Facility for handling and storing biological samples at very low temperatures

Abstract

The invention essentially consists in advantageously using and arranging at least one robot (8) relative to one or more storage recipients (4) and a transfer station (5) for transferring the containers to the unit in such a way as to take advantage of the flexibility of movement and grip offered by the arm or arms of the robot or robots and its/their gripping member, in order to automate all of the operations carried out manually by an operator in conventional biobanks.

Claims

1. An installation for handling and storing biological samples at very low temperatures, comprising: a plurality of storage boxes with multiple compartments, each compartment being adapted to house a container each adapted to contain one or more biological samples; a plurality of storage columns, each extending along a longitudinal axis and divided into a plurality of racks, each adapted to receive by translation transversely to the longitudinal axis one of the plurality of boxes; at least one storage receptacle, with thermal insulation, the interior of which is adapted to be subjected to very low temperatures, comprising in its upper part a cellular grid in which each cell is adapted to receive vertically one of the plurality of columns; a transfer station comprising a transfer table on which an operative can place one or more transfer boxes with multiple compartments, each compartment of which is also adapted to house one of a plurality of containers each adapted to contain one or more biological samples; a station for loading/unloading the storage boxes one by one, comprising a waiting table, at least one extraction means for extracting any of the storage boxes, from a rack of a column position in said station, and moving it to a position placed on the waiting table, and at least one pusher means for pushing a box, from its position placed on the waiting table, into an empty rack of a column positioned in said station; a station for loading/unloading the containers one by one, comprising a handling table, adapted to support at least two boxes with compartments, one of which is a selected one of the transfer boxes and the other of which is a selected one of the storage boxes; a single robot with six degrees of freedom of movement comprising a gripping member adapted to grip the upper end of a storage column, or of a storage box, or of a container, the at least one robot being adapted to enable movement of the gripping member with six degrees of freedom the installation being configured so that the gripping member of the robot can: i) move the selected transfer box from the transfer table onto the handling table, ii) extract any of the columns from one of the cells of the grid of the storage receptacle and then move it into the station for loading/unloading the boxes in a position such that the extraction means can extract a selected storage box on the waiting table, iii) move the selected storage box from the waiting table onto the handling table, and iv) extract any of the containers one by one from one of the compartments of the selected storage box, positioned on the handling table and move it into one of the compartments of the selected transfer box, and vice versa with the pusher means to push a selected storage box into an empty rack of a column positioned in the station for loading/unloading the boxes.

2. The installation as claimed in claim 1, comprising a controlled environment enclosure providing safe access to the transfer station for an operative from the exterior, the enclosure being configured to house the plurality of storage boxes, the plurality of storage columns, the storage receptacle(s), the transfer station, the loading/unloading stations and the robot.

3. The installation as claimed in claim 2, the access to the transfer station consisting of an airtight airlock or in an airtight drawer.

4. The installation as claimed in claim 1, wherein each storage column and/or each storage box and/or the transfer box comprises a barcode for identification by an identification reader carried by the robot.

5. The installation as claimed in claim 1, comprising a plurality of storage receptacles arranged substantially to form a portion of a circle with the robot fixed and arranged within the circle portion, the station for loading/unloading the boxes one by one being arranged inside the circle, the station for loading/unloading the containers one by one being arranged on the circle.

6. The installation as claimed in claim 1, comprising a plurality of storage receptacles arranged substantially to form at least one row with the robot mounted on a carriage mobile on a rail along the row.

7. The installation as claimed in claim 1, the storage receptacle or receptacles each comprising a lid for closing the receptacle, not involved in the storage configuration in the extraction from it or reciprocally in the insertion in it of a column.

8. The installation as claimed in claim 7, wherein a control and command unit of the robot are adapted to command the opening and reciprocally the closing of each storage receptacle.

9. The installation as claimed in claim 1, comprising one or more cylinders, as extraction means and/or pusher means.

10. The installation as claimed in claim 9, comprising as extraction means a plurality of cylinders each positioned facing a rack of a storage column when it is positioned on the waiting table.

11. The installation as claimed in claim 9, wherein the gripping member of the robot constitutes the pusher means.

12. The installation as claimed in claim 1, wherein the storage and transfer boxes are adapted to house conservation tubes or flexible envelopes.

13. The installation as claimed in claim 1, wherein the storage boxes each comprises a lid, the gripping member of the robot then being adapted to remove a lid from its box before the one by one extraction of the containers housed in said box, and to move the lid back on the box after the one by one extraction of the containers housed in said box.

14. The installation as claimed in claim 1, wherein the storage receptacle or receptacles operate(s) under temperatures under −150° C.

15. The installation as claimed in claim 1, wherein the station for loading/unloading the containers one by one is configured as an airtight enclosure with an environment at very low temperatures.

16. The installation as claimed in claim 1, wherein the installation is configured to store biological samples under cryogenic conditions in controlled environment receptacles.

Description

DETAILED DESCRIPTION

(1) Other advantages and features of the invention will emerge more clearly on reading the detailed description of embodiments of the invention given by way of nonlimiting illustration with reference to the following figures, in which:

(2) FIG. 1 is a perspective view of one example of one part of an installation according to the invention for handling and storing biological samples;

(3) FIG. 1A is a detail view in perspective of FIG. 1 showing the transfer station from outside the installation;

(4) FIG. 2 is a plan view of FIG. 1;

(5) FIG. 3 is a perspective view showing the station of the installation according to the invention for loading/unloading storage boxes one by one, with a box storage column in position in the station;

(6) FIG. 4 is a perspective view showing the gripping member of the six-axis robot of the installation according to the invention;

(7) FIG. 5 is a perspective view of a station for loading/unloading sample receptacles one by one of the installation according to the invention;

(8) FIG. 6 is a perspective view of a biological sample conservation tube suitable as a receptacle suitable for the installation according to the invention.

(9) It is here specified that throughout the present application, the terms “lower”, “central”, “higher”, “above”, “below”, “interior”, “exterior”, are to be understood with reference to a storage receptacle and a storage column of the installation according to the invention arranged vertically.

(10) There are shown in FIGS. 1 and 2 all of the essential components of an installation 1 according to the invention for handling and storing biological samples at very low temperatures, notably under cryogenic conditions.

(11) The biological samples are contained in containers.

(12) In the example shown, the sample containers 10 used are conservation tubes as already used. A conservation tube 10 is shown in FIG. 6: it comprises a blind tube part 11 to which is removably fixed a stopper 12 with a hollow interior 13.

(13) A plurality of tubes 10 are individually housed in the compartment 20 of a storage box 2 with multiple compartments. A tube 10 housed in a compartment 20 is shown in FIG. 5. In this FIG. 5 there is further seen a box 2 lid 21 that is removed from the latter in order to enable the extraction or the insertion of the tubes 10 one by one from and into the compartments 20 of the box 2.

(14) The installation 1 comprises storage columns 3 with drawers or racks. As shown in FIG. 3, a storage column 3 extends along a longitudinal axis X and is divided into a plurality of storage racks 30. Each rack 30 can receive a storage box 2 by translation transverse to the longitudinal axis X.

(15) Two identical storage receptacles 4 are provided, with thermal insulation, the interior of which is adapted to be subjected to very low temperatures, notably when liquid nitrogen is used as the cold source. The receptacle can be of the double-wall type in which a vacuum guarantees thermal insulation from the exterior. The receptacles 4 are preferably fixed to the floor.

(16) Each receptacle 4 comprises in its upper part a cellular grid 40 each cell 41 of which can receive vertically a storage column 3. Each receptacle 4 is closed by a removable lid 42.

(17) The installation 1 according to the invention includes a controlled environment enclosure, not shown, in which all the essential components are housed.

(18) To transfer storage boxes 2 one by one from the exterior of the enclosure, a transfer station 5 is installed comprising a transfer table 50 which an operative can access and move thereto a transfer box 2T with compartments 20 identical to those of the other boxes. Access is preferably via a controlled atmosphere insulated drawer or airlock system enabling the safety of the operative to be guaranteed.

(19) The installation also comprises a station 6 for loading/unloading boxes 2 one by one, which is an intermediate station between the storage receptacles 4 and a station 7 for loading/unloading the containers one by one.

(20) As shown in FIG. 3, the station 6 includes a waiting table 60 with a cylinder 61 or 62 on each of its longitudinal edges. One cylinder 61 enables any of the storage boxes 2 to be extracted from a rack 30 of a column 3 positioned in said station 6 and moved to a position placed on the waiting table 60. The other cylinder 62 enables a box 2 to be pushed from its position placed on the waiting table 60 into an empty rack 30 of a column 3 positioned in said station 6.

(21) To load/unload 7 sample tubes 10 one by one, a station 7 is arranged in the vicinity of the station 6. As shown in FIG. 5, this station 7 comprises a handling table 70, adapted to support at least two boxes 2, one of which is the transfer box 2.sub.T and the other of which is a selected one of the storage boxes. This station 7 is advantageously configured in a controlled cold environment.

(22) Finally, at the center of the installation 1, a six-axis robot 8 fixed to the floor includes an arm on which is mounted a gripping member 80, 81, 82. The latter is adapted to grip the upper end of a storage column 3, or of a storage box 2, or of a sample tube 10.

(23) The gripping member 80 is shown in detail in FIG. 4: it comprises a clamp 81 with two branches mobile relative to one another and an element 82 for gripping the tubes 10 one by one fixedly mounted at 90° to the axis of the clamp 81.

(24) The clamp 81 carries on the inside of each of its branches a gripping wedge 83 and on the outside of each of its branches gripping lugs 84.

(25) For its part, the gripping element 82 comprises one or more gripping fingers 85, advantageously three concentric figures disposed at 120° to one another.

(26) The gripping member operates as follows: to grip a storage column 3, the branches of the clamp 81 are moved away from one another, and the gripping lugs 84 then come to be locked into corresponding recesses in the upper part of the column; to grip a box 2, the branches of the clamp 81 are moved toward one another, and the gripping wedges 83 then come to bear against the bottom of the box while the branches come to bear on the lateral sides of the box; to grip a tube 10, the fingers 85 are moved towards one another and inserted in the recess 13 of the stopper 12 of the tube and are then moved away from one another so as to be locked onto the stopper 12.

(27) The various steps in the operation of the installation 1 according to the invention are described now, executed by a control and command unit of the robot 8 and the storage receptacles 4, respectively for an operation of withdrawing one or more sample tubes from storage to the exterior of the enclosure of the installation and conversely for depositing one or more sample tubes in a storage receptacle from the exterior of the enclosure.

(28) 1/ Withdrawal

(29) Using a human-machine interface, an operative selects withdrawal of a sample tube 10.

(30) The control unit then verifies in its database that the column 3 and the storage box 2 and the selected sample tube 10 are present.

(31) If the response is positive, the operative then places in the access airtight drawer or airlock 90 a transfer box 2.sub.T with at least one empty compartment 20.

(32) Via the control and command unit and its gripping member 80 the robot 8 then carries out the following successive steps: positioning the transfer box 2.sub.T on the handling table 70 of the station 7 for loading/unloading tubes one by one; opening the lid 42 of one of the storage receptacles 4; gripping a storage column 3 with the clamp 81 and then extracting it from the storage receptacle 4; placing the storage column 3 held by the clamp 81 on the loading/unloading station 6; if necessary, reading the identification means of the column 3 that has been placed, typically by reading a barcode; extracting the selected box 2 from the column 3 by the extractor cylinder 61 to a position on the waiting table 60 accessible by the clamp 81, the column 3 being still held by the clamp 81; if necessary, reading the identification means of the selected box 2, typically by reading a barcode; stowing the storage column 3 in the receptacle 4; closing the receptacle 4; positioning the selected box 2 on the handling table 70; if necessary, gripping the lids 21 of the transfer box 2.sub.T and of the selected box 2 by means of the clamp 81 and then positioning them in the station 7; gripping one or more sample tubes 10 in the selected box 2 by means of the gripping element 82 of the clamp, and positioning same in the transfer box 2.sub.T; if necessary, reading the identification means of the selected sample tube or tubes 10, typically by reading a barcode; if necessary, gripping of the lids 21 in their position in the station 7 and repositioning them on the bottom of the transfer box 2.sub.T and of the selected storage box 2; gripping the selected box 2 by means of the clamp 81 in its position on the handling table 70 and positioning it on the waiting table 70; opening the lid 42 of one of the storage receptacles 4; gripping a storage column 3 by means of the clamp 81 and then extracting it from the storage receptacle 4; reinserting said box 2 in the column 3 by means of the pusher cylinder 62; if necessary, gripping another selected box in another column of the same receptacle 4 or another receptacle and transferring other sample tubes contained in the other box; closing the lid 42 of the receptacle 4.

(33) The operative then recovers the transfer box 2.sub.T filled with the selected sample tube or tubes 10 from the access to the transfer station 5.

(34) 2/ Storage

(35) Via the human-machine interface, an operative selects deposition of a sample tube 10.

(36) The control unit then verifies in its database that locations are available in a column 3 and in a storage box 2.

(37) If the response is positive, the operative then places in the access airtight drawer or airlock 90 a transfer box 2.sub.T with at least one empty compartment 20.

(38) Via the control and command unit, using its gripping member 80 the robot 8 then effects the following successive steps: placing the transfer box 2.sub.T on the handling table 70 of the station 7 for loading/unloading the tubes one by one; opening the lid 42 of one of the storage containers 4; gripping a storage column 3 by means of the clamp 81 and then extracting it from the storage receptacle 4; placing the storage column 3 held by the clamp 81 on the loading/unloading station 6; if necessary, reading the identification means of the placed column 3, typically by reading a barcode; extracting the selected box 2 with free compartment(s) 20 from the column 3 by means of the extractor cylinder 61 to a position on the waiting table 60 accessible by the clamp 81, the column 3 still being held by the clamp 81; if necessary, reading the identification means of the selected box 2, typically by reading a barcode; stowing the storage column 3 in the receptacle 4; closing the receptacle 4; placing the selected box 2 on the handling table 70; if necessary, gripping the lids 21 of the transfer box 2T and of the selected storage box 2 by means of the clamp 81 and then placing them in the station 7; handling one or more sampling tubes 10 from the transfer box 2.sub.T by means of the handling element 82 of the clamp, and placing same in the selected box 2; if necessary, reading the identification means of the selected sample tube or tubes 10, typically by reading a barcode; if necessary, gripping the lids 21 in their position in the station 7 and repositioning them on the bottom of the transfer box 2.sub.T and of the selected storage box 2; gripping the selected box 2 by means of the clamp 81 in its position on the handling table 70 and placing it on the waiting table 70; opening the lid 42 of one of the storage receptacles 4; gripping a storage column 3 by means of the clamp 81 and then extracting it from the storage receptacle 4; reinserting said box 2 in the column 3 by means of the pusher cylinder 62; if necessary, gripping another box in the same column and transferring new samples, if necessary, gripping another selected box in the same column and transferring other sample tubes 10 contained in the other box; gripping the storage column 3 by means of the clamp 81 and then reinserting it inside the storage receptacle 4; if necessary, gripping another column from the same receptacle or from another receptacle and transferring other sample tubes 10 contained in the other box; closing the lid 42 of the receptacle 4.

(39) The operative then recovers the empty transfer box 2.sub.T from the access to the transfer station 5.

(40) Generally speaking, the installation according to the invention can be used for handling and storing biological samples at very low temperatures contained in diverse and varied containers.

(41) Other variants and advantages of the invention can be obtained without this departing from the scope of the invention.

(42) In particular, although in the embodiment shown there is a single six-axis robot 8, two robots may very well be envisaged, each with three degrees of freedom and independent of the other robot.

(43) The invention is not limited to the examples that have just been described; notably features from the examples shown may be combined with one another in variants that are not shown.