CN203860326U - Cell heat preservation vessel - Google Patents

Cell heat preservation vessel Download PDF

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Publication number
CN203860326U
CN203860326U CN201420184082.5U CN201420184082U CN203860326U CN 203860326 U CN203860326 U CN 203860326U CN 201420184082 U CN201420184082 U CN 201420184082U CN 203860326 U CN203860326 U CN 203860326U
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CN
China
Prior art keywords
test tube
box
energy storage
storage block
upper cover
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Expired - Fee Related
Application number
CN201420184082.5U
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Chinese (zh)
Inventor
危金兰
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QUZHOU LANLING ELECTROMECHANICAL SCIENCE & TECHNOLOGY Co Ltd
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QUZHOU LANLING ELECTROMECHANICAL SCIENCE & TECHNOLOGY Co Ltd
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Priority to CN201420184082.5U priority Critical patent/CN203860326U/en
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Publication of CN203860326U publication Critical patent/CN203860326U/en
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Abstract

The utility model relates to a cell heat preservation vessel which can adapt to the storage of test tubes in different sizes and can realize convenient storage and taking out of energy storage blocks. The cell heat preservation vessel comprises a box; a test tube storage frame and energy storage blocks are arranged in the box; the energy storage blocks comprise iron blocks; the box comprises a box bottom and an upper cover; the box bottom and the upper cover are made from the same heat insulting material; magnets are arranged on the box bottom; the energy absorption blocks are fixed to one another by a manner that the magnets attract the iron blocks; a plurality of test tube storage holes are formed in the test tube storage frame; at least three clamping rods extending in the horizontal direction are arranged in the test tube storage holes, and can horizontally connected to the test tube storage holes in a flexible manner through clamping springs; the center of a circumcircle of a polygonal using projections of the clamping ends of the clamping rods in the depth direction of the test tube storage holes as apexes is positioned inside the polygonal using the projections of the clamping ends of the clamping rods in the depth direction of the test tube storage holes as the apexes. By the adoption of the cell heat preservation vessel, a problem of inconvenient carrying caused by the fact an air conditioning system provided with a cabinet is used for storing and conveying cells is solved.

Description

Cell cool-bag
Technical field
The utility model relates to cell cool-bag.
Background technology
For different cells, after recovery, need to be stored in and in needed temperature environment, preserve transportation.Existing way is preserved transportation for the cupboard that has an air-conditioning system by design to cell, by air-conditioning system, the temperature in cupboard is met the requirements, and by having the cupboard of air-conditioning system, stores transport cells and exists: power consumption, carry the deficiencies such as inconvenient.
Utility model content
That the utility model provides is that a kind of test tubes that can adapt to different sizes are deposited, energy storage block access cell cool-bag easily, has solved by being provided with the cupboard of air-conditioning system and cell is preserved to transport point has had the inconvenient problem of carrying.
Above technical problem solves by following technical proposal: a kind of cell cool-bag, comprise box, in described box, be provided with test tube storage rack and energy storage block, described energy storage block comprises and is provided with iron block, described box comprises end box and upper cover, box of the described end and upper cover are made by identical heat-insulating material, in box of the described end, be provided with magnet, described energy storage block is fixed together by described magnet adsorption iron block, described test tube storage rack is provided with some test tubes and deposits hole, described test tube is deposited the supporting rod that is provided with at least three along continuous straight runs extensions in hole, described supporting rod can be connected in test tube by clamp springs horizontal extension and deposit hole, the center of circle that the bare terminal end of described supporting rod is deposited the polygonal circumscribed circle that is projected as summit of hole depth direction along test tube is positioned at the bare terminal end of described supporting rod and along described test tube, deposits the polygonal inside that is projected as summit of hole depth direction.During use, temperature requirement while preserving according to cell, select the energy storage block with this temperature, then cell being left in to cell deposits in pipe, cell being deposited to pipe is placed in test tube storage rack again, then upper cover is covered on earth on box, energy storage block gives off energy and keeps the temperature-resistant cell that makes to be kept at this temperature, the power generation exchange that adiabatic end box and upper cover can effectively prevent space, box inside and outside, play the effect that extends the time that cell is stored under design temperature, after the energy of energy storage block releases, to energy storage block again accumulation of energy.Such as needs are preserved at 0 ° cell, utilize mixture of ice and water to work as energy storage block.The deposit method of test tube is: test tube is left in test tube and deposits in hole along circumferentially clamping by supporting rod, can all keep to the test tubes of different sizes that sidewall large area is unsettled to be deposited, thereby not only versatility is good but also can make test tube temperature everywhere all change to the same activity that keeps better cell of temperature of same energy storage block.
As preferably, described test tube is deposited and in hole, is provided with inner sleeve, described inner sleeve comprises epimere and hypomere, described epimere hangs on rotationally described test tube and deposits hole, described hypomere is threadedly connected to described epimere lower end, described hypomere and test tube are deposited between hole and are provided with along test tube and deposit the anti-rotation block that hole depth the direction chute extending and the prevention hypomere being inserted in chute rotate, described hypomere is provided with thimble, and described thimble is positioned at the bare terminal end of described supporting rod and along described test tube, deposits the polygonal inside that is projected as summit of hole depth direction.During use, thimble withstands on the bottom of test tube test tube is supported.Can all keep to the test tube of differing heights that diapire large area is unsettled to be deposited, thus not only versatility good and also can further make test tube temperature everywhere all with the consistent activity that keeps better cell of temperature of energy storage block.
As preferably, described thimble upper end is provided with sucker.Can effectively prevent test tube landing from thimble, good connecting effect.
As preferably, the bare terminal end of described supporting rod is provided with rotating fulcrum ball.Can either make test tube with being some contact between supporting rod, the unsettled area that point contacts test tube is large, and temperature homogeneity is good; Again can be anti-scratch test tube in the process of stop contact and mobile test tube.
The utility model also comprises vavuum pump, drive the accumulator of vavuum pump, and the first thermo-electric generation sheet charging a battery and the second thermo-electric generation sheet, described upper exterior surface is enclosed with upper cover part shell, the tow sides of upper cover part shell are all provided with reflecting layer, upper cover part shell is with forming upper heat-insulation chamber between upper cover, upper cover part shell is made by Heat Conduction Material, box outer surfac of the described end is enclosed with end box portion shell, the end tow sides of box portion shell are all provided with reflecting layer, end box portion shell is with forming lower heat-insulation chamber between end box, end box portion shell is made by Heat Conduction Material, upper cover part shell and the sealing of end box portion shell thermal conductivity are docking together, described upper heat-insulation chamber and lower heat-insulation chamber are communicated with, the entrance point of described vavuum pump links together with described lower heat-insulation chamber, the low temperature face of described the first thermo-electric generation sheet links together with described energy storage block thermal conductivity, the high temperature face of described the first thermo-electric generation sheet links together with box portion shell thermal conductivity of the described end, the high temperature face of described the second thermo-electric generation sheet links together with described energy storage block thermal conductivity, the low temperature face of described the second thermo-electric generation sheet links together with box portion shell thermal conductivity of the described end.When external temperature is variant with the temperature of energy storage block, utilize temperature contrast generating and upper and lower heat-insulation chamber is vacuumized, to improve effect of heat insulation, thereby play, extend the energy storage block effect of service time.Shell surfaces externally and internally is all provided with reflecting layer, can further prevents that box inside and outside from producing the effect of heat exchange.
As preferably, described upper lid and bottom box is sealed connected together.Can make heat-insulation chamber not be communicated with the space of cassette interior, further reduce the heat transfer effect in space, box inside and outside, to extend the service time of energy storage block.
As preferably, box of the described end comprises lower cover and tubular epimere, and described upper cover and lower cover shutoff are at the two ends up and down of described epimere, and described energy storage block is contained in described lower cover, the lower end pressure holding of described epimere is on described energy storage block, and described test tube storage rack is shelved on described energy storage block.Good fixing effect to energy storage block.
As preferably, described energy storage block is provided with flanging, is covered with step under described, and described energy storage block is suspended in described lower cover on described step by described flanging clasp joint.Can further prevent the energy dissipation of energy storage block, play the effect of the service time that extends energy storage block.
As preferably, described test tube storage rack is positioned at described energy storage block top, and described test tube storage rack upper surface is provided with mechanical temperature meter.Can know intuitively in energy-conservation mode the temperature of cell.
The utlity model has following advantage: by deposit energy storage block in the box of being made by heat-insulating material, cell is stored under design temperature, energy-conservation, convenient transportation, easy to use, lightweight; Upper cover and base are all made of heat-insulating material, can directly catch tactile when energy storage block temperature low while needing low temperature to preserve (be cell); By being set, iron block coordinate magnet that energy storage block is fixed in end box, make test tube remain on desired location with the relative position of energy storage block constant, prevent from producing mobile in transportation and cause test tube to move, thereby guaranteeing that in transportation, test tube carries out heat exchange according to the heat exchange pattern of setting with energy storage block.
Accompanying drawing explanation
Fig. 1 is the cross-sectional schematic of the utility model embodiment mono-.
Fig. 2 is the cross-sectional schematic of the utility model embodiment bis-.
Fig. 3 is the local enlarged diagram at the A place of Fig. 2.
Fig. 4 is the schematic diagram of the test tube storage rack of embodiment tri-.
Fig. 5 is the local enlarged diagram at the B place of Fig. 4.
Fig. 6 is the local enlarged diagram at the C place of Fig. 4.
Fig. 7 be inner sleeve and be connected to its upper-part along test tube, deposit the schematic diagram of the downward projection of hole depth direction.
In figure: box 1, end box 11, lower cover 111, first step 1111, second step 1112, epimere 112, first connects tongue 1121, the 3rd step 1122, upper cover 12, second connects tongue 121, upper cover part shell 13, upper heat-insulation chamber 14, end box portion shell 15, lower heat-insulation chamber 16, magnet 17, test tube storage rack 2, test tube is deposited hole 21, inner sleeve 22, supporting rod 23, thimble 24, chute 25, anti-rotation block 26, fulcrum ball 27, sucker 28, clamp springs 29, energy storage block 3, flanging 31, iron block 32, vavuum pump 4, check valve 41, accumulator 5, charger 6, the bare terminal end of supporting rod is deposited the tetragonal circumscribed circle 7 that is projected as summit of hole depth direction along test tube, the bare terminal end of supporting rod is deposited the quadrangle that is projected as summit 8 of hole depth direction along test tube, the first thermo-electric generation sheet 91, the second thermo-electric generation sheet 92.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the utility model is further described.
Embodiment mono-, and referring to Fig. 1, a kind of cell cool-bag, comprises box 1, test tube storage rack 2 and energy storage block 3.
Box 1 comprises end box 11 and upper cover 12.End box 11 comprises lower cover 111 and epimere 112.Lower cover 111 is shell-like structure.The sidewall of lower cover 111 is provided with first step 1111 and second step 1112.First step 1111 is positioned at the below of second step 1112.First step 1111 is provided with annular magnet 17.The tubular-shaped structures that epimere 112 is both ends open.The lower end of epimere 112 is provided with annular first and connects tongue 1121.The upper end of epimere 112 is provided with the 3rd step 1122.First connects tongue 1121 is sealed connected together with tight fit between the sidewall of second step 1112.Upper cover 12 is shell-like structure.Upper cover 12 is provided with annular second and connects tongue 121.Second connects tongue 121 is sealed connected together with tight fit between the sidewall of the 3rd step 1122.Lower cover 111, epimere 112 and upper cover 12 threes are made by identical heat-insulating material.
Energy-accumulation material in energy storage block 3 is mixture of ice and water, certainly can need to select according to temperature other energy-accumulation material.Energy storage block 3 is provided with flanging 31.Flanging 31 is provided with annular iron block 32.Energy storage block 3 is suspended in lower cover 111 on first step 1111 by flanging 31 clasp joints.Magnet 17 adsorbs iron block 32 and energy storage block is fixed.The surrounding of energy storage block 3 and bottom surface are with spaced apart between lower cover 111.The lower end of epimere 112 (i.e. the lower end of the first connection tongue 1121) pressure holding is on energy storage block 3.
Test tube storage rack 2 is provided with some test tubes and deposits hole 21.Test tube storage rack 2 is shelved on energy storage block 3.The upper surface of test tube storage rack 2 is provided with mechanical type thermometer (not drawing in figure).
During use, take off upper cover 12, the test tube that the test tube of depositing cell is placed in test tube storage rack 2 is correspondingly deposited in hole 21, then covers upper cover 12.Energy storage block 3 discharges or absorbs heat and makes the temperature of box 1 inside remain on respective value and cell is carried out to design temperature storage.When energy storage block 3 energy release and while causing temperature to maintain design temperature, again give energy storage block makeup energy.As temperature maintained to 0 ° of degree left and right with mixture of ice and water when energy storage block, the mixture of ice and water that melts completely or need during freeze over more to renew when ice.
Embodiment bis-, referring to Fig. 2, are: also comprise vavuum pump 4, accumulator 5, charger 6, the first thermo-electric generation sheet 91 and the second thermo-electric generation sheet 92 with the difference of embodiment mono-.
Upper cover 12 outer surfaces are enclosed with upper cover part shell 13.The tow sides of upper cover part shell 13 are all provided with reflecting layer.Upper cover part shell 13 is made by Heat Conduction Material.Upper cover part shell 13 is with forming upper heat-insulation chamber 14 between upper cover 12.Box 12 outer surfaces in the end are enclosed with end box portion shell 15.The tow sides of end box portion shell 15 are all provided with reflecting layer.End box portion shell 15 is made by Heat Conduction Material.End box portion shell 15 is with forming lower heat-insulation chamber 16 between end box 12.When upper cover covers on end box, end box portion shell 15 and upper cover part shell 13 directly sealing is connected to and realizes thermal conductivity together and be connected.Upper heat-insulation chamber 14 and lower heat-insulation chamber 16 are communicated with.
The entrance point of vavuum pump 4 links together with lower heat-insulation chamber 16.Accumulator 5 is for driving vavuum pump 4.The low temperature face of the first thermo-electric generation sheet 91 links together with energy storage block 3 thermal conductivity.The high temperature face of the first thermo-electric generation sheet 91 links together with end box portion shell 15 thermal conductivity.The electric output of the first thermo-electric generation sheet 91 by charger 6 with accumulator 5 link together, the first thermo-electric generation sheet 91 is for charging a battery.The high temperature face of the second thermo-electric generation sheet 92 links together with energy storage block 3 thermal conductivity.The low temperature face of the second thermo-electric generation sheet 92 links together with end box portion shell 15 thermal conductivity.The electric output of the second thermo-electric generation sheet 92 by charger 6 with accumulator 5 link together, the second thermo-electric generation sheet 92 charges a battery.In the present embodiment, upper cover part shell 13 and end box portion shell 15 are all made from aluminum and form, and reflecting layer is for to form in shell surface finish.
Referring to Fig. 3, the entrance point of vavuum pump 4 is also provided with the check valve 41 of opening towards vavuum pump.When vavuum pump 4 is stopped, gas can not be back in lower heat-insulation chamber 16 through vavuum pump entrance point.
In use procedure, the reflection side of upper cover part shell 13 and end box portion shell 15 surfaces externally and internallies plays the effect that heat exchange is carried out carrying out in thermal-radiating mode in space, box inside and outside that delays; When the temperature (being environmental temperature) of box 1 outside is during higher than the temperature (storing the needed temperature of cell) of box 1 inside, the first thermo-electric generation sheet 91 generates electricity and accumulators 5 chargings, and accumulator 5 drives 4 pairs of upper heat-insulation chambers 14 of vavuum pump and lower heat-insulation chamber 16 to vacuumize to delay heat exchange; Otherwise, when the temperature of box 1 outside is during lower than the temperature of box 1 inside, the second thermo-electric generation sheet 92 generatings and accumulators 5 chargings, accumulator 5 drives 4 pairs of upper heat-insulation chambers 14 of vavuum pumps and lower heat-insulation chamber 16 to vacuumize to delay heat exchange.The energy that the box 1 inside and outside temperature difference is larger means energy storage block 3 can be switched to quickly the external world, also be that energy storage block can shorten the holding time of cell, and this technical scheme can compensate the time being shortened, and makes temperature retention time be subject to extraneous interference few.
Embodiment tri-, with the difference of embodiment bis-, are:
Referring to Fig. 4, test tube is deposited and in hole 21, is provided with inner sleeve 22, supporting rod 23 and thimble 24.
Inner sleeve 22 comprises epimere 221 and hypomere 222.Epimere 221 hangs on rotationally test tube and deposits hole 21.Hypomere 222 is threadedly connected to epimere 221 lower ends.Hypomere 222 and test tube are deposited between hole 21 and are provided with along test tube and deposit the anti-rotation block 26 that hole depth the direction chute 25 extending and the prevention hypomere being inserted in chute rotate.Chute 25 is arranged at the hole wall that test tube is deposited hole 21.Anti-rotation block 26 is arranged at hypomere 222.Supporting rod 23 along continuous straight runs extend.Supporting rod 23 is arranged in epimere 221.Supporting rod 23 and test tube are deposited and between hole 21, are provided with clamp springs 29.Clamp springs 29 is for making supporting rod 23 stretch towards epimere 221 inside.Thimble 24 is arranged at the diapire of hypomere 222.Thimble 24 vertically extends.
Referring to Fig. 5, the bare terminal end of supporting rod 23 is provided with rotating fulcrum ball 27.The bare terminal end of supporting rod refers to while using that supporting rod is with one end of test tube contact.
Referring to Fig. 6, thimble 24 upper ends are provided with sucker 28.
Referring to Fig. 7, supporting rod 23 has four.The center of circle that the bare terminal end of supporting rod 23 is deposited the tetragonal circumscribed circle 7 that is projected as summit of hole depth direction along test tube is positioned at the bare terminal end of supporting rod and along test tube, deposits the inside of the quadrangle that is projected as summit 8 of hole depth direction.Thimble 24 is positioned at the bare terminal end of supporting rod and along test tube, deposits the inside of the quadrangle that is projected as summit 8 of hole depth direction.The bare terminal end of supporting rod the is deposited hole depth direction quadrangle that is projected as summit 8 along test tube is square.
Referring to Fig. 4, arrive Fig. 7, the method that test tube is fixed is: according to the height that is stored test tube, remove to rotate epimere 221 and make height that hypomere 222 rises to thimble 24 to needed position, the diapire of test tube is shelved on thimble 24 and by sucker 28 and adsorbs and prevent landing.Three supporting rods 23 are clamped in the sidewall of test tube under the effect of clamp springs 29 with test tube contact by fulcrum ball 27.
Embodiment tetra-, with the difference of embodiment tri-, are that supporting rod only has three.The bare terminal end of supporting rod is deposited the projection place of the hole depth direction center of circle of circumscribed circle along test tube is positioned at the bare terminal end of supporting rod and along test tube, deposits the leg-of-mutton inside that is projected as summit of hole depth direction.Thimble is positioned at the bare terminal end of supporting rod and along test tube, deposits the leg-of-mutton inside that is projected as summit of hole depth direction.The triangle that is projected as summit that the bare terminal end of supporting rod is deposited hole depth direction along test tube is equilateral triangle.

Claims (9)

1. a cell cool-bag, it is characterized in that, comprise box, in described box, be provided with test tube storage rack and energy storage block, described energy storage block comprises and is provided with iron block, described box comprises end box and upper cover, box of the described end and upper cover are made by identical heat-insulating material, in box of the described end, be provided with magnet, described energy storage block is fixed together by described magnet adsorption iron block, described test tube storage rack is provided with some test tubes and deposits hole, described test tube is deposited the supporting rod that is provided with at least three along continuous straight runs extensions in hole, described supporting rod can be connected in test tube by clamp springs horizontal extension and deposit hole, the center of circle that the bare terminal end of described supporting rod is deposited the polygonal circumscribed circle that is projected as summit of hole depth direction along test tube is positioned at the bare terminal end of described supporting rod and along described test tube, deposits the polygonal inside that is projected as summit of hole depth direction.
2. cell cool-bag according to claim 1, it is characterized in that, described test tube is deposited and in hole, is provided with inner sleeve, described inner sleeve comprises epimere and hypomere, described epimere hangs on rotationally described test tube and deposits hole, described hypomere is threadedly connected to described epimere lower end, described hypomere and test tube are deposited between hole and are provided with along test tube and deposit the anti-rotation block that hole depth the direction chute extending and the prevention hypomere being inserted in chute rotate, described hypomere is provided with thimble, described thimble is positioned at the bare terminal end of described supporting rod and along described test tube, deposits the polygonal inside that is projected as summit of hole depth direction.
3. cell cool-bag according to claim 2, is characterized in that, described thimble upper end is provided with sucker.
4. according to the cell cool-bag described in claim 1 or 2 or 3, it is characterized in that, the bare terminal end of described supporting rod is provided with rotating fulcrum ball.
5. according to the cell cool-bag described in claim 1 or 2 or 3, it is characterized in that, also comprise vavuum pump, drive the accumulator of vavuum pump, and the first thermo-electric generation sheet charging a battery and the second thermo-electric generation sheet, described upper exterior surface is enclosed with upper cover part shell, the tow sides of upper cover part shell are all provided with reflecting layer, upper cover part shell is with forming upper heat-insulation chamber between upper cover, upper cover part shell is made by Heat Conduction Material, box outer surfac of the described end is enclosed with end box portion shell, the end tow sides of box portion shell are all provided with reflecting layer, end box portion shell is with forming lower heat-insulation chamber between end box, end box portion shell is made by Heat Conduction Material, upper cover part shell and the sealing of end box portion shell thermal conductivity are docking together, described upper heat-insulation chamber and lower heat-insulation chamber are communicated with, the entrance point of described vavuum pump links together with described lower heat-insulation chamber, the low temperature face of described the first thermo-electric generation sheet links together with described energy storage block thermal conductivity, the high temperature face of described the first thermo-electric generation sheet links together with box portion shell thermal conductivity of the described end, the high temperature face of described the second thermo-electric generation sheet links together with described energy storage block thermal conductivity, the low temperature face of described the second thermo-electric generation sheet links together with box portion shell thermal conductivity of the described end.
6. cell cool-bag according to claim 5, is characterized in that, described upper lid and bottom box is sealed connected together.
7. according to the cell cool-bag described in claim 1 or 2 or 3, it is characterized in that, box of the described end comprises lower cover and tubular epimere, described upper cover and lower cover shutoff are at the two ends up and down of described epimere, described energy storage block is contained in described lower cover, the lower end pressure holding of described epimere is on described energy storage block, and described test tube storage rack is shelved on described energy storage block.
8. cell cool-bag according to claim 7, is characterized in that, described energy storage block is provided with flanging, is covered with step under described, and described energy storage block is suspended in described lower cover on described step by described flanging clasp joint.
9. according to the cell cool-bag described in claim 1 or 2 or 3, it is characterized in that, described test tube storage rack is positioned at described energy storage block top, and described test tube storage rack upper surface is provided with mechanical temperature meter.
CN201420184082.5U 2014-04-16 2014-04-16 Cell heat preservation vessel Expired - Fee Related CN203860326U (en)

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Application Number Priority Date Filing Date Title
CN201420184082.5U CN203860326U (en) 2014-04-16 2014-04-16 Cell heat preservation vessel

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Application Number Priority Date Filing Date Title
CN201420184082.5U CN203860326U (en) 2014-04-16 2014-04-16 Cell heat preservation vessel

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111919838A (en) * 2020-09-03 2020-11-13 林彩琴 Utilize fixed cell cryopreserving cooling box of atmospheric pressure

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111919838A (en) * 2020-09-03 2020-11-13 林彩琴 Utilize fixed cell cryopreserving cooling box of atmospheric pressure

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Granted publication date: 20141008

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