RU2115171C1 - Device for remote dynamic coding and identification of various objects - Google Patents

Abstract

FIELD: automatics, various systems of automated production, man-free technological processes, computerization of service sphere and in structures of flexible automated control over various material flows. SUBSTANCE: proposed device incorporates code carriers installed on external surfaces of objects ( or their containers ), recording-reading heads and controller. Code carriers and heads are intercoupled with the aid of wireless communication channel. Each code carrier has unit of information exchange, programmable storage, unit connecting them and controlling recording- reading and power supply source. Optical communication channel with asymmetrical characteristics is chosen in the capacity of wireless communication channel which excludes action of electromagnetic interference, allows unlimited number of rerecordings of information to be performed and does not limit time of its storage. EFFECT: expanded application field, improved operational characteristics without enlargement of dimensions. 6 cl, 3 dwg

Description

 This invention relates to a device for remote and dynamic identification and encoding of data of various kinds of objects and can be used to create various systems of computerized production and all kinds of technological processes working according to the so-called "uninhabited technology", as well as the creation of computerized social services and structures of flexible automated management of various material flows, etc.

 Currently, various coding and dynamic data identification systems are known in which a code carrier readable by an appropriate read head is installed on the outer surface of the object to be identified (German application No. 3613150).

 The disadvantages of these devices are the small distances in the implementation of coding and identification, the lack of dynamic rewriting of information and the limitation on the number of cycles of rewriting information in the storage blocks of code carriers.

 The closest analogue to the claimed device is a device for encoding and identifying data about various objects, containing at least one write-read head, each of which is installed in a predetermined location with a predetermined orientation, the exchange bus of all write-read heads is connected to the controller as well as code carriers mounted on the outer surfaces of identifiable objects, each code carrier including a programmable storage unit, an information exchange unit, and a write-read control unit connected to them, wherein each write-read head and each code carrier information exchange unit are capable of interacting with each other via a wireless communication channel (German application No. 3412588).

 The disadvantage of this device is the possibility of exposure to various electromagnetic interference in the mode of transmitting information through its inductive-type wireless communication channel and in data storage mode. In addition, information from such carriers can be read out by heads only at small distances (several centimeters) due to the low power of the transmitter included in their composition, due to the low electrical power of the data channels used in the carriers, using electromagnetic radiation and the inability to record new information in dynamic mode .

 Therefore, the objective of this invention is to provide the ability to write and read data from the carrier at sufficiently large distances (several meters or more), while eliminating the effects of electromagnetic interference on other carriers and without increasing the size of the carrier and the write-read heads for large and more powerful sources of electromagnetic radiation, as well as providing an unlimited number of overwrites in storage blocks of code carriers with non-volatile storage of information about providing much greater noise immunity from extraneous electromagnetic radiation, both during operation of the code carriers and during storage of information, in comparison with semiconductor memory elements, while providing the ability to read and write the necessary information from the code carriers when moving relative to the write-read heads .

 The specified technical result is achieved in a device for remote dynamic coding and identification of various objects containing at least one write-read head, each of which is installed in a predetermined location with a predetermined orientation, the exchange bus of all write-read heads is connected to the controller, and code carriers mounted on the outer surfaces of identifiable objects, and each code carrier includes a programmable storage unit, an information exchange unit th and the connected write-read control unit, wherein each write-read head and each code carrier information exchange unit are configured to interact with each other via a wireless communication channel, due to the optical communication channel being selected as the mentioned wireless communication channel type with asymmetric characteristics.

 At the same time, the programmable storage block of the code carrier consists of storage elements with the possibility of unlimited rewriting of information made on multilayer anisotropic films.

 Multilayer anisotropic films can be made cylindrical or flat.

 As a power source in the code carrier, a combined power source can be used, in which a capacitive or other electrical energy storage device can be included. At the same time, various energy converters and, in particular, photocells are used to recharge the electric energy storage device.

 From the current level of technology, objects with the indicated set of essential features are unknown, which makes it possible to consider this object as meeting the patentability condition “novelty”. Objects containing the aforementioned set of distinguishing features are also unknown from the existing level of technology, which makes it possible to consider this object as meeting the patentability condition “inventive step”.

 In FIG. 1 is a structural diagram of a device for remote, dynamic encoding and identification of various objects according to the present invention; in FIG. 2 shows a functional diagram of a carrier used in the present invention; in FIG. 3 shows a functional diagram of a write-read head together with a controller that are used in the present invention.

 The device for remote dynamic encoding and identification of various objects includes (Fig. 1) code carriers 1, the number N of which corresponds to the number of objects to be encoded and identified (for example, N is equal to the number of containers stored in the warehouse). In addition, this device includes read-write heads 2 connected by their exchange buses to the controller 3.

 The controller 3 can be connected to the control computer 4 via a serial interface, for example, RS-232 or RS-485. The control computer and serial interface do not affect the operation of the claimed device, may be of any suitable type and are not included in the scope of patent claims.

 The read-write heads 2 are installed in predetermined places and with a predetermined orientation each, and the media 1 are each mounted on the outer surface of the corresponding object (for example, the container) so that this media is in the "field of view" of the read-write head 2 when movements of an object past this head 2. Several heads 2 are provided in case there are several flows of processed objects with code carriers 1 and each stream follows its own route, which does not coincide with the route anywhere s streams other objects. In FIG. 1 presents four heads 2 of the write-read, however, this is only one of the possible examples of the implementation of the claimed device.

 Each code carrier includes (Fig. 2) a programmable memory unit 6, an information exchange unit 7 and a recording / reading control unit 8 connecting them, as well as a combined power supply 9, for supplying all elements of the code carrier 1.

 The information exchange unit 7 is made, for example, on the photodiode 10 and the LED 11, although these may be other suitable elements, one of which receives and the other transmit radiation of a selected optical range of the electromagnetic spectrum. In this invention, one of the types of infrared radiation is used, which makes it possible to get rid of electromagnetic interference affecting the induction communication line of the aforementioned closest analogue (German Application No. 3412588). In FIG. 2, the positions 12 and 13 indicate the matching elements of the photodiode 10 and the LED 11, respectively, and the positions 14 and 15 indicate the corresponding signal conditioners.

 The write-read control unit 8 is, for example, a microprocessor 16 with program memory 17 connected by a common bus to a programmable memory unit 6. Logic converter 18 and OR element 19 in block 8 serve to control the current converter 20 in the combined power supply 9 for supplying the supply voltage to the microprocessor 16 with the storage units 17 and 6. The combined energy source 9 itself may include electric energy storage devices, for example, capacitive or galvanic cop 21. It can be recharged from current converters - for example photocells, or other elements, which allows you to operate this combined power source for a longer time without recharging or replacing it. Such a power source used in the proposed code carriers 1, can significantly increase their working resource in offline mode.

 The programmable storage unit 6 in the code carrier 1 consists of storage elements having the possibility of unlimited rewriting of information and non-volatile storage, for example, in the form of multilayer anisotropic films that can be made on cylindrical or flat substrates. These multilayer anisotropic films are described, for example, in the book of Mochalov VD Magnetic Microelectronics. - M .; Soviet Radio, 1977, pp. 118 - 128. The use of such storage elements in the media supports virtually unlimited time to store the information therein with the complete absence of energy sources, as well as when exposed to adverse environmental conditions, such as high and low temperatures hard ionizing radiation, electromagnetic interference, etc.

 The write-read head 2 contains (Fig. 3) photodiodes 22 and LEDs 23, although, as in the case of the information exchange unit 7 of the carrier 1, these can be other elements (phototransistors, lasers, etc.). In FIG. 3, the photodiodes 22 and the LEDs 23 are shown in pairs. This is done in order to emphasize an essential feature of the present invention: the asymmetry of the optical type electromagnetic communication channel between the carrier 1 and head 2. In this case, the write-read head 2 has a more powerful transmitter and a more sensitive receiver of the used optical electromagnetic radiation than the carrier 1, however, in principle, the reverse option is also acceptable if it is required for any specific application. The specified asymmetry of the communication channel allows you to increase the distance from which the head 2 can transmit data to the media 1 and receive data from it with minimal energy consumption.

 In addition to these elements, the head 2 contains corresponding matching elements 24 and 25, providing its connection to the controller 3. This controller 3 can be performed, for example, on the microcontroller 26, to which the shared memory block 27 (for storing programs), the first block, is connected 28 RAM (for storing the original data array to be transmitted to the carrier 1) and the second block 29 of RAM (for storing the data array received from the carrier 1). In addition, the microcontroller 26 is supplemented with corresponding matching elements 30 and 31 to ensure that it can be connected to the control computer 4 (see figure 1) through the corresponding interface 5.

 The device remote dynamic encoding and identification of various objects works as follows.

 Code carriers 1 are pre-installed on the outer surface of objects to be encoded and identified. In this case, the outer surface refers to the outer surface of either the object itself, if it is not packed into anything, or the outer surface of the container into which this object is placed (for example, a container). Typically, this outer surface is the side surface, although it is possible that it can be the upper and even lower surface. The main condition here is that this surface should fall into the field of view of the write-read head 2 when moving an object during processing, transportation, etc. Accordingly, the heads 2 of the write-read made by the remote are pre-installed in certain places and sent to the side where objects with code carriers 1 will move.

 In the first block 28 of random access memory is entered data intended for transmission to the media 1 with specific numbers. If any head 2 of an object with a code carrier 1 having the corresponding number, for which data is available in block 28, enters the field of view, the microcontroller 26 activates the LEDs 23 of this head 2 to send the data to this code carrier 1.

 All carriers 1 are in standby mode. When a signal from the head 2 occurs, the photodiode 10 of the carrier 1 starts to produce a current at its output, which is converted by the elements 12 and 14 into the corresponding signal. This signal, through the logical Converter 18, causes the inclusion of the current Converter 20, due to which the microprocessor 16 is powered with its blocks 6 and 17 of the memory. According to the program recorded in block 17, the microprocessor 16 either submits the data received by the photodiode 10 for recording to block 6, or reads data from this block 6 to transfer them using the LED 11 back to the write-read head 2.

 All of the above operation occurs if the microprocessor 16 recognizes in the received signal the number of the carrier 1 in which it is installed. Otherwise, information for code carrier 1 with a different number will not be able to be stored in that code carrier 1, as well as information recorded in its block 6 will not be read and sent to head 2.

 Information in the first block 28 of the RAM of the controller 3 can come from the control computer 4, or from a communication line (not shown), or it can be pre-recorded in the block 27 of permanent memory. The information read by the heads 2 from the carriers 1, using the electron-optical channel, is entered into the second block 29 of the RAM for temporary storage and subsequent reading into the communication line, to the control computer 4, etc.

 Thus, the use of a wireless optical communication channel with asymmetric characteristics, on the one hand, allows to increase the noise immunity from the environment in the operation of the claimed device (interference arising from electric welding, operation of electric motors, pick-ups of powerful electromagnetic fields from power cables, from various radio signals, etc. .p.), and which can be created in the same production process, the operation and movement of objects in which should be controlled by this device.

 On the other hand, using this channel (with predetermined characteristics), the range of the device in question is significantly increased (i.e., the ability to write-read the necessary information from the media), which is significantly higher than that of the closest analogue. In addition, the claimed device, in contrast to the described analogues, allows you to identify all kinds of objects and encode them at a constant speed of movement of the media with respect to the heads of the write-read.

 In addition, code carriers 1 (as noted above) in this device use long-term combined power sources 9, which avoids frequent replacements of electric energy storage devices 21 during their operation, significantly increases the reliability and their term of autonomous (unattended) operation, as well as the entire device as a whole.

 From the above description it is obvious that the claimed device can have various applications in industry and transport, i.e. This device meets the patentability criterion of "industrial applicability".

 The example implementation of the claimed device is only an illustration of the principles of the invention, but does not limit its scope, which is determined by the following claims.

Claims (7)

 1. A device for remote dynamic encoding and identification of various objects, containing at least one write-read head, each of which is installed in a predetermined location with a predetermined orientation, the exchange buses of all write-read heads are connected to the controller, as well as code carriers reinforced on the outer surfaces of identifiable objects, each code carrier comprising a programmable storage unit, an information exchange unit and a recording control unit connected to them s-reading, as well as a power source, with each recording-reading head and each code carrier information exchange unit being able to interact with each other via a communication channel, characterized in that the optical type communication channel with asymmetric characteristics is selected as the mentioned communication channel .  2. The device according to claim 1, characterized in that the programmable storage block of the code carrier includes a storage medium having the ability to unlimitedly overwrite information, and in particular, multilayer anisotropic films.  3. The device according to claim 2, characterized in that the multilayer anisotropic films are cylindrical.  4. The device according to claim 2, characterized in that the multilayer anisotropic films are made flat.  5. The device according to any one of claims 1 to 4, characterized in that a combined power source is used as a power source in the code carrier.  6. The device according to p. 5, characterized in that the combined power supply includes an electric energy storage device.  7. The device according to claim 5, characterized in that the combined power supply source includes energy converters and, in a particular case, photocells as a constant source of recharge of the electric energy storage device.

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