DE202005016300U1 - Bench top laboratory vibration tray for fermentation assembly has wireless link between tray-mounted sensors and bench-mounted control unit - Google Patents

Abstract

A laboratory fermentation assembly stands on a mechanically powered agitator tray. The tray is linked to a base unit with a vibration generator. The vibrator unit (1) consists essentially of a housing (2), a tray (3), sensors (4, 5), sensor electronics (6) and a control unit (7). The sensors and control unit are located on the tray and have a wireless link to the control unit. The tray has a central databus (10) providing a communications link between the sensors, sensor electronics and a central interface (11) on the tray. The central interface (11) has a wireless link to a fixed interface (12).

Description

The The invention relates to a device for shaking media, which on a Tray are arranged, consisting of a housing with a shaking mechanism, over the the tray in shaking movements is displaceable, and with at least one with a sensor electronics sensor connected to the control unit.

So far in the laboratory to be examined media, for example for biological Fermentation processes that need to be kept in motion will do this laboratory Shakers used. The laboratory shakers point a substantially horizontal tray on which the to investigating medium, for example in a shake flask, located. The tray is thereby arranged by a in a housing agitating mechanism in a circular movement, a longitudinal movement or in a tilting movement added. To study the moving medium, be Sensors used. additionally with the increasing need every shake flask on a tray with sensors or a sensor for sizes such as Oxygen content or ph value to here already data for process development to collect on the tray more and more sensors with their cabling, Sensor electronics and data cables are housed.

One the main problems for The indication of sensor technology on a laboratory shaker is the fact that the media under investigation must be in motion, so that the transfer of Sensor signals from the sensors to the sensor electronics or to a control unit via permanent Moving, kinked cable is necessary, which is especially true of the numerous Test leads a mechanical-electrical problem by possible Cable break represents.

Out WO 02/101000 A2 is a shaker known for biological fermentation. In the known shaker are the sensors or measuring heads arranged separately from the tray, so that the tray opposite the probes emotional. However, this is only by non-contact, optical measurement methods possible and separates the arrangement of sensors on the tray or on or in a shaking out.

task It is therefore an object of the present invention to provide a device for shaking Specify media that has a metrological monitoring on a tray arranged in particular in shake flasks Media that are kept in motion, arranged on the tray To monitor sensors and thereby mechanical problems, such as cable breakage of test leads for measured value processing, to avoid.

These The object is in connection with the preamble of claim 1 solved by that the at least one sensor and that connected to the sensor Sensor electronics are arranged on the tray and wirelessly with communicate the stationarily arranged control unit.

Thereby, that disconnected the sensor electronics from the control unit and on the tray is arranged between sensor and sensor electronics no movement problems with connecting cables to the sensors, since the sensor electronics opposite the sensors are not subject to any relative movement. Because of that Sensor electronics wirelessly with the stationary, for example on casing arranged control unit communicates, there is also between sensor electronics and control unit no cable problem.

According to one preferred embodiment of Invention, a plurality of sensors are arranged on the tray and is provided on the tray a central data bus over which with the help of the sensor electronics communication between sensors and a central interface takes place at the tray, with the central Interface wirelessly with a fixed interface, for example on the case, communicated. Due to the central data bus, it is possible to use the Communication between the sensors and the stationary control unit via only one central interface on the tray and on the corresponding with this to perform stationary interface wirelessly.

To a further preferred embodiment According to the invention, the central interface has a signal transmitter whose signals are received by a signal receiver of the fixed interface become. Furthermore, the central interface to a communication receiver, the Signals from a communication transmitter of the fixed interface receives. Signal receiver and Communication transmitters of the fixed interface are connected to the control unit via a Data line connected. The control unit points to processing the measured data and to control a microprocessor. The control unit but can also be formed by a computer.

In accordance with a further preferred embodiment of the invention, measurement signals of the sensors collected and processed by the sensor electronics are conducted via the central data bus to the central interface. The communication between the central interface and the fixed interface can be done by using radio frequencies over the known RFID (Radio Frequency Identification) technology. But it is also one wireless communication via the well-known Bluetooth technology possible.

According to one another preferred embodiment According to the invention, the media are arranged in the tray Shake flasks. To measure the medium in a shake flask is a the shaking adjacent, wireless sensor provided. The wireless sensor can be designed as an optical sensor. Also it is possible to get one Sensor as one in the shake flask Anordertable probe with a wire connection to the sensor electronics train. The sensor electronics and / or mechanics can thereby continue in the tray spatially be housed. The underside of the tray can be designed in this way be that they have the dimensions and breakpoints more commercial Schüttlertablare so that easy installation and retrofitting of laboratory shakers possible is. The surface of the tray can with the usual Thread grids are fitted so that usual holder or coaster for shake flasks can be installed.

According to one another preferred embodiment the invention, the power supply of the sensors and the Sensor electronics wirelessly on the shelf. This has the advantage that even with the energy or power supply no problems occur with moving cables. But there is a power supply opposite data lines much less susceptible to disruptions due to interruptions responds and needs only two moving cables to power would, could in principle also be used a wired connection.

To a further preferred embodiment the invention is on the housing a stationary energy transmitter and a power receiver provided on the tray. The energy could be transmitted inductively or by an RFID connection. Especially in a circular Movement of the tray it is possible the power supply of the sensors and the sensor electronics via a Perform generator, which is driven by the movement of the tray.

Farther it is advantageous to use a low-power sensor technique, i. optical and / or miniaturized metrology.

Further Details of the invention will become apparent from the following detailed Description and attached Drawings in which preferred embodiments of the invention are exemplified.

In show the drawings:

1 : A schematic representation of a device for shaking media and

2 : A block diagram of a device for shaking media.

A device 1 for shaking media consists essentially of a housing 2 a tray 3 , Sensors 4 . 5 , a sensor electronics 6 and a control unit 7 ,

The housing 2 has a shaking mechanism, not shown, which the tray 3 shaken in shaking movements. The shaking motion may be a circular movement, a horizontal or vertical longitudinal movement, a tilting movement or a combination of movements.

On the tray 3 are common, not shown holder for holding the shake flasks 8th in which the medium to be shaken 9 located, attached.

The tray 3 has wireless sensors 4 , for example, designed as optical sensors and the shaking flask 8th are arranged adjacent, as well as wired sensors 5 on. The wired sensors 5 are for example as in the shake flasks 8th designed plug-in probes.

The sensors 4 . 5 are with the sensor electronics 6 connected to the tray 3 is integrated. Measurement signals from the sensors 4 . 5 are from the respectively assigned sensor electronics 6 collected, processed and via a central data bus 10 one also at the tray 3 arranged, central interface 11 fed. From the central interface 11 there is wireless communication with a fixed interface 12 , which in the example on the housing 2 is arranged. The communication between central interface 11 and fixed interface 12 takes place in the example according to the RFID (Radio Frequency Identification) technology. It enables fast and automatic data acquisition via radio waves, for example with the help of transponders and corresponding reading and transmitting devices. The communication between the central interface and fixed interface can also be done by radio according to the known Bluetooth interface standard.

The stationary interface 12 is via a wire connection with the control unit 7 connected. The control unit 7 can also be designed as a separate PC. From the control unit 7 can in a corresponding, reverse direction control signals to the sensor electronics 6 or the sensors 4 . 5 be sent.

The central interface 11 has a signal transmitter 13 on, its signals from a signal receiver 14 the stationary interface 12 be received. The central interface 11 also has a communication receiver 15 , the signals from a communication transmitter 16 the fixed interface 12 receives, on.

The power supply of the sensors 4 . 5 and the sensor electronics 6 wirelessly via one on the housing 2 fixed energy transmitter 17 and one at the tray 3 arranged energy receiver 18 , The energy supply or energy transfer can be done via an RFID connection. In principle, however, an inductive energy transfer is possible. It is also possible that the power supply of the sensors 4 . 5 and the sensor electronics 6 via a generator, not shown, by the movement of the tray 3 is driven.

Claims (18)

Device for shaking media, which are arranged on a tray, consisting of a housing with a shaking mechanism, via which the tray is displaceable in shaking movements, and connected to at least one with a sensor electronics unit having a sensor, characterized in that the at least one Sensor ( 4 . 5 ) and with the sensor (( 4 . 5 ) connected sensor electronics ( 6 ) on the tray ( 3 ) are arranged and wirelessly with the stationary control unit ( 7 ) communicate. Apparatus according to claim 1, characterized in that a plurality of sensors ( 4 . 5 ) on the tray ( 3 ) are arranged on the tray ( 3 ) a central data bus ( 10 ) is provided, via which by means of the sensor electronics ( 6 ) communication between sensors ( 4 . 5 ) and a central interface ( 11 ) on the tray ( 3 ), and that the central interface ( 11 ) wirelessly with a fixed interface ( 12 ) communicates. Device according to claim 2, characterized in that the central interface ( 11 ) a signal transmitter ( 13 ), the signals from a signal receiver ( 14 ) of the fixed interface ( 12 ) received with the control unit ( 7 ) connected is. Device according to claim 2 or 3, characterized in that the central interface ( 11 ) a communication receiver ( 15 ), the signals from a communication transmitter ( 16 ) of the fixed interface ( 12 ) received with the control unit ( 7 ) connected is. Device according to one of claims 2 to 4, characterized in that the fixed interface ( 12 ) on the housing ( 2 ) is arranged and via a data line with the control unit ( 7 ) connected is. Device according to claim 5, characterized in that the control unit ( 7 ) is formed by a computer. Device according to one of claims 1 to 6, characterized in that of the sensor electronics ( 6 ) collected and processed measuring signals of the sensors ( 4 . 5 ) via the central data bus ( 10 ) to the central interface ( 11 ) are conductive. Device according to one of claims 1 to 7, characterized that wireless communication is formed using RFID technology is. Device according to one of claims 1 to 7, characterized that wireless communication is trained using Bluetooth technology is. Device according to one of claims 1 to 9, characterized in that the media ( 9 ) in on the tray ( 3 ) arranged shaking flasks ( 8th ) are located. Apparatus according to claim 10, characterized in that for measuring the medium ( 9 ) a shake flask ( 8th ) adjacent, wireless sensor ( 4 ) is provided. Device according to claim 11, characterized in that the wireless sensor ( 4 ) is designed as an optical sensor. Device according to one of claims 10 to 12, characterized in that the sensor ( 5 ) as one in a shake flask ( 8th ) can be arranged with a wire connection to the sensor electronics ( 6 ) is trained. Device according to one of claims 1 to 13, characterized in that the power supply of the sensors ( 4 . 5 ) and the sensor electronics ( 6 ) is designed as a wireless power supply. Apparatus according to claim 14, characterized in that on the housing ( 2 ) a stationary energy transmitter ( 17 ) and on the tray ( 3 ) an energy receiver ( 18 ) is provided. Device according to claim 14 or 15, characterized that an inductive power supply is provided. Apparatus according to claim 16, characterized ge indicates that an RFID connection is installed for the power supply. Device according to one of claims 1 to 13, characterized in that for the energy supply of the sensors ( 4 . 5 ) and the sensor electronics ( 6 ) one of the movement of the tray ( 3 ) is present drivable generator.