting blades are the same, but the shapes of the other parts of the connecting blades are all different; the connecting blades are uniformly distributed at intervals along the circumferential direction of the outer ring body and the inner ring body, or the connecting blades are randomly distributed at intervals along the circumferential direction of the outer ring body and the inner ring body.
Furthermore, the number of the connecting blades and the gaps between the adjacent connecting blades are adaptively set according to the size of the anti-icing heat dissipation box and the pneumatic requirement of the air flow containing the sand and the dust.
Further, the inner channel of the main oil tank is a volume-variable cavity with the sectional area changing along the circumferential direction.
Furthermore, the integrated oil storage tank is of an integrally formed structure.
The invention has the following beneficial effects:
the integrated oil storage tank is an integrated design of a lubricating oil tank, a sand-dust-containing flow passage and an anti-icing and heat-dissipating structure and function, so that the number of parts of an engine can be reduced, the weight of the engine is lightened, and the reliability of the engine is improved; meanwhile, through the bent and extended rotary flow channel, the wall surface and other wall surfaces of the pneumatic flow channel are heated and anti-iced by utilizing the waste heat of hot return oil of the engine, the hot return oil is cooled, the cold and heat exchange of the hot return oil is carried out by utilizing the air flow containing sand and dust, the heat dissipation function is enhanced, the performance of the engine is not reduced, a lubricating oil air radiator or a lubricating oil burning radiator which is specially arranged is omitted for dissipating the heat of the return lubricating oil, and when the sand and dust separation is required, the heat dissipation can be carried out through the inner shaft channel and the pneumatic flow channel.
In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic cross-sectional front view of an integrated oil reservoir tank according to a preferred embodiment of the present invention;
fig. 2 is a schematic diagram of the right-side structure of fig. 1.
Description of the figures
10. A main body oil tank; 101. an inner shaft channel; 20. an anti-icing heat dissipation box; 201. a pneumatic flow channel; 202. an outer flow passage; 203. an inner flow passage; 204. connecting the flow channel; 205. a hot oil inlet; 206. an oil return discharge port; 21. an outer ring body; 22. an inner ring body; 23. the blades are connected.
Detailed Description
The embodiments of the invention will be described in detail below with reference to the accompanying drawings, but the invention can be embodied in many different forms, which are defined and covered by the following description.
Referring to fig. 1, a preferred embodiment of the present invention provides an integrated oil storage tank including: the
When the integrated oil storage tank works, engine hot return oil which lubricates or cools parts such as gears, splines, bearings and the like firstly enters a rotary flow channel of the anti-icing heat dissipation tank 20 from an oil inlet of the rotary flow channel through an oil return pipe under the action of an oil return pump, then the hot return oil with certain pressure (about 0.2MPa) flows forwards along the rotary flow channel which extends in a bending way, finally enters the
The integrated oil storage tank is an integrated design of a lubricating oil tank, a sand-dust-containing flow passage and an anti-icing and heat-dissipating structure and function, so that the number of parts of an engine can be reduced, the weight of the engine is lightened, and the reliability of the engine is improved; meanwhile, through the bent and extended rotary flow channel, the wall surface and other wall surfaces of the
Alternatively, as shown in fig. 1 and 2, the anti-icing and heat-dissipating box 20 includes an
Further, as shown in fig. 1 and 2, the
Alternatively, as shown in fig. 2, the number of the oil
Alternatively, as shown in fig. 2, the number of the connecting blades 23 is plural. The plurality of connecting vanes 23 are sequentially arranged at intervals in the circumferential direction of the
Further, the connecting blades 23 have the same shape, or the connecting blades 23 have different shapes, or some of the connecting blades 23 have the same shape but the remaining connecting blades 23 have different shapes. The plurality of connecting vanes 23 are uniformly spaced in the circumferential direction of the
Furthermore, the number of the connecting blades 23 and the gap between adjacent connecting blades 23 are adaptively set according to the size of the anti-icing heat dissipation box 20 and the pneumatic requirement of the air flow containing sand and dust, and the anti-icing heat dissipation box 20 is flexible in structural design and strong in adaptability to the air flow containing sand and dust.
When the engine normally works, taking fig. 2 as an example, fig. 2 shows 6 hollow connecting blades 23, the hot return oil of the engine, which lubricates or cools the parts such as gears, splines, bearings, etc., is injected into the anti-icing heat dissipation tank 20 through the return oil pump, and the hot return oil with a certain pressure (about 0.2MPa) firstly enters the
Alternatively, as shown in fig. 1 and 2, the inner passage of the
Optionally, as shown in fig. 1 and fig. 2, the integrated oil storage tank is of an integrally formed structure, so that the oil storage tank is simple to prepare and has good overall strength, and the performance requirements of the aircraft engine are met.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
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