NL2005952C2 - SYSTEM FOR STORING AND EDITING TITER PLATES. - Google Patents

Description

System for storing and publishing titre plates

The present invention relates to a system for storing and issuing titer plates, comprising: an input and output station for input and / or issue of titer plates; and a storage station for temporarily storing at least one titre plate.

Such a system is already known from the prior art. Such a system also comprises a storage station, in which titer plates are placed, prior to use in, for example, a laboratory environment. In practice, the titer plates are placed in the system, and subsequently taken out at the bottom of the storage station by a user or, for example, a robot arm, which forms part of, for example, a robot system.

A drawback associated with the prior art is that the storage space of such systems is very limited. On the one hand it must be possible for the users to place the titer plates in the system, but on the other hand it must also be possible to simply remove the titer plates from the system. Another drawback is that such systems cannot handle different types of titer plates, or with titer plates that are provided with a lid.

Another system known from the prior art is that a storage station comprises a kind of drawer guides, which are arranged for instance on opposite sides of the storage station. A titre plate can (temporarily) be placed on a pair of drawer guides. The titre plate can later be taken out of the system by a user or, for example, a robot arm. In general, such systems are provided with a robot arm for taking out the titer plates.

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A drawback of such a system is that it takes up relatively much space in, for example, a robot system. It is generally known that surface area in a robot system is relatively expensive. In other words, such a system takes up (too) much space in relation to the performance of the system.

An object of the present invention is to remedy or at least reduce the problems associated with the prior art. To this end, a system 10 is provided according to the preamble of the independent claim 1, characterized by a stand extending between the input and output station on the one hand and the storage station on the other, and a carriage movable along the stand and comprising a carrier for accommodating at least one of the titer plates. An advantage of such a system is that it is possible for input and / or delivery of titer plates to take place at the input and output station. First of all, entering titer plates will be treated. The carriage is movable along the upright, which upright extends between the input and output station and the storage station. If a user wants to enter titer plates, the carriage will move towards the input and output station. The position of the carriage in the input and output station relative to the upright depends on a number of factors, namely: the height of the titer plates, are there still titer plates in the system, how many titer plates are going to be entered, etc. titre plates are placed in or on the support, the support being suitable for accommodating the at least one input titer plate. When the carriage is in the loading and unloading station, the user can enter titre plates. After entering at least a part of the titer plates to be entered, the carriage can move in the direction of the storage station, so that either more titer plates can be entered or the titer plates can be transported to the storage station. The titer plates are (temporarily) stored in the storage station until a user wishes to use at least one titer plate. The carriage will then move in the direction of the input dispensing station until it is possible for the user to remove the titre plate. If, after taking out the titer plate, it is desirable to take out another titer plate, the carriage will move a distance (depending on the height of the titer plate) in the direction of the input and output station, so that the user can titre plate. It is also possible that a number of titer plates can be taken out before the carriage is moved. The size of the input and output station can be varied depending on the usage environment. An advantage of this system is that the storage station does not have to be accessible for a user and / or robot arm. A result of this is that unused space of the environment can be used and that the storage capacity of such a system can be increased.

The invention has various preferred embodiments which are defined in the dependent claims and / or appear from the following description of some such embodiments. The advantages and the inventive features of the invention in all its aspects, including the measures defined in the dependent claims, are by no means limited to the considerations mentioned above and / or below.

An embodiment of the system according to the invention is characterized in that it comprises a drive which is adapted to drive the carriage. Practice has shown that there are a number of different embodiments of titer plates. These different titer plates are for example manufactured from different materials, so that the weight can differ. In order not to burden a user of a system with the movement of the titer plates, which can have a considerable total weight (up to 35 kilograms), a drive is provided. This makes the movement of the carriage relatively lighter for a user.

Another embodiment of the system according to the invention is characterized in that the system comprises a control, which is connected to the drive, for controlling the carriage. An advantage of the control is to control a movement of the car from the outside.

It is also possible to link the control to an external system, such as a robot arm, so that the whole can work together as efficiently as possible. For example, the robot arm can send a signal, for example a serial command, to the control to indicate that the robot arm 20 wants to take out a titer plate. As a result, the controller can drive the drive to move the carriage to a position where it is possible for the robot arm to take out the titre plate.

It is advantageous here that the system comprises an input device for inputting a movement of the carriage, wherein a number of predetermined movements of the carriage are selectable. A user of the system can in this way make a selection from, for example, a set of movements that occur frequently in practice. A situation in which it may be desirable for the user to select a movement of the carriage is, for example, when titer plates are to be entered or when the system is to be cleaned. The movement of the carriage to be selected is (entirely) dependent on the use environment of the system. An advantage of a selection of movements is that with great certainty the same movement is always made and the movement of the carriage 5 becomes comparatively easier.

Yet another embodiment of the system according to the invention is characterized in that the system comprises a detection sensor, which is arranged in the input and output station, for detecting the presence of a titer plate. It is advantageous here that the detection sensor is in communicating connection with the control for communicating a detection. By implementing the system in this way, the efficiency of the whole can be increased. When the detection sensor 15 detects that no titer plate is present in the input dispensing station, a detection signal with this observation can be sent to the control. The control can then on the one hand drive the carriage to move in the direction of the input and output station, so that at least one titer plate is again present in the input and output station. On the other hand, it is likewise possible for the control to activate alarm means to draw a user's attention to the fact that there are no more titer plates available. A result of this is that the system for storing and issuing titer plates will not be a limiting factor within a process in, for example, a robot system.

A further embodiment of the system according to the invention is characterized in that the system comprises at least two end stops for limiting the movement of the carriage along the upright. The two end stops make it possible to limit the movement of the carriage, so that the carriage does not get out of its reach. Getting the car out of its reach can result in damage, which in turn can lead to unwanted (high) costs. It is advantageous here that the two end stops are formed by software end stops for observing the carriage near at least one of the end stops, and that the end stops are in communicating connection with the control for communicating an observation. The software end stops detect when the carriage approaches one of the two end stops and communicate this to the control. The control can then stop the movement of the carriage or reduce a movement speed of the carriage, so that the carriage moves slowly to an extreme position. A result of this is that the car is prevented from approaching one of the two end stops at a relatively high speed and possibly bumping into the end stop. An advantage of this is that less damage will occur to the car.

Furthermore, it is preferred that the system comprises a closure for selectively closing the input and output station. In a laboratory it is desirable to work with a certain degree of hygiene. When a system is freely accessible from the outside, it can happen that dust settles on the titer plates.

25 This could ultimately lead to disturbed measurements, observations or a corresponding one. On the other hand, the titer plates can be protected against external influences by means of a lid. The aforementioned can be avoided by closing the input and output station.

Such a closure can also serve as protection for a user of the system. The system according to the invention comprises moving parts. It is possible that a user, for example, gets stuck with one hand between these moving parts, with a number of undesirable effects as a result. This can be prevented by the closure. It is advantageous here that the termination is in communicating connection with the control. In this way it is possible, for example, to cause the system to stop when a person opens the closure while the system is in use. The person in question cannot get caught between moving parts of the system.

A further embodiment of the system according to the invention is characterized in that at least one of the input and output station and the storage station is located within the upright. An advantage of this embodiment is that the carriage can move through the entire storage station and / or the input and output station. A result of this is that, for example, the maximum storage capacity of the system can be utilized as a result, or that the maximum number of titer plates to be entered simultaneously can be entered in one go.

Yet another embodiment of the system according to the invention is characterized in that the system comprises an attachment for attaching the system to a work surface. It is advantageous here that the attachment is located between one end and another end of the upright. With this embodiment it is possible to place the system in a hole in, for example, a tabletop / worktop in a laboratory. A result of this is that optimum use can be made of all available surface area in a robot system.

Following the foregoing main explanation of the present invention, an embodiment of the invention will be described in more detail below with reference to the accompanying drawing, in which the same or similar parts, aspects and components are designated with the same reference numerals, and wherein the present invention is by no means limited to any of the embodiments shown or described, and wherein:

FIG. 1 shows a perspective view of a system according to the invention for storing and issuing titer plates; and

FIG. 2 shows an embodiment of the system 10 according to the invention for storing and issuing titer plates,

The figures will be described together below.

In FIG. 1 shows a system 1 according to the invention for storing and issuing titer plates. The system 1 comprises a post 2. A unit 5 is movable along the post, which unit 5 consists of a carriage and a carrier (not shown separately). Furthermore, the system 1 for storing and issuing titer plates 6 comprises an input and output station 4, as well as a storage station 3.

To limit movement of the unit 5 along the upright 2, at least two end stops 7 are provided. The end stops 7 can also be software end stops for determining a position of the unit 5 relative to the end stops 7. It is noted that the unit 5 can be moved past one of the two end stops 7, for example for entering titer plates. In this way the insertion of titer plates can be carried out more easily. The system 1 is furthermore provided with an attachment 8, which will be further elucidated in the description with regard to Figs. 2.

FIG. 2 shows a system 1 according to the invention for storing and issuing titer plates 6 in a situation 9 in which the system 1 can be used. The system 1 is secured by means of the mounting 8 in a hole in a table top / work surface 9 of a table 14. The storage station 3 is located under the table top 9 and will be able to reach the base 5 of the table 14. The storage station 3 is located in a room of, for example, the laboratory, which is normally hardly used or not used.

The input and output station 4 of the system 1 is located above the tabletop 9 of the table 14. This input and output station 4 must be easy to reach for any users and / or systems 10 cooperating with the system 1 according to the invention. . Here, as an example of a system that cooperates with the system 1 according to the invention, a robot arm 10 is shown. The robot arm 10 can take or enter 15 titer plates from the input and output station 4. The system 1 and the robot arm 10 are coupled via connections 12, 13 to a computer 11. In this case, the computer 11 forms the control of the system 1 and / or of the robot arm 10.

After the foregoing, many alternative and additional embodiments will occur to those skilled in the art, which then will not be a protected embodiment of the present embodiment if these additional or alternative embodiments deviate in letter or spirit from what is defined as an invention in the claims.

For example, a control has been discussed above, but in practice this can be a computer, which computer is connected via a connection to the system for storing and issuing titer plates. This computer can even be a central computer in, for example, a robot system, so that all equipment and system within the robot system form a cooperating whole. Furthermore, in practice it will occur in a majority of cases that the system is included in, for example, an automation system for a laboratory. In other words: the system for storing and issuing titer plates is in that situation part of a (larger) automation system. It is also described in the description that the movement of the carriage is limited by means of end stops. It is possible that the movement of the car is limited by software. For example, a zero position can be determined, in order to subsequently indicate a range (number of "steps") within which the carriage may move. When the car comes out of range, the software will stop the movement of the car. Furthermore, the zero position can be a position where the loading / unloading of the system can easily be carried out. A user can control the car from outside to go to the zero position. Incidentally, it is possible that a "door" is provided at the input and output station, which limits access to the station from outside. The door can also be provided with a protection 20, so that the system is put out of operation when someone opens the door, or approaches the interior of the system from the outside.

Claims (14)

A system for storing and issuing titer plates, comprising: 5. an input and output station for input and / or issue of titer plates; and - a storage station for temporarily storing at least one titer plate, characterized by 10. a stand extending between the input and output station on the one hand and the storage station on the other; and - a carriage which is movable along the upright and comprises a support for accommodating at least one of the titer plates. The system of claim 1, further comprising a drive, which is adapted to drive the carriage. 3. System as claimed in claim 2, further comprising a control, which is connected to the drive, for controlling the carriage. 4. System as claimed in any of the foregoing claims, further comprising an input device for entering a movement of the carriage, wherein a number of predetermined movements of the carriage are selectable. The system of claim one of the preceding claims, further comprising a detection sensor disposed in the input and output station for detecting the presence of a titer plate. The system of claims 3 and 5, wherein the detection sensor is in communicating communication with the controller for communicating a detection. 7. System as claimed in any of the foregoing claims, further comprising at least two end stops, for restricting a movement of the carriage along the upright. 8. System as claimed in claim 7, wherein the two end stops are formed by software end stops for observing the carriage near at least one of the end stops. 9. System as claimed in at least claims 3 and 8, wherein the end stops are in communicating connection with the control, for communicating an observation. The system of any one of the preceding claims, further comprising a termination for selectively closing the input and output station. 11. System as claimed in claim 10, wherein the termination is in communicating connection with the control. The system of any one of the preceding claims, wherein at least one of the input and output station and the storage station is located within the upright. 13. System as claimed in any of the foregoing claims, further comprising an attachment for attaching the system to a work surface. The system of claim 13, wherein the attachment is located between one end and another end of the upright.