CN112018492A - Internet of things antenna structure - Google Patents

Abstract

The invention discloses an Internet of things antenna structure which comprises a supporting seat, an antenna body, a connecting shaft, a movable block, a third pull rope, a corrugated pipe and a fixed block, wherein the antenna body is embedded and installed at the upper end of the supporting seat, the embedded block is fixedly connected to the lower end of the antenna body, an accommodating groove is formed in the inner surface of the supporting seat and is connected with the lower end of the embedded block, a first pull rope is fixedly connected to the outer side of the lower end of the embedded block, and the connecting shaft penetrates through the upper end of the embedded block. This thing networking antenna structure, when this antenna body receives external force to influence, it will cooperate the stable angle activity that carries out the self-adaptation of the circular-arc nested piece of lower extreme to carry out support work when the atress is great through the slope form support piece that angle settings such as the outside set up, directly roll over the bad phenomenon of losing when having avoided traditional fixed location bearing structure to lead to the device atress, the angle fine setting structure through self-adaptation satisfies the life cycle of device.

Description

Internet of things antenna structure

Technical Field

The invention relates to the technical field of Internet of things, in particular to an Internet of things antenna structure.

Background

Along with the continuous improvement of people's standard of living, internet of things develops gradually, the effectual development that has promoted the economy of china, and its user extends and has expanded between multiple communications facilities to carry out information exchange and communication, most internet of things extend the signal transmission antenna that the equipment all needs the adaptation to correspond, realize the working effect that signal transmission exchanged, but current internet of things antenna structure still has certain defect, just for example:

1. the existing antenna structure of the internet of things is not stable enough in the installation process, so that the existing antenna structure of the internet of things does not have good supporting strength, is very easy to break, skew and other adverse phenomena when being greatly influenced by external force, further the use efficiency of the existing antenna structure of the internet of things cannot be stably ensured, the service life of the whole device is shortened, and further certain use defects exist;

2. the work is strutted to the antenna that current thing networking antenna structure can't be stable, leads to the unable self-adaptation in its atress process to carry out stable pressure release work according to the change of external force, and then leads to its life cycle to shorten, can't the efficient carry out signal transmission work.

In view of the above problems, innovative design based on the original antenna structure is urgently needed.

Disclosure of Invention

The invention aims to provide an antenna structure of the Internet of things, and aims to solve the problems that the antenna structure provided by the background art is not stable enough in the installation process, so that the antenna structure does not have good supporting strength, is very easy to break and skew when being greatly influenced by external force, so that the use efficiency of the antenna structure cannot be stably ensured, the service life of the whole device is shortened, the antenna cannot be stably supported, the stable pressure relief work cannot be carried out according to the change of the external force in the stress process, the service cycle of the antenna structure is shortened, and the signal transmission work cannot be efficiently carried out.

In order to achieve the purpose, the invention provides the following technical scheme: an Internet of things antenna structure comprises a supporting seat, an antenna body, a connecting shaft, a movable block, a third pull rope, a corrugated pipe and a fixed block, wherein the antenna body is nested at the upper end of the supporting seat, the nested block is fixedly connected at the lower end of the antenna body, a containing groove is formed in the inner surface of the supporting member and is connected with the lower end of the nested block, a first pull rope is fixedly connected to the outer side of the lower end of the nested block and is connected with the inner side of the supporting seat, the connecting shaft is installed at the upper end of the nested block in a penetrating manner, the supporting member is fixedly connected to the outer side of the connecting shaft and is connected with the outer side of the nested block, a reset spring is fixedly connected to the inner end of the supporting member and is connected with the outer side of the nested block, a friction wheel is connected, and the second stay cord is connected with the inboard of nested piece, the upper end bearing of nested piece is connected with the stopper, and the outside bearing of stopper is connected with the leading wheel, the axle head fixedly connected with second torsional spring of stopper, and the second torsional spring is inboard with the upper end of nested piece to be connected, the spout has been seted up to the upper end of supporting seat, and the outside nestification of spout installs the movable block to the movable block is connected with support piece's upper end, the outer end fixedly connected with third stay cord of movable block, and the third stay cord is connected with support piece's lower extreme, the outside adhesive connection of movable block has the bellows, and the bellows is connected with the upper end of supporting seat, the fixed block is installed to the outside bolt of supporting seat, and the outside adhesive connection of fixed block has the installation gasbag, the inner of installation.

Preferably, the nested piece is integrated with the lower extreme of antenna body structure, and nested piece is spherical structure in the front view to nested piece passes through the containing groove and constitutes sliding construction with the inboard of supporting seat, and the lower extreme symmetry of nested piece is provided with first stay cord simultaneously.

Preferably, the first pull rope is provided with a transmission shaft and a first torsion spring, the tail end of the first pull rope is fixedly connected with the transmission shaft, the transmission shaft is connected with the inner side of the supporting seat, and meanwhile, the outer side of the transmission shaft is fixedly connected with the first torsion spring.

Preferably, the transmission shaft forms an elastic structure with the inner side of the support seat through the first torsion spring, the transmission shaft forms a rotating structure with the lower end of the nesting block through the first pull rope, and the transmission shaft is in penetrating connection with the inner side of the lower end of the support seat.

Preferably, the front view of the supporting piece is of an inclined structure, the supporting piece and the outer side of the nesting block form an elastic structure through a return spring, the supporting piece and the movable block form a sliding structure through a third pull rope, and meanwhile, the movable block and the outer side of the corrugated pipe are in adhesive connection.

Preferably, the stopper is circular-arc structure in the front view, and the stopper passes through the upper end elastic structure of second torsional spring and nested piece to the outer end of stopper constitutes the block structure with support piece's the outside, and the stopper passes through the second stay cord simultaneously and support piece constitutes revolution mechanic.

Preferably, the corrugated pipe is provided with a gas transmission channel and an adhesive layer, the lower end of the corrugated pipe penetrates through the gas transmission channel, the tail end of the gas transmission channel is connected with the inner side of the mounting air bag, and the inner side of the edge end of the gas transmission channel is connected with the adhesive layer in an adhesive mode.

Preferably, the inner sides of the side ends of the gas transmission channels are provided with 4 bonding layers at equal angles, the outer surfaces of the bonding layers are attached to each other, and the bonding layers are made of elastic silica gel.

Preferably, the mounting air bag is of a spherical structure in front view, the outer surface of the mounting air bag is attached to the outer surface of the support piece, the mounting air bag is distributed at equal angles relative to the central point of the support seat, and the mounting air bag is communicated with the corrugated pipe through the air conveying channel.

Compared with the prior art, the invention has the beneficial effects that: the antenna structure of the Internet of things;

1. the antenna body is provided with the obliquely distributed supporting pieces, when the antenna body is influenced by external force, the antenna body can be stably matched with the lower-end arc-shaped nesting block to perform self-adaptive angle movement, and the obliquely-shaped supporting pieces arranged at equal angles on the outer side can support the antenna body when the antenna is stressed greatly, so that the bad phenomenon that the traditional fixed-position supporting structure is directly broken when the device is stressed is avoided, and the service cycle of the device is met through the self-adaptive angle fine-adjustment structure;

2. when the supporting piece is influenced by external force to move and incline, the second pull rope butted with the inner end of the supporting piece drives the arc-shaped limiting piece with the tail end to rotate, so that the supporting piece moves to the inner side of the upper end of the supporting piece with an inclined angle to support in a butting manner, the bad phenomenon of toppling caused by the overlarge stress inclination angle of the supporting piece is avoided, and the supporting stability of the device is improved;

3. be provided with the installation gasbag of symmetric distribution, carry out the angle slope along with the support piece atress, the third stay cord rather than the lower extreme butt joint will drive the movable block that is connected thereupon and move inwards, and then carry out synchronous extrusion work to the bellows of contact for the bellows of pressurized makes its deformation inflation to the inside air feed of installation gasbag, and then carries out secondary conflict work to the support piece lower extreme of contact, further strengthens the support return stability of device, has improved the life cycle of device.

Drawings

FIG. 1 is a schematic cross-sectional structural view of the present invention;

FIG. 2 is a schematic view of a sectional view of the limiting block of the present invention;

FIG. 3 is a schematic cross-sectional structural view of the support of the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is a front cross-sectional structural schematic view of the mounting bladder of the present invention;

FIG. 6 is a side sectional view of the gas transmission channel of the present invention.

In the figure: 1. a supporting seat; 2. an antenna body; 3. nesting blocks; 4. a containing groove; 5. a first pull cord; 501. a drive shaft; 502. a first torsion spring; 6. a connecting shaft; 7. a support member; 8. a return spring; 9. a friction wheel; 10. a second pull cord; 11. a limiting block; 12. a second torsion spring; 13. a chute; 14. a movable block; 15. a third pull cord; 16. a bellows; 1601. a gas transmission channel; 1602. an adhesive layer; 17. a fixed block; 18. installing an air bag; 19. a guide wheel.

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.

Referring to fig. 1-6, the present invention provides a technical solution: an Internet of things antenna structure comprises a supporting seat 1, an antenna body 2, a nesting block 3, a containing groove 4, a first pull rope 5, a connecting shaft 6, a supporting piece 7, a reset spring 8, a friction wheel 9, a second pull rope 10, a limiting block 11, a second torsion spring 12, a sliding groove 13, a movable block 14, a third pull rope 15, a corrugated pipe 16, a fixing block 17, an installation air bag 18 and a guide wheel 19, wherein the antenna body 2 is nested at the upper end of the supporting seat 1, the nesting block 3 is fixedly connected at the lower end of the antenna body 2, the containing groove 4 is formed in the inner surface of the supporting seat 1, the containing groove 4 is connected with the lower end of the nesting block 3, the first pull rope 5 is fixedly connected with the outer side of the lower end of the nesting block 3, the connecting shaft 6 is installed at the upper end of the nesting block 3 in a penetrating manner, the supporting piece 7 is fixedly connected with the outer side of, the inner end of the supporting piece 7 is fixedly connected with a return spring 8, the return spring 8 is connected with the outer side of the nested block 3, the lower end bearing of the supporting piece 7 is connected with a friction wheel 9, the inner end of the supporting piece 7 is fixedly connected with a second pull rope 10, the second pull rope 10 is connected with the inner side of the nested block 3, the upper end bearing of the nested block 3 is connected with a limiting block 11, the outer side bearing of the limiting block 11 is connected with a guide wheel 19, the shaft end of the limiting block 11 is fixedly connected with a second torsion spring 12, the second torsion spring 12 is connected with the inner side of the upper end of the nested block 3, the upper end of the supporting seat 1 is provided with a sliding groove 13, the outer side of the sliding groove 13 is nested with a movable block 14, the movable block 14 is connected with the upper end of the supporting seat 1, the outer end of the movable block 14 is fixedly connected with, and the bellows 16 is connected with the upper end of the supporting seat 1, the fixing block 17 is installed on the outer side of the supporting seat 1 through a bolt, the installation air bag 18 is connected to the outer side of the fixing block 17 in an adhering mode, and the inner end of the installation air bag 18 is connected with the bellows 16.

The nested block 3 and the lower end of the antenna body 2 are of an integrated structure, the nested block 3 is of a spherical structure in front view, the nested block 3 and the inner side of the supporting seat 1 form a sliding structure through the accommodating groove 4, meanwhile, the lower end of the nested block 3 is symmetrically provided with the first pull ropes 5, and the nested block 3 of the spherical structure can be stably matched with the integrated antenna body 2 to synchronously perform self-adaptive activity work at a corresponding angle, so that the phenomenon that the antenna body is easily deflected is avoided;

the first pull rope 5 is provided with a transmission shaft 501 and a first torsion spring 502, the tail end of the first pull rope 5 is fixedly connected with the transmission shaft 501, the transmission shaft 501 is connected with the inner side of the supporting seat 1, the outer side of the transmission shaft 501 is fixedly connected with the first torsion spring 502, the transmission shaft 501 and the inner side of the supporting seat 1 form an elastic structure through the first torsion spring 502, the transmission shaft 501 and the lower end of the nesting block 3 form a rotating structure through the first pull rope 5, the transmission shaft 501 and the inner side of the lower end of the supporting seat 1 are connected in a penetrating manner, the nesting block 3 capable of rotating in an angle under stress is enabled to stably drive the first pull rope 5 at the lower end to synchronously cooperate with the first torsion spring 502 to carry out angle;

the support piece 7 is in an inclined structure in front view, the support piece 7 and the outer side of the nesting block 3 form an elastic structure through the reset spring 8, the support piece 7 and the movable block 14 form a sliding structure through the third pull rope 15, meanwhile, the movable block 14 and the outer side of the corrugated pipe 16 are in adhesive connection, so that in the process that the support piece 7 is stressed to perform angle movement, the movable block 14 can be stably driven to synchronously move inwards through the third pull rope 15 with the butted lower end, and the corrugated pipe 16 with the butted inner end synchronously performs extrusion work;

the front view of the limiting block 11 is of an arc-shaped structure, the limiting block 11 is in an elastic structure with the upper end of the nesting block 3 through the second torsion spring 12, the outer end of the limiting block 11 and the outer side of the supporting piece 7 form a clamping structure, meanwhile, the limiting block 11 and the supporting piece 7 form a rotating structure through the second pull rope 10, the supporting piece 7 which is stressed to rotate in an angle mode is enabled, the connecting limiting block 11 can be stably driven to rotate in an angle mode through the second pull rope 10, then the upper end of the supporting piece 7 is subjected to conflict limiting work, and the phenomenon that the stress is unstable is avoided;

the corrugated pipe 16 is provided with an air transmission channel 1601 and an adhesive layer 1602, the lower end of the corrugated pipe 16 is provided with the air transmission channel 1601 in a penetrating way, the tail end of the air transmission channel 1601 is connected with the inner side of the installation airbag 18, the adhesive layer 1602 is connected to the inner side of the edge end of the air transmission channel 1601 in an adhesive way, 4 adhesive layers 1602 are arranged on the inner side of the edge end of the air transmission channel 1601 at equal angles, the outer surfaces of the adhesive layers 1602 are attached to each other, the adhesive layers 1602 are made of elastic silica gel, and the adhesive layers 1602 are made of 4 elastic silica gel materials which are attached to each other, so that the self-opening and self-closing working state can be stably realized according to the;

the mounting air bag 18 is in a spherical structure in front view, the outer surface of the mounting air bag 18 is attached to the outer surface of the support member 7, the mounting air bag 18 is distributed at equal angles relative to the central point of the support seat 1, meanwhile, the mounting air bag 18 is communicated with the corrugated pipe 16 through the air transmission channel 1601, the compressed corrugated pipe 16 can stably pass through the air transmission channel 1601, air supply deformation work is synchronously performed to the inside of the mounting air bag 18, and the lower end of the support member 7 which is contacted with the mounting air bag 18 in an expanding mode can stably support work.

The working principle is as follows: when the internet-of-things antenna structure is used, according to the figures 1-3, firstly, the device is placed at a position needing to be operated, when the antenna body 2 is influenced by external force, the device is matched with the circular-arc nested block 3 at the lower end in advance to stably carry out angle adjustment work along the inside of the supporting seat 1 according to the angle of the external force, as the circular-arc nested block 3 carries out angle rotation, the first pull rope 5 at the corresponding position butted with the lower end of the circular-arc nested block pulls the transmission shaft 501 at the tail end and the first torsion spring 502 to carry out rolling work, and then the circular-arc nested block 3 after angle adjustment is supported, meanwhile, the stressed antenna body 2 supports the position with larger stress through the inclined support 7 arranged at equal angles at the outer side, at the moment, the reset spring 8 butted with the reset spring is in a stretching state, and the bad phenomenon that the traditional positioning fixed support structure causes direct breakage of the, the service cycle of the device is met through the self-adaptive angle fine-tuning structure;

according to the figures 1, 2 and 4, when the antenna body 2 is stressed greatly and performs the conflict activity deflection of the corresponding angle on the support member 7, the second stay cord 10 butted with the inner end of the antenna body drives the circular arc-shaped limit block 11 with the tail end contacted therewith to perform the angle rotation along the upper end of the nesting block 3, and at the moment, the second torsion spring 12 butted with the shaft end of the antenna body is in the rolling state, so that the limit block 11 moves to the outer side of the upper end of the support member 7 with the corresponding angle deflection to perform the conflict support reverse force application, the bad phenomenon of toppling over caused by the overlarge stress inclination angle of the support member 7 is avoided, and the support;

according to fig. 1, 5 and 6, when the support member 7 with the corresponding angle is stressed to have an excessively large angle inclination, the third stay cord 15 in butt joint with the lower end of the support member will drive the movable block 14 connected therewith to move inwards along the upper end of the support seat 1, and then the corrugated pipe 16 in contact is synchronously extruded inwards, at this time, the corrugated pipe 16 under pressure will supply air to the inside of the installation air bag 18 in end butt joint through the air transmission channel 1601, and at this time, the installation air bag 18 will deform and expand along with the air supply, so as to perform secondary collision work on the lower end of the support member 7 in contact, further enhance the support return stability of the device, avoid the support member 7 from directly having a support and release state, ensure the overall support stability of the device, and increase the overall practicability.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a thing networking antenna structure, includes supporting seat (1), antenna body (2), connecting axle (6), movable block (14), third stay cord (15), bellows (16) and fixed block (17), its characterized in that: the antenna body (2) is installed at the upper end of the supporting seat (1) in a nested mode, the nested block (3) is fixedly connected to the lower end of the antenna body (2), the accommodating groove (4) is formed in the inner surface of the supporting seat (1), the accommodating groove (4) is connected with the lower end of the nested block (3), the first pull rope (5) is fixedly connected to the outer side of the lower end of the nested block (3), the first pull rope (5) is connected with the inner side of the supporting seat (1), the connecting shaft (6) is installed at the upper end of the nested block (3) in a penetrating mode, the supporting piece (7) is fixedly connected to the outer side of the connecting shaft (6), the supporting piece (7) is connected with the outer side of the nested block (3), the reset spring (8) is fixedly connected to the inner end of the supporting piece (7), the reset spring (8) is connected with the outer side of the nested block, the inner end of the supporting piece (7) is fixedly connected with a second pull rope (10), the second pull rope (10) is connected with the inner side of the nested block (3), the upper end bearing of the nested block (3) is connected with a limiting block (11), the outer side bearing of the limiting block (11) is connected with a guide wheel (19), the shaft end of the limiting block (11) is fixedly connected with a second torsion spring (12), the second torsion spring (12) is connected with the inner side of the upper end of the nested block (3), the upper end of the supporting seat (1) is provided with a sliding groove (13), the outer side of the sliding groove (13) is nested with a movable block (14), the movable block (14) is connected with the upper end of the supporting seat (1), the outer end of the movable block (14) is fixedly connected with a third pull rope (15), the third pull rope (15) is connected with the lower end of the supporting piece (7), the outer side of the movable block, and the upper end of bellows (16) and supporting seat (1) is connected, fixed block (17) are installed to the outside bolt of supporting seat (1), and the outside adhesive joint of fixed block (17) has installation gasbag (18), the inner of installation gasbag (18) is connected with bellows (16).

2. The internet of things antenna structure of claim 1, wherein: nested piece (3) and the lower extreme of antenna body (2) are integrated structure, and nested piece (3) are spherical structure in the front view to nested piece (3) constitute sliding construction through the inboard of storage tank (4) and supporting seat (1), and the lower extreme symmetry of nested piece (3) is provided with first stay cord (5) simultaneously.

3. The internet of things antenna structure of claim 1, wherein: first stay cord (5) are provided with transmission shaft (501) and first torsional spring (502), and the terminal fixedly connected with transmission shaft (501) of first stay cord (5) to transmission shaft (501) are connected with the inboard of supporting seat (1), and the outside fixedly connected with first torsional spring (502) of transmission shaft (501) simultaneously.

4. The internet of things antenna structure of claim 3, wherein: the transmission shaft (501) forms an elastic structure through the inner side of the first torsion spring (502) and the supporting seat (1), the transmission shaft (501) forms a rotating structure through the lower end of the first pull rope (5) and the nesting block (3), and the transmission shaft (501) is in penetrating connection with the inner side of the lower end of the supporting seat (1).

5. The internet of things antenna structure of claim 1, wherein: the support piece (7) is of an inclined structure in the front view, the support piece (7) forms an elastic structure with the outer side of the nesting block (3) through the return spring (8), the support piece (7) forms a sliding structure with the movable block (14) through the third pull rope (15), and meanwhile the outer sides of the movable block (14) and the corrugated pipe (16) are connected in an adhering mode.

6. The internet of things antenna structure of claim 1, wherein: stopper (11) are circular-arc structure in the front view, and stopper (11) pass through second torsional spring (12) and the upper end elastic construction of nested piece (3) to the outer end of stopper (11) constitutes the block structure with the outside of support piece (7), and stopper (11) constitute rotating-structure through second stay cord (10) and support piece (7) simultaneously.

7. The internet of things antenna structure of claim 1, wherein: bellows (16) are provided with gas transmission passageway (1601) and adhesive linkage (1602), and the lower extreme of bellows (16) is run through and is installed gas transmission passageway (1601) to the end of gas transmission passageway (1601) is connected with the inboard of installing gasbag (18), and the inboard adhesive linkage of limit end of gas transmission passageway (1601) has adhesive linkage (1602) simultaneously.

8. The internet of things antenna structure of claim 7, wherein: the inboard equal angle of limit end of gas transmission passageway (1601) is provided with 4 adhesive linkage (1602), and the surface of adhesive linkage (1602) each other is laminated mutually to adhesive linkage (1602) are elastic silica gel material.

9. The internet of things antenna structure of claim 7, wherein: the mounting air bag (18) is of a spherical structure in front view, the outer surface of the mounting air bag (18) is attached to the outer surface of the support piece (7), the mounting air bag (18) is distributed at equal angles relative to the central point of the support seat (1), and meanwhile the mounting air bag (18) is communicated with the corrugated pipe (16) through the air transmission channel (1601).

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