Method for manufacturing the impeller of a centrifugal compressor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23P-015/04
B29C-070/02
B29C-070/48
B29C-070/54
F04D-029/02
F04D-029/28
B29C-033/44
B29C-033/52
출원번호
US-0712876
(2010-02-25)
등록번호
US-9492970
(2016-11-15)
우선권정보
FI-20105048 (2010-01-21)
발명자
/ 주소
Karvinen, Juha
출원인 / 주소
RUNTECH SYSTEMS OY
대리인 / 주소
Birch, Stewart, Kolasch & Birch, LLP
인용정보
피인용 횟수 :
0인용 특허 :
30
초록▼
The invention relates to a method for manufacturing the impeller of a centrifugal, that is, a radial compressor or radial blower, said impeller being mounted directly on the shaft of an electric motor. An essential feature of the invention is that the composite material impeller is made using an RTM
The invention relates to a method for manufacturing the impeller of a centrifugal, that is, a radial compressor or radial blower, said impeller being mounted directly on the shaft of an electric motor. An essential feature of the invention is that the composite material impeller is made using an RTM process, wherein the RTM mold has a core and accurately trimmed fabrics placed therein in such a manner that the fabric layers, or preforms, are pulled onto the core thus achieving a maximally optimized use of materials in the structure.
대표청구항▼
1. A method for manufacturing an impeller that is capable of being mounted on a shaft of an electric motor of a centrifugal radial compressor or a radial blower, wherein the impeller is made of a composite material using a Resin Transfer Molding (RTM) process, including the steps of: preparing a bre
1. A method for manufacturing an impeller that is capable of being mounted on a shaft of an electric motor of a centrifugal radial compressor or a radial blower, wherein the impeller is made of a composite material using a Resin Transfer Molding (RTM) process, including the steps of: preparing a breakable, meltable, dissolvable, or shapable single-piece core,placing accurately trimmed fabric layers in the single-piece core of a mold for the RTM process in a manner to enable pulling of the fabric layers or preforms onto the single-piece core, thus achieving a maximally optimized use of materials in a structure of the impeller,the method further comprising:using fibers of different types so that areas of the structure of the impeller subjected to lesser stress are implemented using the fibers of a cloth, or fillers, or metals that are weaker than the fibers in the accurately trimmed fabric layers,orienting the fibers in the fabric layers in a direction of stressing forces in maximally stressed areas, whereby the fibers of the fabric layers at a leading edge of the fabric layers are bent smoothly around the leading edge, wherein a lower fiber content and lesser strength associated with the RTM method are compensated for by increasing a thickness at points of the structure of the impeller that are subjected to greatest stresses, andfurther comprising:laying out the fabric layers of the impeller prior to a step of injecting resin, andimproving abrasion resistance by way of making a separate wear layer from one of the fabric layers pretreated with an abrasion-resistance-improving powder,inserting the single-piece core into the mold, the single-piece core being breakable, meltable, dissolvable, or shapable by means of compressed air or liquid,forming flow spaces of the impeller with the single-piece core, andshaping a front-side disk of the impeller with a cover of the mold which is shaped advantageously for shaping the front-side disk of the impeller,wherein the cover of the mold is provided with an O-ring that secures tightness of the cover to an inner circumference of the mold. 2. The method of claim 1, further comprising: trimming the fabric layers with an automatic fabric cutting machine, andplacing each of the fabric layers in place so that they are alternatingly interlaced with an adjacent one of the fabric layers. 3. The method of claim 1, further comprising: trimming of the fabric layers using an automatic fabric cutting machine, andjoining exactly identical ones of the fabric layers with each other by stitching to avoid mutual displacement during a step of injecting resin,thus achieving the maximally optimized use of the materials in the structure of the impeller. 4. The method of claim 1, further comprising: filling voids between vanes of the impeller by a band braided from a thick one of the fibers, or by using the cloth, or the fillers. 5. The method of claim 1, further comprising: placing weaves over vanes and disks of the impeller so as to make them alternatingly interlace with the weaves of adjacent ones of the vanes, andinterlacing the fabric layers in each of the vanes of the impeller,wherein each of the fabric layers is continuous at a leading edge of each of the vanes by way of having the fabric layers attached to each other using an industrial sewing machine with a titanium wire as thread. 6. The method of claim 1, further comprising: manufacturing the centrifugal radial compressor and the radial blower. 7. The method of claim 6, further comprising: manufacturing the composite material impeller mounted on the electric motor shaft using the RTM process, by trimming the fabric layers and pulling the fabric layers or the preforms onto the single-piece core, so as to maximally optimize the use of the materials in the structure of the impeller. 8. The method of claim 1, wherein the fabric layers in joints between parallel sides of the preforms are stitched to each other with an industrial sewing machine. 9. The method of claim 1, further comprising: wing portions of the fabric layers or the preforms are bent parallel to the front-side disk of the impeller. 10. The method of claim 2, further comprising: placing weaves over vanes and disks of the impeller so as to make them alternatingly interlace with the weaves of adjacent ones of the vanes, andinterlacing the fabric layers in each of the vanes of the impeller,wherein each of the fabric layers is continuous at a leading edge of each of the vanes by way of having the fabric layers attached to each other using an industrial sewing machine with a carbon fiber or titanium wire as thread. 11. The method of claim 1, wherein the fabric layers in joints between parallel sides of the preforms are stitched to each other with an industrial sewing machine. 12. A method for manufacturing an impeller that is capable of being mounted on a shaft of an electric motor of a centrifugal radial compressor or a radial blower, wherein the impeller is made of composite material using a Resin Transfer Molding (RTM) process, including the steps of: preparing breakable, meltable, dissolvable, or shapable single-piece core,placing accurately trimmed fabric layers in the single-piece core of a mold for the RTM process in such a manner to enable pulling the fabric layers or preforms onto the single-piece core, thus achieving a maximally optimized use of materials in a structure of the impeller,orienting fibers in the fabric layers in a direction of stressing forces in high stressed areas, whereby the fibers of the fabric layers at outer perimeters of the fabric layers are bent smoothly around the outer perimeters of the fabric layers, andinterlacing the fabric layers in each of the impeller vanes,wherein each of the fabric layers is continuous at a leading edge of each of the vanes by way of having the fabric layers attached to each other using an industrial sewing machine with a titanium wire as thread, andfurther comprising:laying out the fabric layers of the impeller prior to a step of injecting resin, and improving abrasion resistance by way of making a separate wear layer from one of the fabric layers pretreated with an abrasion-resistance-improving powder,inserting the single-piece core into the mold, the single-piece core being breakable, meltable, dissolvable, or shapable by means of compressed air or liquid,forming flow spaces of the impeller with the single-piece core, andshaping a front-side disk of the impeller with a cover of the mold which is shaped advantageously for shaping the front-side disk of the impeller,wherein the cover of the mold is provided with an O-ring that secures tightness of the cover to an inner circumference of the mold. 13. The method of claim 12, further comprising: filling voids between vanes of the impeller by a band braided from a thick one of the fibers, or by using cloth, or fillers.
Kobayashi Kazuo (Nagoya JPX) Hanzawa Shigeru (Nagoya JPX), Furnace for sintering ceramics, carbon heater used therefor and process for sintering ceramics.
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