CN112533077A - 5G communication signal inductor with anti-theft function - Google Patents

Abstract

The invention discloses a 5G communication signal sensor with an anti-theft function, which structurally comprises a signal receiving box, a supporting rod and a base, wherein the supporting rod is embedded and fixed at the upper end position of the base, the signal receiving box is connected with the supporting rod, the inner swing plate on the signal receiving box can swing downwards along the external connection plate through the impact of wind and dust on the inner swing plate, thereby directly buffering the impact generated by the sand wind on the inner swinging plate, effectively avoiding the situation that the anti-oxidation paint layer is collided by the sand wind to be separated when the surface of the signal receiving box is impacted by the sand wind for a long time, when the wind sand wetted by the rainwater pushes the swinging block, the upper connecting plate can fully absorb the moisture on the wind sand, and the upper surface of the upper connecting plate can extrude the sand blown by the wind through the extrusion of the elastic ring on the upper connecting plate, so that the sand blown by the wind can be attached to the outer surface of the upper connecting plate firstly.

Description

5G communication signal inductor with anti-theft function

Technical Field

The invention relates to the field of 5G communication signal sensors, in particular to a 5G communication signal sensor with an anti-theft function.

Background

Based on the above description, the inventor finds that the existing 5G communication signal sensor with anti-theft function mainly has the following disadvantages, for example:

if the 5G communication signal sensor with the anti-theft function is installed in a windy and sandy area, the 5G communication signal sensor is easily impacted by wind and sandy wind, and an anti-oxidation paint layer outside a signal receiving box of the 5G communication signal sensor is collided by the wind and sandy wind to be separated for a long time, so that the service life of the 5G communication signal sensor with the anti-theft function is shortened.

Disclosure of Invention

In order to solve the problems, the invention provides a 5G communication signal sensor with an anti-theft function.

In order to achieve the purpose, the invention is realized by the following technical scheme: A5G communication signal sensor with an anti-theft function structurally comprises a signal receiving box, a supporting rod and a base, wherein the supporting rod is embedded at the upper end of the base, and the signal receiving box is connected with the supporting rod; the signal receiving box comprises an inner swing plate, an elastic sheet, an outer connecting plate and a plate block, wherein the inner swing plate is hinged with the outer connecting plate, the elastic sheet is arranged between the inner swing plate and the plate block, and the outer connecting plate and the plate block are of an integrated structure.

As a further optimization of the present invention, the inner swing plate includes a plate body, a vibration ball, and a buffer mechanism, the vibration ball is connected to the inside of the plate body, the buffer mechanism and the plate body are integrated, and the vibration ball can slide downward by an inertial force generated by the mechanism swinging downward.

As a further optimization of the invention, the buffer mechanism comprises a blocking roller, an internal ring, a movable ball, an external ring and a connecting pipe, wherein the blocking roller is movably clamped with the front end of the connecting pipe, the internal ring is connected with the connecting pipe at the lower end, the movable ball is arranged at the internal position of the internal ring, the external ring is fixedly connected with the connecting pipe at the upper end in an embedded manner, and through holes are arranged at two sides of the internal ring.

As a further optimization of the invention, the movable ball comprises an outer expansion plate, connecting rods, a combination piece and a middle fixing block, the outer expansion plate is embedded and fixed at the outer side position of the connecting rods, the connecting rods are movably clamped with the middle fixing block, the combination piece is arranged between the two connecting rods, and the two outer expansion plates are uniformly and symmetrically distributed outside the middle fixing block.

As a further optimization of the invention, the blocking roller comprises a swinging block, a position fixing block and six rebounding pieces, wherein the swinging block is hinged with the position fixing block, the rebounding pieces are arranged between the position fixing block and the swinging block, and the outer surfaces of the uniform position fixing blocks are symmetrically distributed.

As a further optimization of the invention, the swinging block comprises an upper connecting plate, an elastic ring, a plate surface and a connecting ring, the upper connecting plate is embedded and fixed at the upper end position of the plate surface, the elastic ring is installed between the upper connecting plate and the plate surface, the connecting ring and the plate surface are of an integrated structure, and the upper connecting plate is made of polyether sponge with higher density.

As a further optimization of the invention, the upper connecting plate comprises a reverse flow ring, a bearing plate and a built-in cavity, the reverse flow ring is fixedly embedded in the inner wall of the built-in cavity, the built-in cavity and the bearing plate are of an integrated structure, and the reverse flow ring is of a barb structure.

The invention has the following beneficial effects:

1. through the impact that the interior swing plate of wind-dust on to the signal reception case produced, can make interior swing plate swing downwards along external board to can directly cushion the striking that the interior swing plate produced with the sand blown by the wind, the effectual surface of having avoided the signal reception case receives the sand blown by the wind impact for a long time and can appear anti-oxidation paint layer and collide to the condition that breaks away from by the sand blown by the wind.

2. When the sand blown by the rain is wetted promotes the swing block, the upper connecting plate can fully absorb the moisture on the sand blown by the wind, and the upper surface of the upper connecting plate can extrude the sand blown by the wind through the extrusion of the elastic ring on the upper connecting plate, so that the sand blown by the wind can be firstly attached to the outer surface of the upper connecting plate, and the condition that the wetted sand blown by the wind can enter the inside of the buffering mechanism is effectively avoided.

Drawings

Fig. 1 is a schematic structural diagram of a 5G communication signal sensor with an anti-theft function according to the present invention.

FIG. 2 is a side view of a half-section of the signal receiving box of the present invention.

FIG. 3 is a schematic structural view of a side half-section of the hypocycloid of the present invention.

FIG. 4 is a side view of a half-section of the buffering mechanism of the present invention.

FIG. 5 is a side view of a half-section of the movable ball of the present invention.

FIG. 6 is a side view of a half-section of a resist roll of the present invention.

FIG. 7 is a side half-section schematic view of a wobble block of the present invention.

FIG. 8 is a side view of a half-section of the upper plate of the present invention.

In the figure: the device comprises a signal receiving box-1, a supporting rod-2, a base-3, an internal swing plate-11, an elastic sheet-12, an external connection plate-13, a plate-14, a plate body-a 1, a vibration ball-a 2, a buffer mechanism-a 3, a blocking roller-a 31, an internal ring-a 32, a movable ball-a 33, an external connection ring-a 34, a connecting pipe-a 35, an external expansion plate-b 1, a connecting rod-b 2, a combination sheet-b 3, a middle fixing block-b 4, a swing block-c 1, a position fixing block-c 2, a rebound sheet-c 3, an upper connecting plate-c 11, an elastic ring-c 12, a plate surface-c 13, a connecting ring-c 14, a reverse flow ring-d 1, a bearing plate-d 2 and an internal cavity-d 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-5:

the invention provides a 5G communication signal sensor with an anti-theft function, which structurally comprises a signal receiving box 1, a supporting rod 2 and a base 3, wherein the supporting rod 2 is embedded at the upper end of the base 3, and the signal receiving box 1 is connected with the supporting rod 2; the signal receiving box 1 comprises an inner swing plate 11, an elastic piece 12, an outer connecting plate 13 and a plate 14, wherein the inner swing plate 11 is hinged with the outer connecting plate 13, the elastic piece 12 is installed between the inner swing plate 11 and the plate 14, and the outer connecting plate 13 and the plate 14 are of an integrated structure.

The inner swing plate 11 includes a plate body a1, a vibration ball a2, and a buffering mechanism a3, wherein the vibration ball a2 is connected with the inside of the plate body a1, the buffering mechanism a3 and the plate body a1 are integrated, and the vibration ball a2 can slide downwards by the inertia force generated by the mechanism swinging downwards, so that the vibration ball a2 can collide with the inner wall of the plate body a1 to generate vibration.

The buffer mechanism a3 comprises a blocking roller a31, an internal ring a32, a movable ball a33, an external ring a34 and a connecting pipe a35, wherein the blocking roller a31 is movably clamped with the front end of the connecting pipe a35, the internal ring a32 is connected with the connecting pipe a35 at the lower end, the movable ball a33 is installed at the internal position of the internal ring a32, the external ring a34 is fixedly connected with the connecting pipe a35 at the upper end, and through holes are formed in two sides of the internal ring a32, so that sand and dust on the internal ring a32 can be led into the internal ring a 3652.

The movable ball a33 comprises an outer expansion plate b1, a connecting rod b2, a connecting piece b3 and a middle fixed block b4, the outer expansion plate b1 is embedded at the outer side position of the connecting rod b2, the connecting rod b2 is movably clamped with the middle fixed block b4, the connecting piece b3 is installed between the two connecting rods b2, the two outer expansion plates b1 are symmetrically distributed outside the middle fixed block b4, and the two outer expansion plates b1 can be expanded under the matching of the connecting rods b2 due to the reverse thrust generated by objects to the bottoms of the two outer expansion plates b 1.

The detailed use method and action of the embodiment are as follows:

in the invention, the inner swing plate 11 can swing downwards along the outer connecting plate 13 by the impact of wind dust on the inner swing plate 11 on the signal receiving box 1, so that wind sand can be directly buffered from the impact generated by the inner swing plate 11, the vibration ball a2 can slide outwards along the plate body a1 by the swinging force generated by the downward swing of the inner swing plate 11, so that the wind sand on the surface of the plate body a1 can be vibrated and dropped into the connecting pipe a35 at the upper end by the vibration generated by the vibration ball a2, the wind sand entering the interior can be guided into the outer connecting ring a34 by the connecting pipe 539a 35, so that the wind sand entering the interior of the outer connecting ring a34 can be guided into the interior of the inner connecting ring a32 by the surface of the inner connecting ring a32, the movable ball a33 can be descended by the thrust generated by the wind sand, and the reverse thrust generated by the inner wall of the inner connecting ring a32 on the outer expanding plate b 45 can be matched with the outer connecting rod 8582 2, thereby make outer expanded plate b1 can produce the striking to built-in ring a32, so make activity ball a33 can produce the vibration with the inside wind sand vibration of built-in ring a32 drop to the lower extreme inside the connection pipe a35, the outside discharge of connection pipe a35 of rethread lower extreme, this process can consume the impact force of wind sand, the effectual surface of having avoided signal receiving box 1 is strikeed by the wind sand and can appear anti-oxidation paint layer and collide the condition to breaking away from by the wind sand for a long time.

Example 2

As shown in fig. 6-8:

the blocking roller a31 comprises a swinging block c1, a position fixing block c2 and a springback piece c3, the swinging block c1 is hinged to the position fixing block c2, the springback piece c3 is installed between the position fixing block c2 and the swinging block c1, six swinging blocks c1 are arranged, the outer surfaces of the position fixing blocks c2 are uniformly distributed symmetrically, and external sand and dust can be brought into an object through the swinging blocks c 1.

The swinging block c1 comprises an upper connecting plate c11, an elastic ring c12, a plate surface c13 and a connecting ring c14, the upper connecting plate c11 is embedded at the upper end of the plate surface c13, the elastic ring c12 is installed between the upper connecting plate c11 and the plate surface c13, the connecting ring c14 and the plate surface c13 are of an integrated structure, the upper connecting plate c11 is made of polyether sponge with high density, and external moisture can be absorbed through the upper connecting plate c 11.

The upper connecting plate c11 comprises a backflow ring d1, a bearing plate d2 and a built-in cavity d3, wherein the backflow ring d1 is embedded in the inner wall of the built-in cavity d3, the built-in cavity d3 and the bearing plate d2 are of an integrated structure, and the backflow ring d1 is of a barb structure and can prevent water in an object from flowing backwards.

The detailed use method and action of the embodiment are as follows:

in the present invention, since the outdoor signal receiving box 1 is inevitably exposed to rain and strong wind is likely to occur before raining, so that wind sand is likely to be blown onto the signal receiving box 1, and thus rain water is likely to wet the wind sand on the outer surface of the signal receiving box 1, if the wetted wind sand enters the interior of the buffering mechanism a3, the interior of the buffering mechanism a3 is likely to be blocked, the position fixing block c2 can be rotated along the connecting pipe a35 by the thrust of the wind sand on the swinging block c1 in a period other than the rainy day, so that the swinging block c1 can bring the wind sand into the interior of the external connecting ring a34, and when the swinging block c1 is pushed by the wind sand wetted by rain water, the upper surface c11 can sufficiently absorb the moisture on the wind sand, and the elastic ring c12 can press the upper surface of the upper surface c11 to the wind sand, so that the external surface 11 c 24 of the upper surface of the upper plate can be attached to the wind sand first, therefore, wet sand can be prevented from entering the external ring a34, and water extruded by the upper connecting plate c11 can be blocked by the backflow ring d1, so that the upper connecting plate c11 can absorb water again, and the wet sand can be effectively prevented from entering the buffer mechanism a 3.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (7)

1. The utility model provides a 5G communication signal inductor with theftproof function, its structure includes signal reception case (1), bracing piece (2), base (3), bracing piece (2) are embedded in the upper end position of base (3), its characterized in that: the signal receiving box (1) is connected with the supporting rod (2);

the signal receiving box (1) comprises an inner swing plate (11), an elastic sheet (12), an outer connecting plate (13) and a plate (14), the inner swing plate (11) is hinged with the outer connecting plate (13), the elastic sheet (12) is installed between the inner swing plate (11) and the plate (14), and the outer connecting plate (13) and the plate (14) are of an integrated structure.

2. The 5G communication signal sensor with the anti-theft function according to claim 1, wherein: the inner swinging plate (11) comprises a plate body (a 1), a vibration ball (a 2) and a buffering mechanism (a 3), wherein the vibration ball (a 2) is connected with the inside of the plate body (a 1), and the buffering mechanism (a 3) and the plate body (a 1) are of an integrated structure.

3. The 5G communication signal sensor with the anti-theft function according to claim 2, characterized in that: the buffer mechanism (a 3) comprises a blocking roller (a 31), an inner ring (a 32), a movable ball (a 33), an outer ring (a 34) and a connecting pipe (a 35), wherein the blocking roller (a 31) is movably clamped with the front end of the connecting pipe (a 35), the inner ring (a 32) is connected with the connecting pipe (a 35) at the lower end, the movable ball (a 33) is installed at the inner position of the inner ring (a 32), and the outer ring (a 34) is fixedly connected with the connecting pipe (a 35) at the upper end.

4. The 5G communication signal sensor with the anti-theft function according to claim 3, characterized in that: the movable ball (a 33) comprises an outer expansion plate (b 1), a connecting rod (b 2), a combination piece (b 3) and a middle fixing block (b 4), wherein the outer expansion plate (b 1) is embedded in the outer side position of the connecting rod (b 2), the connecting rod (b 2) is movably clamped with the middle fixing block (b 4), and the combination piece (b 3) is installed between the two connecting rods (b 2).

5. The 5G communication signal sensor with the anti-theft function according to claim 4, characterized in that: the blocking roller (a 31) comprises a swinging block (c 1), a position fixing block (c 2) and a springback piece (c 3), the swinging block (c 1) is hinged with the position fixing block (c 2), and the springback piece (c 3) is installed between the position fixing block (c 2) and the swinging block (c 1).

6. The 5G communication signal sensor with the anti-theft function according to claim 5, characterized in that: the swinging block (c 1) comprises an upper connecting plate (c 11), an elastic ring (c 12), a plate surface (c 13) and a connecting ring (c 14), wherein the upper connecting plate (c 11) is embedded at the upper end of the plate surface (c 13), the elastic ring (c 12) is installed between the upper connecting plate (c 11) and the plate surface (c 13), and the connecting ring (c 14) and the plate surface (c 13) are of an integrated structure.

7. The 5G communication signal sensor with the anti-theft function according to claim 6, wherein: the upper connecting plate (c 11) comprises a reverse flow ring (d 1), a bearing plate (d 2) and a built-in cavity (d 3), wherein the reverse flow ring (d 1) is embedded in the inner wall of the built-in cavity (d 3), and the built-in cavity (d 3) and the bearing plate (d 2) are of an integrated structure.

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