RU178363U1 - Surveillance housing - Google Patents

Abstract

The utility model relates to outdoor surveillance, in particular to devices for protecting television cameras from adverse atmospheric influences and external aggressive or explosive atmospheres. A stainless steel case in combination with an explosion-proof design of elements ensures long-term durability of the casing during operation in any external conditions, and the presence of means to maintain transparency of the casing window, behind which the lens of the television camera is placed, both from the inside and from the outside, allows unhindered observation of objects.

Description

The utility model relates to outdoor surveillance, in particular to devices for protecting television cameras from adverse atmospheric influences, aggressive or explosive atmospheres.

Known protective casings of surveillance devices having high dust and moisture protection, made in the form of openings at the ends of the housing with a heat insulator and a power and control unit located inside the housing, as well as a heater to provide standard temperature conditions for the operation of surveillance devices in the form of television cameras at low temperatures the environment. One of the holes is designed for the lens of a television camera and is equipped with a protective glass, and the other serves to accommodate cable entries (RF patent No. 40512, publ. 09/10/2004 and RF patent No. 52226, publ. 10.03.2006). The main disadvantage of these casings is the lack of protective equipment against losses generated by the heat of the heater, aggressiveness of the environment and factors that reduce the transparency of the glass protective window.

In a utility model (RF patent No. 40512 publ. September 10, 2004) several casings are proposed in which heat protection means are provided (patent No. 20599, publ. November 10, 2001 and RF patent No. 29435, publ. May 10, 2003). ) and maintaining the transparency of the protective window (patent No. 31665, publ. 08/20/2003). However, heat insulators are located only in part of the surface of the casing, and their thermal protection is not effective enough, and the proposed means of maintaining transparency of the window for the lens, made in the form of two glass plates with a sealed air volume between them, as well as the implementation of the housing with double walls between which air is pumped out the purpose of providing thermal insulation (RF patent No. 53046, publ. 04/27/2006) is associated with tangible technological difficulties in the manufacture of products.

Closest to the proposed device and selected as a prototype is a casing for a surveillance device (RF patent No. 66576, publ. 09/10/2007), containing a hollow cylindrical body with an opening at one of the ends, a closed window made of a transparent material, an internal space heater the case, a heat insulator located along the entire inner side surface of the case, a sealed entry for the power cable and the output cable of the surveillance device, as well as a window transparency maintenance system, electrically connected with a power and control unit located inside the housing. Heating of the inner surface of the end window with the help of a heated ring located close to it leads to the disappearance of fogging due to the difference between the external and internal temperatures of the inner surface of the window. The disadvantages of the prototype are the long recovery time of the transparency of the Central region of the window due to its slow gradual heating from the periphery to the center and the lack of means to eliminate pollution from its outer surface, as well as protection from the influence of aggressive or explosive environments.

The task to which the proposed device is aimed is to ensure the long-term performance of the monitoring device in adverse environmental conditions.

The technical result, due to the achievement of which the task is solved, is to increase the efficiency of restoring the transparency of the end window of the casing, as well as ensuring the explosion safety and durability of the casing.

The specified technical result in the proposed utility model is achieved by the fact that in the casing for the observation device containing a hollow cylindrical body with an opening at one of the ends, a closed window made of transparent material, a heater of the internal space of the body, a heat insulator located across the entire inner side surface of the body, sealed an input for the power cable and the output cable of the surveillance device, as well as a window transparency maintenance system, electrically connected to the housing and the power and control unit, the sealed input for the power cable and the output cable of the monitoring device is made in the form of an explosion-proof cable entry, the window transparency maintenance system includes a resistive layer deposited on its inner surface and a window outer surface cleaner, and the case is made of stainless steel, an external cleaner the surface of the window is made in the form of a rubber brush, the base of which is connected to the end of the internal space, drawn out through a sealed explosion-proof sleeve nstva housing shaft stepper motor, located within the housing and connected to supply and control unit, and the outer surface of the window projects beyond the housing edge and the projecting portion is rounded. The protrusion of the outer surface of the window beyond the end of the housing is approximately 0.2 mm, and the edge of the protruding part of the window is rounded with a radius of curvature from 0.2 mm to 0.5 mm. Additionally, the system for maintaining transparency of the window is equipped with a washer of its outer surface, made in the form of a tube, the end of which is located near this surface, and its other end is combined with the output of the pump located outside the housing and equipped with a reservoir with washer fluid, the drive of which is made in the form of a magnet with a magnetic orientation field opposite to the direction of the field of another magnet mounted inside the housing on the actuator mounted on a collector motor connected to the power supply and control unit toyannogo current. Said pump may be a diaphragm.

The essence of the utility model is illustrated by the drawing, in FIG. 1 which shows a diagram of the proposed casing for the monitoring device, and in FIG. 2 is a front view thereof.

The device consists of a hollow cylindrical body 1 made of stainless steel with a transparent window 3 fixed in the cover 2 at one end and a sealed explosion-proof cable entry 4 for the power cable and output cable 5 of the surveillance device in the form of a camera 6 with a lens 7 on the other end. A heat insulator 8 is located along the entire inner side surface of the cylindrical body 1. The contacts of the power cable and the output cable 5 are connected to the power and control unit 9 located inside the body 1, to which the heater of the internal space of the housing 1 (not shown) is electrically connected, the window heater 3 in the form of a resistive layer 10 deposited on the inner surface of the window 3 and the stepper motor 11. The shaft of rotation 12 of the stepper motor 11 is parallel to the generatrix of the cylindrical body 1 and is drawn through a sealed explosion-proof sleeve 13 captured in the cover 2, and the base of the rubber brush 14 of the cleaner of the outer surface of the window 3 is attached to its end, the periodic movement of which along the outer surface of the window 3 is determined by the reverse rotation of the shaft 12. An additionally installed washer of the outer surface of the window consists of connected to the block 9 a DC collector motor 15 with an actuator, on which a magnet 16 is fixed. Near the magnet, but outside the housing 1, is the pump drive 17 in the form of a magnet 18, and the orientation its magnetic field is opposite to the direction of the field of the magnet 16. The pump 17 is made of a membrane and is equipped with a reservoir 19 with washing liquid, and the output of the pump 17 is made in the form of a tube, the end of which 20 is located near the outer surface of the window 3. This surface protrudes slightly outside the outer plane of the cover 2 about 0.2 mm, and the edge of the protruding part is rounded with a radius of curvature from 0.2 mm to 0.5 mm. Cover 2 is attached to housing 1 by bolts 21.

The device operates as follows. When the unit 9 is turned on by supplying electric power through a power cable through a pressurized explosion-proof input 4, the space inside the housing 1 is warmed up by the heater to the operating temperature of the camera 6 with the lens 7. The fogging of the inner surface of the window 3 caused by the difference in external and internal temperatures disappears due to its heating when current flows through the resistive layer 10. In this case, the outer surface of the window 3 is thawed in case of sticking of snow or icing, and the stepping motor 11 is turned on by a signal with block 9 and the movement of the rubber brush 14 pressed to the outer surface of the window 3, mounted on the shaft 12 of the stepper motor 11 completely restores the transparency of the window 3. In the presence of a washer of the outer surface of the window 3, the washer fluid flows through the tube 20 to it when the collector motor 15 is turned on, transmission the reciprocating movement of the magnet 16 to the magnet 18 and the operation of the pump 17. The manufacture of the housing 1 of stainless steel provides its long-term strength when operating in aggressive environments, and in combination with and the use of explosion-proof bushings 13 and explosion-proof cable entry 4 increases the safety of operation in explosive atmospheres. At the same time, the use of the magnetic drive of the pump 17, given the lack of magnetic susceptibility of stainless steel, makes it possible to use the housings of the same type, both with and without a washer. A small protrusion of the outer surface of the window 3 beyond the end of the casing provides the required clamping of the rubber brush 14 to it, and the rounding of the edge of the window 3 prevents from rapid wear of the brush. The restored transparency of window 3 allows you to freely observe the object.

Claims (5)

1. A casing for a surveillance device, comprising a hollow cylindrical body with an opening on one of the ends, a closed window made of transparent material, a heater of the internal space of the body, a heat insulator located along the entire inner side surface of the body, a sealed entry for the power cable and the output cable of the monitoring device, as well as a system for maintaining window transparency, electrically connected to a power and control unit located inside the housing, characterized in that the sealed cable entry I and output cable monitoring device is designed as a flameproof cable entry, maintaining transparency window system comprises coated on its inner surface cleaner resistive layer and the outer surface of the window and the housing is made of stainless steel. 2. The casing for the monitoring device according to claim 1, characterized in that the cleaner of the outer surface of the window is made in the form of a rubber brush, the base of which is connected to the end of the shaft of the stepper motor located inside the housing and connected to the end of the shaft through an airtight explosion-proof sleeve; power and control unit, and the outer surface of the window extends beyond the housing and the edge of the protruding part is rounded. 3. The casing for the observation device according to claim 2, characterized in that the outer surface of the window extends beyond the end of the housing by about 0.2 mm, and the edge of the protruding part of the window is rounded with a radius of curvature from 0.2 mm to 0.5 mm. 4. The casing for the monitoring device according to claim 1, characterized in that the window transparency maintenance system is additionally equipped with a washer made in the form of a tube, the end of which is located near the outer surface of the window, and its other end is combined with the output located outside the case and equipped with a reservoir with a pump washer fluid, the drive of which is made in the form of a magnet with a field orientation opposite the direction of the magnetic field of another magnet, mounted inside the housing on an actuator mounted on a unit connected to m of power and control of the DC collector motor. 5. The casing for the monitoring device according to claim 4, characterized in that the pump located outside the housing and equipped with a washer fluid reservoir is a membrane pump.

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