PL75845B2 - - Google Patents

Description

Priority: Application announced: May 30, 1973 Patent description was published: December 23, 1974 KI. 20i, 39/10 MKP B61I 23/06 READING ROOM of the Patent Office of the People's Republic of Poland fanuwt, ii. Mepadkflosci iii Inventor: Wiktor Mól Authorized by the provisional patent: Polskie Koleje Państwowe Biuro Projektów Kolejowych, Kraków (Poland) Remote photoelectric signaling device The subject of the invention is a remote photoelectric signaling device for transmitting information about vehicles passing through, especially in such cases where places, from which and to which the information transmitted is subject to changes. The remote photoelectric signaling device can be used especially in transmitting a signal to workers working on active railway tracks about the approach of a train or in production plants to workers working on communication routes, on which vehicles may unexpectedly appear, rolling wagons and the like. There is no such solution in the prior art. The effects of using the device will depend on the place of use and the number of cases of use, moreover, regardless of the economic effects, the use of the present invention will always increase the safety of people working on active communication routes. The essence of the remote photoelectric signaling device consists in the fact that the signaling device transmitter consists of two structurally separate units and these are: luminaires with a radiation source transmitting a beam of light or infrared rays mounted on a portable tripod in a movable way that allows to send a beam of rays at different angles and a photoelectric sensor connected to a radio transmitter placed in a housing mounted on a portable tripod, while the receiver of a remote signaling device * photoelectric component from a radio receiver connected to an acoustic or optical signaling device. The remote photoelectric signaling device is shown in the example in the attached drawing, in k Figure 1 shows the transmitter block of a remote photoelectric signaling device. Fig. 2 shows schematically the arrangement of the transmitter units of the remote photoelectric signaling device. Fig. 3 shows the block layout of the remote photoelectric signaling device receiver. The remote photoelectric signaling device is a system of separate but cooperating units: the transmitter and the receiver, the transmitter being composed of a radiation source and a photoelectric sensor connected to a radio transmitter. photoelectric indicator is as follows. The transmitter of the remote photoelectric signaling device operates in such a way that the radiation source 1 sends a beam of 2 light or infrared rays, which falls on the photoelectric sensor 3, which is connected with the radio transmitter 4. The connection between the photoelectric sensor and the radio transmitter is such that in the event of a beam of light or infrared rays on the photoelements of the sensor 3, the radio transmitter 4 does not emit an electromagnetic wave, while when the light or infrared beam does not hit the photoelements of the sensor 3, the radio transmitter 4 emits electromagnetic waves. Housing 5 in which is the radiation source 1 is movably mounted on a tripod 6, while the housing 7 of the photoelectric sensor with the radio transmitter is mounted on a tripod 8. Part of the housing 9, in which the photoelements are mounted, is made in the form of a closed body made of a material impervious to light or infrared rays, preferably a cylinder with a edge the gel 10 transmitting a beam of 2 light or infrared rays to the interior of the housing. A beam of 2 light or infrared rays, projected at an angle to the earth's surface 11 greater than zero and less than ninety degrees, falls through the slot 10 on the section 12 of the inner surface of the housing 9, where the photoelements are placed. The sun's rays 13 do not fall on the section 12 of the inner surface of the casing 9, even if they fall parallel to the ground surface. When any object 14 is found on the path of the beam of 2 rays, the photoelectric sensor 3 stops falling rays, therefore the photoelectric sensor 3 will activate the radio transmitter 4, and an electromagnetic wave is emitted. The receiver of the photoelectric indicator works in such a way that when emitting of the electromagnetic wave by the radio transmitter 4, this wave is received by the radio receiver 15 and causes the activation of the relay 16, the contact of which 17 will switch on the power supply 18 of the acoustic or optical signaling device 19. EN EN

Claims (3)

1. Patent claims 1. Remote photoelectric signaling device, characterized in that its transmitter consists of two cooperating but structurally separate units, namely: a source (1) of light or infrared rays placed in a fixture (5) movably mounted on a portable stand (6), and a photoelectric sensor (3) connected to a radio transmitter (4) placed in a holder (7) mounted on a portable tripod (8). 2. The remote photoelectric signaling device according to claim A material according to claim 1, characterized in that the part of the housing (9) in which the photoelectric elements of the photoelectric sensor (3) are placed is made of a material that does not transmit light or infrared rays, in the shape of a closed body with a slot (10) transmitting the beam (2) of light or infrared rays to the inside of the housing. 3. The remote photoelectric signaling device according to claim A method according to claim 1, characterized in that the photoelectric elements of the photoelectric sensor (3) are located on the section (12) of the inner surface of the housing part (9), and are located in such a way that a beam of rays directed at an angle can fall on them through the slot (10). to the surface of the earth greater than zero and hereby from ninety degrees.KI. 20i, 39/10 75845 MKP B611 23/06 LtJ ^ ± H FiQ.1 Fig. Z Fig. 3 PL EN