阅读说明：本技术 一种航空粒子分离器的成型方法 (Forming method of aviation particle separator ) 是由 马婷婷 张彬 杨恒 陈明明 张月东 李顺 马彦爽 李俊 王县委 于 2020-07-22 设计创作，主要内容包括：本发明公开了航空发动机技术领域内的一种航空粒子分离器的成型方法,包括上外环模具和内环模具,上外环模具包括固定环,固定环内排布有若干单块铺贴模,组装的若干单块铺贴模内壁与粒子分离器的上外环外壁形状相同,内环模具包括左半成型模、中间环和右半成型模,中间环朝下的一端贴合在左半成型模朝上的一侧,右半成型模朝下的一侧贴合在中间环朝上的一侧,左半成型模、中间环和右半成型模的内壁与粒子分离器的内环的外壁形状相同相同,包括以下步骤,(1)制备上外环,(2)制备内环,(3)按照图纸要求加工完成下外环、下安装板和上安装板；(4)使用装配工装进行组装定位,完成装配成型；使用本发明制备出来的产品质量低,且满足性能要求。(The invention discloses a forming method of an aviation particle separator in the technical field of aero-engines, which comprises an upper outer ring mold and an inner ring mold, wherein the upper outer ring mold comprises a fixing ring, a plurality of single paving molds are arranged in the fixing ring, the shapes of the inner walls of the assembled single paving molds are the same as that of the outer walls of the upper outer ring of the particle separator, the inner ring mold comprises a left half forming mold, a middle ring and a right half forming mold, the downward end of the middle ring is attached to the upward side of the left half forming mold, the downward side of the right half forming mold is attached to the upward side of the middle ring, and the inner walls of the left half forming mold, the middle ring and the right half forming mold are the same as that of the outer wall of the inner ring of the particle separator; (4) assembling and positioning are carried out by using an assembling tool to complete assembling and forming; the product prepared by the method has low quality and meets the performance requirement.)

1. A forming method of an aviation particle separator is characterized by comprising an upper outer ring mold and an inner ring mold, wherein the upper outer ring mold comprises a fixing ring, a plurality of single paving molds are arranged in the fixing ring, the shapes of the inner walls of the assembled single paving molds are the same as that of the outer walls of the upper outer ring of the particle separator, the inner ring mold comprises a left half forming mold, a middle ring and a right half forming mold, a plurality of first positioning mounting holes are arranged on the periphery of the left half forming mold, a plurality of second positioning mounting holes which correspond to the first positioning mounting holes in a one-to-one mode are arranged on the middle ring, a plurality of third positioning mounting holes which correspond to the second positioning mounting holes in a one-to-one mode are arranged on the periphery of the right half forming mold, the downward end of the middle ring is attached to the upward side of the left half forming mold, the downward side of the right half forming mold is attached to the upward side of the middle ring, the inner walls of the left half forming, comprises the following steps of (a) carrying out,

(1) Preparing an upper outer ring, comprising the following steps:

(101) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(102) preparing an upper outer ring die, cleaning residues on the die attaching surface by using a special tool, paying attention to avoid scratching the die forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the die, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(103) according to the laying sequence, laying and pasting the prepreg sheets on a working surface consisting of a plurality of laying and pasting molds, wherein the prepreg sheets of each layer are divided into four pieces which are butted, and the butt joints are staggered by 90 degrees between adjacent layers;

(104) after the laying is finished, pasting a vacuum bag outside the upper outer ring mold, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the single laying mold, feeding the upper outer ring mold into an oven, and curing according to an upper outer ring curing process;

(105) cutting the upper outer ring subjected to cooling and demolding to the required size according to the requirements of a design drawing for later use;

(2) preparing an inner ring, comprising the following steps:

(201) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(202) Preparing an inner ring mold, cleaning residues on the mold attaching surface by using a special tool, paying attention to avoid scratching the mold forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the mold, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(203) paving and pasting a first half of the inner wall of the inner ring mould in the circumferential direction, paving and pasting the first layer, paving and pasting the second half of the inner wall of the inner ring mould in the circumferential direction, butting the two halves, and vacuumizing and compacting; paving and pasting a second layer in the same way, wherein the second layer is staggered from the first layer by 60 degrees, sequentially paving and pasting subsequent prepreg according to the way, and the angle of the paved and pasted prepreg is staggered from that of the prepreg of the previous layer by 60 degrees;

(204) after the laying is finished, pasting a vacuum bag outside the inner ring and outer ring molds, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the inner ring mold, feeding the inner ring mold into an oven, and curing according to an inner ring curing process;

(205) cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use;

(3) processing the lower outer ring, the lower mounting plate and the upper mounting plate according to the drawing requirements for standby;

(4) and assembling and positioning by using an assembling tool to complete assembling and forming.

2. The method of claim 1, wherein in step (103), a total of twelve layers are applied, and the first layer, the second layer and the … twelfth layer are sequentially applied at the following angles: + 45/-45/0/45/90/+ 45/-45/90/45/0/+ 45.

3. The method for forming an airborne particle separator according to claim 1, wherein the curing process of the upper outer ring and the curing process of the inner ring are as follows: vacuumizing at room temperature, keeping the vacuum degree below 0.095Mpa, heating at 0.5 deg.C/min, and keeping the temperature at 100 deg.C for 1 h; pressurizing to 0.3Mpa at 125 deg.C, maintaining the temperature for 30min, pressurizing to 0.5Mpa, and maintaining the temperature for 1 h; heating to 170 deg.C, and maintaining at 170 deg.C for 3 h; keeping the temperature at 210 ℃ for 5 h; cooling to below 60 deg.C at 2 deg.C, taking out the product, and vacuumizing.

4. The method of claim 1, wherein in step (203), a total of ten layers of prepreg are applied, and the first layer, the second layer and the … tenth layer are sequentially applied at an angle of: + 45/-45/0/90/+ 45/-45/90/0/+ 45.

5. The method of claim 1, further comprising the step of, between the step (2) and the step (3),

(a) preparing a partition board:

(a1) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(a2) preparing a partition plate die, cleaning residues on the die attaching surface by using a special tool, paying attention to avoid scratching the die forming surface, then soaking a small amount of acetone into a clean cloth tape to wipe the die, cleaning residues which affect products such as a small amount of residual glue and the like, and airing;

(a3) the partition board die is provided with a scribing area, and prepreg is sequentially paved in the scribing area;

(a4) after the laying is finished, pasting a vacuum bag outside the clapboard mould, vacuumizing the vacuum bag to compact the prepreg on the outer surface of the clapboard mould, and conveying the clapboard mould into an oven for curing;

(a5) and cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use.

6. A molding method using an airborne particle separator according to claim 5, wherein in step (a 3), a total of ten layers of prepreg are applied, and the first layer, the second layer, and the … tenth layer are applied at the following application angles: + 45/-45/0/90/+ 45/-45/90/0/+ 45.

7. The forming method of the aviation particle separator according to claim 4, wherein when the prepreg is laid, each two layers are pre-cured, the vacuum bag is pasted outside the inner ring mold, the vacuum is pumped at room temperature, the vacuum degree is not lower than 0.095Mpa, the temperature is raised at 0.5 ℃/min, the temperature is maintained at 100 ℃ for 1h, the pressure is increased at 125 ℃ for 0.3Mpa, the pressure is increased to 0.5Mpa after the temperature is maintained for 30min, the temperature is maintained for 1h, the temperature is increased to 170 ℃, the temperature is maintained at 170 ℃ for 3h, the temperature is reduced to below 60 ℃ at the rate of 2 ℃, and the finished part is taken out and is required to be pumped in vacuum in the whole process.

8. The forming method of the aviation particle separator as claimed in claim 1, wherein the assembling tool comprises a lower connecting ring, a plurality of lower connecting lugs are arranged on the periphery of the lower connecting ring, a positioning frame is rotatably connected to the lower connecting lugs, an upper connecting ring is arranged above the lower connecting ring, a plurality of supporting columns are arranged between the lower connecting ring and the upper connecting ring, lower fastening holes are formed in the lower connecting lugs, one ends of the positioning frame facing inwards and extending towards the direction of the supporting columns, the upper connecting ring is sleeved with supporting sleeves, upper connecting lugs corresponding to the lower connecting lugs in a one-to-one mode are arranged on the periphery of the supporting sleeves, a plurality of supporting lugs are further arranged on the periphery of the supporting sleeves, upper fastening holes are formed in the supporting lugs, the supporting lugs are arranged below the upper connecting lugs, and one ends of the positioning frame extending upwards are detachably connected to the upper connecting lugs.

9. The particle separator assembly tooling of claim 8, wherein: the support sleeve is provided with a plurality of limiting holes and connecting holes, the support column is provided with positioning holes corresponding to the limiting holes, the limiting holes can be coaxial with the corresponding positioning holes, the support column is also provided with fixing holes corresponding to the connecting holes, and the connecting holes can be coaxial with the corresponding connecting holes.

10. A particle separator assembly tooling as claimed in claim 8 or 9, wherein: the upper connecting lug is connected with one end of the positioning frame, which extends upwards, through a pin shaft.

Technical Field

The invention belongs to the technical field of aero-engines, and particularly relates to a forming method of an aero-particle separator.

Background

The composite material has the characteristics of high specific strength, high specific modulus, stable size, strong designability and the like, becomes one of the most important aerospace structural materials after aluminum alloy, titanium alloy and steel, and is widely applied to the aerospace field.

With the rapid development of aerospace industry, the weight of structural devices is more stringent. The light and high-strength composite material has important significance for reducing the weight of an engine, improving the performance of an aircraft and reducing the launching cost.

The working environment of the helicopter is complex, so that the engine works in a sand-fog-diffused environment, a particle separator is required to be additionally arranged to effectively reduce sand particles and impurities from entering the engine, the engine is protected, the service life of the engine is prolonged, when the particle separator is prepared in the prior art, the preparation of the separator is often completed by using a metal material, the preparation difficulty of the separator is high, and the weight of the prepared separator is heavy.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to overcome the defects in the prior art, solve the technical problem of heavy weight of the separator prepared in the prior art, and provide a forming method of an aviation particle separator.

The purpose of the invention is realized as follows: a forming method of an aviation particle separator comprises an upper outer ring mold and an inner ring mold, wherein the upper outer ring mold comprises a fixing ring, a plurality of single paving molds are arranged in the fixing ring, the shapes of the inner walls of the assembled single paving molds are the same as that of the outer walls of the upper outer ring of the particle separator, the inner ring mold comprises a left half forming mold, a middle ring and a right half forming mold, a plurality of positioning mounting holes I are arranged on the periphery of the left half forming mold, a plurality of positioning mounting holes II which correspond to the positioning mounting holes I one by one are arranged on the middle ring, a plurality of positioning mounting holes III which correspond to the positioning mounting holes II one by one are arranged on the periphery of the right half forming mold, the downward end of the middle ring is attached to the upward side of the left half forming mold, the downward side of the right half forming mold is attached to the upward side of the middle ring, and the shapes of the inner walls of the left half forming mold, the middle ring, comprises the following steps of (a) carrying out,

(1) preparing an upper outer ring, comprising the following steps:

(101) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(102) Preparing an upper outer ring die, cleaning residues on the die attaching surface by using a special tool, paying attention to avoid scratching the die forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the die, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(103) according to the laying sequence, laying and pasting the prepreg sheets on a working surface consisting of a plurality of laying and pasting molds, wherein the prepreg sheets of each layer are divided into four pieces which are butted, and the butt joints are staggered by 90 degrees between adjacent layers;

(104) after the laying is finished, pasting a vacuum bag outside the upper outer ring mold, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the single laying mold, feeding the upper outer ring mold into an oven, and curing according to an upper outer ring curing process;

(105) cutting the upper outer ring subjected to cooling and demolding to the required size according to the requirements of a design drawing for later use;

(2) preparing an inner ring, comprising the following steps:

(201) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(202) preparing an inner ring mold, cleaning residues on the mold attaching surface by using a special tool, paying attention to avoid scratching the mold forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the mold, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(203) Paving and pasting a first half of the inner wall of the inner ring mould in the circumferential direction, paving and pasting the first layer, paving and pasting the second half of the inner wall of the inner ring mould in the circumferential direction, butting the two halves, and vacuumizing and compacting; paving and pasting a second layer in the same way, wherein the second layer is staggered from the first layer by 60 degrees, sequentially paving and pasting subsequent prepreg according to the way, and the angle of the paved and pasted prepreg is staggered from that of the prepreg of the previous layer by 60 degrees;

(204) after the laying is finished, pasting a vacuum bag outside the inner ring and outer ring molds, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the inner ring mold, feeding the inner ring mold into an oven, and curing according to an inner ring curing process;

(205) cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use;

(3) processing the lower outer ring, the lower mounting plate and the upper mounting plate according to the drawing requirements for standby;

(4) and assembling and positioning by using an assembling tool to complete assembling and forming.

In order to further improve the forming quality such as interlayer bonding force of the particle separator and the like and ensure the deformation coordination and force transmission stability after curing, twelve layers are paved in the step (103), and the paving angles of the first layer, the second layer and the … twelfth layer are sequentially as follows: + 45/-45/0/45/90/+ 45/-45/90/45/0/+ 45.

In order to further improve the quality tightness and thickness uniformity of the particle separator, the curing process of the upper outer ring and the curing process of the inner ring are as follows: vacuumizing at room temperature, keeping the vacuum degree below 0.095Mpa, heating at 0.5 deg.C/min, and keeping the temperature at 100 deg.C for 1 h; pressurizing to 0.3Mpa at 125 deg.C, maintaining the temperature for 30min, pressurizing to 0.5Mpa, and maintaining the temperature for 1 h; heating to 170 deg.C, and maintaining at 170 deg.C for 3 h; keeping the temperature at 210 ℃ for 5 h; cooling to below 60 deg.C at 2 deg.C, taking out the product, and vacuumizing.

In order to further improve the molding quality such as interlayer bonding force of the particle separator and the like and ensure the deformation coordination and force transmission stability after curing, in the step (203), ten layers of prepreg are paved together, and the paving angles of the first layer, the second layer and the … tenth layer are sequentially as follows: + 45/-45/0/90/+ 45/-45/90/0/+ 45.

In order to further improve the structural strength of the connection between the upper outer ring and the inner ring, the following steps are further included between the step (2) and the step (3),

(a) preparing a partition board:

(a1) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(a2) Preparing a partition plate die, cleaning residues on the die attaching surface by using a special tool, paying attention to avoid scratching the die forming surface, then soaking a small amount of acetone into a clean cloth tape to wipe the die, cleaning residues which affect products such as a small amount of residual glue and the like, and airing;

(a3) the partition board die is provided with a scribing area, and prepreg is sequentially paved in the scribing area;

(a4) after the laying is finished, pasting a vacuum bag outside the clapboard mould, vacuumizing the vacuum bag to compact the prepreg on the outer surface of the clapboard mould, and conveying the clapboard mould into an oven for curing;

(a5) and cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use.

As a further improvement of the present invention, in the step (a 3), a total of ten layers of prepreg are laid, and the laying angles of the first layer, the second layer and the … tenth layer are sequentially: + 45/-45/0/90/+ 45/-45/90/0/+ 45.

In order to further ensure the forming quality of the inner ring, when the prepreg is laid and attached, each two layers are pre-cured once, a vacuum bag is pasted outside an inner ring mold, the vacuum bag is vacuumized at room temperature, the vacuum degree is not lower than 0.095Mpa, the temperature is raised at 0.5 ℃/min, the temperature is kept at 100 ℃ for 1h, the pressure is increased at 125 ℃ for 0.3Mpa, the pressure is increased to 0.5Mpa after the temperature is kept for 30min, the temperature is kept for 1h, the temperature is raised to 170 ℃, the temperature is kept at 170 ℃ for 3h, the temperature is reduced to below 60 ℃ at the temperature reduction rate of 2 ℃, and the workpiece is; in this design, whenever having pasted two-layer preimpregnation material and just having carried out precuring to it, strengthen the laminating degree between preimpregnation material and the mould, reduce layer-to-layer joint gap to the influence of shaping quality, further guarantee the shaping quality of inner ring.

In order to further ensure the accurate positioning of each workpiece forming the particle separator during assembly, the assembly fixture comprises a lower connecting ring, a plurality of lower connecting lugs are arranged on the periphery of the lower connecting ring, a positioning frame is rotatably connected onto the lower connecting lugs, an upper connecting ring is arranged above the lower connecting ring, a plurality of supporting columns are arranged between the lower connecting ring and the upper connecting ring, lower fastening holes are formed in the lower connecting lugs, one inward end of the positioning frame extends towards the direction of the supporting columns, a supporting sleeve is sleeved on the upper connecting ring, upper connecting lugs in one-to-one correspondence with the lower connecting lugs are arranged on the periphery of the supporting sleeve, a plurality of supporting lugs are further arranged on the periphery of the supporting sleeve, upper fastening holes are formed in the supporting lugs, the supporting lugs are arranged below the upper connecting lugs, and one end, extending upwards, of the positioning frame is detachably connected onto the upper.

In order to prevent the support sleeve from rotating, a plurality of limiting holes and connecting holes are distributed in the support sleeve, the support column is provided with positioning holes corresponding to the limiting holes, the limiting holes can be coaxial with the corresponding positioning holes, the support column is also provided with fixing holes corresponding to the connecting holes, and the connecting holes can be coaxial with the corresponding connecting holes.

In order to further facilitate the disassembly and assembly of the positioning frame, the upper connecting lug is connected with one end of the positioning frame, which extends upwards, through a pin shaft.

Drawings

Fig. 1 is a perspective view of an inner ring mold according to the present invention.

Fig. 2 is a perspective view of an upper outer ring mold according to the present invention.

Fig. 3 is a perspective view of a mold for a separator according to the present invention.

Fig. 4 is a first perspective view of the assembly fixture of the present invention.

Fig. 5 is a second perspective view of the assembly fixture of the present invention.

Fig. 6 is a perspective view of the support sleeve of the present invention.

Fig. 7 is a structural view illustrating the lower connecting ring, the support column and the upper connecting ring being connected together in accordance with the present invention.

FIG. 8 is a first perspective view of a particle separator according to the present invention.

FIG. 9 is a second perspective view of the particle separator of the present invention.

FIG. 10 is a three-dimensional view showing the structure of the particle separator of the present invention.

FIG. 11 is an internal structural view of a particle separator according to the present invention.

The forming die comprises a left half forming die 1, a middle ring 2, a right forming die 3, a positioning mounting hole 4, a fixing ring 5, a single paving die 6, a fastening hole 7, a supporting column 8, a lower connecting ring 9, a positioning frame 10, an upper connecting lug 11, a supporting sleeve 12, an upper connecting ring 13, a supporting lug 14, a lower connecting lug 15, a limiting hole 16, an upper fastening hole 17, a connecting hole 18, a positioning hole 19, a fixing hole 20, a lower mounting plate 21, a through hole I2101, a 2102 bump, a lower outer ring 22, an inner ring 23, an upper outer ring 24, an upper mounting plate 25, a through hole II 26 and a partition plate 27.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

A method for forming an aviation particle separator comprises an upper outer ring mold (shown in figure 2) and an inner ring mold (shown in figure 1), wherein the upper outer ring mold comprises a fixing ring, a plurality of single paving molds are arranged in the fixing ring, the shapes of the inner walls of the assembled single paving molds are the same as that of the outer walls of the upper outer ring of the particle separator, the inner ring mold comprises a left half forming mold, a middle ring and a right half forming mold, the upward end of the left half forming mold is a horizontal surface, a plurality of positioning mounting holes I are arranged on the periphery of the left half forming mold, a plurality of positioning mounting holes II which correspond to the positioning mounting holes I in a one-to-one mode are arranged on the middle ring, a plurality of positioning mounting holes III which correspond to the positioning mounting holes II in a one-to-one mode are arranged on the periphery of the right half forming mold, the downward end of the middle ring is attached to the upward side, the inner walls of the left half forming die, the middle ring and the right half forming die have the same shape as the outer wall of the inner ring of the particle separator, and the method comprises the following steps,

(1) preparing an upper outer ring, comprising the following steps:

(101) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(102) Preparing an upper outer ring die, cleaning residues on the die attaching surface by using a special tool, paying attention to avoid scratching the die forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the die, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(103) according to the laying sequence, laying and pasting the prepreg sheets on a working surface consisting of a plurality of laying and pasting molds, wherein the prepreg sheets of each layer are divided into four pieces which are butted, and the butt joints are staggered by 90 degrees between adjacent layers;

(104) after the laying is finished, pasting a vacuum bag outside the upper outer ring mold, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the single laying mold, feeding the upper outer ring mold into an oven, and curing according to an upper outer ring curing process;

(105) cutting the upper outer ring subjected to cooling and demolding to the required size according to the requirements of a design drawing for later use;

(2) preparing an inner ring, comprising the following steps:

(201) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(202) preparing an inner ring mold, cleaning residues on the mold attaching surface by using a special tool, paying attention to avoid scratching the mold forming surface, then soaking a small amount of acetone into a clean cloth belt to wipe the mold, cleaning residues which affect a product, such as a small amount of residual glue and the like, and airing;

(203) Paving and pasting a first half of the inner wall of the inner ring mould in the circumferential direction, paving and pasting the first layer, paving and pasting the second half of the inner wall of the inner ring mould in the circumferential direction, butting the two halves, and vacuumizing and compacting; paving and pasting a second layer in the same way, wherein the second layer is staggered from the first layer by 60 degrees, sequentially paving and pasting subsequent prepreg according to the way, and the angle of the paved and pasted prepreg is staggered from that of the prepreg of the previous layer by 60 degrees;

(204) after the laying is finished, pasting a vacuum bag outside the inner ring and outer ring molds, vacuumizing the vacuum bag to compact the prepreg on the inner surface of the inner ring mold, feeding the inner ring mold into an oven, and curing according to an inner ring curing process;

(205) cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use;

(3) processing the lower outer ring, the lower mounting plate and the upper mounting plate according to the drawing requirements for standby;

(4) assembling and positioning are carried out by using an assembling tool to complete assembling and forming;

in the step (103), twelve layers are paved, and the paving angles of the first layer, the second layer and the … twelfth layer are as follows in sequence: + 45/0/45/90/+ 45/0/+ 45;

in the step (203), ten layers of prepreg are paved, and paving angles of the first layer, the second layer and the … tenth layer are sequentially as follows: + 45/-45/90/0/+ 45; the lower outer ring is punched and formed, the upper mounting plate and the lower mounting plate are machined, the lower outer ring is made of aluminum alloy, and the upper mounting plate and the lower mounting plate are made of titanium alloy;

(ii) a The upper outer ring curing process and the inner ring curing process comprise the following steps: vacuumizing at room temperature, keeping the vacuum degree below 0.095Mpa, heating at 0.5 deg.C/min, and keeping the temperature at 100 deg.C for 1 h; pressurizing to 0.3Mpa at 125 deg.C, maintaining the temperature for 30min, pressurizing to 0.5Mpa, and maintaining the temperature for 1 h; heating to 170 deg.C, and maintaining at 170 deg.C for 3 h; keeping the temperature at 210 ℃ for 5 h; cooling to below 60 deg.C at 2 deg.C, taking out the product, and vacuumizing.

In order to further improve the structural strength of the connection between the upper outer ring and the inner ring, the following steps are also included between the step (2) and the step (3),

(a) preparing a partition board:

(a1) drawing the shape of each layer of prepreg by using three-dimensional software, guiding the shape into an operating system of an automatic blanking machine, blanking according to the set shape and number, and numbering;

(a2) preparing a partition plate die (as shown in figure 3), cleaning residues on the surface of the die with a special tool, paying attention to avoid scratching the forming surface of the die, then soaking a small amount of acetone into a clean cloth tape to wipe the die, cleaning residues which affect products such as a small amount of residual glue and the like, and airing;

(a3) the partition board die is provided with a scribing area, and prepreg is sequentially paved in the scribing area;

(a4) after the laying is finished, pasting a vacuum bag outside the clapboard mould, vacuumizing the vacuum bag to compact the prepreg on the outer surface of the clapboard mould, and conveying the clapboard mould into an oven for curing;

(a5) Cutting the edge of the inner ring subjected to cooling and demolding to the required size according to the requirement of a design drawing for later use;

in the step (a 3), ten layers of prepreg are paved, and the paving angles of the first layer, the second layer and the … tenth layer are as follows in sequence: + 45/-45/90/0/+ 45; the step (1), the step (2), the step (3) and the step (a) are not in sequence.

In order to further improve the precision of the inner ring surface and the structural strength of the inner ring, when the prepreg is laid and attached, pre-curing is carried out once every two layers, a vacuum bag is pasted outside an inner ring mold, the vacuum bag is vacuumized at room temperature, the vacuum degree is not lower than 0.095Mpa, the temperature is increased by 0.5 ℃/min, the temperature is maintained at 100 ℃ for 1h, the pressure is increased by 0.3Mpa at 125 ℃, the pressure is increased to 0.5Mpa after the temperature is maintained for 30min, the temperature is continuously maintained for 1h, the temperature is increased to 170 ℃, the temperature is maintained at 170 ℃ for 3h, the temperature is reduced to below 60 ℃ at the temperature reduction rate of 2.

In order to further ensure the accurate positioning of each part forming the particle separator during assembly, as shown in fig. 4-7, the assembly tool comprises a lower connecting ring, a plurality of lower connecting lugs are arranged on the periphery of the lower connecting ring, a positioning frame is rotatably connected onto the lower connecting lugs, an upper connecting ring is arranged above the lower connecting ring, a plurality of supporting columns are arranged between the lower connecting ring and the upper connecting ring, lower fastening holes are formed in the lower connecting lugs extending towards the direction of the supporting columns and at the inward end of the positioning frame, supporting sleeves are sleeved on the upper connecting rings, upper connecting lugs corresponding to the lower connecting lugs in a one-to-one manner are arranged on the periphery of the supporting sleeves, a plurality of supporting lugs are further arranged on the periphery of the supporting sleeves, upper fastening holes are formed in the supporting lugs, the supporting lugs are arranged below the upper connecting lugs, and the ends of the positioning frame extending upwards; the supporting sleeve is provided with a plurality of limiting holes and connecting holes, the supporting column is provided with positioning holes corresponding to the limiting holes, the limiting holes and the corresponding positioning holes can be coaxial, the supporting column is also provided with fixing holes corresponding to the connecting holes, and the connecting holes and the corresponding connecting holes can be coaxial; the upper connecting lug is connected with one end of the positioning frame which extends upwards through a pin shaft.

The particle separator (as shown in figures 8-11) comprises an inner ring, a lower outer ring and an upper outer ring are arranged on the periphery of the inner ring, the upper outer ring is arranged on the upper side of the lower outer ring, a lower mounting plate is arranged on the inner side of the lower outer wall, an upper mounting plate is arranged on the inner side of the upper outer ring, a plurality of bulges are arranged on the inner side of the lower mounting plate, through holes I which can be coaxial with lower fastening holes are formed in the bulges, a plurality of through holes II which are in one-to-one correspondence with the upper fastening holes are arranged on the upperA plurality of mounting holes which correspond to the second through holes one by one are distributed on the inner ring, and the mounting holes can be coaxial with the corresponding second through holes; when the particle separator is assembled, the lower outer ring sequentially penetrates through the supporting sleeve and the supporting column, the inner wall of the downward end of the lower outer ring is sleeved on the lower connecting lug and is supported on the lower connecting lug, the lower mounting plate sequentially penetrates through the supporting sleeve and the supporting column and is placed on the lower connecting lug downwards along the inner wall of the lower outer ring, the inner edge of the lower portion of the lower mounting plate is just attached to the outer edge of the lower connecting lug, the lower mounting plate is rotated, the first through holes and the lower fastening holes in the bulges are coaxial one by one, fastening screws penetrate through the first through holes and are screwed into the lower fastening holes, the lower mounting plate is fixed on the lower connecting lug, the inner ring sequentially penetrates through the supporting sleeve and the supporting column and is placed on the lower mounting plate along the inner wall of the lower outer ring, adhesive is coated on the bulge position of the ，After the glue is bonded and solidified, the upper mounting plate is placed on the upper side of the inner ring through the support sleeve, the upper mounting plate is rotated to enable each through hole II to be coaxial with the mounting hole one by one, the support sleeve is sleeved on the upper connecting ring, the support sleeve is rotated to enable each upper fastening hole to be coaxial with the corresponding through hole II and the corresponding mounting hole one by one, the pins are sequentially used for penetrating through the upper fastening hole, the through hole II and the mounting hole to enable the positions of the support sleeve, the upper mounting plate and the inner ring to be relatively fixed, the support sleeve is rotated to enable the position of the upper connecting lug to correspond to the position of the lower connecting lug, the limiting hole is coaxial with the corresponding positioning hole, the pins are sequentially used for penetrating through the limiting hole and the positioning hole to enable the support sleeve to be incapable of rotating, the fastening screws are sequentially screwed into the connecting hole and the fixing hole to fix the support sleeve on the support column, the upper outer ring is, the positioning frame is connected to the upper connecting lug by using a pin shaft, and the inner edge of the positioning frame is attached to the outer sides of the upper outer ring and the lower outer ring, so that the assembly and positioning of the particle separator are realized; the particle separator prepared by the invention has obvious weight reduction effect, reduces the manufacturing difficulty coefficient, has high reliability, is scouring-resistant and corrosion-resistant, and meets the performance of the particle separator.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some substitutions and modifications to some technical features without creative efforts based on the disclosed technical solutions, and these substitutions and modifications are all within the protection scope of the present invention.