RU2474935C1 - Active transmitting phased antenna array - Google Patents

Abstract

FIELD: radio engineering.SUBSTANCE: active transmitting phased antenna array includes a dismountable radiator housing consisting of side cooling walls, upper cover plate with a handle, lower base; at that, upper cover plate is made in the form of an upper frame with threaded holes to fix side walls and the axis, holes for fixation of the handle; lower base is made in the form of a lower frame with threaded holes to fix side walls, connector and axis, holes for fixation of the support, spacing pins having threaded holes on side surface and intended to fix side walls, three heat removal walls having cooling ribs on external side with formation and amplification elements arranged on smooth inner surface and intended to emit target band-eliminating and eliminating radio interference, one wall with antennae arranged on it, emitters to emit target band-eliminating and eliminating radio interference. Upper frame, lower frame, heat removal walls and the wall form a closed space isolated from influence of atmospheric phenomena. A loop plank provides movement of one heat removal wall. Lower frame interacts with cylindrical support having a solid rectangular flange on the end face and projection on cylindrical surface, with a triangular plate with holes, which is arranged between them. The other side of the projection is provided with a thrust supporting ring having an internal collar and two holes - on side surface; a screw attaching a key to the thrust supporting ring is passed through one hole, and an attachment screw of automatic transmitting phased antenna array is passed through the second hole in the fixed position. The key has two threaded holes.EFFECT: obtaining rigid tight structure of radiator housing, which allows operating the product at action of atmospheric phenomena, and capability of fixing automatic transmitting phased antenna array in necessary direction for emission of target band-eliminating and eliminating radio interference.7 dwg

Description

The invention relates to electronic equipment, in particular to the design of the housing of the product used in the electronic industry.

Known floor-mounted radiator for creating a low-noise system without using fans, model TNN 500AF manufacturer Zalman (Access mode: http://www.nix.ru/autocatalog/cases_zalman/ZALMAN._ TNN500AF_400W_Socket478_775_754_939_940_69318.html (accessed 22.06.06. 2011), ZALMAN TNN500AF ATX 400W).

This radiator case, consisting of a right and left heat sink wall, made with cooling fins on the outer surface and supports on the lower end, rear wall, front door, lower base, upper cover with a handle, elements for mounting computer boards, a front panel with buttons, indication and connectors of the power supply unit mounted on the heat sink wall, heat sink elements connecting the circuit board with the heat sink walls.

The disadvantage of the radiator case is that it does not have a hermetically sealed volume and is intended for assembling a personal computer equipped with software and, in some cases, hardware that allows it to be used as a computer for a home theater indoors in the floor position.

Technical solutions aimed at creating a housing-radiator-emitter for an active transmitting phased array antenna (APFAR) make it possible to obtain a closed internal volume isolated from external effects of atmospheric phenomena, and there is the ability to be set in the right direction for radiation of targeted band-barrage and obstructive radio interference and be fixed.

The technical result is achieved in that the top cover is made in the form of a top frame with threaded holes for mounting the side walls and the axis, holes for mounting the handle, the lower base is made in the form of a bottom frame with threaded holes for mounting the side walls, connector and axis, holes for mounting supports, spacer studs have threaded holes on the side surface and designed for mounting the side walls, three heat-removing walls having cooling fins on the outside and with a solid inner surface with the elements of formation and amplification for the radiation of targeted stripe-barrage and obstructive radio interference, one wall with antennas placed on it; emitters for the radiation of targeted stripe-barrage and obstructive radio interference, forming an enclosed space with the upper frame and the lower frame isolated from the effects of atmospheric phenomena , the loop-loop ensures the movement of one heat-removing wall, the cylindrical support has a non-detachable rectangular flange at the end and the protrusion n on a cylindrical surface, with a triangular plate having openings between them, and on the other side of the protrusion, a retaining ring having an inner flange and two holes on the side surface, a key fastening screw passes through one hole, and a fastening stop screw passes through the second hole APFAR in a fixed position, the key has two threaded holes.

The invention is illustrated by drawings.

Figure 1 shows a side view, figure 2 shows a front view, figure 3 shows a bottom view, figure 4 shows a top view, figure 5 shows a view of the housing in an open state, figure 6 shows a section A -A, Fig.7 shows a section bB.

APFAR consists of the frame of the upper 23, the frame of the lower 21, the heat-removing walls 5, 6, 17, the wall 15, the antennas of the emitters 10, the spacers 24, the handle 9, the cylindrical support 13, the rectangular flange 4, the triangular plate 3, the retaining ring 12 , keys 22, locking screw 1, connector 11.

The heat sink walls 5, 6, 17 have cooling fins on the outer surface. On the inner smooth surface of the heat-removing walls 5, 6, 17, there are elements of formation and amplification for the radiation of targeted band-barrage and barrage radio interference. On the wall 15 there are antennas emitters 10 for emitting sighting band-barrage and barrage radio interference.

The heat sink walls 5 and 17 interact with the upper frame 23 and the lower frame 21 using screws 8 and with each other through the spacer pins 24 with nuts 7. The heat sink wall 6 and the wall 15 interact with the upper frame 23 and the lower frame 21 with screws 8 and with spacer pins 24 having threaded holes on the side surface using screws 8. The heat sink wall 6 and wall 15 are in contact with heat sink walls 5 and 17. The resulting radiator-radiator body from the frame of the upper 23, the frame of the lower 21, the heat sink walls 5, 6.17 and wall 15 has a closed, sealed volume, isolated from atmospheric effects.

The cylindrical support 13 has an integral rectangular flange 4 at the end and a protrusion 2 on a cylindrical surface. Between the rectangular flange 4 and the protrusion 2 there is a triangular plate 3 having three holes 14. On the cylindrical support 13 there is a retaining ring 12 in contact with the protrusion 2 with two holes on the side surface. A screw 16 passes through one hole and interacts with a key 22, which is in contact with the retaining ring 12. A second screw passes through a second hole, which interacts with the key 22 and acts on the cylindrical support 13.

The handle 9 interacts with the frame of the upper 23 using nuts. The cylindrical support 13 interacts with the bottom frame 21 through an integral connection with a rectangular flange 4 using bolts 26 with nuts. Connector 11 interacts with the bottom frame 21 using screws 25.

The heat sink wall 5 at the upper and lower end has an axis 18 with a nut. The upper frame 23 and the lower frame 21 have an axis 20 with a nut. The loop plate 19 interacts with the axis 18 and axis 20, provides a movable connection. This element allows you to move and rotate the heat sink wall 5 when you open (close) it.

A fully assembled APFAR is installed in the seat of the mast 27, where the end of the seat of the mast 27 interacts on the inner flange of the support-retaining ring 12, which in turn interacts with the protrusion 2 on the cylindrical support 13. The key 22, located on the support-retaining ring 12, in contact with the groove of the seat mast 27.

Stretching cables (not shown) interact with the triangular plate 3 through holes 14, which acts on the protrusion 2 on the cylindrical support 13, the inner protrusion of the retaining ring 12, the end face of the mast seat 27, while holding the APFAR in a stable vertical position together with the mast.

APFAR is exposed by antenna emitters 10 in the direction of radiation of sighting band-barrage and barrage radio interference. To do this, the locking screw 1 is removed due to interaction with the cylindrical support 13, rotate around the axis of the cylindrical support 13, exposing it in the desired direction, while the protrusion 2 on the cylindrical support 13 slides between the inner flange of the retaining ring 12 and the triangular plate 3. After setting the APFAR in the desired position, for the radiation of the targeted band-barrage and obstruction radio interference, the locking screw 1 is introduced into interaction with the cylindrical support 13, fixing the exposed position of the APFAR. If necessary, change the direction of radiation of sighting band-barrage and barrage radio interference, repeat the operation for setting APFAR.

This technical solution allows to obtain a rigid, sealed design of the radiator case, which allows the product to be operated under the influence of atmospheric phenomena, and there is the ability to fix the APFAR in the right direction for the radiation of targeted band-barrage and barrage radio interference.

Claims (1)

Active transmitting phased array antenna (APFAR), comprising a collapsible radiator case, consisting of heat sink walls with cooling fins, a top cover with a handle, a lower base, a connection connector, characterized in that the top cover is made in the form of a top frame with screw holes for mounting side walls and axes, holes for mounting the handle, the lower base is made in the form of a lower frame with threaded holes for mounting the side walls, the connector and the axis, holes for mounting the support, spacers mounts for attaching side walls having threaded holes on the side surface of three heat-removing walls having cooling fins on the outside with formation and gain elements placed on a smooth inner surface for emitting targeted strip-barrage and obstruction radio interference, one wall with antennas placed on it -emitters for emitting sighting band-barrage and barrage radio interference, forming an enclosed space with the upper frame and the lower frame from the effects of atmospheric phenomena, a loop-loop that allows the movement of one heat-removing wall, a cylindrical support having an integral rectangular flange at the end and a protrusion on a cylindrical surface with a triangular plate with holes located between them, and on the other side of the protrusion, a retaining ring having an inner the flange and two holes on the side surface, the key mounting screw passes through one hole, and the APFAR fixing screw in the fixed position passes through the second hole ii, tongue, having two threaded holes.

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