阅读说明：本技术 一种新型船用燃气轮机低泄露损失双联冷却导叶结构 (Novel duplex cooling guide vane structure with low leakage loss of marine gas turbine ) 是由 李宗全 安仲玉 牛夕莹 霍玉鑫 李涛 候隆安 游洋 于 2021-07-26 设计创作，主要内容包括：一种新型船用燃气轮机低泄露损失双联冷却导叶结构,由上缘板、叶片、下缘板、密封板、排气接口组成,其特征在于,所述下缘板为双层结构,分为上板和下板,在下缘板两侧设置有固定凸台,通过焊接方法将两块密封板固定在凸台上,所述下缘板与两处密封板组成空腔结构,叶片的排气口均与该空腔结构连接,在下板上设置排气接口。本发明的排气接口数量变为传统结构的一半,配合面的数量也减少为传统结构的一半,极大的减少了冷却空气的泄露损失,提高了发动机的性能指标,具有结构简单、安装方便、结构可靠性高等特点。(The utility model provides a novel marine gas turbine low leakage loss pair cooling stator structure comprises upper flange, blade, lower flange, closing plate, exhaust interface, its characterized in that, the lower flange is bilayer structure, divide into upper plate and hypoplastron, is provided with fixed boss in lower flange both sides, fixes two closing plates on the boss through welding method, the cavity structure is constituteed with two closing plates to the lower flange, and the gas vent of blade all sets up the exhaust interface with this cavity structural connection on the hypoplastron. The number of the exhaust interfaces of the invention is changed to be half of that of the traditional structure, the number of the matching surfaces is also reduced to be half of that of the traditional structure, the leakage loss of cooling air is greatly reduced, the performance index of the engine is improved, and the invention has the characteristics of simple structure, convenient installation, high structural reliability and the like.)

1. The utility model provides a novel marine gas turbine low leakage loss pair cooling stator structure comprises upper flange, blade, lower flange, closing plate, exhaust interface, its characterized in that, the lower flange is bilayer structure, divide into upper plate and hypoplastron, is provided with fixed boss in lower flange both sides, fixes two closing plates on the boss through welding method, the cavity structure is constituteed with two closing plates to the lower flange, and the gas vent of blade all sets up the exhaust interface with this cavity structural connection on the hypoplastron.

2. The novel marine gas turbine low-leakage-loss duplex cooling guide vane structure is characterized by further comprising a guide vane-clapboard assembling structure, wherein the guide vane-clapboard assembling structure comprises turbine guide vanes, clapboards, bolts and sealing rings; the exhaust interface links to each other with the baffle through the plug-in mode, and cooling air passes through the exhaust interface and gets into the inside cavity of baffle, and then flows out from baffle both sides exhaust hole, carries to the position that needs cooling air for the sealing or the cooling of other parts.

3. The novel marine gas turbine duplex cooling guide vane structure with low leakage loss according to claim 2, wherein the middle part of the partition plate is fastened through bolts to ensure the matching between the partition plate and the guide vane, and the bottom of the partition plate is provided with a sealing ring to seal in matching with a rotor structure.

(I) technical field

The invention belongs to the energy power industry, and discloses a novel duplex cooling guide vane structure with low leakage loss, which is applied to a marine gas turbine.

(II) background of the invention

The turbine guide vane of the marine gas turbine works under the conditions of high temperature, high pressure and salt smoke corrosion, the working environment is severe, in order to prolong the service life of the turbine guide vane, the turbine guide vane is usually designed into a hollow structure with cooling, cooling air is used for cooling the turbine guide vane, the temperature of the turbine guide vane is reduced, and the service life of the turbine guide vane is prolonged. Meanwhile, in order to reduce gas leakage between turbine guide vanes, the gas turbine mostly uses double guide vanes or triple guide vanes.

In a marine gas turbine, cooling air for cooling turbine vanes is supplied from a compressor, and in view of energy loss, leakage of the cooling air for the turbine vanes is reduced, which is an effective means for improving engine performance. In the traditional structure, cooling air conveyed by a gas compressor enters the turbine guide vane through a pipeline to cool the turbine guide vane, the cooled air is discharged from an exhaust interface of a lower edge plate, each blade is provided with an exhaust interface, the exhaust interface and a partition plate structure are connected through a hose, and the cooling air is conveyed to other parts. Because the hose and the blade exhaust interface are in a matching relation, more leakage loss exists at the matching surface position, the number of the matching surfaces is the same as that of the blades, the connecting hose belongs to a wearing part and is easy to damage in the dismounting process, and the production cost of the gas turbine is indirectly improved.

Disclosure of the invention

The invention provides a novel duplex cooling guide vane structure with low leakage loss for a marine gas turbine, aiming at overcoming the defects in the prior art. The quantity of the exhaust interfaces in the structure is changed into half of the traditional structure, the quantity of the matching surfaces is also reduced into half of the traditional structure, the leakage loss of cooling air is greatly reduced, and the performance index of the engine is improved.

The purpose of the invention is realized as follows:

the utility model provides a novel marine gas turbine low leakage loss pair cooling stator structure comprises upper flange, blade, lower flange, closing plate, exhaust interface, the lower flange is bilayer structure, divide into upper plate and hypoplastron, is provided with fixed boss in lower flange both sides, fixes two closing plates on the boss through welding method, the cavity structure is constituteed with two closing plates to the lower flange, and the gas vent of blade all sets up the exhaust interface with this cavity structural connection on the hypoplastron.

The guide vane-clapboard assembling structure comprises a turbine guide vane, a clapboard, a bolt and a sealing ring; the exhaust interface is connected with the partition plate in an inserting mode, and cooling air enters the cavity in the partition plate through the exhaust interface, flows out of exhaust holes in two sides of the partition plate and is conveyed to a position needing cooling air for sealing or cooling other parts;

the middle part of the partition plate is fastened through bolts, so that the partition plate is matched with the guide vane, and the bottom of the partition plate is provided with a sealing ring which is matched with the rotor structure for sealing.

Compared with the prior art, the invention has the beneficial effects that:

the invention innovatively changes the single-layer lower edge plate structure into the double-layer structure, the double-layer lower edge plate and the sealing plate form a cavity structure, cooling air exhausted by the two blade exhaust interfaces is collected in the cavity structure and then exhausted by the uniform exhaust interface, the number of the exhaust interfaces in the new structure is changed into a half of that of the traditional structure, the number of matching surfaces is also reduced into a half of that of the traditional structure, the leakage loss of the cooling air is greatly reduced, and the performance index of the engine is improved;

the novel marine gas turbine low-leakage-loss duplex cooling guide vane structure provided by the invention does not need to use a connecting hose, avoids the loss of replacing the connecting hose in the process of disassembling and assembling the gas turbine, and reduces the production cost of the gas turbine.

The invention has the characteristics of simple structure, convenient installation, high structural reliability and the like.

(IV) description of the drawings

FIG. 1 is a schematic three-dimensional structure of a guide vane;

FIG. 2 is a schematic three-dimensional structure (side view) of a guide vane;

FIG. 3 is a sectional view of the internal structure of the guide vane;

FIG. 4 is a schematic view of a vane-diaphragm assembly (arrows indicate cooling air flow).

(V) detailed description of the preferred embodiments

The invention is further described with reference to the accompanying drawings and specific embodiments:

the invention relates to a novel low-leakage-loss duplex cooling guide vane structure of a marine gas turbine, which mainly comprises an upper edge plate 1, blades 2, a lower edge plate 3, an exhaust interface 4 and a sealing plate 5, wherein the guide vane has a three-dimensional structure as shown in figures 1 and 2. The lower edge plate 3 is of a double-layer structure and consists of an upper plate 3-1 and a lower plate 3-2, an exhaust interface 4 is arranged on the lower plate 3-2, and the cross section of the internal structure of the guide vane is shown in figure 3. The two sealing plates 5 are connected with the lower edge plate 3 through a welding method, so that good sealing performance of the interface position is guaranteed, and the lower edge plate 3 and the sealing plates 5 form a cavity structure.

Cooling air enters the two blades 2 from the upper edge plate 1 to cool the blades 2, the cooling air flows out of the two blades 2 from respective air outlets to enter a cavity structure after cooling of the two blades 2 is completed, the cooling air is mixed in the cavity structure and finally flows out of an air outlet port 4 on the lower plate 3-2, the flow of the cooling air in the guide vane is shown in a figure 3, and the arrow direction in the figure represents the direction of the cooling air.

The guide vane-diaphragm assembly structure is shown in fig. 4, and the assembly structure is composed of a turbine guide vane 6, a diaphragm 7, a bolt 8 and a sealing ring 9. The exhaust interface 4 of the turbine guide vane is connected with the partition plate 7 in an inserting mode, leakage loss of cooling air can be further reduced by the mode, the cooling air enters the inner cavity of the partition plate 7 through the exhaust interface 4 and then flows out from exhaust holes in two sides of the partition plate 7, and the cooling air is conveyed to a position needing cooling air and used for sealing or cooling other parts.

The middle part of the partition plate 7 is fastened through a bolt 8 to ensure the matching between the partition plate 7 and the guide vane 6, and the bottom of the partition plate 7 is provided with a sealing ring 9 which is matched with a rotor structure for sealing.

The exhaust interface on the lower plate of the turbine guide vane is connected with the partition plate in an inserting mode, and the effect of reducing cooling air leakage is better achieved.

The cooling air conveyed from the end of the compressor is conveyed to an air inlet of an upper edge plate of the turbine guide vane through a pipeline, the cooling air further passes through a cavity in the guide vane to cool the turbine guide vane, the cooled air is discharged into the cavity structure through respective air outlets of the blades, the two cooling air are mixed in the cavity structure and then discharged into an inner cavity of the partition plate through an air outlet on the lower plate, and the cooling air in the inner cavity of the partition plate is discharged to other positions through air holes on the partition plate and is used for sealing or cooling other parts.