CN112865889A - 5G signal inductor capable of adjusting and changing signal intensity - Google Patents

Abstract

The invention discloses a 5G signal sensor capable of adjusting and changing signal intensity, which structurally comprises a signal receiving and transmitting rod, a machine body and a control panel, wherein the control panel is fixedly connected with the front end of the machine body in an embedded manner, the signal receiving and transmitting rod is arranged at the rear end position of the machine body, the pushing force generated by the pushing-up strip on the signal receiving and transmitting rod to the connecting rod can make the connecting rod push the outward shifting mechanism to extend upwards, then the pushing force generated by the scindapsus aureus blade to the connecting plate can make the swinging plate swing outwards along the bottom plate, and the friction increasing block pulls the scindapsus aureus blade, so that the green bonnie leaves can be pulled outwards by the pulling mechanism, the compound swinging plate can repeatedly swing along the plate surface through the vibration generated by the upward extension of the upper rod, thereby make the compound pendulum board can get rid of the remaining moisture on its surface, the effectual water droplet that has avoided scindapsus aureus blade respiration to produce can drip the condition at the signal lever top.

Description

5G signal inductor capable of adjusting and changing signal intensity

Technical Field

The invention relates to the field of 5G communication signal sensors, in particular to a 5G signal sensor capable of adjusting and changing signal intensity.

Background

The adjustable signal strength type 5G signal sensor is mainly a device for sensing a 5G signal, the 5G signal is received by a signal transceiving rod on the adjustable signal strength type 5G signal sensor, and the strength of the transmitted 5G signal can be directly adjusted by a control button, based on the above description, the inventor finds that the existing adjustable signal strength type 5G signal sensor mainly has the following disadvantages, for example:

since the adjustable signal strength type 5G signal sensor is usually placed in an open area, if the adjustable signal strength type 5G signal sensor is placed on a table top of a living room and a scindapsus aureus higher than the signal receiving and transmitting rod of the adjustable signal strength type 5G signal sensor is placed beside the sensor, if such a positional relationship is not changed for a long time, the signal receiving rod is easily shielded by the scindapsus aureus blades extending outwards, resulting in a situation of reduced signal receiving strength.

Disclosure of Invention

In order to solve the above problems, the present invention provides a 5G signal sensor capable of adjusting and changing signal strength.

In order to achieve the purpose, the invention is realized by the following technical scheme: a signal sensor capable of adjusting and changing signal intensity structurally comprises a signal receiving and sending rod, a machine body and a control panel, wherein the control panel is fixedly connected with the front end of the machine body in an embedded mode, and the signal receiving and sending rod is installed at the rear end of the machine body; the signal receiving and transmitting rod comprises an outer dialing mechanism, a signal rod, a base, an upper pushing strip and a connecting rod, wherein the outer dialing mechanism is fixedly embedded at the upper end position of the connecting rod, the signal rod is connected with the upper end position of the base, the upper pushing strip is installed between the inner wall bottom of the connecting rod and the inner wall bottom of the base, and the connecting rod is movably clamped with the base.

As a further optimization of the invention, the outward pulling mechanism comprises a pulling mechanism, a connecting plate, a resetting piece, a bottom plate and a swinging plate, the pulling mechanism penetrates through the inner position of the connecting plate, the connecting plate is embedded at the upper end position of the swinging plate, the resetting piece is installed between the bottom plate and the swinging plate, the swinging plate is hinged with the upper end of the bottom plate, and the swinging plate can swing outwards along the bottom plate through the reverse thrust generated by the scindapsus aureus blades on the connecting plate.

As a further optimization of the invention, the dragging mechanism comprises an upper connecting plate, a resetting strip, a plate block and a friction increasing block, wherein the upper connecting plate is movably clamped with the plate block, the resetting strip is arranged between the upper connecting plate and the plate block, the friction increasing block is fixedly embedded in the surface position of the upper connecting plate, and the friction increasing block is made of a nitrile rubber material with higher density.

As a further optimization of the invention, the upper connecting plate comprises a clamping plate, a plate body and two pushing pieces, wherein the clamping plate is movably clamped with the plate body, the pushing pieces are arranged between the clamping plate and the plate body, and the two clamping plates are uniformly and symmetrically distributed in the middle of the plate body.

As a further optimization of the invention, the signal rod comprises an upper rod, an outer frame, a flexible conductor, a sliding rod and a boosting sheet, the upper rod is embedded and fixed at the upper end position of the sliding rod, the flexible conductor is installed between the bottom of the sliding rod and the bottom of the inner wall of the outer frame, the boosting sheet is installed between the upper rod and the outer frame, and the upper rod which loses extrusion can be pushed to extend upwards through the boosting sheet.

As a further optimization of the present invention, the upper rod includes a double pendulum plate, a scraping groove, a plate surface, and a connecting piece, the double pendulum plate is hinged to the plate surface, the scraping groove and the plate surface are integrated, the connecting piece is installed between the double pendulum plate and the plate surface, and the double pendulum plate can swing along the plate surface by an inertia force generated by the outward extension of the mechanism.

As a further optimization of the invention, the scraping groove comprises a hollow opening, a water absorption block and a bearing frame, the hollow opening and the water absorption block are of an integrated structure, the water absorption block is embedded and fixed at the inner side of the bearing frame, and the water absorption block is made of polyester sponge with strong water absorption.

The invention has the following beneficial effects:

1. thrust that the strip that pushes up produced to the joint pole through on the signal transceiver pole can make the joint pole promote to dial the mechanism outward and upwards stretch out, the thrust that rethread scindapsus aureus blade produced the joint board can make the swing board along the board outwards swing of putting at the bottom, and drag through the piece that increases rubs the production of scindapsus aureus blade, thereby make the scindapsus aureus blade can be dragged the mechanism outwards and drag, effectually avoided the signal transceiver pole to shelter from by the scindapsus aureus blade that outwards stretches out easily, lead to the condition that signal reception intensity reduces.

2. The vibration generated by upwards extending the upper rod can enable the compound oscillating plate to repeatedly oscillate along the plate surface, so that the compound oscillating plate can throw away residual moisture on the surface of the compound oscillating plate, and the situation that water drops generated by respiration of the scindapsus aureus blade can drop to the top of the signal rod is effectively avoided.

Drawings

Fig. 1 is a schematic structural diagram of a 5G signal sensor capable of adjusting and changing signal strength according to the present invention.

Fig. 2 is a schematic structural view of a front cross section of the signal transceiver bar of the present invention.

Fig. 3 is a schematic structural view of a front section of the dial-out mechanism of the present invention.

Fig. 4 is a partial front view and a half-section of the pulling mechanism of the present invention.

Fig. 5 is a schematic structural view of a front half section of the upper plate of the present invention.

Fig. 6 is a schematic structural diagram of a front cross section of the signal rod according to the present invention.

FIG. 7 is a partial front view of a half-section of the upper rod of the present invention.

Fig. 8 is a schematic structural view of a front cross section of a scraping groove of the present invention.

In the figure: the device comprises signal transceiving rods-1, a machine body-2, a control panel-3, an external toggle mechanism-11, signal rods-12, a base-13, an upper push bar-14, a connecting rod-15, a pulling mechanism-a 1, a connecting plate-a 2, a reset sheet-a 3, a bottom plate-a 4, a swinging plate-a 5, an upper connecting plate-a 11, a reset bar-a 12, a plate-a 13, a friction-increasing block-a 14, a clamping plate-b 1, a plate body-b 2, a pushing sheet-b 3, an upper rod-c 1, an outer frame-c 2, a flexible lead-c 3, a sliding rod-c 4, a push assisting sheet-c 5, a pendulum plate-c 11, a scraping groove-c 12, a plate surface-c 13, a combination sheet-c 14, a hollow-d 1, a water absorbing block-d 2 and a bearing frame-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 signal sensor capable of adjusting and changing signal intensity, which structurally comprises a signal receiving and transmitting rod 1, a machine body 2 and a control panel 3, wherein the control panel 3 is fixedly connected with the front end of the machine body 2 in an embedded mode, and the signal receiving and transmitting rod 1 is installed at the rear end of the machine body 2; the signal receiving and dispatching pole 1 includes that outer dial mechanism 11, signal pole 12, base 13, push up strip 14, linking pole 15, outer dial mechanism 11 inlays in the upper end position of linking pole 15, signal pole 12 is connected with the upper end position of base 13, push up strip 14 installs between the inner wall bottom of linking pole 15 and base 13, linking pole 15 and base 13 activity block.

The outward poking mechanism 11 comprises a pulling mechanism a1, a connecting plate a2, a resetting plate a3, a bottom plate a4 and a swinging plate a5, wherein the pulling mechanism a1 penetrates through the inner position of the connecting plate a2, the connecting plate a2 is embedded at the upper end position of the swinging plate a5, the resetting plate a3 is installed between the bottom plate a4 and the swinging plate a5, the swinging plate a5 is hinged with the upper end of the bottom plate a4, and the swinging plate a5 can swing outwards along the bottom plate a4 through the reverse thrust of the scindapsus blade on the connecting plate a2, so that the scinsus blade can be poked outwards by the connecting plate a 2.

The dragging mechanism a1 comprises an upper connecting plate a11, a resetting strip a12, a plate a13 and a friction increasing block a14, the upper connecting plate a11 is movably clamped with the plate a13, the resetting strip a12 is installed between the upper connecting plate a11 and the plate a13, the friction increasing block a14 is fixedly embedded in the surface position of the upper connecting plate a11, the friction increasing block a14 is made of nitrile rubber with high density, and the friction force on the scindapsus aureus blade can be enhanced through the friction increasing block a 14.

The upper connecting plate a11 comprises a clamping plate b1, a plate body b2 and a pushing sheet b3, the clamping plate b1 is movably clamped with the plate body b2, the pushing sheet b3 is installed between the clamping plate b1 and the plate body b2, two clamping plates b1 are arranged, the middle parts of the plate body b2 are uniformly and symmetrically distributed, and the clamping plates b1 can clamp the scindapsus aureus blades through the pushing force generated by the pushing sheet b3 on the clamping plate b 1.

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

in the invention, the pushing force generated by the pushing-up strip 14 on the signal receiving and transmitting rod 1 to the connecting rod 15 can make the connecting rod 15 push the outward shifting mechanism 11 to extend upwards, then the pushing force generated by the scindapsus aureus blade to the connecting plate a2 can make the swinging plate a5 swing outwards along the bottom plate a4, and the pulling of the scindapsus aureus blade by the friction-increasing block a14 makes the scindapsus aureus blade pulled outwards by the pulling mechanism a1, and the edge of the scindapsus aureus blade can be squeezed into the middle position of the upper plate a11 by the continuous swinging of the swinging plate a5, and then the two clamping plates b1 are squeezed by the edge of the scindapsus aureus blade, so that the clamping plates b1 can swing along the two sides of the plate b2, and the pushing plate b3 can push the clamping plates b1 to clamp and fix the scindapsus aureus blade, therefore, the scindapsus aureus blade blocked on the signal receiving and transmitting rod 1 can be prevented from being opened towards the two sides, and the blades on the upper end of the signal receiving and transmitting rod can be effectively prevented from being shielded by the upward blade, resulting in a situation where the signal reception strength is reduced.

Example 2

As shown in fig. 6-8:

the signal rod 12 includes an upper rod c1, an outer frame c2, a flexible lead c3, a sliding rod c4, and a boosting sheet c5, the upper rod c1 is embedded and fixed at the upper end position of the sliding rod c4, the flexible lead c3 is installed between the bottom of the sliding rod c4 and the bottom of the inner wall of the outer frame c2, the boosting sheet c5 is installed between the upper rod c1 and the outer frame c2, and the upper rod c1 which loses the compression can be pushed to extend upwards by the boosting sheet c5, so that the upper rod c1 can shake off large water at the top.

The upper rod c1 comprises a double pendulum plate c11, a scraping groove c12, a plate surface c13 and a combination piece c14, the double pendulum plate c11 is hinged to the plate surface c13, the scraping groove c12 and the plate surface c13 are of an integrated structure, the combination piece c14 is installed between the double pendulum plate c11 and the plate surface c13, and the double pendulum plate c11 can swing along the plate surface c13 through inertia force generated by outward extension of a mechanism, so that the double pendulum plate c11 can spin water remained on the upper end of the double pendulum plate c 11.

The scraping groove c12 comprises a hollowed-out portion d1, a water absorption block d2 and a bearing frame d3, the hollowed-out portion d1 and the water absorption block d2 are of an integrated structure, the water absorption block d2 is embedded in the inner side of the bearing frame d3, the water absorption block d2 is made of polyester sponge with high water absorption, and water can be absorbed through the water absorption block d 2.

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

in the invention, since the scindapsus aureus can breathe and moisture is generated by respiration, moisture generated by scindapsus aureus leaves above the signal transceiver rod 1 is easy to drop on the top of the signal transceiver rod 12 because the scindapsus aureus is not in contact with the top of the signal transceiver rod 1, so that the moisture attached to the upper end can affect the strength of the signal received by the signal transceiver rod 12, when the swinging plate a5 swings outwards along the bottom plate a4, the swinging plate a5 can push the upper rod c1 which is not pressed by the swinging plate a5 to extend upwards, so that the upper rod c1 can initially clear large water beads on the top, and the upper rod c1 can swing upwards to generate vibration, so that the compound swinging plate c11 can swing repeatedly along the plate c13, so that the compound swinging plate c11 can throw away the residual moisture on the surface of the compound swinging plate c11, and the water absorption block d2 can absorb the moisture flowing into the side surface of the upper rod c1, and the moisture air-drying speed on the water absorption block d2 can be accelerated through the hollow-out port d1, and the condition that water drops generated by the respiration of the scindapsus aureus leaf can drop on the top of the signal rod 12 is effectively avoided.

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 an adjustable 5G signal inductor who changes signal strength, its structure includes signal transceiver pole (1), organism (2), control panel (3) are connected with the front end of organism (2) is embedded solid, its characterized in that: the signal receiving and transmitting rod (1) is arranged at the rear end position of the machine body (2);

signal receiving and dispatching pole (1) is including dialling mechanism (11), signal pole (12), base (13), push up strip (14), join pole (15) outward, dial mechanism (11) outward and inlay in the upper end position of joining pole (15), signal pole (12) are connected with the upper end position of base (13), it installs between the inner wall bottom of joining pole (15) and base (13) to push up strip (14), join pole (15) and base (13) activity block.

2. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 1, wherein: the outer poking mechanism (11) comprises a pulling mechanism (a1), a connecting plate (a2), a resetting plate (a3), a bottom plate (a4) and a swinging plate (a5), wherein the pulling mechanism (a1) penetrates through the inner position of the connecting plate (a2), the connecting plate (a2) is embedded in the upper end position of the swinging plate (a5), the resetting plate (a3) is installed between the bottom plate (a4) and the swinging plate (a5), and the swinging plate (a5) is hinged with the upper end of the bottom plate (a 4).

3. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 2, wherein: the dragging mechanism (a1) comprises an upper connecting plate (a11), a reset strip (a12), a plate (a13) and a friction-increasing block (a14), wherein the upper connecting plate (a11) is movably clamped with the plate (a13), the reset strip (a12) is installed between the upper connecting plate (a11) and the plate (a13), and the friction-increasing block (a14) is embedded and fixed at the surface position of the upper connecting plate (a 11).

4. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 3, wherein: the upper connecting plate (a11) comprises a clamping plate (b1), a plate body (b2) and a pushing piece (b3), the clamping plate (b1) is movably clamped with the plate body (b2), and the pushing piece (b3) is installed between the clamping plate (b1) and the plate body (b 2).

5. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 1, wherein: the signal rod (12) comprises an upper rod (c1), an outer frame (c2), a flexible lead (c3), a sliding rod (c4) and a boosting sheet (c5), wherein the upper rod (c1) is embedded in the upper end position of the sliding rod (c4), the flexible lead (c3) is installed between the bottom of the sliding rod (c4) and the bottom of the inner wall of the outer frame (c2), and the boosting sheet (c5) is installed between the upper rod (c1) and the outer frame (c 2).

6. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 5, wherein: put pole (c1) including compound pendulum board (c11), scrape off groove (c12), face (c13), combination piece (c14), compound pendulum board (c11) and face (c13) hinged joint, scrape off groove (c12) and face (c13) structure as an organic whole, combination piece (c14) is installed between compound pendulum board (c11) and face (c 13).

7. The 5G signal sensor capable of adjusting and changing signal strength as claimed in claim 6, wherein: the scraping groove (c12) comprises a hollow opening (d1), a water absorption block (d2) and a bearing frame (d3), the hollow opening (d1) and the water absorption block (d2) are of an integrated structure, and the water absorption block (d2) is embedded in the inner side of the bearing frame (d 3).

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