EP1986173A1 - Device for surveillance of a single parking space - Google Patents

Abstract

The apparatus has a sensor detecting a vehicle, and an optical indicator indicating an occupied/free status of an individual parking position (4), where the optical indicator includes a bistable indicator element that comprises an electro mechanical component i.e. flip dot. The sensor has transmit aerials for transmitting the occupied/free status by radio to a parking facility control center. The sensor and the optical indicator are placed in a sturdy casing (1) that is adapted to be mounted on one of a roadway pavement and at an overhead location.

Description

The invention relates to a device for individual parking space monitoring according to the preamble of claim 1.

For individual parking space monitoring of parking areas, for example in multi-storey car parks or on traffic areas, today usually wired sensors are used for vehicle detection, with ultrasonic, infrared or geomagnetic field sensors are usually used. The visual display also takes place via wired lamps or light-emitting diodes. The cabling is necessary due to the high energy consumption of the sensors and the optical displays. For data transmission of the occupied / free state of the parking space to the network, which is connected to the parking space control center, also a wiring is used. By laying the cable, the known individual parking space monitoring devices associated with a considerable effort, especially if the individual parking space monitoring is retrofitted. The cost of laying the cables far exceeds that of the sensor and the optical display.

The object of the invention is to provide a single parking space monitoring available, which can be installed with little effort.

This is achieved according to the invention with the device characterized in claim 1. In the Subclaims advantageous embodiments of the invention are shown.

According to the invention, each sensor for vehicle detection on a transmitting antenna for radio transmission of busy / free state to the higher-level parking control system, for example, a parking garage. This eliminates cabling for data transmission from the sensor.

Furthermore, according to the invention, the optical display on a bistable display element. This will only trigger the ad if it changes. This results in a considerable energy saving, with the result that the sensor and the optical display can be operated with a battery for several years. It can be used in addition to a battery and a photovoltaic module with battery or capacitor z. B. is supplied by the daylight and / or by the vehicle headlights of motor vehicles in the parking garage or the other parking area with light.

This eliminates the high cost of laying cables according to the invention. The sensor and the optical display, which are preferably arranged in a housing, can rather be fastened on the road surface of the parking space or overhead over the parking space, for example on the ceiling in a simple manner, for example by screwing or gluing the housing.

In this case, a housing may be provided both for the sensor and for the optical display. Preferably, however, the sensor and the visual display are in and out housed in the same housing, whereby the installation costs are further reduced.

The bistable display element is preferably formed by a so-called "flip-dot", ie an electromechanical component which, via a tilting or rotating device, depending on the control, displays one of two optically differently designed sides of a display platelet. For this purpose, the plate can be rotatably mounted on the housing. The two sides of the tile may be colored differently, for example one side red and the other green. On the display plate can be a permanent magnet and behind an electromagnet, which exerts a force on the plate depending on the polarity and thus turns it over. In order to prevent the pivoting back of the display plate after the switching off of the electromagnet, a latching device is provided. The display tile thus has two stable states. This only requires energy to turn over the plate. If the display remains the same, however, no energy needs to be expended.

The display plate may be formed fluorescent or reflective, for example, as a cat's eye, so at least one side of glass with prismatic surface formed. If it is illuminated by the headlight of a motor vehicle, the incident light is reflected back with such great brightness by the refraction of light in the prisms that the display plate acts as an independent light source.

A further energy saving can be achieved in that the sensor for vehicle detection and / or radio transmission is designed to be activated at intervals.

The sensor preferably has a receiving antenna in addition to the transmitting antenna. In the case of deviation of the signal received by the receiving antenna from the signal emitted by the transmitting antenna, the movement of a vehicle can be detected and thus the vehicle detection can be carried out. The deviation may be in the amplitude, the phase and / or the frequency, for example in a frequency change after the Doppler effect. The sensor can thus consist essentially of the receiving antenna, the transmitting antenna, a mixer, a transceiver and a microcontroller, so be very simple and manufactured, for example, by equipping a circuit board. However, the sensor may also be configured such that a vehicle is detected by reflection of a signal.

The transmit antenna of the sensors can also be used for radio transmission of the busy / idle state of the individual parking spaces to the higher-level parking control center.

For this purpose, the radio transmission from the transmitting antenna of a sensor to the receiving antenna of an adjacent sensor, etc. up to a base station z. B. done in the floor of the parking garage, with the parking space control center z. B. via a local area network (LAN) is in communication.

Instead, the radio transmission from the transmit antennas of several sensors to a base station and from there to the next base station can be made up to a master base station, which communicates with the parking control center z. B. via LAN in connection. The base station or stations or the master base station can on the ceiling or a wall of the parking garage or the relevant projectile be arranged and supplied with power, for example, by connecting to the electrical lighting on the ceiling or wall.

If the transmitting antenna and / or the receiving antenna of the sensor is designed as a directional beam antenna, an omnidirectional antenna or non-directional antenna may be provided for radio transmission, wherein the sensor alternately controls the directional beam antenna and the non-directional antenna.

However, the sensor for vehicle detection may also be a geomagnetic sensor, an ultrasonic sensor or an infrared sensor.

• Figur 1 und 2 eine Draufsicht bzw. eine Seitenansicht eines Gehäuses, das die Komponenten der erfindungsgemäßen Vorrichtung aufweist;
• Figur 3 ein Blockschaltbild der Einzelstellplatzüberwachungsvorrichtung;
• Figur 4 ein Blockschaltbild eines Sensors;
• Figur 5 schematisch die Draufsicht auf eine Parkfläche mit Einzelstellplätzen; und
• Figur 6 schematisch eine Anordnung zur Funkübertragung des Belegt/Frei-Zustandes mit Basisstationen von den Sendeantennen der Sensoren zu der Parkraumkontrollzentrale.

Hereinafter, an embodiment of the device according to the invention is explained in more detail by way of example with reference to the accompanying drawings. Show:

• FIGS. 1 and 2 a plan view and a side view of a housing having the components of the device according to the invention;
• FIG. 3 a block diagram of the individual parking space monitoring device;
• FIG. 4 a block diagram of a sensor;
• FIG. 5 schematically the top view of a parking area with individual parking spaces; and
• FIG. 6 schematically an arrangement for wireless transmission of busy / idle state with base stations from the transmitting antennas of the sensors to the parking control center.

According to Figures 1 and 2 the components of the individual parking space monitoring device are arranged in a water- and dust-tight, mechanically robust housing 1, which with a screw 2 z. B. on the road surface of the single parking space 4 ( FIG. 4 ) is attached.

The flat, upwardly curved housing 1, which is round in plan view, has at the access 3 to the individual parking space 4 (FIG. FIG. 4 ) side facing an optical display 5, which is formed by display plate 6, which are formed as flip-Dots.

According to FIG. 3 is in the housing 1, a power supply 7, for example a battery, is provided, which is connected via an energy saving device 8 with the sensor 9, the optical display 5 and a transmitting antenna 10 for radio transmission of busy / idle state. By the energy saving device 8, for example, the sensor 9 is activated only at intervals, as well as the transmitting antenna 10 for radio transmission.

According to FIG. 4 is detected with the sensor 9, a vehicle 12 by its movement to the pitch 4 and away from him, wherein the movement is detected by the Doppler effect.

For this purpose, in addition to the transmitting antenna 10, a receiving antenna 13a is provided, wherein the frequency of the transmitting antenna 10 and the receiving antenna 13a are brought together in a mixer 14. The signal of the mixer 14 is supplied via an AC coupling 15 and a low-pass filter 16 to the AD converter 17 of the transceiver 18 and the microcontroller 19, which at the same time drive the transmitting antenna 10. if the Transmitting antenna 10 is a directional antenna, an omnidirectional antenna 21 may additionally be provided for radio transmission, wherein the directional beam antenna 10 and the omnidirectional antenna 21 are driven alternately with a switch 22. Similarly, if the receiving antenna 13a is a directional beam antenna, an omnidirectional antenna 13b may additionally be provided as a receiving antenna, with the antennas 13a and 13b alternately driven by a switch 28.

According to FIG. 5 has a parking area on the left and right of the road, which forms the driveway 3, individual parking spaces 4. At each individual parking space 4, a housing 1 with the device according to the invention is provided on the side facing the entrance 3. The radio transmission of the occupied / free state of the individual parking spaces 4 is carried out according to the arrows 23 from single parking space 4 to single parking space 4 with the transmit antennas 10, 21 of the sensors 9 in the housings 1 to a base station 24, which is not shown with the parking space control center via a data cable 25 communicates.

In the embodiment according to FIG. 6 the radio transmission takes place from the transmitting antennae 10, 21 of the individual parking spaces 4 to a base station 26 and from there to the next base station 26 up to a master base station 27 which is in communication with the parking space control center. That is, the base stations 26 receive the information from the sensors 9 and forward them by suitable radio networking to the parking control center. For this purpose, the network is formed by a network of base stations 26, which further route the information until they have arrived at the master base station 27.

Claims (12)

Device for individual parking space monitoring of a parking area with a sensor (9) for vehicle detection and an optical display (5) of the occupied / free state, characterized in that the sensor (9) has a transmitting antenna (10, 21) for radio transmission of the occupied / free State of the individual parking space (4) to the parent parking space control center and the optical display (5) has at least one bistable display element. Device according to claim 1, characterized in that the sensor (9) and the optical display (5) are provided in a housing (1) which can be mounted on the road surface or overhead. Apparatus according to claim 1, characterized in that for the power supply of the sensor (9) and the optical display (5), a battery (7), a battery and / or a PV module is provided. Apparatus according to claim 1, characterized in that the sensor (9) for vehicle detection and / or radio transmission is designed to be activated at intervals. Apparatus according to claim 1, characterized in that the bistable display element is formed by a rotatably mounted display plate (6) with optically differently shaped sides. Apparatus according to claim 5, characterized in that at least one side of the display plate (6) is formed fluorescent or reflective. Device according to Claim 1, characterized in that the sensor (9) has a receiving antenna (13a) and for vehicle detection the movement of a vehicle (12) by deviation of the signal received by the receiving antenna (13) from that with the transmitting antenna (10, 21 ) detected signal detected. Apparatus according to claim 1, characterized in that the sensor for detecting the vehicle is formed by reflection of a signal on the vehicle. Apparatus according to claim 7 or 8, characterized in that the sensor (9) comprises a mixer (14), a transceiver (18) and a microcontroller (19). Device according to one of the preceding claims, characterized in that the transmitting antenna (10) and / or the receiving antenna (13a) is formed by a directional beam antenna, and also an omnidirectional antenna (21, 13b) is provided, wherein the directional beam antenna (10) and the non-directional antenna (21, 13b) are alternately controllable. Apparatus according to claim 1, characterized in that the transmitting antenna (10, 21) transmits the occupied / free state of the individual parking space by radio to at least one base station (24, 26) which is in communication with the parking space control center. Apparatus according to claim 1, characterized in that the vehicle sensor is a geomagnetic field sensor, an ultrasonic sensor or an infrared sensor.

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