RU157521U1 - OFFLINE VIDEO FIXING DEVICE - Google Patents

Abstract

1. Autonomous video recording device containing a photoradar unit and a battery power supply placed on a support, characterized in that the photo radar unit is located at a vandal-unavailable height of 5-10 m, and the battery power supply is housed in a sealed vandal proof housing equipped with built-in electromechanical locks and vandal proof connector, wherein the electromechanical locks are configured to control commands from an external device connected to the vandal proof connector. 2. The device according to claim 1, characterized in that the battery pack comprises a battery, a voltage converter and an electronic lock control unit. 3. The device according to claim 1 or 2, characterized in that the vandal proof housing with the battery pack is fixed at the base of the support by means of a mounting mechanism, the fixing elements of which are located inside the housing. The device according to claim 1 or 2, characterized in that the photoradar unit is connected to the battery pack by means of a cable placed in a protective tube mounted on a support. The device according to claim 2, characterized in that the battery pack further comprises a mains charger, located in the upper part of the support in the immediate vicinity of the photoradar unit, and is connected to a temporary power supply network and to the photoradar unit. The device according to claim 1 or 2, characterized in that the battery pack is located in the upper part of the support in the immediate vicinity of the photoradar unit, and the vertical support is equipped with a lifting mechanism for quick replacement of the battery�

Description

The technical field to which the utility model relates.

The utility model relates to devices for automated control of the movement of vehicles (TS) and the detection and recording of violations of the rules of the road by a vehicle, including for fixing vehicles that exceed speed, and more specifically to standalone video recording devices.

State of the art

There is a device for video recording, designed to detect traffic violations, containing an electronic unit and a power supply installed on a mounting device located on a high-rise support next to a controlled section of the road. (www.simicon.com, www.gatso.nl, www.sipm.ru, etc.). The power supply is connected to an electrical network connected to the support. The disadvantage of this solution is the impossibility of autonomous operation of the device in the absence of external power supply.

A device for video recording violations of traffic rules (Chris-P) (www.simicon.com) is closest to the proposed solution, containing an electronic unit mounted at a height of human height on a support in the form of a tripod and a battery pack placed on the ground at the base of the tripod . This device allows the possibility of autonomous operation in the absence of an electrical network and provides the ability to quickly replace the battery. The disadvantage of this device is its low vandal resistance, as a result of which it is necessary to organize its constant protection and protection to ensure its smooth operation. This leads to an increase in operating costs and reduces the reliability of the device due to possible damage due to random factors (ejection of stones from under the wheels, splashing of optical elements with dirt, etc.). A similar device "Mobile complex" ARENA "is described on the website http://olvia.ru/arenamobile.

The objective of the utility model is to increase the vandal resistance of the device.

Utility Model Disclosure

To solve this problem, an autonomous video fixation device is proposed containing a photoradar unit and a battery power supply placed on a support. Unlike the known devices, the photoradar unit of the claimed device is located at a vandal-accessible height of 5-10 m, and the battery pack is housed in a sealed vandal-proof housing equipped with built-in electromechanical locks and a vandal-proof connector, the electromechanical locks being made with the possibility of control from an external device connected to the vandal proof connector.

The battery pack preferably comprises a battery, a voltage converter, and an electronic lock control unit.

In one of the preferred embodiments, the vandal-proof housing with the battery pack is fixed at the base of the support by means of a fixing mechanism, the fixing elements of which are located inside the housing.

The photo-radar unit is connected to the battery pack by means of a cable placed in a protective tube fixed to the support.

The battery pack may further comprise a mains charger, while it is located at the top of the tower in the immediate vicinity of the photoradar unit and is connected to a temporary power supply network and to the photoradar unit.

In another preferred embodiment, the battery pack is located in the upper part of the support in the immediate vicinity of the photoradar unit, and the vertical support is equipped with a lifting mechanism for quick replacement of the battery in the battery pack, as well as for raising and lowering the photoradar unit.

The technical result achieved when using the utility model is to increase the vandal resistance of the device.

This is achieved due to the fact that in the proposed device, the electronic unit and the battery pack are placed on a high (up to 10 m) support, which ensures an increase in vandal protection and thereby ensures uninterrupted and reliable operation of the equipment. To quickly replace the battery pack, the device can be equipped with a lifting mechanism and mounting device, which allows for quick replacement of the batteries in the power pack, as well as providing quick access to the electronic block for service or repair.

In another embodiment, the battery pack is located at the base of the high-rise support inside a vandal-proof reinforced housing. The case has built-in electromechanical locks, which are controlled by signals from a photo-radar CCTV unit mounted on a high-altitude support.

Brief Description of the Drawings

In FIG. 1 shows a general view of a device in which the battery pack is housed in a reinforced housing at a vandal-resistant height.

In FIG. 2 shows a general view of the device in which the battery pack is located in

vandal proof boxing at the bottom of the support.

In FIG. 3 shows a general view of the device in which the battery pack is placed in a reinforced housing on a high-rise support provided with a lifting mechanism.

In FIG. 4 is a front view of the device shown in FIG. 3.

Utility Model Implementation

In FIG. 1 shows one embodiment of a device.

The device comprises a vertical support 1 installed near the carriageway with a photoradar unit 2 located at a vandal-accessible height (5-10 m) and a battery power unit 3. The battery pack 3 is placed inside the vandal proof housing 4, which is a pressure jacket, and contains a battery 5, a mechanical locking device (not shown in the drawings), a voltage converter / charger 6. On the surface of the housing 4 there are connectors for connecting a photoradar unit 2 and external power power supply 7. To fix the housing 4 on its surface, mechanical fastening elements 8 are provided, which ensure its reliable fastening on the support 1. The tension devices of these elements are outside Shny access. Protection of equipment from unauthorized access is provided by its placement at a sufficiently large vandal-inaccessible height. Ensuring the continuous operation of the device is due to the recharge of the battery 5 with periodic inclusion of the power supply 7.

In another embodiment, shown in FIG. 2, the device is located on a vertical support 1 near the carriageway, and in the upper part of the support at a vandal-unavailable height (5-10 meters) a photoradar unit 2 is fixed, and a battery unit is fixed in the lower part of the support 1 3 food. Energy is transferred from the power supply unit 3 to the photoradar unit 2 via a cable 9, laid inside the protective tube 10, running along the support 1 from the photoradar unit 2 to the battery power unit 3. The battery power unit 3 contains an external strong housing 4, inside which the battery 5 is placed and a voltage converter / charger 6 (not shown in FIG. 2). The housing 4 is equipped with a removable cover 11. The cover 11 is fixed by means of internal electromagnetic locks, the control of which is allowed both by directly connecting the external control unit to the vandal-proof connector 12, and by issuing commands to the photoradar unit 2. To fix the battery pack 3 on the support 1 of it the outer casing 4 is equipped with mechanical fastening elements 8. To provide additional vandal protection, the main fastening and tensioning elements of the mechanical fastening elements 8 can be placed inside the outer casing 4 so that access to them for mounting or dismounting the battery pack is possible only with the cover 11 open.

In the following embodiment shown in FIG. 3 and 4, the device is located on a support 1 near the carriageway and contains a photoradar unit 2, a battery power unit 3, a mounting fixture 13 and a lifting mechanism 14. The battery power unit 3 contains an external durable housing 4, inside which a battery 5 (not shown in Fig. 3), providing power to the radar unit 2. Electromechanical grips 15 are installed on the outer surface of the housing 4, which automatically fixes and electrically connects the battery pack 3 to the radar unit 2. A carriage 16 is placed on the support 1, on the surface of which there are rollers 17 moving along the guide 18 mounted on the support 1 and providing a smooth movement of the battery pack 3 or photoradar unit 2 up or down, as well as their connection to the mounting device 13. Lifting mechanism 14 represents an electric winch, located in the upper part of the support 1 and a vertical guide 18, fixed on the surface of the support 1. Power is supplied to the winch via cable 9, laid inside the guide 18. Sub The connection to this cable 9 is carried out by means of a vandal proof connector 12 located at the bottom of the support 1.

In the embodiment, for raising or lowering the battery pack 3 of the power supply or the photoradar block 2, it is possible to use a manual winch located in the upper part of the support 1, the mechanical force of which is transmitted by a cable passing inside the guide 18 fixed to the support. In this case, for the purpose of vandal resistance, the winch handle 19 is fixed in the lower part of the support 1 only for the time of raising or lowering the battery pack 3.

The device of FIG. 1 works as follows. In the daytime, power is supplied to the photoradar unit 2 from the battery power unit 3, for which the energy stored in the battery 5 is used. At night, when voltage appears in the power supply network 7 (used, for example, to illuminate roads), charging takes place battery 5 using a charger b. The parameters of the charger 6 and the battery 5 are selected so that the charge received by the battery during the operation of the power supply 7 is sufficient for the autonomous operation of the system during the entire period of lack of power supply (with an average duration of the lighting network of 12 hours per day). The vandal proof device in this embodiment is ensured by placing both a photoradar unit and a battery power supply on a support at a vandal-inaccessible height (5-10 m). Moreover, the battery power supply is housed in a durable pressure casing and the battery is recharged from a temporary power supply.

The device of FIG. 2 works as follows. If it is necessary to replace the battery 5 in the battery power unit 3, the photoradar unit 2 mounted on the support 1 automatically sends a signal to the operator about the need for such a replacement. The operator through remote access sends a command to the photoradar unit 2 via digital communication channels to open the vandal proof housing 4. After replacing the battery 5, the housing 4 is closed,

Electromechanical locks are self-locking. In this embodiment of the device, the vandal proof is ensured by placing the photoradar unit on the support at a vandal-accessible height, and the battery pack - the vandal-proof housing with self-locking electromagnetic locks at the base of the support.

The device of FIG. 3-4 works as follows. In the initial position, the carriage 16 is located below. The operator installs a photoradar unit 2 on it, then turns on the lifting mechanism 14 by supplying power to the vandal proof connector 12. The lifting mechanism 14 lifts the carriage 16 with the photoradar unit 2 to the upper part of the support 1, where the photoradar unit 2 is mechanically fixed and electrically connected to the mounting device 13. Then the carriage 16 is lowered down and a battery pack 3 is mounted on it. After lifting the carriage 16 to the upper part of the support 1, the automatic fixing and electrical connection of the battery pack 3 to the mounting device 13 occurs. The carriage 16 remains in the upper part of the support. Replacing the battery pack 3 power and, if necessary, the descent of the photoradar unit 2 is carried out in the reverse order. In this embodiment, the device is vandal proof due to its placement at a vandal-accessible height, and for ease of operation it is equipped with a lifting mechanism.

Claims (7)

1. Autonomous video recording device containing a photoradar unit and a battery power supply placed on a support, characterized in that the photo radar unit is located at a vandal-unavailable height of 5-10 m, and the battery power supply is housed in a sealed vandal proof housing equipped with built-in electromechanical locks and vandal proof connector, and the electromechanical locks are configured to control commands from an external device connected to the vandal proof connector. 2. The device according to claim 1, characterized in that the battery pack contains a battery, a voltage converter and an electronic lock control unit. 3. The device according to claim 1 or 2, characterized in that the vandal proof housing with a battery pack is fixed at the base of the support by means of a mounting mechanism, the fixing elements of which are located inside the housing. 4. The device according to claim 1 or 2, characterized in that the photoradar unit is connected to the battery pack by means of a cable placed in a protective tube fixed to the support. 5. The device according to p. 2, characterized in that the battery pack further comprises a mains charger, located in the upper part of the support in the immediate vicinity of the photoradar unit, and is connected to a temporary power supply network and to the photoradar unit. 6. The device according to p. 1 or 2, characterized in that the battery pack is located in the upper part of the support in the immediate vicinity of the photoradar unit, and the vertical support is equipped with a lifting mechanism for quick replacement of the battery in the battery pack, as well as for lifting and lowering photoradar block. 7. The device according to p. 6, characterized in that the lifting mechanism comprises an electric winch located in the upper part of the support, and a vertical guide located on the surface of the support.

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