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Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Strong cold wind from room temperature to -13°C! Depending on the usage environment, you can choose between the combo type or the separate type!
- Cooling system
April 10, 2024 (Wednesday) to April 12, 2024 (Friday) Notice of Participation in Nagoya Manufacturing World 2024
Sanwa Shiki Ventilator Co., Ltd. will be exhibiting at the 2024 Monozukuri World (Nagoya) held at Port Messe Nagoya. We will also be showcasing our large cooling fans and cool/warm ambient products. Date: April 10, 2024 - April 12, 2024 Opening: 10:00 AM Location: Nagoya Port Messe (Exhibition Hall 1) *Our booth: 19-1 We would be grateful if you could visit us if you have the time.
Convey the design knowledge of construction machinery parts in a way that can be understood by younger generations, starting from 3D CAD data.
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Automate the design requirement checks for construction machinery parts to be faster and more reliable.
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Utilizing past assets through similar shape search for the design of jigs and equipment for construction machinery parts.
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Streamlining the compliance check of construction machinery parts specific standards based on 3D CAD data.
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Accelerating the development of young designers for construction machinery parts by utilizing knowledge from 3D CAD data.
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Enhanced wear resistance with an alumina ceramic sleeve in the flow path. Prevents metal contamination — ideal for secondary battery material production.
- Powder Supply Device
With our extensive experience and proven track record in water jet cutting, we accept requests for prototyping and verification cutting of difficult-to-process materials such as metals, resins, and co...
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- Composite Materials
At the moment of the malfunction, trace the record with a single line.
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Transform dormant 3D CAD data into knowledge assets that can be used for automotive design decisions.
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Efficiently reuse past automotive design assets through similar shape search.
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Convey automotive design knowledge in a form that can be understood by younger generations, starting from 3D CAD data.
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Automate the checking of automobile design requirements to be faster and more reliable.
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Automotive jig and equipment design also utilizes past assets through similar shape search.
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Streamlining the automotive-specific compliance check starting from 3D CAD data.
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Accelerating the development of young automotive designers through the utilization of 3D CAD data knowledge.
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Streamlining the automobile inspection process by utilizing 3D CAD data to standardize verification quality.
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Accelerating the estimation and approximate cost analysis of automobiles through similar shape search.
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Even new automotive designers can reduce rework by designing with past issues in mind.
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Share automotive design knowledge between bases to prevent the repetition of the same considerations.
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Streamlining the checks for automotive-specific regulations and certification requirements based on 3D CAD data.
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Transform dormant 3D CAD data into a knowledge asset that can be used for automotive parts design decisions.
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Efficiently reuse past automotive parts design assets through similar shape search.
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Reuse design data for automotive parts to shorten the period from design to production preparation.
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Accelerating the development of young automotive parts designers by leveraging knowledge from 3D CAD data.
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Streamlining the inspection of automotive parts by utilizing 3D CAD data to standardize quality assurance.
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Accelerating the estimation and rough cost analysis of automotive parts through similar shape search.
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Even a new designer of automotive parts can reduce rework by designing with past issues in mind.
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Share automotive parts design knowledge between bases to prevent the repetition of the same considerations.
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Streamlining the development of derivative models of automotive parts through modularization and reuse of design data.
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Facilitating the collaboration of design data with automotive parts suppliers through the use of 3D CAD data.
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Transform dormant 3D CAD data into a knowledge asset that can be used for shipbuilding design decisions.
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Reuse shipbuilding design data to shorten the period from design to production preparation.
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Utilizing past assets through similar shape search for shipbuilding jigs and equipment design.
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Accelerating the training of young shipbuilding designers by utilizing knowledge from 3D CAD data.
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Visualize the costs associated with design rework in shipbuilding and make it easier to explain the reduction effects to management.
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Share shipbuilding design knowledge between bases to prevent the repetition of the same considerations.
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Preventing automotive design rework in advance by utilizing 3D CAD data.
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Reuse automotive design data to shorten the period from design to production preparation.
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Promote the standardization of parts in collaboration with the purchasing department by reusing automotive component design data.
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Integrate automotive PLM and 3D CAD data to eliminate the fragmentation of design information.
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Visualize the costs associated with automotive design rework and make it easier to explain the reduction effects to management.
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Streamlining the development of automotive derivatives through modularization and design data reuse.
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Facilitating the collaboration of design data with automotive suppliers through the use of 3D CAD data.
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