CN111818401A

CN111818401A - Portable 5G receiving and dispatching basic station

Info

Publication number: CN111818401A
Application number: CN202010732246.3A
Authority: CN
Inventors: 陈志全
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-10-23

Abstract

The invention discloses a portable 5G transceiving base station, which structurally comprises a transceiving device, a base and a fixing plate, wherein the bottom of the transceiving device is connected to the top of the tail end of the base through welding, and the bottom of the base is fixedly embedded on the upper surface of the fixing plate, so that the invention has the beneficial effects that: the bolt in the locating hole is pulled down to make the lifting column of top retract inside the lifting column of below, the rotation of runner makes the lifting of lifting column smooth, thereby reduce the volume of basic station and be convenient for carry, withdraw back with transceiver through the lifting of lifting column and imbed the through-hole with the bolt, the ejector pad is laminated bolt surface under the promotion of fixed block and buffer block, thereby the lifting column that will withdraw is fixed, avoid the lifting column to stretch out because the shake of vehicle, in order to avoid leading to transceiver and the inside bump of vehicle in the transportation to lead to the basic station to damage.

Description

Portable 5G receiving and dispatching basic station

Technical Field

The invention relates to the field of 5G, in particular to a portable 5G transceiving base station.

Background

The 5G base transceiver station is a communication base station specially providing a 5G network, provides wireless coverage and realizes signal transmission between a wired communication network and a wireless terminal, and the portable 5G base transceiver station is convenient to carry and transport, meets the requirement that the 5G base station needs to be subjected to multiple local modes in the early stage of use, and is widely applied to base station construction.

At present, for the convenience of carrying the base station, the base station is usually set to be telescopic, the base station is retracted and then placed on a vehicle for transportation during carrying, the vehicle jolts inevitably during driving, the base station shakes along with the vehicle, the retracted base station extends in shaking, and the tail end of the base station collides with the inside of the vehicle during transportation.

Disclosure of Invention

Aiming at the defects that the base station is usually set to be telescopic in order to conveniently carry the base station, the base station is retracted and then placed on a vehicle for transportation when the base station is carried, the vehicle jolts inevitably in the driving process, the base station shakes along with the vehicle, the retracted base station extends in shaking, and the tail end of the base station collides with the interior of the vehicle in the transportation process.

The invention is realized by the following technical scheme: the utility model provides a portable 5G receiving and dispatching basic station, its structure includes transceiver, base, fixed plate, transceiver bottom is through welded connection in the terminal top of base, the base bottom inlays admittedly in the fixed plate upper surface, the base includes the stopper, accomodates the post, rises and contracts post, locating hole, the stopper passes through bolted connection inside the base, accomodate the bottom of the post portion through welded connection in the base bottom, it connects in accomodating the post inboard to rise to contract the post through movable block, the locating hole level runs through accomodates the post and rises and contracts the post inside, it is many hollow cylinder to rise and contracts the post, by down up every diameter reduces gradually simultaneously.

Furthermore, the lifting column comprises a positioning block, a sliding block and a lifting spring, the upper surface of the positioning block is connected to the bottom of the lifting column through welding, the sliding block is fixedly embedded in the inner wall of the lifting column, the bottom of the lifting spring is arranged at the bottom of the lifting column, the other end of the lifting spring is fixedly embedded in the lower surface of the positioning block, the thickness of the sliding block is the distance from the inner wall of the lifting column below to the outer wall of the lifting column above, and the positioning block of the lifting column above is arranged between the bottom of the lifting column below and the sliding block.

Furthermore, the slider comprises fixture block, spout, runner, the welding of fixture block left side is at the post inner wall that contracts that rises, both sides about the fixture block are located to the spout, the runner passes through bolted connection in fixture block right surface, the runner has two and syntropy rotation.

Furthermore, the rotating wheel comprises a fixed shaft, a supporting rod and a top block, the fixed shaft and the rotating wheel are located on the same axis, one end of the supporting rod is embedded in the outer surface of the fixed shaft, and the top block is welded at the tail end of the supporting rod and embedded in the inner wall of the rotating wheel.

Furthermore, the locating hole includes through-hole, thread groove, cardboard, the through-hole inlays to be located inside the locating hole, the thread groove inlays to be located inside the through-hole inner wall, the cardboard passes through welded connection in through-hole inner wall surface, the thread groove is circular-arc sunken to the locating hole outer wall, and the cardboard is the arc block rubber.

Furthermore, the screw groove includes fixed block, buffer block, ejector pad, the fixed block outside inlays admittedly in the inner wall on the screw groove, welded connection is passed through in the fixed block inboard to buffer block one end, the ejector pad is installed at the buffer block other end and through inner wall under the screw groove in the clearance, both ends are the arc about the fixed block, and the buffer block is the elastic rubber ball material.

Furthermore, the push block comprises a positioning shaft, support columns and support blocks, the top of the positioning shaft is connected to the upper inner wall of the push block through welding, the top ends of the support columns are embedded in the lower surfaces of the positioning shaft, the support blocks are connected to the tail ends of the support columns through welding, the number of the support columns is three, the middle of the support columns is shorter than the number of the support columns on two sides, and the bottoms of the support blocks are arc-shaped.

Advantageous effects

Compared with the prior art, the portable 5G transceiving base station has the following advantages:

1. the invention has the beneficial effects that: the bolts in the positioning holes are pulled down to enable the lifting columns above to retract into the lifting columns below, and the rotation of the rotating wheel enables the lifting of the lifting columns to be smooth, so that the size of the base station is reduced, and the base station is convenient to carry.

2. The invention has the beneficial effects that: the bolt is embedded into the through hole after the receiving and sending device is retracted through the lifting and retracting of the lifting and retracting column, the pushing block is attached to the outer surface of the bolt under the pushing of the fixing block and the buffering block, so that the retracted lifting and retracting column is fixed, the lifting and retracting column is prevented from extending out due to shaking of a vehicle, and the base station is prevented from being damaged due to collision between the receiving and sending device and the inside of the vehicle in the transportation process.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a portable 5G base transceiver station according to the present invention.

Fig. 2 is an enlarged internal view of the base of the present invention.

Fig. 3 is a schematic view of a cross-sectional enlarged structure of the telescopic column of the present invention.

FIG. 4 is an enlarged schematic view of the slider of the present invention.

FIG. 5 is an enlarged cross-sectional view of the rotor according to the present invention.

FIG. 6 is an enlarged side view of the positioning hole of the present invention.

FIG. 7 is a schematic view of the enlarged cross-sectional structure of the screw groove of the present invention.

FIG. 8 is an enlarged side view of the push block according to the present invention.

In the figure: the transceiver 1, a base 2, a fixing plate 3, a limiting block 21, a receiving column 22, a lifting column 23, a positioning hole 24, a positioning block 231, a slider 232, a lifting spring 233, a fixture block a1, a sliding groove a2, a rotating wheel a3, a fixed shaft a31, a support rod a32, an ejector block a33, a through hole 241, a threaded groove 242, a clamping plate 243, a fixing block b1, a buffer block b2, a pushing block b3, a positioning shaft b31, a support column b32 and a support block b 33.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Please refer to fig. 1-8:

example 1:

the invention provides a portable 5G transceiving base station which structurally comprises a transceiving device 1, a base 2 and a fixing plate 3, wherein the bottom of the transceiving device 1 is connected to the top of the tail end of the base 2 through welding, the bottom of the base 2 is embedded and fixed on the upper surface of the fixing plate 3, the base 2 comprises a limiting block 21, a containing column 22, a lifting column 23 and a positioning hole 24, the limiting block 21 is connected to the inside of the base 2 through a bolt, the bottom of the containing column 22 is connected to the bottom of the base 2 through welding, the lifting column 23 is connected to the inner side of the containing column 22 through movable clamping, the positioning hole 24 horizontally penetrates through the containing column 22 and the lifting column 23, the lifting column 23 is a plurality of hollow cylinders, and meanwhile, the diameter of each cylinder is gradually reduced from bottom to top, so that the transceiving device 1 can be retracted through the lifting column 23, and the.

In the drawing, the lifting column 23 includes a positioning block 231, a slider 232, and a lifting spring 233, the upper surface of the positioning block 231 is connected to the bottom of the lifting column 23 by welding, the slider 232 is embedded in the inner wall of the lifting column 23, the bottom of the lifting spring 233 is installed at the bottom of the lifting column 23, and the other end of the lifting spring is embedded in the lower surface of the positioning block 231, the thickness of the slider 232 is the distance from the inner wall of the lifting column 23 below to the outer wall of the lifting column 23 above, and the positioning block 231 of the lifting column 23 above is arranged between the bottom of the lifting column 23 below and the slider 232, so that the lifting column 23 is supported by the lifting spring 233, the movement range of the lifting column 23 is limited by the slider 232, and the lifting column 23 is prevented from extending too long to cause the transceiver 1 to collapse.

In the figure, the sliding block 232 is composed of a clamping block a1, a sliding groove a2 and a rotating wheel a3, the left side of the clamping block a1 is welded on the inner wall of the telescopic column 23, the sliding groove a2 is arranged on the upper side and the lower side of the clamping block a1, the rotating wheel a3 is connected to the right surface of the clamping block a1 through bolts, and the two rotating wheels a3 rotate in the same direction, so that the lifting of the telescopic column 23 is facilitated to be smooth through the rotation of the rotating wheel a 3.

In the figure, the rotating wheel a3 includes a fixed shaft a31, a supporting rod a32 and a top block a33, the fixed shaft a31 and the rotating wheel a3 are located on the same axis, one end of the supporting rod a32 is embedded in the outer surface of the fixed shaft a31, the top block a33 is welded at the tail end of the supporting rod a32 and embedded in the inner wall of the rotating wheel a3, eight groups of the supporting rod a32 and the top block a33 are provided, the supporting rod a32 can slightly lift and contract, the top block a33 is made of rubber materials, the supporting of the rotating wheel a3 is facilitated, the rotating wheel a3 is tightly attached to the lifting column 23, and the base station is prevented from shaking and collapsing due to the fact that the.

The specific principle of the embodiment is as follows: when the 5G base transceiver station needs to be carried and transported, the bolts in the positioning holes 24 are pulled down, the lifting columns 23 above the positioning holes 24 are retracted into the lifting columns 23 below the positioning holes, the rotating wheels a3 attached to the surfaces of the lifting columns 23 rotate to enable the lifting columns 23 to smoothly lift, the base transceiver station is prevented from shaking and collapsing due to the fact that the lifting columns 23 are blown by wind, and therefore the base transceiver station 1 is retracted, the size of the base transceiver station is reduced, and the base transceiver station is convenient to carry.

Example 2:

In the figure, the positioning hole 24 includes a through hole 241, a thread groove 242, and a clamping plate 243, the through hole 241 is embedded inside the positioning hole 24, the thread groove 242 is embedded inside the inner wall of the through hole 241, the clamping plate 243 is connected to the surface of the inner wall of the through hole 241 by welding, the thread groove 242 is arc-shaped recessed towards the outer wall of the positioning hole 24, and the clamping plate 243 is an arc-shaped rubber block, which is beneficial to increasing the engaging force between the through hole 241 and the bolt, so as to fix the state of the telescopic column 23.

In the figure, screw channel 242 includes fixed block b1, buffer block b2, ejector pad b3, the inner wall on screw channel 242 is inlayed admittedly in the fixed block b1 outside, buffer block b2 one end is inboard in fixed block b1 through welded connection, ejector pad b3 installs at the buffer block b2 other end and through the inner wall under the screw channel 242 in the clearance, both ends are the arc about fixed block b1, and buffer block b2 is the elastic rubber ball material, do benefit to and promote ejector pad b3 and make ejector pad b3 laminating bolt surface.

In the figure, the pushing block b3 includes a positioning shaft b31, a supporting column b32, and a supporting block b33, the top of the positioning shaft b31 is connected to the upper inner wall of the pushing block b3 by welding, the top end of the supporting column b32 is embedded in the lower surface of the positioning shaft b31, the supporting block b33 is connected to the end of the supporting column b32 by welding, the supporting column b32 has three and middle parts shorter than two sides, and the bottom of the supporting block b33 is arc-shaped, so that the pushing block b3 is tightly attached to the outer surface of the bolt through the supporting block b 33.

The specific principle of the embodiment is as follows: the bolt is embedded into the through hole 241 in the positioning hole 24 after the transceiver 1 is retracted by the lifting and retracting of the lifting and retracting column 23, at this time, the screw groove 242 on the inner wall of the through hole 241 and the clamping plate 243 increase the biting force of the through hole 241 and the bolt, and meanwhile, the push block b3 enables the push block b3 to be attached to the outer surface of the bolt under the pushing of the fixed block b1 and the buffer block b2, so that the retracted lifting and retracting column 23 is fixed, the lifting and retracting column 23 is prevented from extending out due to the shaking of a vehicle, and the transceiver 1 is prevented from colliding with the inside of the vehicle in the transportation process to damage a base station.

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. The utility model provides a portable 5G receives and dispatches basic station, its structure includes transceiver (1), base (2), fixed plate (3), transceiver (1) bottom is through welded connection in the terminal top of base (2), base (2) bottom is embedded in fixed plate (3) upper surface, its characterized in that:

base (2) include stopper (21), accomodate post (22), rise post (23), locating hole (24) that contracts, stopper (21) pass through bolted connection inside base (2), accomodate post (22) bottom through welded connection in base (2) bottom, rise post (23) that contracts connect in accomodating post (22) inboard through the activity block, locating hole (24) level runs through accomodate post (22) and rise and contract inside post (23).

2. A portable 5G base transceiver station according to claim 1, wherein: the lifting and contracting column (23) comprises a positioning block (231), a sliding block (232) and a lifting spring (233), the upper surface of the positioning block (231) is connected to the bottom of the lifting and contracting column (23) through welding, the sliding block (232) is fixedly embedded on the inner wall of the lifting and contracting column (23), the bottom of the lifting spring (233) is installed at the bottom in the lifting and contracting column (23), and the other end of the lifting and contracting column is fixedly embedded on the lower surface of the positioning block (231).

3. A portable 5G base transceiver station according to claim 2, wherein: the sliding block (232) is composed of a clamping block (a1), a sliding groove (a2) and a rotating wheel (a3), the left side of the clamping block (a1) is welded on the inner wall of the telescopic column (23), the sliding groove (a2) is arranged on the upper side and the lower side of the clamping block (a1), and the rotating wheel (a3) is connected to the right surface of the clamping block (a1) through bolts.

4. A portable 5G base transceiver station according to claim 3, wherein: the rotating wheel (a3) comprises a fixed shaft (a31), a supporting rod (a32) and a top block (a33), the fixed shaft (a31) and the rotating wheel (a3) are located on the same axis, one end of the supporting rod (a32) is fixedly embedded on the outer surface of the fixed shaft (a31), and the top block (a33) is welded at the tail end of the supporting rod (a32) and fixedly embedded on the inner wall of the rotating wheel (a 3).

5. A portable 5G base transceiver station according to claim 1, wherein: the positioning hole (24) comprises a through hole (241), a thread groove (242) and a clamping plate (243), the through hole (241) is embedded in the positioning hole (24), the thread groove (242) is embedded in the inner wall of the through hole (241), and the clamping plate (243) is connected to the surface of the inner wall of the through hole (241) in a welding mode.

6. A portable 5G base transceiver station according to claim 5, wherein: screw groove (242) include fixed block (b1), buffer block (b2), ejector pad (b3), inner wall on screw groove (242) is inlayed in fixed block (b1) outside, buffer block (b2) one end is inboard in fixed block (b1) through welded connection, inner wall under buffer block (b2) other end and through clearance in screw groove (242) is installed in ejector pad (b 3).

7. The portable 5G base transceiver station of claim 6, wherein: the push block (b3) comprises a positioning shaft (b31), a supporting column (b32) and a supporting block (b33), the top of the positioning shaft (b31) is connected to the upper inner wall of the push block (b3) through welding, the top end of the supporting column (b32) is embedded and fixed on the lower surface of the positioning shaft (b31), and the supporting block (b33) is connected to the tail end of the supporting column (b32) through welding.