RU2745377C1 - Construction kit for erecting a support for a video surveillance system - Google Patents

Abstract

FIELD: video surveillance systems.SUBSTANCE: set for erecting a support for a video surveillance system belongs to the supporting structures. The technical solution is intended for the installation of video cameras, IR illuminators and antennas for wireless transmission of images from cameras and their control. The kit includes a junction box, tubular extensions and tubular element holder. The box contains a body with support and bearing pads on the outer surfaces of the walls. The pads are formed by a group of cable holes and universal mounting holes. Mounting holes provide alternative attachment of various sizes of CCTV cameras and extension flanges. The platforms lie on the faces of the convex polyhedron. The mounting holes of adjacent bearing pads are axisymmetric about the common edge of the polyhedron. Extensions are made with end flanges. All flanges are provided with mounting holes that match each other and the mounting holes in the box. An increase in the number of possible combinations of connections of the elements of the set has been provided. The elements of the set have been given increased functionality and versatility. The number of possible combinations of element connections in the overall structure has also been increased.EFFECT: it has been achieved that it is possible to erect a support with an optimal spatial configuration based on the conditions of compliance with the composition of the functional elements of the system, their orientation and the peculiarities of the location of the system.10 cl, 44 dwg

Description

The invention relates to supports for attaching elements of video surveillance systems above the ground, to the walls of buildings or ceilings. The technical solution is intended primarily for the installation of CCTV cameras, IR illuminators and antennas for wireless transmission of images from cameras and their control, in open space and indoors.

From the patent document KR 101847911 B1 dated 04/11/2018, a junction box, an extension pipe and a post are known for erecting a support for a video surveillance system. The junction box contains a supporting body in the form of an elongated hollow body with a lower supporting and upper supporting faces. A mounting adapter with a cable hole for connecting the box with the rack flange is made from the side of the supporting edge of the housing. Fastening bolts protrude from the bearing edge of the housing; a cable hole is formed in this edge. The side edges of the box are made with ventilation holes. The junction box cavity accommodates a technological box with a lid for the control device. The extension pipe contains an end flange made with the possibility of rigid mating with the support face of the junction box. The rack is made with the possibility of connection with the mounting adapter of the specified box. However, the design of the known support elements, due to insufficiently high functionality and lack of universality of the connection, does not provide for the possibility of changing the only possible spatial configuration of the support, which imposes restrictions on the composition of the functional elements of the video surveillance system and their orientation. At the erection stage, the known support can be very limitedly adapted to the peculiarities of its location by a slight rotation along the vertical axis within the slots of the flanges until the bolted connections are fixed.

The technical problem to be solved is to ensure the possibility of erecting a support for the video surveillance system of the optimal spatial configuration based on the conditions for compliance with the composition of the functional elements of the system, their orientation and the peculiarities of the location of this system.

The technical result provided by the present invention consists in giving the elements of the kit for erecting the support of the video surveillance system increased functionality and versatility, increasing the number of possible combinations of their connections in the overall structure, as well as ensuring the reusability of this kit.

The technical result is achieved due to the fact that the kit for erecting a support for a video surveillance system includes a junction box, tubular extensions and a holder for a tubular element. In this case, the extensions are made with end flanges, and in all of these flanges there are fastening holes corresponding to each other and to the fastening holes in the junction box.

In a particular embodiment of the invention, the kit includes a sheet patch with an adhesive base.

In another particular case, the kit contains a tubular post, and the holder of the tubular element is made in the form of a bracket with a clamp of the post body.

In a particular case, the end part of the tubular strut has a cylindrical shape or is provided with a flange.

In a particular case, the rack and / or extension is made with the possibility of telescopic change in length, as well as with the possibility of rotation about its longitudinal axis.

Also, the technical result is achieved due to the fact that the junction box contains a housing with support and bearing pads on the outer surfaces of its walls, and in these pads it is formed by a group of cable holes and universal mounting holes. At the same time, the universal mounting holes provide an alternative connection to the bases of CCTV cameras of various sizes or extension flanges. The indicated areas lie on the faces of the convex polyhedron, and the fastening holes of adjacent bearing areas are axisymmetric with respect to the common edge of the polyhedron.

In a particular case, the universal mounting holes include three of their sets, elongated in plan, respectively, along the X-, Y- and inverted T-shaped axes, and the centers of the holes of the second and third specified sets are located closer to the common center than the centers of the holes of the first set.

Also, in a particular case, the box contains a bushing for the end part of the rack, connected to the body, while the passage hole in this bushing communicates with the cable hole in the support platform.

In yet another particular case, a strut travel stop is made on the inner side of the sleeve.

The essence of the technical solution is illustrated by the following drawings and diagrams, which show, as examples, the implementation of preferred options for the elements of the set for erecting a support for a video surveillance system, as well as the erected supporting structures based on them.

FIG. 1: Preferred CCTV Pole Erection Kit, front and top view.

FIG. 2: alternative recruitment.

FIG. 3: Composite support mast.

FIG. 4: telescopic stand with universal flange.

FIG. 5 shows a first embodiment of an extension cord.

FIG. 6 shows a second embodiment of an extension cord.

FIG. 7-8: corner holder.

FIG. 9: bracket.

FIG. 10-11: universal junction box in closed and open states.

FIG. 12: box body, front view.

FIG. 13-16: Diagrams of the axial structure of the group of universal mounting holes for attachments.

FIG. 17: top view of the box body.

FIG. 18: front sectional view of the box body (some of the knockout plugs have been removed).

FIG. 19: bottom view of the box body.

FIG. 20: box lid.

FIG. 21: sealing strip.

FIG. 22: connection of the side wall of the box body to the extension flange.

FIG. 23-25: options for connecting the box body to the end of the rack, general front view in section.

FIG. 26: Exploded view of a video surveillance site.

FIG. 27-30: examples of mounting CCTV cameras on a junction box according to various wiring diagrams.

FIG. 31: video camera on a junction box with a glued overlay.

FIG. 32-44: examples of the spatial configuration of a support for a video surveillance system.

The construction kit is intended for the construction of a support for a video surveillance system, on which video cameras, auxiliary IR illuminators, receiving and transmitting antennas and other functional equipment can be installed. The kit elements provide mounting of housings or attachment holders on horizontal, vertical or inclined surfaces.

A set for erecting a support for a video surveillance system in a preferred embodiment of its configuration includes a junction box, at least a pair of tubular extensions and a holder for a tubular element. The junction box contains a housing with support and bearing pads on the outer surfaces of its walls. In these pads, it is formed by a group of cable holes and universal mounting holes. At the same time, the universal mounting holes provide an alternative connection to the bases of CCTV cameras of various sizes, extension flanges and rack. Moreover, these areas lie on the faces of the convex polyhedron, and the fastening holes of adjacent bearing areas are axisymmetric with respect to the common edge of the polyhedron. The extenders are made with end flanges, and in all of these flanges there are mounting holes corresponding to each other and to the mounting holes in the junction box. Shown in FIG. 1 set contains two extension cords 1, corner holder 2, junction box 3 and cover plate 4.

Another version of the kit for erecting a support for a video surveillance system includes a junction box of the same design as in the preferred version of the kit, an extension cord and a post. The extension is made with end flanges. The landing part of the rack is made with a flange and / or has a cylindrical end. All of these flanges are provided with fixing holes corresponding to each other and to the fixing holes in the junction box. Universal holes are made in at least one flange of the extension cable, which provide the possibility of alternative connection of the extension cable with the junction box, with the rack flange, and with the bases of CCTV cameras of various sizes. Shown in FIG. Set 2 consists of stand 5, extension 1, bracket 6, junction box 3 and cover plate 4.

Each of the kit options preferably includes screws, nuts, and other fasteners to form threaded connections.

In the presence of several extensions 1 of these elements, a composite support mast is assembled (Fig. 3) for lifting up the box 3. For this, the flanges of the extensions 1 are rigidly connected with screws and nuts. Alternatively, the rack 5 included in the kit has several basic variants of its execution. In the first version (Fig. 4), the post 5 is a straight round open at the ends of the telescopic tube 7 for changing the length of the post 5, equipped with screw locks 8 of the opening. The lower end of the pipe 7 ends with a base 9 for connection with a support. At the opposite end of the pipe 7, a flat flange 10 is fixed, which serves to fit the junction box 3, the extension 1 or directly the base of the installation product, for which purpose universal mounting holes 11 are formed in the flange 10, in particular corresponding to the holes in the bottom of the box 3, or alternating radial and diametrical holes. A hole 12 is made in the center of the flange 10, which communicates with the inner channel of the pipe 7. Due to the rotational mobility of the constituent parts of the telescopic structure, it is possible to rotate the flange 10 relative to the longitudinal axis of the pipe 7. In the second version, the pipe 7 is made in the form of one piece, has a constant diameter, has no base 9 and flange 10. In the third version, the flange 10 is fixed below the end of the pipe 7. Thus, the landing part of the post 5 is made with a flange 10 or has a cylindrical end or is characterized by a combined design with a flange 10 and a cylindrical end of a pipe 7. In the fourth version, the pipe 7 is equipped with folding legs-spacers for installing the rack 5 on an unprepared surface. The total length of the rack 5 reaches 3000 cm or more, if necessary. The post 5 is preferably made of steel with a protective paint-and-lacquer coating to impart high rigidity and strength to the structure.

The body of the extension 1 is made of a straight thin-walled tube 13 of circular cross-section with an open gap, at the ends of which flanges 14, 15 are fixed in the form of flat square plates with rounded corners (Fig. 5). The overall dimensions of the flanges 14, 15 correspond to the dimensions of the side walls of the case of the junction box 3, as well as to the holes in the base of this box. The flanges 14, 15 each have four through frontal mounting holes 16 of a circular shape. Close to one of these flanges, an oval-shaped hole 17 is made in the wall 13 for partially external routing of the electric cable to the attachment, if it is not possible to place the cable completely inside the structure for some reason. The diameter of the channel 18 of the pipe 13 corresponds to the diameter of the central holes in the walls of the body of the junction box 3. In an alternative embodiment of the extension 1 (Fig. 6), the flange 15 has through elongated fastening holes 19 identical to the holes in the side walls of the body of the junction box 3, and in the flange 14, four through front fastening holes 16 of a circular shape are formed, the orthogonal projections of which lie within the outer ends of the holes 19 of the flange 15, which are farthest from its center. Due to the fact that the thickness of the pipe 13 can be neglected, all the fastening holes of the flanges 14 are open on both sides for mounting. In practice, the outer diameter of the pipe 13 does not exceed a third of the width of the flange 14. The extension 1 is expediently made of a composite pipe to enable telescopic change in the length of this extension and mutual rotation of the flanges 14 relative to the longitudinal axis of the pipe. As the material of the pipe 13 and flanges 14 of the extension 1, a light metal alloy is used to reduce possible loads on the body of the box 3.

The angular holder 2 (Fig. 7, 8) is made in the form of a hollow box-shaped body made of bent cut steel sheet. The holder 2 contains two flat mounting bases 20 and 21 with large central through-holes 22 and 23, respectively. Each of the bases 20, 21 has four small holes 24. Also, the holder 2 contains a stock 25 with a semicircular recess. The bases 20 and 21 are rigidly fixed at an angle of 90 ° to each other by the walls 26. The size of the bases 20, 21 corresponds to the size of the flanges 14, 15 of the extension 1, and the shape of the bed 25, in turn, corresponds to the outer diameter of its pipe 13, to enable the holder 2 to function as a holder for the tubular element. This embodiment of the holder 2 allows the connection of the extensions 1 at a right angle and the fastening of the composite mast to the wall directly through the holders 2 or through the holders 2 and the extensions 1.

Another embodiment of the holder of the tubular element is a bracket 6 (Fig. 9), which contains a tubular body 27, preferably a telescopic structure for changing the length, provided with screw locks 28 for opening, a clamp 29 for fixing the pipe 7 of the post 5 and a base 30 with a flange 31, in which holes 32 are made for the primary fastening of the bracket 6 to a vertical surface, for example, to a wall or to a fence. Depending on the execution of the bracket 6, the length of the body 27 varies in the range of 5-100 cm. The elements of the bracket 6 are made of metal.

The junction box 3 consists of a power housing 33 and a cover 34 (Fig. 10, 11). The body 33 is made in the form of a single hollow cuboid part with an open top edge. The side plates 35 of the walls of the housing 33 serve to fit different types of attachment bases, for which identical groups of universal frontal fastening blind holes 36 are formed in these plates (Fig. 12). In the center of the set of fastening holes 36, a hole 37 is made for supplying an electric cable to the attachment, closed with a plug under the cutout. The width of the holes 36 corresponds to the diameter of the screw body. Moreover, the groups of holes 36 are located on the plates 35 so that the fastening holes in the adjacent walls of the housing 33 are axisymmetric relative to the common ribs of the housing, as a result of the indicated mutual symmetry of the holes relative to the four parallel edges of the cube, the orthogonal projections of the holes on the opposite wall of the housing 33 are congruent with the holes on that wall , which gives the box 3 increased versatility and functionality, due to the provision of the possibility of fixing several mounted products due to the convexity of the shape of the box 3, the possibility of choosing the spatial orientation of the passage box 3 as part of the structure and the creation of volumetric load-bearing structures. This symmetry of the arrangement of the groups of holes 36 makes it possible to form from the elements of this set of closed annular figures. In an alternative version of the box 3, the holes 36 are made through with a width for the outer diameter of the screw.

The holes 36 are slit-like with rounded ends. The set of mounting holes in plan forms a complex geometric figure with bilateral symmetry about the vertical axis of the plate 35. These holes diverge radially about the common center P _{0 of} intersection of the radial axes of the holes 36. The group of mounting holes includes three sets of them. The holes of all three sets are intended both for external mechanical mounting of the attached functional equipment of the video surveillance system on the bearing platforms of the housing 33 or extension (extension cords) 1, and for fixing the housing 33 on the supporting surfaces, which gives the side walls of the box 3 not only the bearing, but if necessary and a supporting function due to the convex polyhedral outer shape of the housing 33 and the planes of its side plates 35.

The first set is formed by holes, elongated in plan, mainly along X-shaped axes. This set is intended for fastening the bases of the installation products with four holes lying at the corners of a conventional rectangle, in particular a square. Holes 38-41 are elongated along the X ₁ -X ₄ axes, in the form of an oblique cross (Fig. 13). The inner and outer ends of the holes are equidistant from the center P _0, respectively, by the values of the radii R ₁ and R ₂ , so that the first set of holes is suitable for mounting the bases of products, the fastening holes of which are in the range, the boundaries of which are set by the values R ₁ and R ₂ .

The second set includes holes that are elongated in plan, mainly along the Y-shaped axes. This combination provides fastening of the bases of products with three holes lying at the corners of a conventional inverted regular triangle. Holes 42-44 extend along diametrically equidistant axes Y ₁ -Y ₃ (Fig. 14). The inner ends of the holes 42, 44 and the inner edge of the working area of the hole 43, used in the Y-shaped connection scheme, are equidistant from the center P ₀ by an amount R ₃ , the outer ends of the holes 42-44 are equidistant from the center P ₀ by an amount R ₄ .

The third set includes holes that are predominantly elongated in plan along the axes, which have the form of a graphic symbol "T" inverted by 180 ° relative to the Y-shaped axes. Holes 45-47 are elongated along the axes T ₁ -T ₃ (Fig. 15). Together with the hole 43 of the second set of holes 45-47, the bases of the products with four holes lying at the ends of the conventional straight cross are attached. The inner ends of the holes 46, 47 and the inner edges of the working zones of the holes 43, 45, used in this connection scheme, are equidistant from the center P ₀ by an amount R ₅ , respectively, the outer ends and edges of the zones are equidistant from the center P ₀ by an amount R ₆ . In addition, the holes 43 and 45, elongated along one vertical straight line formed by the I-shaped axes T ₁ , Y ₂ (Fig. 16), provide fastening of the bases of products with two holes opposite to the center P ₀ . The inner ends of the holes 43, 45 are equidistant from the center P ₀ by the value R ₇ , the outer edge of the working area of the hole 43, used in the I-shaped connection scheme, and the outer edge of the hole 45 are equidistant from the center P ₀ by the value R ₈ .

The length of the holes of the second set is preferably selected from the conditions that it exceeds the length of the holes of the first set by 1.5-2 times and differs from the length of the holes of the third set by 0.7-2 times.

The shown shape and configuration of holes 38-47 allows attachment plate attachments of 35 current form factors with two, three or four mounting holes, for a total of four mounting patterns (linear, triangular, rectangular, including square, and cross) , which increases the versatility and functionality of the junction box 3.

Inside the body 33, there is a support sleeve 48 for the end part of the pipe 7 of the rack 5 and reinforcing ribs 49 full-profile along the height of the body 33 with holes 50 for screws, by means of which the cover 34 is attached to the body 33 (Fig. 17, 18). The sleeve 48 is a through tube with open ends and a working inner surface. This sleeve is made as a part of the body of the body 33. The sleeve 48 is formed in the center of the base 51 of the body 33, while the root end of this sleeve is inseparably mated with the bottom of the body 33. The inner diameter of the sleeve 48 is selected from the condition that it tightly surrounds the end part of the strut tube 5. On the diagonals the base is formed by four fastening lugs 52, which are thickenings of the base 51, rigidly connected to this base, and their connection is reinforced with low-profile stiffeners 53 and 54. Inside the sleeve 48, the travel stop of the rack 5 is made in the form of an annular protrusion 55 along the edge of the free end of this sleeve ... Alternatively, the sleeve 48 is tapered towards the free end. The base 51 of the body 33 is characterized by the presence of a universal support platform, in the center of which a through hole is made, closed by a plug under the cut-out 56 (Fig. 19). This opening allows the root end of the sleeve 48 to be fully exposed when the plug 56 is removed and the device is ready for use. Two groups of mounting holes are formed around said passage hole for connecting the housing 33 to the flange of the support element in the form of a tube support. Three elongated mounting holes 57 are provided for a nut connection, and four circular holes 58 are formed in bosses 52 for screw connection to the flange. In addition, drain holes 59 are made in the base 51 for draining atmospheric condensate during outdoor operation of the device. Holes 57 and 59 are initially plugged with elements that are secured with the possibility of breaking them out if necessary.

The cover 34 is made in the form of a square plate with rounded corners (Fig. 20). At the corners of the cover, circular frontal holes 60 are formed for fastening the cover 34 to the body 33 with screws. In a particular case, the fixing holes 38-47 and the cable hole 37 are also made in the cover 34 to give the box 3 more functionality. The top plane of the cover 34 is made smooth, and on the inner side there are two low annular rims that form a narrow slot along the perimeter of this cover. A rubber sealing element is placed in the gap between the flanges to seal the connection between the cover 34 and the body 33.

The junction box 3 is made of a material with suitable technological and operational properties, for example, metal, durable plastics or composite. Preferred are polymeric materials, for example, ABS plastic, its weather-resistant counterparts, or polycarbonate, which have high mechanical rigidity, strength, and good dielectric properties.

Pad 4 is designed to seal from atmospheric moisture the connection of the installation product, in particular the base of the CCTV camera holder, with the plane of the side edge of the case 33 of the box 3. This pad is made in the form of a square sheet with rounded corners (Fig. 21), the size of which corresponds to the size of the lateral the edges of the body 33. The preferred dimensions of the strip 4 are 100 × 100 × 1 mm. It is advisable to use silicone as the material for the strip 4. On one of the planes of the strip 4, an adhesive is evenly applied for mounting this strip, protected with a tear-off film.

The support of the video surveillance system is erected and used in the basic version as follows.

Preliminary preparation of the box 3 for its installation is carried out, for this, plugs are removed from the suitable holes 38-57 or the holes necessary for screw connections are cut through with a cutting tool, if they are plugged or blind. Fastening with screws does not require preliminary manipulations with the openings of the box 3. On the outer surfaces of the edges of the box 3, intended for fixing the installation products, the overlays 4 are glued, having previously removed the protective films from the adhesive layer.

If in the immediate vicinity of the intended location of the CCTV camera and other functional products of the system there is no wall of any structure or pole suitable for fixing the box 3 or extension cord 1, then the support of the video surveillance system is erected using a composite support mast of several extension cords 1 or using a solid rack 5. The mast or post is installed vertically, firmly connecting the flange of its lower end with the base, made, in particular, in the form of a concrete block, or fixing the flangeless end of the pipe directly in the ground. When performing the rack 5 with legs-spacers, these elements are brought into the working position and stably place the rack 5 on the surface.

The composite mast is connected to the wall by means of a pair of horizontal extensions 1 through holders 2. In this case, the base 20 of the holder 2 is screwed to the free flange 14 or 15 of the horizontally located extension 1, aligning the fastening holes 24 and 16. The elements of the composite mast are screwed together through the base 21 of the holder 2 , placing the flange of the upper extension 1 over the base 21, and the flange of the lower extension 1 below the base 21. In this case, the body of the pipe 13 of the lower extension 1 rests on the stock 25 of the holder 2 to increase the rigidity and strength of the supporting structure.

The implementation of this kit also provides fastening of the pillar 5 to the wall or fence by means of one or two brackets 6. In the first embodiment, the lower end of the pipe 7 is buried in the ground or connected to a concrete block, the dimensions of which are sufficient for the reliable installation of the pillar 5, after which the base 30 of the bracket is attached 6, for example, to the wall, and the pipe body 7 is grabbed in the central part by the clamp 29, as a result of which the post 5 has two points of support spaced apart in space and is securely fixed. In the second version, two brackets 6 are used, which allows the lower end of the pipe 7 to remain in the air. After installing the rack 5, set it in height, if possible, adjust the body length 27 of the bracket (s) 6 and finally fix the rack 5 in the required position. Thus, the possible options for installing the rack 5 are numerous due to the versatile and functional design of the rack 5 and the bracket 6.

The box 3 is screwed to the free flange 14 or 15 of the extension 1 through the holes 16 and 58. It is also possible to screw the box 3 with the flange of the extension 1 through suitable holes 36 of the side plate 35 (Fig. 22). The choice of a suitable connection method is possible due to the versatility of the support platform of the box 3. Depending on the design of the rack 5, the following alternatives are used for universal fixing of the box 3. If the rack 5 has a flange 10, then in the straight position of the box 3, the base 51 of the body 33 is placed on the flange 10 of the rack 5 , which are mutually adjacent due to the congruence of the planes of the support platform of the base 51 and the flange 10 (Fig. 23). Box 3 is fixed with fasteners through holes 11 and 57. When box 3 is secured in a tilted position, the body 33 is placed on the flange 10 with its side side and fastened through suitable holes in the supporting platform of the body 33. The shape of holes 57 and 11 guarantees the possibility of mounting box 3 in difficult conditions where it is difficult to achieve an exact match of the mounting holes. In addition, due to the alternation of radial and diametrical holes, with the corresponding design of the flange 10, it is possible to roughly select the angle of installation of the box 3 relative to the longitudinal axis of the post 5 and precise angular adjustment of the position of the body 33 along the diametrical holes 11. When making the post 5 without a flange, insert the upper cylindrical the end of this post into the hole 56 of the housing 33 and push the sleeve 48 onto the end part of the post 5 until it stops against the protrusion 55 (Fig. 24), after which, if necessary, rotate the body 33 relative to the longitudinal axis of the post 5 by the required angle, since due to the presence of the protrusion 55, the rigid fixation of the housing 33 is not carried out. If the post 5 is also made with a flange 10 and has a cylindrical end, then the sleeve 48 is pushed onto the end part of the post 5 until the base 51 of the body 33 stops against the surface of the flange 10 (Fig. 25) and, if necessary, fixing is carried out with fasteners through the holes 57 and 11. In each of the options, the cavity of the housing 33 communicates with the inner channel of the pipe 7 through the hole 56 in the base 51 of the housing 33. An electric cable from the electronic control unit, power supply and information processing is passed through the lumen of the pipe 7, and this cable is led out into the housing 33.

Then the electric cable 63 of this camera is passed through the hole 37, coming out from under the base 61 of the holder of the CCTV camera 62, and then the base 61 of the CCTV camera 62 is connected to the plate 35 of the housing 33. By fixing the CCTV camera 62 on the plate 35, a plug connection 64 of the cable is formed inside the housing 33 63 cameras 62 with a cable of the electronic control unit, power supply and information processing (Fig. 26). Depending on the form factor of the base 61, installation is carried out according to the X-shaped scheme (FIG. 27), according to the Y-shaped scheme (FIG. 28), according to the scheme in the form of a straight cross (FIG. 29) or according to the I-shaped scheme ( Fig. 30). At the same time, the holes 65 in the base 61 are aligned with suitable matching holes in the plate 35 and, breaking through the lining 4, screws 66 are inserted into them, followed by fixing with nuts on the back side of the plate 35. If blind holes are left in the plate 35, then the base 61 is fastened with screws, the thread of which engages with the walls of the connecting holes, which act as guides.

If it is necessary to install other attachments, the same procedure is repeated the required number of times.

At the final stage, the cavity of the box 3 is closed with a cover 34, it is tightly pressed to the body 33 with screws or screws (Fig. 31), after which, if necessary, the height of the rack 5, as well as the angle of its axial rotation, are adjusted, making adjustments based on the characteristics of the installation site and type functional equipment of the system. As a result, the installation is ready for operation, including in open space, thanks to the protection of the box body from penetration into atmospheric moisture, which makes the support universal in terms of possible operating conditions both in closed heated rooms and outdoors.

If it is necessary to replace the CCTV camera, the previously installed camera is removed, and a new camera is fixed in its place using the same holes in the base of the connecting device or using other holes in its mounting part, depending on the form factor of the camera holder. If the old and new mounting holes do not match, then the strips 4 on the working edges of the box 3 are replaced. At the same time, due to the high degree of versatility of the junction box, its replacement is not required, which increases the useful life of the unit and simplifies installation work.

The capabilities of the kit-constructor illustrate additional examples of construction with its help of typical supports of a video surveillance system.

Example 1 (Fig. 32). The box 3 is connected to the upper end part of the post 5. A chamber 62 is fixed on the side wall of the box 3. The lower part of the post 5 is preferably fixed to the massive concrete block 67 (Fig. 33) by means of anchoring to give the structure stability.

Example 2 (Fig. 34, side view). The box body 3 is fixed to the concrete wall 68 or the ceiling of the building by means of anchor bolts through holes 38-41 in the side plate 35 attached to the wall 68. The extension 1 is connected to the opposite plate 35 of the body 33 by its flange with four round-shaped fixing holes through the corresponding holes 38 -41 in the specified plate of the body 33. The base 61 of the holder of the video surveillance camera 62 is rigidly screwed to the opposite flange of the extension 1, through those of the holes 38-47 of the flange that correspond to the holes in the base 61. The electric cable is routed from the camera 62 to the cavity of the box 3 through the lumen of the pipe 13, and then goes into the wall 68 through the hole 37 in the connecting plate 35 or is brought down for external laying through the hole 56.

Example 3 (Fig. 35, side view). The body 33 of the box 3 is rigidly connected to the wall 68 or the ceiling through the extension 1. The base 61 of the CCTV camera holder 62 is connected to the free plate 35 or the base 51 according to a suitable mounting pattern. This version of the support is necessary in case of installing more than one installation product with an extension relative to the plane of the wall, and is also suitable for CCTV cameras with a short cable, which is impractical to extend. However, this creates an increased, in comparison with the structure in example 2, the load on the wall in the area of attachment due to the increased cantilever force.

Example 4 (Fig. 36, plan view). The installation scheme is similar to the scheme according to example 2, however, the extension 1 is connected to the plate 35 of the housing 33 adjacent to the wall 68, which makes it possible to push the chamber 62 beyond the corner of the wall. Moreover, due to the relative thinness of the body of the extension cord 1 in comparison with the size of the box 3, small protrusions on the wall 68 do not create obstacles for the construction of the structure.

Example 5 (Fig. 37, plan view). The body 33 of the box 3 is connected to the wall 68 through the first extension 201, and the base 61 of the chamber holder 62 is connected to the body 33 through the second extension 202. The first and second extensions 201, 202 are arranged in plan at right angles to each other, which allows a relatively large a protrusion, for example a box 69, on a wall 68, significantly exceeding in thickness the diameter of the pipe 7 of the extension 1, and direct the camera 62 in the desired direction around the corner of this wall.

Example 6 (Fig. 38, plan view). The body of the first box 401 is directly attached to the wall 68, the second box 402 is connected to it through the first extension 201. The third box 403 is in turn connected to the second box 402 through the second extension 202, rotated 90 relative to the first extension 201. A camera 62 is attached to the box 403 In general, the structure is L-shaped. Due to the relative narrowness of the extension 201, it became possible to bypass a small protrusion on the wall 68, for example, a cable channel, and orient the camera 62 at an angle parallel to the wall, which would be difficult to do only by means of the hinge of the holder of this camera.

Example 7 (Fig. 39). The box 3 is installed on the first extension 201, oriented vertically, the multidirectional chambers 62 are connected to the box 3, respectively, through the extensions 202, 203. According to the "star" scheme, up to five chambers can be installed on one junction box (when the cover 34 is made with connecting holes 36), at the same time, it is possible to place the rack 5 near fences or bushes, while maintaining the control zones.

Example 8 (Figs. 40, 41). The rack 5 is fixed to the wall 68 by means of a pair of brackets 6. The installation height of the box 3 can be further increased to expand the degree of view of video surveillance or the quality of radio communication by connecting the box 3 to the rack 5 through an extension cable 1.

Example 9 (Figs. 42, 43). The composite mast is connected to the wall 68 by means of extensions 1 and holders 2.

Example 10 (Fig. 44). Using several boxes 33 and extensions 1, it is possible to erect supports with complex spatial structures, for example, a closed annular shape ("ring" scheme), to give such supports greater rigidity and strength in order to increase the bearing capacity of the structure and increase the number and types of functional elements installed on it video surveillance systems.

The junction box, escutcheon, extension, post, holder and bracket are simple in design and low in parts, but with increased functionality and versatility. Due to the specified design of the junction box, tubular extensions and the holder of the tubular element, a high combinatoriality of possible connections of the parts of this set and its suitability for installing CCTV cameras and other products of various sizes are provided. With such a design of the case of the junction box, extension cord and rack, that the universal mounting holes correspond to each other, the congruence of their mating surfaces and the symmetry of the arrangement of the mounting holes on the box walls are ensured, the highest combinatoriality of possible connections of the parts of this set and its suitability for installing CCTV cameras and others is achieved. products of various standard sizes. Due to the increased functionality and versatility of the parts of the set, as well as the almost unlimited number of possible combinations of their connections as part of the overall structure, including closed circular shapes, it is possible to erect a support with an optimal spatial configuration for installing various installation products of the video surveillance system, taking into account their required orientation in space. from the features of the placement, including in open spaces.

Claims (10)

1. A kit-constructor for erecting a support for a video surveillance system, which includes a junction box according to claim 7 of the formula, tubular extensions and a holder for a tubular element, characterized in that the extensions are made with end flanges, with mounting holes formed in all of these flanges, matching each other and the mounting holes in the junction box. 2. The set according to claim 1, characterized in that it contains a sheet strip with an adhesive base. 3. The set of claim. 1, characterized in that it contains a tubular post, and the holder of the tubular element is made in the form of a bracket with a clamp of the body of the post. 4. A set according to claim 3, characterized in that the end part of the tubular post has a cylindrical shape or is provided with a flange. 5. The set according to claim 3, characterized in that the rack and / or extension is made with the possibility of telescopic change in length. 6. The set according to claim 3, characterized in that the post and / or the extension are rotatable about their longitudinal axis. 7. A junction box containing a housing with supporting and supporting pads on the outer surfaces of its walls, characterized by the fact that in these pads it is formed in a group of cable holes and universal mounting holes, while the universal mounting holes provide an alternative connection of the bases of CCTV cameras of various sizes or flanges of extensions, and these areas lie on the faces of the convex polyhedron, and the fastening holes of adjacent bearing areas are axisymmetric with respect to the common edge of the polyhedron. 8. Box according to claim 7, characterized in that the universal mounting holes include three of their sets, elongated in plan, respectively, along the X-, Y- and inverted T-shaped axes, and the centers of the holes of the second and third specified sets are located closer to the common center than the centers of the holes of the first set. 9. Box according to claim. 7, characterized in that it contains a sleeve for the end part of the rack, connected to the body, and the passage hole in this sleeve communicates with the cable hole in the support platform. 10. A box according to claim 9, characterized in that the strut travel stop is made on the inner side of the sleeve.

Images