CN111193094A

CN111193094A - Portable 5G communication antenna equipment

Info

Publication number: CN111193094A
Application number: CN202010108216.5A
Authority: CN
Inventors: 林志鹏
Original assignee: Quanzhou Zaodaoyun Information Technology Co Ltd
Current assignee: Nanjing Hongzhu Tai Information Technology Co.,Ltd.
Priority date: 2020-02-21
Filing date: 2020-02-21
Publication date: 2020-05-22
Anticipated expiration: 2040-02-21
Also published as: CN112736402A; CN111193094B

Abstract

The invention discloses portable 5G communication antenna equipment, which structurally comprises an antenna, an underframe, an electric connection lead, a support rod and a rotary table, wherein the antenna is arranged on the underframe, the bottom end of the antenna is connected with the electric connection lead, the underframe is mechanically connected to the rotary table, the rotary table is fixed on the support rod in a rotating matching mode and is provided with an inner rotating shaft, an interlayer, an outer rotary cylinder, a rotating top mechanism, a defrosting assembly and a sealing strip, the inner rotating shaft is in threaded matching with the outer rotary cylinder, the rotary table is formed by matching the inner rotating shaft and the outer rotary cylinder, the defrosting assembly is arranged at the joint of the inner rotating shaft and the outer rotary cylinder, and the heating piece is used for heating to fully boil steam in the whole heating cavity under a low-temperature environment, so that the constant temperature at the joint of the inner rotating shaft and the outer.

Description

Portable 5G communication antenna equipment

Technical Field

The invention relates to a 5G communication device, in particular to a portable 5G communication antenna device.

Background

The 5G, i.e. the fifth generation mobile communication system, is after the first generation analog communication, the second generation digital communication, the third generation mobile broadband and the experiencing the fourth generation communication system which takes the mobile internet as the application characteristic, 5G compares with 4G, from the technological break, they have great difference in the network speed, frequency spectrum efficiency, space capacity, mobility, connection density and time delay, 5G mobile communication network has its own practical applicability, in order to realize under the big data background, the energy consumption minimizing target, promote the development of the communication industry, 5G communication antenna equipment in order to adapt to the outdoor, field work environment, the turntable structural design that the bearing part of the antenna adopts, thus the antenna can adjust the angle, the application scope is extensive, and because the antenna equipment is used in the outdoor or field, in the severe winter, the turntable accumulates snow and freezes, thereby causing the rotation of the rotary table to be restricted and hindering the rotating effect thereof.

Disclosure of Invention

In view of the above problems, the present invention provides a portable 5G communication antenna apparatus.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a portable 5G communication antenna equipment, its structure includes antenna, chassis, connects electric wire, branch, revolving stage, the antenna is installed on the chassis, the bottom of antenna is connected with and connects the electric wire, chassis mechanical connection is on the revolving stage, the revolving stage adopts the normal running fit mode to fix on branch, the revolving stage is constituteed has interior pivot, interlayer, outer bobbin, is revolved a mechanism, is removed and is frozen subassembly, sealing strip, interior pivot adopts screw-thread fit with outer bobbin, it is equipped with the interlayer and removes on the bobbin to freeze subassembly, sealing strip, revolves a mechanism to revolve, the interlayer is located the sealing strip and removes and freezes between the subassembly, wherein removes to freeze the one end installation that the subassembly located and be close to the export of interior pivot, the sealing strip is the rubber.

As a further improvement of the invention, the defrosting assembly comprises a perforation and a heating cavity, and the perforation is provided with more than two perforations which are distributed on the outer surface of the heating cavity in a circumferential mode.

As a further improvement of the invention, a supporting chassis and a heating sheet are arranged in the heating cavity, the heating sheet is fixed on the supporting chassis, and the inner surface of the supporting chassis is provided with textures which are in threaded fit with the inner rotating shaft.

As a further improvement of the invention, the top rotating mechanism is provided with an engaging disc, a top pipe, an edge covering, a clamping seat, an attaching plate, a guide outlet and a connecting pipe, wherein the top pipe is fixed on the engaging disc, the edge covering and the attaching plate are fixed on the outer surface of the engaging disc, the edge covering and the attaching plate are in up-and-down sliding fit in a mechanical connection mode through the clamping seat, notches in a shape like a Chinese character 'ao' are formed in the attaching plate, the guide outlet is formed in the attaching plate, and the top pipes are connected with the guide outlet through the connecting pipe.

As a further improvement of the invention, the top pipe is composed of an inner top pipe, an outer fixed pipe, a sliding connecting piece, an embedded edge block and a support, the inner top pipe is arranged inside the outer fixed pipe, the embedded edge block is fixed between the inner top pipe and the outer fixed pipe and sealed by the embedded edge block, and one half of the outer surface of the outer fixed pipe is mechanically connected with the support by the sliding connecting piece.

As a further improvement of the invention, the interlayer, the defrosting component and the sealing strip are wrapped on the outer surface of the inner rotating shaft.

As a further improvement of the invention, the top pipe penetrates through the through hole and contacts the interlayer, and an inner hole of the meshing disc is in threaded fit with the inner rotating shaft.

As a further improvement of the invention, the interior of the attaching plate penetrates through the engaging disk and is connected with the horizontal end of the support.

As a further improvement of the invention, the bottom of the inner jacking pipe is fixed with the upper end of the horizontal part of the support, and the support is in contact with but not fixed with the bottom of the outer fixing pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. the turntable is formed by matching the inner rotating shaft and the outer rotating cylinder, the joint of the inner rotating shaft and the outer rotating cylinder is provided with the defrosting component, the heating plate is used for heating to fully heat the whole heating cavity under the low-temperature environment, the constant temperature of the joint of the inner rotating shaft and the outer rotating cylinder is kept, and the rotating effect is prevented from being influenced by the fact that the inner rotating shaft and the outer rotating cylinder are frozen.

2. The defrosting assembly is matched with the sealing strip and the interlayer, external snow water can be prevented from permeating into the outer rotary drum to be corroded due to the sealing effect of the sealing strip, and the interlayer can prevent the sealing strip from being accidentally damaged due to direct contact with the heating cavity to influence the sealing degree.

3. The top rotating mechanism drives the meshing disc to be in threaded fit with the inner rotating shaft through external force, so that the top pipe on the meshing disc continuously moves towards the position of the sealing strip, the sealing strip is ejected out of the top pipe from the inside and the outside, the sealing strip is convenient to replace, and the problem of fracture residue in the process of taking out the damaged sealing strip can be solved.

4. The groove notch arranged on the attaching plate is convenient for manual operation of the engaging disc to rotate, the caliber of the notch is equal to the size of four fingers, the stress of the engaging disc is improved, and the engaging disc is more portable when being pushed.

5. The top pipe, the connecting pipe and the outlet are matched with the attaching plate, when the top pipe ejects the sealing strip, the attaching plate is pushed up and down, the inner top pipe slides up and down along the sealed outer fixed pipe to generate negative pressure to absorb snow water permeating into the outer rotary cylinder, and finally the snow water is discharged from the outlet, so that the influence on the normal operation of the rotary table due to the snow water seepage when the sealing strip is taken and placed is avoided.

Drawings

Fig. 1 is a schematic structural diagram of a portable 5G communication antenna apparatus according to the present invention.

Fig. 2 is a schematic structural view of a turntable according to the present invention.

Fig. 3 is a perspective view of the defrosting assembly according to the present invention.

FIG. 4 is a schematic view of the interior of the heating chamber of the defrosting assembly of the present invention.

Fig. 5 is a schematic perspective view of the screw-top mechanism of the present invention.

Fig. 6 is a schematic view showing the internal structure of the meshing disk of the present invention.

FIG. 7 is a schematic structural view of the push pipe of the present invention.

In the figure: the device comprises an antenna-1, an underframe-2, a power connection lead-3, a support rod-4, a rotary table-5, an inner rotary shaft-51, an interlayer-52, an outer rotary drum-53, a top rotating mechanism-54, a defrosting component-55, a sealing strip-56, a perforation-551, a heating cavity-552, a support chassis-52 a, a heating sheet-52 b, a meshing disc-541, a top pipe-542, a bound edge-543, a clamping seat-544, a binding plate-545, a guide outlet-546, a connecting pipe-547, an inner top pipe-42 a, an outer fixing pipe-42 b, a sliding connecting piece-42 c, a chimeric edge block-42 d and a support-42 e.

Detailed Description

In order to make the technical means, the creation features, the achievement objects and the effects of the present invention easy to understand, fig. 1 to fig. 7 schematically show the structure of a 5G communication antenna device according to an embodiment of the present invention, and 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. 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. 1-4, the present invention provides a portable 5G communication antenna device, which structurally includes an antenna 1, an underframe 2, an electrical connection wire 3, a support rod 4, and a turntable 5, wherein the antenna 1 is mounted on the underframe 2, the bottom end of the antenna 1 is connected with the electrical connection wire 3, the underframe 2 is mechanically connected to the turntable 5, the turntable 5 is fixed on the support rod 4 in a rotation fit manner, the turntable 5 includes an inner rotating shaft 51, an isolation layer 52, an outer rotating cylinder 53, a top rotating mechanism 54, a defrosting assembly 55, and a sealing strip 56, the inner rotating shaft 51 is in threaded fit with the outer rotating cylinder 53, the outer rotating cylinder 53 is provided with the isolation layer 52, the defrosting assembly 55, the sealing strip 56, and the top rotating mechanism 54, the isolation layer 52 is located between the sealing strip 56 and the defrosting assembly 55, wherein the defrosting assembly 55 is mounted at an end close to an outlet of the inner rotating shaft 51, the sealing strip, the defrosting assembly 55 comprises a perforation 551 and a heating cavity 552, wherein the perforation 551 has more than two perforations circumferentially distributed on the outer surface of the heating cavity 552, the heating cavity 552 is provided with a supporting base plate 52a and a heating plate 52b, the heating plate 52b is fixed on the supporting base plate 52a, the inner surface of the supporting chassis 52a is provided with texture which is in threaded fit with the inner rotating shaft 51, the interlayer 52, the defrosting assembly 55 and the sealing strip 56 are wrapped on the outer surface of the inner rotating shaft 51, under the low temperature environment, utilize the heating plate heating to make the abundant hot vapour of whole heating chamber, keep the constant temperature of interior pivot and outer cylinder junction, avoid receiving to freeze between interior pivot and the outer cylinder and influence the rotation effect, the sealed effect of sealing strip can avoid external snow water to ooze the interior corruption of outer cylinder, and the interlayer can avoid the sealing strip and the direct contact of heating chamber and unexpected damage, influence the leakproofness.

Example 2

As shown in fig. 5 to 6, based on the embodiment 1, on the basis of preventing the normal operation of the turntable from being affected by low temperature and snow water infiltration, the top screwing mechanism 54 includes an engagement disc 541, a top pipe 542, an edge-covering 543, a clamping seat 544, an attachment plate 545, a guide outlet 546, and a connecting pipe 547, the top pipe 542 is fixed on the engagement disc 541, the edge-covering 543 and the attachment plate 545 are fixed on the outer surface of the engagement disc 541, the edge-covering 543 and the attachment plate 545 are vertically slidably engaged by the clamping seat 544 through mechanical connection, the attachment plate 545 is provided with concave notches at two sides of the clamping seat 544, the attachment plate 545 is provided with the guide outlet 546, the top pipe 542 is connected to the guide outlet 546 through the connecting pipe 547, the top pipe 542 penetrates through the through hole and contacts the partition 52, the inner hole of the engagement disc 541 is in threaded engagement with the inner spindle 51, the interior of the attachment plate 545 penetrates through the engagement disc 541, and be connected in the horizontal end of support 42e, the push pipe is by interior outer ejecting sealing strip, when making things convenient for the sealing strip to change, can also solve the fracture residual problem that appears in impaired sealing strip takes out, and the recess incision that is equipped with makes things convenient for the manual operation meshing disc to rotate, and this notched bore is four finger sizes, improves the atress of meshing disc, promotes more portablely.

Example 3

As shown in fig. 7, in order to avoid the problems of immovable rotation table due to freezing and erosion due to infiltration of snow water and difficulty in replacing the rubber seal strip in embodiments 1 and 2, the top pipe 542 includes an inner top pipe 42a, an outer fixed pipe 42b, a sliding contact piece 42c, an engaging edge block 42d, and a support 42e, the inner top pipe 42a is disposed inside the outer fixed pipe 42b, the engaging edge block 42d is fixed between the inner top pipe 42a and the outer fixed pipe 42b and sealed by the engaging edge block 42d, one half of the outer surface of the outer fixed pipe 42b is mechanically connected to the support 42e by the sliding contact piece 42c, the bottom of the inner top pipe 42a is fixed to the upper end of the horizontal portion of the support 42e, and the support 42e is in contact with the bottom of the outer fixed pipe 42b but not fixed, when the seal strip is replaced, the snow water isolated by the seal strip is further accidentally infiltrated, the snow water is effectively discharged from the outlet through the negative pressure adsorption generated by the jacking pipe, so that the influence on the normal operation of the rotary table due to the internal seepage of the snow water when the sealing strip is taken and placed is avoided.

The following is a description of the operation principle of the 5G communication antenna device in the above technical solution:

when the invention is used outdoors, in order to improve the signal receiving intensity efficiency of the antenna 1, a user can adjust the angle of the antenna 1 by rotating the turntable 5, the antenna 1 is arranged on the bottom frame 2, the bottom frame 2 is fixed on the outer surface of the outer rotating cylinder 53, and the antenna 1 can be adjusted to a proper angle by rotating the outer rotating cylinder 53;

in severe cold environments, for example: in frost and snow weather, the outer rotating cylinder 53 and the inner rotating shaft 51 can not rotate due to icing, and in order to solve the problem, the defrosting assembly 55 is arranged between the outer rotating cylinder 53 and the inner rotating shaft 51, the heating sheet 52b in the defrosting assembly 55 is used for heating, and the heating cavity 552 in contact fit with the inner rotating shaft 51 and the outer rotating cylinder 53 is used for heating, so that the constant temperature of the rotary table 5 in low-temperature weather is kept, and the problem that the rotary table cannot normally freeze is solved;

and further improve and use the portability, still have the top turning mechanism 54 on the outer tumbler 53, several top pipes 542 in the top turning mechanism 54 present the circumference and distribute on the engaging disc 541 evenly, when the user unscrews the top pipe 542, press the concave cut located on the fitting plate 545, the cut is the size of four finger heads, can improve the bearing area of the fitting plate 545, the user swings the fitting plate 545 clockwise, the fitting plate 545 engages with the inner rotating shaft 51, move along the position where the sealing strip 56 is located, at this moment, the top pipe 542 runs through the perforation 551, contact the spacing layer 52, the top pipe is also brought out while ejecting the spacing layer 52 of 542, the sealing strip 56 is ejected from inside and outside, and spacing layer 52 and sealed day 56 are totally coincided, the sealing strip 56 is stressed evenly, in this process, can avoid effectively while squeezing out the sealing strip 56, the situation that the sealing strip 56 breaks in the outer tumbler 53, the fitting plate 545 stops rotating until the sealing strip 56 completely falls out, and the operations are operated in the reverse direction when a new sealing strip 56 is loaded, so that the sealing strip 56 is convenient to disassemble and assemble;

finally, when the sealing strip 56 is removed, if a small amount of snow water isolated by the sealing strip 56 accidentally penetrates into the outer rotary cylinder 51, when the sealing strip 56 falls, an operator presses the abutting plate 545, the support 42e fixed by the abutting plate 545 synchronously moves downwards, so that the inner top pipe 42a is driven to vertically slide downwards along the outer fixing pipe 42e, in the process, the snow water permeating into the outer rotary cylinder 53 is adsorbed by the negative pressure generated by the outer fixing pipe 42e, the top pipes 542 are communicated with the outlet port 546 through the connecting pipe 547 and effectively discharged through the outlet port 546, and the snow water permeating into the outer rotary cylinder 53 is prevented from remaining to corrode internal mechanical parts.

In the description of the present invention, it is to be understood that the terms "central," "lateral," "length," "width," "height," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "side," and the like, as used herein, are used in an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and is not to be construed as limiting the invention.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. A portable 5G communications antenna apparatus, characterized in that: the structure of the antenna comprises an antenna (1), an underframe (2), an electric connecting lead (3), a support rod (4) and a rotary table (5), wherein the antenna (1) is installed on the underframe (2), the bottom end of the antenna (1) is connected with the electric connecting lead (3), the underframe (2) is mechanically connected to the rotary table (5), the rotary table (5) is fixed on the support rod (4) in a rotating fit mode, the rotary table (5) is composed of an inner rotating shaft (51), an interlayer (52), an outer rotating cylinder (53), a top rotating mechanism (54), a freezing removing component (55) and a sealing strip (56), the inner rotating shaft (51) is in threaded fit with the outer rotating cylinder (53), the outer rotating cylinder (53) is provided with the interlayer (52), the freezing removing component (55), the sealing strip (56) and the top rotating mechanism (54), the interlayer (52) is positioned between the sealing strip (56) and the freezing removing component (, wherein the defrosting component (55) is arranged at one end close to the outlet of the inner rotating shaft (51), and the sealing strip (56) is made of rubber.

2. A portable 5G communications antenna apparatus according to claim 1, wherein: the defrosting assembly (55) comprises a perforation (551) and a heating cavity (552), and more than two perforations (551) are circumferentially distributed on the outer surface of the heating cavity (552).

3. A portable 5G communications antenna apparatus according to claim 2, wherein: the heating cavity (552) is internally provided with a supporting chassis (52a) and a heating plate (52b), the supporting chassis (52a) is fixedly provided with the heating plate (52b), and the inner surface of the supporting chassis (52a) is provided with textures which are in threaded fit with the inner rotating shaft (51).

4. A portable 5G communications antenna apparatus according to claim 1, wherein: the spiral top mechanism (54) is provided with a meshing disc (541), a jacking pipe (542), an edge covering (543), a clamping seat (544), a binding plate (545), a guide outlet (546) and a connecting pipe (547), the jacking pipe (542) is fixed on the meshing disc (541), the edge covering (543) and the binding plate (545) are fixed on the outer surface of the meshing disc (541), the edge covering (543) and the binding plate (545) are in vertical sliding fit in a mechanical connection mode through the clamping seat (544), notches in a shape like a Chinese character 'ao' are formed in the two sides, located on the clamping seat (544), of the binding plate (545), the guide outlet (546) is formed in the binding plate (545), and the jacking pipes (542) are connected with the guide outlet (546) through the connecting pipe (547).

5. A portable 5G communication antenna device according to claim 4, characterized in that: the pipe jacking device is characterized in that an inner pipe jacking (42a), an outer fixed pipe (42b), a sliding connecting piece (42c), an embedded side block (42d) and a support seat (42e) are formed in the pipe jacking (542), the inner pipe jacking (42a) is arranged inside the outer fixed pipe (42b), the embedded side block (42d) is fixed between the inner pipe jacking (42a) and the outer fixed pipe (42b) and sealed by the embedded side block (42d), and one half of the outer surface of the outer fixed pipe (42b) is mechanically connected with the support seat (42e) by the sliding connecting piece (42 c).

6. A portable 5G communications antenna apparatus according to claim 1, wherein: the outer surface of the inner rotating shaft (51) is wrapped by the interlayer (52), the defrosting assembly (55) and the sealing strip (56).

7. A portable 5G communication antenna device according to claim 4 or 5, characterized in that: the top pipe (542) penetrates through the through hole (551) and contacts the partition layer (52), and the inner hole of the meshing disc (541) is in threaded fit with the inner rotating shaft (51).

8. A portable 5G communication antenna device according to claim 4, characterized in that: the inner part of the attaching plate (545) penetrates through the engaging disc (541) and is connected with the horizontal end of the support (42 e).

9. A portable 5G communication antenna device according to claim 5, characterized in that: the bottom of the inner top pipe (42a) is fixed with the upper end of the horizontal part of the support (42e), and the support (42e) is contacted with but not fixed with the bottom of the outer fixed pipe (42 b).