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~ History of our prototyping and development ~
2MS3.0 Tube
Development of internal screw vial type containers and sealed containers for chemical solutions that can be used at ultra-low temperatures and in small spaces, mainly for use in the bio and medical fields.
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3D
*Can be operated with your finger or mouse
Point:
■The mouth of the TUBE is made of TPE material to improve sealing power
■Development of TPE material that can print barcodes on the bottom and sides of
TUBE
Auto Cap
Development aimed at automating the loading and unloading (transportation) of sample storage containers and the opening and closing of lids using robot arm operations in ultra-low temperature frozen warehouses.
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3D
*Can be operated with your finger or mouse
Point:
■Cap shape that can be connected to robot arm
■Development of a system that automates the opening, closing, and
transportation of caps
VIDEO
WINDOW Tube
Development to improve the sealing performance and strength of a "Storage container that can be pushed in and closed" in which a syringe needle is accessed by inserting it into a rubber cap
We verified whether it could be applied to the medical field. As a result of focusing on and improving the cleanliness of the storage container, a biochemical test conducted by a laboratory revealed that there were no problems with DNase/RNase, pyrogen, or low binding.
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3D
*Can be operated with your finger or mouse
Point:
■The TUBE slit maintains closure
■Cap carrier avoids deformation and damage during bulk transportation. You can
close the cap as is.
Centrifuge Jacket Tube
The TISSUE TUBE, which used to be molded in one color, has been made into a two-color Jacket Tube, allowing barcodes to be printed on the bottom and sides.
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3D
*Can be operated with your finger or mouse
Point:
■The one-color molded TISSUE TUBE has been changed to a two-color molded Jacket
Tube, making it possible to print barcodes on the bottom and sides.
CUB TUBE
A divider was placed between the TUBEs to prevent the tissue from
floating above the liquid when storing the TUBEs in the rack.
Additionally, barcodes can be printed on the front and back sides.
(*Named “CUB” because it resembles a bear cub)
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3D
*Can be operated with your finger or mouse
Point:
■I put a partition between the tubes
■Barcode printed on front and back
DCS-1500
The 2D cord of the disc was added to the bottom of a 15 ml centrifuge tube. I added a skirt so that she could stand on her own.
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3D
*Can be operated with your finger or mouse
Point:
■The 2D cord of the disc was added to the bottom of a 15 ml centrifuge tube.
■ I added a skirt so that she could stand on her own.
DCS-5000
The 2D cord of the disc was added to the bottom of a 50 ml centrifuge tube. I added a skirt so that she could stand on her own.
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3D
*Can be operated with your finger or mouse
Point:
■The 2D cord of the disc was added to the bottom of a 50 ml centrifuge tube.
■ I added a skirt so that she could stand on her own.
IC TUBE 2.00
A tube into which an IC chip can be inserted at the bottom.
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3D
*Can be operated with your finger or mouse
Point:
■A tube into which an IC chip can be inserted at the bottom
JT-CRYOIC
Tube assembled by inserting IC chip between Jacket and TUBE
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3D
*Can be operated with your finger or mouse
Point:
■Tube assembled by inserting IC chip between Jacket and TUBE
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3D
*Can be operated with your finger or mouse