HU185726B - Data transmitter in particular for the purpose of dispatcher exchange at a colony - Google Patents

Abstract

The object of the present invention is that the data sources are optionally connected to a sub-station equipment for transmitters, which sub-station equipment complements the data to be transmitted to the control panel with its address, and assigns four different modulating audio frequencies to each data state which is input to the substation transmitter. The dispatcher center demodulates the radio frequency signal and then generates and displays digital information corresponding to the demodulated sound frequency. The operation of the substations at the dispatcher center can be disabled or checked. ) abra -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to data transmission equipment, in particular to a housing dispatch center.

In practice, the task again arises of transmitting various digital or digitizable signals from multiple locations to a control center. The number of data sources and the content of the data information may vary from place to place. In practice, the individual data sources are usually not in a completely random distribution but in a node.

For example, a large housing estate where the digitizable feature of certain building services equipment, such as elevators, ventilators, fire alarms, etc., is a good approximation to the arrangement generally described above. condition, which should be centrally displayed in addition to the local display, in order to switch from permanent on-call duty in individual dwellings, mainly due to lifts, to central dispatching, which results in significant investment and maintenance costs.

In practice, attempts have been made to centrally display the status of individual plumbing equipment or, in simpler form, to display the status of plumbing equipment in an adjacent house.

These known arrangements transmitted a signal of the condition of the plumbing equipment (such as elevators) and the alarm of the person in the elevator by wire, which is virtually excluded in a large housing estate and is not aesthetically and economically feasible.

It is an object of the present invention to provide a solution for transmitting signals from digital data sources around nodes to a center that provides data transmission without wires.

Achieving the above goal will ensure the development of a central dispatcher service in housing estates, thereby saving the caretakers' housing so far, as well as ongoing caretaker salaries. The central dispatcher service also speeds up the repair of the fault by properly guiding the installers.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a data transmission device, in particular for the purpose of providing a housing dispatch center capable of concentrating and transmitting information to individual transmitters.

According to the present invention, the above object is solved by a data transmission device which consists of a substation and preferably a dispatcher center, a substation line receiving circuit, a parallel-to-serial converter, a control unit, a digital (audio frequency converter, combinational network, clock) , includes a substation receiver and substation audio / digital converter, while the line receiving circuit is connected to the parallel-to-serial converter, the control unit and the substation audio / digital converter, the parallel-to-serial converter is connected to the control unit, and the control unit is connected to the clock generator, the substation digital / audio converter, the substation transmitter and the substation audio / digital converter, the clock generator s is connected to the network, the combination network is connected to the substation digital / audio converter, the substation digital / audio converter is connected to the substation transmitter, and the substation receiver is connected to the substation audio / digital converter, the dispatcher control panel is central, includes a central audio / digital converter, serial to parallel converter, decoder unit, storage, display unit, central digital / audio converter and control unit, with the central transmitter for the central digital / audio converter and the central digital / audio converter being connected, furthermore, the central receiver for the central audio / digital converter, the central audio / digital converter for the serial-to-parallel converter, the serial-parallel converter for the The decoder unit is connected to the storage unit and the storage unit is connected to the display unit.

In a preferred embodiment of the data transmission apparatus according to the invention, the substation further comprises an error simulator and / or sub-substation control circuit, the fault simulator being connected to the line receiving circuit and the substation audio / digital converter and the substation control circuit to the substation connected to the control unit.

The data transmission apparatus and operation of the present invention will be described in detail with reference to the exemplary embodiment shown in the accompanying drawings.

1 is a block diagram of a substation embodiment of a data transmission apparatus according to the present invention suitable for signaling of building service equipment for residential buildings, and FIG. 2 is a block diagram of an embodiment of a dispatcher center in communication with the substation of FIG.

Referring to FIG. 1, the data transmission substation 1 includes a first encoder, 2 a second encoder, 3 a third encoder, 4 line receiving circuits, 5 parallel-to-serial converters, 6 error simulators, 7 substation transmitters, 8 substation receivers, 9 substation audio / digital converters, subdivision control circuit, il substation digital / audio converter, 12 control units, 13 combination networks, 14 clock generator, i5 other sensors, 16 push button common wire, 17 ring common wire. It comprises 18 first signal wires, 19 second signal wires, 20 third signal wires.

The first encoder 1 is connected to the line receiving circuit 4 via a push-button common wire 16, a bell common wire 17 and a first signal wire 18. The second transducer 2 is also connected to the line receiving circuit 4 via the push-button common wire 16, the bell common wire 17 and the second signal wire 19. The third encoder 3 is also a line receiving circuit 21

For the 185 726, the bell common wire 17 is connected to the push button 16 via common wire 17 through the third signal line 20.

The line receiving circuit 4 is connected to the parallel line converter 5, the control unit 12 and the substation frequency / digital converter 9, the parallel series converter 5 is connected to the control unit 12 and the combination network 13, the control unit 12 to the clock generator 14, connected to substation digital / audio converter 11, substation transmitter 7 and substation audio / digital converter 19, clock generator 14 connected to combination network 13, combination network 13 to substation digital / audio converter 11, substation digital / audio converter 11 the audio converter is connected to the substation transmitter 7, and the substation receiver 8 is connected to the substation audio frequency / digital converter 9.

In an exemplary embodiment of the control unit 12, a malfunction detection circuit, an error address finding circuit, and a readout control circuit are provided.

In an exemplary embodiment of the combination network 13, two AND gates and two inverters are provided, where. One of the gate inputs and the first inverter input are connected to the clock generator 14. The other input of the AND gates is connected directly or via a second inverter to the parallel-to-serial converter 5. The three outputs of the combination network 13 are formed by the outputs of the two AND gates and the first inverter connected to the clock generator 14.

Referring to Figure 1, the sub-substation further comprises a fault simulator 6 and a substation control circuit 10, the fault simulator 6 being connected to the line receiving circuit 4 and the substation audio frequency / digital converter 9, and the substation control circuit 10 to the substation audio frequency / digital converter 9. and is connected to the control unit 12.

An exemplary embodiment of the error simulator 6 comprises a start detection unit, an error code generation unit and a recording unit, the start detection unit and the error code generation unit being connected to the recording unit.

An exemplary embodiment of the substation control circuit 10 comprises an additional start detecting unit and an actuator associated therewith.

The block diagram of Figure 2 illustrates an exemplary embodiment of a dispatcher center. The dispatcher center comprises 21 transmitters, 22 transceivers, 23 central audio / digital converters, 24 serial to parallel converters, 25 decoder units, 26 storage units, 27 display units, 28 central digital / audio frequency converters and 29 control units.

2, the central transceiver 21 is connected to the central digital / audio converter 28, the central digital / audio converter 28 is connected to the control unit 29, and the central receiver 22 is connected to the central audio / digital converter 23, the central audio / digital converter 23. a converter for a serial-to-parallel converter 24, a serial-to-parallel converter 24 for a decoder unit 25, a decoder unit 25 for storage 26, which is connected to the display unit 27.

The operation of the illustrated embodiment of the data transmission device according to the invention will be described in detail below.

In the embodiment described, the first, second and third signal transducers 1 and 2 symbolize a control and alarm device connected to elevators, wherein the first signal signal lines 18, 19 and 20 signal a person trapped in the elevator and the elevator self-tester. circuit fault indication. Preferably, the above signals are distinguished by their polarity. Depending on the configuration of the line receiving circuit 4, of course, several encoders can be connected, so the equipment can be controlled by more than three elevators.

If any encoder, for example,. a first transducer indicates an error or an emergency, optionally the first signal line i8 integrates the signaling signal into the line receiving circuit 4 and qualitatively selects the information. The information is then written to the parallel-to-serial converter 5, preferably controlled by the control unit 12.

The 12 control units must perform the following functions:

(a) detection of malfunction indication

(b) the. testing for possible disabling

(c) the commencement of the tax

d) Find and enter the error address

(e) control of reading

Based on an error message from the line receiving circuit 4, the disabling test circuit of the control unit 12 checks whether the substation is disallowed by the dispatch center. If there is no disabling, then the fault detection circuit of the control unit 12, preferably from the smallest address, examines the address at which the error occurred, at which device. The control unit 12 then writes the error address into the parallel-to-serial converter 5, and then the readout control circuit of the control unit 12 controls the readout from the parallel-to-serial converter.

The control unit 12 prepares the substation transmitter 7 for transmitting the signal. At the beginning of the transmission, the control unit 12 operates the digital / audio converter 11 of the substation, at the output of which the first modulating audio frequency is displayed and transmitted to the input of the substation transmitter 7. This. forms the trigger signal that the dispatcher center receives to receive data.

The 5 parallel-to-serial converter includes the substation identification code, the address of the signaling unit, and the type of signaling. It also includes the signal from the other sensors 15, which may be related to, for example, pipe breakage, fire alarms or operating conditions of the ventilation equipment. The address of the transmitter unit 12 is searched by the control unit 12 at the clock clock.

In the case of multiple signals, the signal of the transmitter with the lowest serial number is preferably transmitted first. The information from the parallel-to-serial converter 5 is transmitted bit by bit through the combination network 13, which has three outputs to the substation digital / audio frequency converter 11 (85,726 and the three outputs depending on the logic level (e.g., very level), what information is in the currently read bit of the parallel-to-serial converter 5, and whether the clock generator 14 signal is high or low. At a low level of the clock signal, the input of the substation transmitter 7 is always a pause signal as a modulating signal, whereas at a high level of the clock signal, if the actual bit of the parallel-to-serial converter 5 is logical yes, the modulating frequency is the second audio frequency. the modulating frequency is an additional sound frequency. Of course, this is possible in any other combination, the essence of the operation of the apparatus being that the start signal, the inter-bit break signal and the content of two possible information of the bits are represented by a discrete modulating audio frequency which modulates the substation transmitter Ί.

Each audio frequency modulating signal is output by the digital / audio converter of the substation i1 according to which input it receives a logic signal.

At one output of the combination network 13, the low-level logic yes is generated by simple inversion with the first inverter, while the other two outputs are logically dependent on the high level of the clock and the read signal status, since the clock is applied to both ES gates , while the other AND gate is passed through the second inverter, so at a low level of the clock, the output of the two AND gates is definitely not logical, whereas at the high level of the clock, only the output of one AND gate is logically yes.

The transmitted radio frequency signal is received and demodulated by the central receiver 22 at the dispatcher center. The demodulated signal is digitized by the central audio frequency / digital converter 23 and then written to the serial to parallel converter 24. As a result of the trigger signal transmitted from the subcarrier, the logical yes level is first written to the serial converter 24, so its arrival indicates the input of the complete data to the last bit of the previously reset 24 serial to parallel converter. The parallel format data is decoded by the decoder unit 25 and transmitted to the display unit 27.

The display unit 27 is preferably made in a map or mock-up design, with display elements, such as a display, arranged in a convenient location. light-emitting diodes. The current display thus makes the dispatcher visually localized by the dispatcher.

Upon receipt of a substation trigger signal, the dispatch center will automatically disable the distribution of the other substations until the first requesting substation has finished transmitting.

Disabling occurs by modulating the central transmitter 21 with a tone frequency, which is received by the substation receivers 8 and disables the immediate transmission of the signal stored in the line receiving circuit 4 through the output of the substation tone frequency / digital converter 9.

From the dispatcher center, the control unit 29, via the central digital / audio converter 28 and the other transmitter modulating frequency via the central transmitter 21, can manually send a ring signal to a person trapped in the elevator. The control unit 29 is further adapted to operate the error simulator 6 and the substation control circuit 10 using different audio frequency modulating frequencies. In fact, the output of the 9 substation audio frequency / digital converter always shows a logical yes level depending on the central audio frequency modulating frequency. The central modulating frequencies are preferably the same as the substation modulating frequencies to facilitate the construction of the circuits.

The fault simulator 6 is capable of simulating a pre-programmed fault or alarm of a substation, i.e., checking the complete fault indication. The error simulator 6 is controlled by the substation audio frequency / digital converter 9, which is a start sensor unit which controls the recording unit to allow the error code generating unit signal to be written to the line receiving circuit 4. Thus, the line receiving circuit 4 signals an error to the control unit 12 and thus initiates and executes the data transmission process according to the fictitious error address in the line receiving circuit 4.

Substation control circuitry 10, preferably by hourly automatic polling, checks the operation of the substation device, of course, with no error address written in the parallel-to-serial converter 5.

The control circuit of the substation 10, as well as its start-up detection unit, is also controlled by the audio / digital converter 9 of the substation, which is, of course, its other output. The control unit actuator of the substation 10 generates the start signal of the control unit 12, upon arrival of which the control unit 12 also initiates a data transmission process, of course, the line receiving circuit 4 having no error address.

The foregoing shows the difference between the fault simulator 6 and the substation control circuit 10, since the fault simulator 6 also controls the operation of the line receiving circuit 4, in contrast to the substation control circuit 10.

The data transmission device described above, with the appropriate addition, can be adapted to form a paging system or to connect it to the already built-in intercoms.

The advantage of the device according to the invention is that it enables the provision of a central dispatcher service in different housing estates, thus per house! avoid employing a janitor. The system is relatively inexpensive, reducing the time it takes to troubleshoot a paging problem.

Claims (2)

Patent claims A data transmission device, in particular for a housing dispatcher center, characterized in that at least one substation is provided with a communication device. and preferably comprising a dispatcher center, the substation being a line receiver 185,726 circuits (4), parallel-to-serial converter (5), control unit (12), substation digital / audio converter (11), combination network (ί3), clock generator (14), substation transmitter (7), substation receiver (8) ) and substation audio / digital ^! comprising a converter (9), the line receiving circuit (4) being connected to the parallel-to-serial converter (5), the control unit (12) and the substation audio / digital converter (9), the parallel-to-serial converter (5) being the control unit - is connected to ^one voltage (12) and the combination network (13), the control unit (12) óragenerátorhoz (14), the substation digital / audio-frequency converter (11), the substation transmitter (7) and the substation audio-frequency / digital converter (9) ^one on, the óragencrátor (14) is connected to a combination network (13), the combination network (13) in the substation digital / audio-frequency converter (11), the substations for digital / audio-frequency converter (11) in the substation transmitter ( 7) ^{2 are} connected, and the substation receiver (8) is connected to the substation frequency / digital converter (9) and the dispatcher center an on-line transmitter (21), a central receiver (22), a central audio frequency / digital converter (23), and a serial-to-parallel converter (24). comprising a decoder unit (25), a storage unit (26), a display unit (27), a central digital / audio frequency transducer (28) and a control unit (29), the central transmitter (21) for the central digital / audio converter (28) and a digital / audio converter (28) is connected to the control unit (29) and the central receiver (22) is connected to the central audio / frequency converter (22). 0 for digital converter (23), central audio / digital converter (23) for serial-to-parallel converter (24), serial-to-parallel converter (24) for decoder unit (25), decoder unit (25) for storage (26), the container (26) is connected to the display ⁵ a voltage (27). An embodiment of the data transmission device according to claim 1, characterized in that a fault simulator (6) and / or a substation control circuit (10) are provided in the substation, and the fault simulator (6) is arranged in the line receiving circuit (4) and in the substation. connected to the digital converter (9) and the substation control circuit (10) connected to the substation audio / digital converter (9) and the control unit (12).