CN105093506A - Shielding cloaking apparatus utilizing wave path detour flow reduction - Google Patents

Abstract

The invention discloses a shielding invisible device which is restored by bypassing a wave path. It comprises a square frame main body, and a shielding invisible mechanism is arranged inside the square frame main body. , access frame, upper mirror frame, lower mirror frame, upper mirror, lower mirror, window glass, protective window, top plate, bottom plate, base, steps, channel side door, round tubular staple type pull-through bracket and remote control locker . The present invention uses the principle of mirror reflection to make reflective waves such as sound, light, infrared rays, and electromagnetic waves oriented into the device reflect in a certain direction through multiple groups of special mirrors arranged at an angle of 45° to each other, so that the wave path can flow around and then return. To its original waveguide path, so as to realize the shielding and invisible device of personnel and equipment in the enclosed space, the shielding invisible mechanism can be used in a superimposed structure or a horizontal arrangement structure, and can be used in a twisted and folded way as needed.

Description

Shielding stealth device restored by wave path bypass flow

technical field

The invention relates to a shielding invisible device, which is a shielding invisible device for reflecting waves such as sound, visible light, infrared rays and electromagnetic waves after being restored by bypassing a wave path.

Background technique

As we all know, for the observer, the essence of the periscope is to shift the upper mirror image at a high position to the lower part, so that the observer at a low position can see the scene at a high position. As early as the Han Dynasty in my country, someone invented a device similar to a periscope. Its function is to sit in the courtyard and peek at the scene outside the courtyard wall. The periscope of the ancients is also very simple: hang a large mirror high above the courtyard wall, put a basin filled with water in the courtyard, and look at the basin, and you will "see your neighbors while sitting" (Liu An's "Huainan Wanbishu"). This is the oldest periscope in the world and the ancestor of the modern periscope.

After further research on the traditional periscope, it is found that the upper windows of two periscopes of the same caliber are docked so that the lower edge of the upper plane mirror coincides with the upper edge of the lower plane mirror, and then observed from the horizontal direction, the front and rear of the same large mirror can be realized. Displacement, and the space enclosed by the horizontal distance between the lower mirrors of two "periscopes" similar to no height difference constitutes a certain volume of invisible space.

Contents of the invention

The purpose of the present invention is to provide a shielding invisible device for sound, visible light, infrared rays and electromagnetic waves and other reflective waves after reduction by bypassing the wave path to solve the problem that large-area and large-volume fixed equipment is difficult to be invisible.

In the field of national defense, the present invention can carry out effective visual invisibility on fixed equipment, such as fixed platform trains, fixed artillery positions, fixed observation post positions, missile launching stands, emergency shelters, etc., and can still be applied to the construction of visually invisible hangars for military airports , invisible ammunition depot (oil depot), etc., improved technology can solve the vision and radar invisibility of the part above the water plane of the semi-submersible reconnaissance boat. In the civil field, you can build hanging gardens, visually invisible Rubik's Cubes, visually invisible villas, visually invisible (bedroom) bathrooms, visually invisible safes, visually invisible birdcages, visually invisible pet boxes (toys), etc., and build low-impedance viewing in famous scenic spots Visually invisible restaurants, visually invisible public toilets, etc.

In the present invention, the technical scheme adopted by the shielding invisible device that utilizes the bypass flow of the wave path to restore is as follows:

The present invention utilizes the shielding invisible device that the wave path bypasses to restore, and comprises a square frame main body, and is characterized in that: a shielding invisible mechanism is arranged in the square frame main body, and the square frame main body includes a Rubik's cube configuration frame plate on the outer facade, a window frame , channel frame plate, upper mirror frame, lower mirror frame, protective window, top plate, bottom plate, base, steps, channel side door and circular tube-shaped staple type pull-through bracket, remote control locker, and the shielding invisible mechanism includes window glass , an upper mirror surface and a lower mirror surface, the upper mirror surface frame and the lower mirror surface frame are respectively arranged on the upper and lower parts in the Rubik's cube configuration frame plate, and the upper mirror surface and the lower mirror surface are respectively fixed in the upper mirror surface frame and the lower mirror surface frame , the upper mirror in the upper mirror frame and the lower mirror in the lower mirror frame are installed at an angle of 45° and are relatively arranged as reflective surfaces. The middle part of the lower mirror frame, the lower edge of the upper mirror frame is connected with the upper edge of the window frame, the upper edge of the lower mirror frame is connected with the middle part of the window frame, the window glass is installed in the window frame, and the protective window is installed on the window frame in an openable and closed form. On the outer side, the circular tube-shaped staple-type pull-through bracket is on the protective window. After the circular tube-shaped staple-type pull-through bracket is opened, its two ends are respectively plugged into the protective window and the Rubik’s cube configuration frame plate, and the channel frame plate is connected to the Rubik’s cube. The configuration shelf is connected to the side door of the passage after being connected left and right, the top plate is connected to the upper part of the Rubik’s cube configuration shelf, the bottom plate and base are connected to the lower part of the Rubik’s cube configuration shelf, and the steps are connected to the lower part of the Rubik’s cube configuration shelf and can be stored in the base Inside.

As a preferred solution of the present invention, a group of remote control locks are correspondingly installed between the Rubik's cube configuration frame plate and the protective window, and the remote control locks include gears, chains and forward and reverse travel motors, and the gears include large gears and small gears. One end is connected to the large gear on the output shaft of the stroke motor, and the other end is connected to the fixed pinion on the shaft of the protective window. When the stroke motor rotates forward, it drives the gear to rotate forward, thereby driving the chain to control the upward opening of the protective window. When the stroke motor When reversing, the gear is driven to rotate in reverse, thereby driving the chain to control the downward closing of the protective window, so that the protective window can rotate up and down on the outside of the window glass, open and close.

As a preferred solution of the present invention, the window glass installed in the window frame connected by the Rubik's cube configuration frame plate is a reinforced protective glass with high transparency and low reflectivity.

As a preferred solution of the present invention, the upper mirror and the lower mirror fixedly installed in the upper mirror frame and the lower mirror frame connected by the Rubik's Cube configuration frame plate are installed at an angle of 45 °, and the reflection surfaces of the upper mirror and the lower mirror are relatively arranged Yes, the upper and lower parts are arranged symmetrically in the Rubik’s cube configuration frame. There are two groups of left and right mirrors on the upper mirror. The reflective surfaces of the two groups of upper mirrors are opposite. , which are arranged symmetrically on the left and right in the Rubik's Cube configuration frame plate, and finally the reflecting surfaces constituting the mirror surface are arranged oppositely and are symmetrical up and down, left and right.

As a preferred version of the present invention, the fixed upper mirror surface of the upper mirror frame connected to the Rubik's cube configuration frame plate is a flat mirror, and the fixed lower mirror surface of the lower mirror frame is a high-definition one-way perspective mirror, and the lower edge of the upper mirror surface is connected to the lower mirror surface. The upper edge is in the same plane.

As a preferred version of the present invention, the space formed by the window frame, channel frame, upper mirror frame, lower mirror frame, window glass, upper mirror, lower mirror, top plate and base plate installed on the Rubik's Cube configuration frame plate is sealed. , which is filled with nitrogen or in a vacuum state.

As a preferred solution of the present invention, the outside of the channel side door where the Rubik's cube configuration frame plate is connected with the channel frame plate is painted with the corresponding color system of the camouflage Rubik's cube and is equipped with a damping locator, a built-in lock and a suction cup type mobile door handle.

As a preferred solution of the present invention, the overlapping steps located on both sides of the lower part of the Rubik's cube configuration shelf can be retracted into the Rubik's cube configuration shelf and then close the passage side door when the passage side door is fully opened, and can also be stored in the base.

As a preferred solution of the present invention, the protective window connected to the Rubik's cube configuration frame plate is equipped with a circular tube-shaped staple-type pull-through bracket, and there is a high-strength magnet in the opening of the circular-tube-shaped staple-type pull-through bracket, which can be used with The Rubik's cube configuration frame plate and the protective window are adsorbed by the high-strength magnets in the corresponding round holes to increase the wind resistance of the protective window in the windy environment.

As a preferred solution of the present invention, the built-in shielding invisible mechanism can be used in a superimposed structure or in a horizontal arrangement structure. The shelf material of the Rubik's cube configuration shelf is sound-proof, heat-insulating, and flame-retardant light-weight material when applied in the macroscopic world. When the microcosm is applied, it is a nanoscale metamaterial.

The present invention utilizes the advantage of the shielding stealth device restored by the bypass flow of the wave path that, using the principle of mirror reflection, the reflective waves such as sound, light, infrared rays, and electromagnetic waves directed into the device are given by multiple groups of special mirrors arranged at an angle of 45° to each other. Determine the direction of the reflection, so that the wave path goes around and then returns to its original waveguide path, so as to realize the shielding and invisible device of the personnel and equipment in the enclosed space. The shielding invisible mechanism can be used in a superimposed structure and can also be arranged in a horizontal structure. In use, it can be twisted and folded as needed.

Description of drawings

Fig. 1 is a front view of the shielding cloaking device restored by bypassing the wave path according to the present invention.

Fig. 2 is a top view of the shielding cloaking device of the present invention which utilizes wave path circumvention to restore.

Fig. 3 is a front view of the shielding cloaking device in the open state of the shielding window restored by bypassing the wave path according to the present invention.

Fig. 4 is a side view of the opening state of the protective window of the shielding cloaking device of the present invention which is restored by bypassing the wave path.

Fig. 5 is a cross-sectional view of A-A of Fig. 2 of the shielding cloaking device utilizing wave path bypass flow reduction according to the present invention.

Fig. 6 is a top view of the horizontal arrangement structure of shielding cloaking devices restored by bypassing the wave path according to the present invention.

Detailed ways

As shown in Figures 1 to 5, the present invention utilizes the shielding cloaking device for reduction by bypassing the wave path, which includes a square frame body, and a shielding cloaking mechanism is arranged in the square frame body. The square frame main body is used to fix and support the shielding invisible mechanism, so that the shielding invisible mechanism can be displayed in the form of a tangible structure.

The shielding invisible mechanism comprises a window glass 7, an upper mirror 8 and a lower mirror 9, and the upper mirror 8, the window glass 7 and the lower mirror 9 are respectively arranged in the square frame main body in the form of upper, middle and lower structures, and the external scenery can be seen through the low reflectivity. The window glass 7 is reflected on the upper mirror surface 8 through the lower mirror surface 9, and then reflected by the upper mirror surface 8 to the opposite upper and lower symmetrical mirror surface, so that the ground observer can realize the external scene reproduction through the window glass on the other side.

The shape and structure of the main body of the square frame is similar to that of Rubik's Cube, and the outer surface is coated with the same color pattern as that of the four-color Rubik's Cube. 4, lower mirror frame 5, protective window 6, top plate 10, base plate 11, base 12, step 13, passage side door 14, round tubular staple type pull-through support 15 and remote control locker 16, described Rubik's cube configuration frame The shelf board material of board 1 is sound-proof, heat-insulating, flame-retardant lightweight material. Described upper mirror frame 4, window frame plate 2 and lower mirror frame 5 are arranged in the Rubik's Cube configuration frame plate 1 in the structural form of above, middle and bottom, and protective window 6 is arranged on the outside of window frame 2 with the form that can expand and close. The Rubik's Cube configuration frame board 1 is connected, and the protective window 6 is closed by the remote control locker 16 to control the switch, and is supported and positioned by the round tube-shaped staple type sleeve 15 . There is a high-strength magnet in the opening of the tubular staple-type pull-through bracket 15, which can be adsorbed with the high-strength magnet in the corresponding round hole of the Rubik's Cube configuration frame plate 1 and the protective window 6 to increase the resistance of the protective window 6 in a strong wind environment. wind capacity. The channel frame 3 is located at the bottom of the symmetrical assembly of the upper mirror frame 4, the window frame 2 and the lower mirror frame 5. The channel frame 3 is used to accommodate personnel to walk in the Rubik's cube configuration frame 1, and the channel side door 14 is arranged on the channel frame 3 at the mouth of the channel. The outside of the channel side door 14 where the Rubik's cube configuration frame plate 1 is connected with the channel frame plate 3 is painted with the corresponding color system of the Rubik's Cube and is equipped with a damping locator, a built-in lock and is equipped with a suction cup type mobile door handle, which is used to make the square frame body more attractive in appearance. Beautiful and complete.

The upper mirror frame 4 and the lower mirror frame 5 are respectively arranged on the upper part of the Rubik's cube configuration frame plate 1 inside, and the symmetrical part is at the bottom, and the upper mirror 8 and the lower mirror 9 are respectively fixed in the upper mirror frame 4 and the lower mirror frame 5, so The above-mentioned upper mirror 8 in the upper mirror frame 4 and the lower mirror 9 in the lower mirror frame 5 are installed at an angle of 45° and are relatively arranged as reflective surfaces. The middle part of upper mirror frame 4 and lower mirror frame 5 and their symmetrical parts, the lower edge of upper mirror frame 4 is connected with the upper edge of window frame 2, the lower edge of lower mirror frame 5 is connected with the center line of window frame plate 2, and the window glass 7 is installed on In the window frame 2, the protective window 6 is installed on the outside of the window frame 2 in a form that can be opened and closed. The channel frame plate 3 is connected with the Rubik’s cube configuration frame plate 1 left and right and then connected with the channel side door 14. The top plate 10 is connected with the Rubik’s cube configuration. The upper part of the shelf 1 is connected, the bottom plate 11 and the base 12 are connected to the lower part of the Rubik's cube configuration shelf 1, and the steps 13 are connected to both sides of the lower part of the Rubik's cube configuration shelf 1, and the steps 13 connected to the lower sides of the Rubik's cube configuration shelf 1, When the passage side door 14 is fully opened, it can be retracted in the Rubik's cube configuration frame plate 1 and then close the passage side door 14, which can also be stored in the base 12 at ordinary times. Round tubular staple type pulls through support 15 after protective window 6 is opened, and its two ends are respectively plugged with protective window 6 and Rubik's cube configuration frame plate 1, and it also can be collected in base 12 at ordinary times.

A group of remote control lockers are correspondingly installed between the Rubik’s Cube configuration frame plate 1 and the protective window 6. The remote control locker includes gears, chains, and forward and reverse travel motors. The gears include large gears and small gears. The large gear on the shaft is connected, and the other end is connected with the fixed pinion on the shaft of the protective window. When the stroke motor rotates forward, it drives the gear to rotate forward, thereby driving the chain to control the upward opening of the protective window. When the stroke motor reverses, it drives The gear rotates in reverse, thereby driving the chain to control the downward closing of the protective window, so that the protective window can be rotated up and down on the outside of the window glass, opened and closed.

The window glass 7 installed on the window frame 2 connected by the Rubik's Cube configuration frame plate 1 is a reinforced protective glass with high transparency and low reflectivity. The fixed upper mirror 8 of the upper mirror frame 4 connected to the Rubik's Cube configuration frame plate 1 is a plane mirror, and the lower mirror 9 fixed by the lower mirror frame 5 and the symmetrical mirror adjacent to it are high-definition one-way perspective mirrors, and the upper mirror 8 The lower edge is on the same plane as the upper edge of the lower mirror surface 9 .

The upper mirror 8 and the lower mirror 9 fixedly installed in the upper mirror frame 4 and the lower mirror frame 5 connected to the Rubik's Cube configuration frame plate 1 are installed at an angle of 45 °, and the reflection surfaces of the upper mirror 8 and the lower mirror 9 are relatively arranged. Yes, in Rubik's Cube configuration frame plate 1, it is arranged symmetrically up and down. There are two groups of left and right mirrors on the upper mirror 8. The reflection surfaces of the two groups of upper mirrors 8 are opposite. The reflective surfaces are opposite and arranged symmetrically up and down and left and right in the Rubik's Cube configuration frame plate 1 .

The window frame plate 2, the channel frame plate 3, the upper mirror frame plate 4, the lower mirror frame plate 5, the window glass 7, the upper mirror surface 8, the lower mirror surface 9 and the top plate 10 are jointly formed on the Rubik’s cube configuration frame plate 1. The space is sealed, and it is filled with nitrogen or evacuated. The clarity of the scenery reflection can be increased by setting nitrogen gas or vacuuming the sealed space.

In practical applications, the shielding invisible mechanism can be used in a superimposed structure or in a horizontal arrangement, and can also be used in a twisted and folded manner as required. When used in a horizontally arranged structure, it is necessary to tilt the shielding invisible mechanism of the present invention to the left (or right) by 90°, which can also achieve the expected use effect, but the personnel must enter and exit from the upper or lower part of the shielding invisible mechanism. When a shielding invisible mechanism is built in a horizontal arrangement between two buildings, the additional mirror reflections surrounding the two sides of the invisible space in a shape similar to "◇" can be directly built and hidden in the two buildings on the left and right, so as to achieve more Good visual invisibility. Refer to accompanying drawing 6.

The terms used herein are only used to describe specific embodiments, and are not intended to limit the present invention. Unless otherwise defined, all terms (including technical terms and scientific terms) used herein have the same meaning as the understanding of one of ordinary skill in the art to which this invention belongs. It should also be clear that, except for the clear definitions herein, terms generally defined such as in dictionaries should be interpreted as having consistent meanings in the context of this specification and related technologies, and should not be interpreted as ideal or Too formal. Well-known functions or constructions are considered briefly and clearly or will not be repeated.

Claims (10)

1. the shielding hidden apparatus utilizing wave paths to stream reduction, comprise quadra main body, it is characterized in that: in quadra main body, be provided with the stealthy mechanism of shielding, it is magic square configuration frame plate (1) that described quadra main body comprises alien invasion, window frame (2), passage frame plate (3), upper mirror frame (4), lower mirror frame (5), protective window (6), top board (10), base plate (11), base (12), step (13), passage side door (14) and tubular pin type of stapling together wears support (15), remote control lock (16), the stealthy mechanism of described shielding comprises sight glass (7), upper minute surface (8) and lower minute surface (9), described upper mirror frame (4) and lower mirror frame (5) respectively upper and lower correspondence position are arranged on the upper and lower in magic square configuration frame plate (1), upper minute surface (8) and lower minute surface (9) is fixed with respectively in upper mirror frame (4) and lower mirror frame (5), the described upper minute surface (8) being positioned at mirror frame (4) and the lower minute surface (9) being positioned at lower mirror frame (5) install with 45° angle and be oppositely arranged in reflecting surface, window frame (2) connects along magic square configuration frame plate (1) fore-and-aft direction and is positioned at the middle part of upper mirror frame (4) and lower mirror frame (5), along upper along being connected with window frame (2) under upper mirror frame (4), lower mirror frame (5) is upper to be connected along with window frame (2) middle part, sight glass (7) is arranged in window frame (2), protective window (6) is the form of open closed can be arranged on and be positioned at window frame (2) outside, tubular pin type of stapling together wears support (15) in protective window (6), tubular staple together pin type wear support (15) open after its two ends respectively with protective window (6) and magic square configuration frame plate (1) grafting, passage frame plate (3) is connected with passage side door (14) after being connected with magic square configuration frame plate (1) left and right is through, top board (10) is connected with magic square configuration frame plate (1) top, base plate (11) and base (12) are connected with magic square configuration frame plate (1) bottom, step (13) is connected with magic square configuration frame plate (1) bottom.

2. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: corresponding between magic square configuration frame plate (1) with protective window (6) one group of remote control lock is installed, described remote control lock comprises gear, chain and rotating stroke motor, described gear comprises gear wheel and pinion wheel, chain one end is connected with the gear wheel on stroke motor output shaft, the other end is connected with pinion wheel fixing on protective window (6) axle, when stroke motor rotates forward, driven gear rotates forward, thus drive chain control protective window (6) upwards to open, when stroke motor reversal, driven gear reverse rotation, thus drive chain control protective window (6) to close downwards, protective window (6) can be rotated up and down in sight glass (7) outside remote control, open closedown.

3. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, is characterized in that: the sight glass (7) installed in the window frame (2) that magic square configuration frame plate (1) connects is any enhanced protection glass of the high grade of transparency, antiradar reflectivity.

4. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: the upper minute surface (8) that the upper mirror frame (4) connected at magic square configuration frame plate (1) and lower mirror frame (5) internal fixtion are installed and lower minute surface (9) install with 45° angle, and upper minute surface (8) is oppositely arranged with the reflecting surface of lower minute surface (9), and be symmetrical arranged in top and the bottom in magic square configuration frame plate (1), upper minute surface (8) has two groups, left and right, on two groups, the reflecting surface of minute surface (8) is relative, lower minute surface (9) has two groups, left and right, under two groups, the reflecting surface of minute surface (9) is relative, in upper and lower in magic square configuration frame plate (1), left-right parts is symmetrical arranged.

5. the wave paths that utilizes according to claim 1 and 4 streams the shielding hidden apparatus of reduction, it is characterized in that: the fixing upper minute surface (8) of the upper mirror frame (4) connected at magic square configuration frame plate (1) is level crossing, the lower minute surface (9) that lower mirror frame (5) is fixed is high definition single plane fluoroscopy mirror or level crossing, and the lower edge of upper minute surface (8) is in a plane together with the upper edge of lower minute surface (9).

6. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: the space jointly formed at upper window frame (2), passage frame plate (3), upper mirror frame (4), lower mirror frame (5), sight glass (7), upper minute surface (8), lower minute surface (9), top board (10) and the base plate (11) installed of magic square configuration frame plate (1) is sealing, filling nitrogen or for vacuumizing state in it.

7. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, is characterized in that: be coated with the corresponding colour system color coating of same magic square at magic square configuration frame plate (1) to passage side door (14) that passage frame plate (3) connects outside and be provided with damping positioner, built-in lock be equipped with sucked type mobile door handle.

8. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: be positioned at the step (13) that magic square configuration frame plate (1) both sides, bottom connect, the closing passage side door (14) again in recoverable magic square configuration frame plate (1) when passage side door (14) is opened completely, step (13) is stored in base (12) at ordinary times.

9. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: the protective window (6) connected at magic square configuration frame plate (1) is equipped with tubular pin type of stapling together to wear support (15), described tubular pin type of stapling together wears in support (15) opening and has high-strength magnet, and high-strength magnet can with the high-strength magnet adsorption in magic square configuration frame plate (1) and protective window (6) corresponding circular hole to increase protective window (6) wind loading rating in strong wind atmosphere.

10. the shielding hidden apparatus utilizing wave paths to stream reduction according to claim 1, it is characterized in that: the stealthy mechanism of built-in shielding can also can horizontally structure use up and down in overlaying structure use, can reverse as required, folding mode use, the frame plate material of magic square configuration frame plate and to shield stealthy mechanism material be sound insulation, heat insulation, flame-proof light material when macrocosm is applied is Nano-scale metamaterial when microworld is applied.