CN210840075U - Communication base station - Google Patents

Abstract

The utility model belongs to the technical field of network deployment equipment, concretely relates to communication base station for in solving traditional network deployment method, basic station construction cycle is long, is difficult to the technical problem of the proruption 5G network demand of quick response. This communication base station includes portable base, load-bearing platform, the antenna, embrace the pole and be used for the communication rack of communication, load-bearing platform installs on portable base, embrace the vertical setting of pole on load-bearing platform, the antenna is installed on embracing the pole, the communication rack sets up on load-bearing platform, the inside holding communication equipment that is used for of communication rack, the antenna is connected with the communication equipment electricity, during the use, only need be connected communication equipment with external power supply and 5G core network, just can realize 5G network signal and cover. The communication base station does not need concrete construction, can be quickly arranged in an area where temporary network deployment is carried out due to the movable characteristic, and particularly can respond to sudden temporary 5G network requirements.

Description

Communication base station

Technical Field

The utility model relates to a network deployment equipment technique especially relates to a communication base station.

Background

With the rapid development of mobile communication technology, 5G networks will become important tools for building smart cities and digital governments due to their advantages of ultra-large bandwidth, mass connection, ultra-low time delay, etc., and in order to realize 5G network signal coverage and meet user requirements, the 5G networks need to be deployed.

At present, the traditional 5G network deployment method is to construct a base station, and firstly, concrete foundation construction is carried out in a target coverage area of the 5G network so as to construct the base station for civil engineering; secondly, installing Base station supporting facilities such as an air conditioner, a holding pole, a feeder line and the like, and after the installation is finished, installing communication equipment such as a Remote Radio Unit (RRU), a Base Band Unit (BBU) and the like on the Base station; and then debugging communication equipment such as the RRU, the BBU and the like.

Since the 5G network is still in the trying phase and the exploring phase, the demand of the user on the 5G network is sudden, for example, the capacity and performance of the 5G network are tested at the test point. However, in the conventional method, the base station construction is completed through concrete construction, the construction period is long, and the sudden 5G network requirement is difficult to respond quickly.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a communication base station to in solving traditional network deployment method, basic station construction cycle is long, is difficult to the technical problem of the proruption 5G network demand of quick response.

An embodiment of the utility model provides a communication base station, include: but mobile base, load-bearing platform, antenna, armful pole and be used for the communication rack of communication, load-bearing platform installs on the mobile base, it is in to embrace the vertical setting of pole on the load-bearing platform, the antenna is installed on embracing the pole, the communication rack sets up on the load-bearing platform, the inside holding communication equipment that is used for of communication rack, the antenna with the communication equipment electricity is connected.

The communication base station as described above, wherein the communication base station further includes a lifting device, the lifting device is disposed between the movable base and the carrying platform, and the lifting device is configured to drive the carrying platform to ascend or descend.

The communication base station as described above, wherein the lifting device includes a first cross bar, a second cross bar and a hydraulic cylinder, the first cross bar is disposed to intersect with the second cross bar, the first cross bar is rotatably connected to the second cross bar, a first end of the first cross bar is rotatably connected to the bottom of the carrying platform, and a second end of the first cross bar is slidably disposed on the movable base; the first end of the second cross rod is slidably arranged at the bottom of the bearing platform, and the second end of the second cross rod is rotatably connected with the movable base; the bottom of the hydraulic cylinder is hinged to the movable base, and a piston rod of the hydraulic cylinder is connected with the second cross rod.

The communication base station as described above, wherein the second end of the first cross bar is provided with a first pulley, the movable base is provided with a first slide rail, and the first pulley is slidably disposed on the first slide rail; and a second pulley is arranged at the first end of the second cross rod, a second sliding rail is arranged on the bearing platform, and the second pulley is arranged on the second sliding rail in a sliding manner.

The communication base station as described above, wherein the bottom of the movable base is provided with at least one roller.

The communication base station as described above, wherein the communication base station further comprises a brake device for controllably preventing the roller from rolling.

The communication base station as described above, wherein the communication base station further includes a cover body with an opening at the bottom, the cover body covers the movable base, and the bearing platform, the antenna, the pole, the communication cabinet and the lifting device are all accommodated inside the cover body.

The communication base station as described above, wherein the cover is a glass fiber reinforced plastic cover.

The communication base station as described above, wherein the communication base station further includes a first support rod and a second support rod, a first end of the first support rod is connected to the holding rod, a second end of the first support rod is connected to the carrying platform, a first end of the second support rod is connected to the holding rod, a second end of the second support rod is connected to the carrying platform, and an included angle is formed between the first support rod and the second support rod; and/or, the communication base station also comprises a 4G networking antenna installed on the holding pole, and the 4G networking antenna is electrically connected with the communication equipment.

The communication base station as described above, wherein the projection of the antenna on the bearing platform is located between the first support rod and the second support rod, and the center of the projection is located on the bisector of the included angle.

The embodiment of the utility model provides a communication base station includes portable base, load-bearing platform, the antenna, embrace the pole and be used for the communication rack of communication, load-bearing platform installs on portable base, embrace the vertical setting of pole on load-bearing platform, the antenna mounting is on embracing the pole, the communication rack sets up on load-bearing platform, the inside holding communication equipment that is used for of communication rack, the antenna is connected with the communication equipment electricity, during the use, only need be connected communication equipment with external power supply and 5G core network, just can realize 5G network signal and cover. The communication base station does not need concrete construction, can be quickly arranged in an area where temporary network deployment is carried out due to the movable characteristic, and particularly can respond to sudden temporary 5G network requirements.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a communication base station according to an embodiment of the present invention;

fig. 2 is a top view of a communication base station according to an embodiment of the present invention.

Description of reference numerals:

1: a load-bearing platform;

2: a communication cabinet;

3: holding the pole;

4: an active antenna element;

5: a movable base;

6: a lifting device;

7: a roller;

8: a first support bar;

9: a second support bar;

10: 4G networking antenna;

21: a first mounting bar;

22: threading holes;

61: a first cross bar;

62: a second crossbar;

63: and a hydraulic cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

The 5G network becomes an important tool for building a smart city and creating a digital government due to the advantages of ultra-large bandwidth, mass connection, ultra-low time delay and the like, and the 5G network needs to be deployed in order to realize 5G network signal coverage. In the related art, a 5G network is deployed by Building a Base station, concrete foundation construction is firstly performed in a target coverage area of the 5G network to build the Base station for civil engineering, then supporting facilities are installed, after the installation is completed, communication devices such as a Remote Radio Unit (RRU), a Base Band Unit (BBU), and the like are installed on the Base station, and then the communication devices such as the RRU and the BBU are debugged. Although the base station can be built to realize 5G network signal communication in a target coverage area, since the 5G network is still in an attempt stage and a search stage, the requirement of a user on the 5G network is sudden, for example, the capacity and the performance of the 5G network are tested in a test point, while the base station is built by concrete construction in the traditional method, the construction period is long, and the sudden 5G network requirement is difficult to respond quickly. In addition, because the 5G network is in the trial phase and the exploration phase, the requirement of the user on the 5G network is temporary, for example, the function of a 5G product is demonstrated in a 5G network exhibition hall of an exhibition, and in the conventional method, the base station is built through concrete construction, once the base station is built, the position of the base station cannot be changed easily, and for the temporary requirement of the 5G network, if the base station is moved, huge manpower and material resources are invested, so that unnecessary waste is caused.

In view of this, an embodiment of the present application provides a communication base station, in the communication base station, the communication base station includes a movable base, a bearing platform, an antenna, a pole and a communication cabinet for communication, the bearing platform is installed on the movable base, the communication cabinet is used for accommodating a communication device, the antenna is electrically connected to the communication device, so that the communication device and the antenna are integrated together, when in use, the communication device is connected to an external power supply and a 5G core network, so as to implement 5G network signal coverage, and compared with a method for building a base station, the communication base station does not need concrete construction, so as to quickly respond to an unexpected 5G network requirement. In addition, the position of the communication base station is easy to change, the communication base station can be quickly arranged in an area where temporary network deployment is carried out, the loss of manpower and material resources caused by relocation is reduced, and therefore the temporary 5G network requirement can be met.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of a communication base station according to an embodiment of the present invention; fig. 2 is a top view of a communication base station according to an embodiment of the present invention. As shown in fig. 1 and fig. 2, the communication base station provided in this embodiment includes a movable base 5, a bearing platform 1, an antenna, a pole 3 and a communication cabinet 2 for communication, where the bearing platform 1 is installed on the movable base 5, the pole 3 is vertically arranged on the bearing platform 1, the antenna is installed on the pole 3, the communication cabinet 2 is arranged on the bearing platform 1, the communication cabinet 2 is inside for accommodating a communication device, and the antenna is electrically connected with the communication device.

The movable base 5 may be a plate-like structure, a frame structure, so that the communication equipment can be moved from one location to another by grabbing or lifting the equipment in order to deploy the communication equipment to a location where a communication network needs to be provided; or may be provided with rollers as described hereinafter to facilitate rapid movement over the ground by the rollers to enhance the ease and flexibility of network deployment.

The bearing platform 1 may be a bearing plate, a bearing column, or a bearing block, which is not limited in this embodiment. Because the holding pole 3 and the communication cabinet 2 are heavy, in order to enable the bearing platform 1 to bear the acting force applied to the bearing platform 1 by the holding pole 3, the antenna installed on the holding pole 3 and the communication cabinet 2, the bearing platform 1 can be made of high-strength materials such as hard alloy steel, ceramics and the like.

The communication cabinet 2 is arranged on the bearing platform 1, the communication cabinet 2 comprises a cabinet body and a cabinet door, a mounting opening is formed in a first side wall of the cabinet body, the first side wall is perpendicular to the horizontal plane, and the cabinet door is hinged to the side wall of the mounting opening so as to cover the mounting opening; the inside of the cabinet body is provided with a cavity, and the communication equipment is accommodated in the cavity from the mounting opening.

Specifically, a first mounting strip 21 and a second mounting strip are arranged on the inner wall of a second side wall of the cabinet body, the second side wall is parallel to the first side wall, and the first mounting strip 21 and the second mounting strip are both vertical to the horizontal plane; be equipped with a plurality of first mounting screw holes on the first mounting bar 21, be equipped with a plurality of second mounting screw holes on the second mounting bar, communication equipment's one end is through the cooperation and the first mounting bar 21 spiro union of first screw and first mounting screw hole, and communication equipment's the other end passes through the cooperation and the second mounting bar spiro union of second screw and second mounting screw hole to make communication equipment and cabinet body coupling. Of course, the communication device may also be connected to the cabinet in a clamping manner, which is not limited in this embodiment.

The communication cabinet 2 can also contain electrical equipment such as a switching power supply, a storage battery and the like, and the switching power supply, the communication equipment and the antenna are electrically connected through a feeder line to supply power to the communication equipment and the antenna; the storage battery is electrically connected with the communication equipment and the antenna through the feeder line, and the storage battery supplies power for the communication equipment and the antenna so as to ensure that the communication base station can normally work when the switching power supply fails. Wherein, the connection mode of switching power supply, battery and cabinet body and the connection mode of communication equipment and cabinet body are similar, and no longer repeated here. Preferably, switching power supply sets up the one end that is close to ground at the second lateral wall back of the body, and the battery setting is located between switching power supply and the battery at the one end that the second lateral wall is close to ground for communication equipment and electrical equipment are in the internal overall arrangement of cabinet clearly, are convenient for walk the line, and then make things convenient for later stage management and maintenance.

One end of a third side wall of the communication cabinet 2, which is close to the bearing platform 1, is provided with a threading hole 22, the third side wall is positioned between the first side wall and the second side wall, and the third side wall is perpendicular to the horizontal plane, so that the feeder line is arranged in order in the cabinet body from the threading hole 22 during use, and disorder is avoided. The threading hole 22 may be in a regular shape such as a circle, a square, or a strip, or may be in other irregular shapes, which is not limited in this embodiment.

The connection mode of the communication cabinet 2 and the bearing platform 1 may be welding, screw connection or clamping, and this embodiment does not limit this. In addition, in this embodiment, the communication cabinet 2 may also be other common structures in the related art, as long as the communication cabinet 2 can accommodate the communication device electrically connected to the antenna.

Embrace pole 3 and set up on communication rack 2 next doors, embrace the one end of pole 3 and be connected with load-bearing platform 1, embrace the other end of pole 3 and be the free end, embrace pole 3 and be used for fixed antenna. In this embodiment, the holding pole 3 may be a structure common in the related art, for example, the holding pole 3 is a cylindrical pole body; the connection mode of the holding pole 3 and the bearing platform 1 can be welding, screw connection or clamping connection. Taking the position shown in fig. 1 and fig. 2 as an example, the holding pole 3 can be arranged on the left side of the communication cabinet 2, and the holding pole 3 can also be arranged on the right side of the communication cabinet 2, as long as the holding pole 3 does not block the cabinet door, so as to avoid that the mounting opening can not be normally opened.

The antenna is installed on embracing pole 3, and the antenna passes through the feeder electricity with communication equipment and is connected, is equipped with power input port and interface on the communication equipment, and the power input port is used for being connected with external power supply, and external power supply provides the electric energy for BBU, and the interface is used for being connected with the core network of computer lab through optic fibre. The antenna and the pole 3 can be connected in a welding mode, can also be connected through a hoop, or can be connected in a screw connection mode, and the embodiment does not limit the connection mode.

In this embodiment, the Antenna is an Active Antenna Unit 4 (AAU), the AAU is configured to transmit a signal, the communication device includes at least one BBU, the AAU is electrically connected to the BBU through a feeder, the feeder is configured to deliver the signal transmitted by the AAU, and the communication device is configured to process the signal. Of course, in some examples, the antenna may be other suitable antenna elements in the related art.

When in use, firstly, the communication base station is placed in a target coverage area of the 5G network; then, the power supply input port of the BBU in the communication cabinet 2 is connected with an external power supply, and the interface of the BBU is connected with a 5G core network of a target coverage area through an optical fiber. The working process of the communication base station is that a 5G core network transmits a 5G network signal to a BBU (baseband unit) through an optical fiber, the BBU receives the 5G network signal and transmits the 5G network signal to an AAU (architecture application Unit), and the AAU transmits the received 5G network signal to be connected with a mobile terminal of a user, so that 5G network coverage is realized.

The communication base station provided by the embodiment comprises a movable base 5, a bearing platform 1, an antenna, a holding pole 3 and a communication cabinet 2 for communication, wherein the bearing platform 1 is installed on the movable base 5, the holding pole 3 is vertically arranged on the bearing platform 1, the antenna is installed on the holding pole 3, the communication cabinet 2 is arranged on the bearing platform 1, the communication cabinet 2 is used for accommodating communication equipment, and the antenna is electrically connected with the communication equipment; the communication base station integrates the antenna and the communication equipment together, and when the communication base station is used, the communication equipment is connected with an external power supply and a 5G core network, so that 5G network signal coverage can be realized. The communication base station does not need concrete construction, can be quickly arranged in an area where temporary network deployment is carried out due to the movable characteristic, and particularly can respond to sudden temporary 5G network requirements.

In addition, because the 5G network is in the trying phase and the exploring phase, the requirement of the user on the 5G network is also temporary, for example, the function of the 5G product is demonstrated in the 5G network exhibition hall of the exhibition, the communication base station provided by this embodiment is placed in the target coverage area when the user has a use requirement, after the use is finished, the operator can withdraw the communication base station or move the communication base station to the next target coverage area, the position of the communication base station is easy to change, the loss of manpower and material resources caused by the movement is reduced, and thus the temporary requirement of the 5G network can be met.

The communication base station further comprises a 4G networking antenna 10 installed on the holding pole 3, and the 4G networking antenna 10 is electrically connected with the communication equipment through a feeder line. When in use, firstly, the communication base station is placed in a target coverage area of the 5G network; then, the power supply input port of the BBU in the communication cabinet 2 is connected with an external power supply, and the interface of the BBU is connected with the 4G core network in the target coverage area through an optical fiber, so that the AAU is accessed to the 4G core network, thereby realizing 5G network connection, and enabling the 4G network and the 5G network in the target coverage area to operate together. Through the arrangement, when the communication equipment is difficult to be directly connected with the 5G core network, so that the 5G network is difficult to be connected, or the 5G network signal is unstable, networking can be realized through the 4G network, and the condition that the communication equipment is interrupted by the network is avoided.

The connection mode of the 4G networking antenna 10 and the holding pole 3 is similar to that of the antenna and the holding pole 3, and the description is omitted; illustratively, the AAU is installed on the top end of the holding pole 3, and the 4G networking antenna 10 is located between the AAU and the bearing platform 1, so that the installation height of the AAU is high, and the signal coverage is large.

On the basis of the above embodiment, the communication base station further includes a lifting device 6, the lifting device 6 is disposed between the movable base 5 and the bearing platform 1, and the lifting device 6 is used for driving the bearing platform 1 to ascend or descend. Through the arrangement of the lifting device 6, the lifting device 6 can drive the bearing platform 1 to ascend, and the antenna ascends along with the bearing platform, so that the coverage range of signals is enlarged.

In an implementable mode, the lifting device 6 comprises a motor, a first connecting rod and a second connecting rod, two ends of the first connecting rod are respectively hinged with the movable base 5 and the bearing platform 1, two ends of the second connecting rod are respectively hinged with the movable base 5 and the bearing platform 1, the first connecting rod, the bearing platform 1, the second connecting rod and the movable base 5 form a parallelogram plane connecting rod mechanism, and an output shaft of the motor and a hinged shaft of the first connecting rod are in transmission connection with the movable base 5. When the movable type bearing platform is used, the motor operates, the output shaft of the motor drives the first connecting rod and the hinged shaft of the movable base 5 to rotate, and the bearing platform 1 translates to enable the bearing platform 1 to ascend or descend.

With continued reference to fig. 1, in another practical manner, the lifting device 6 includes a first cross bar 61, a second cross bar 62 and a hydraulic cylinder 63, the first cross bar 61 is disposed to intersect with the second cross bar 62, the first cross bar 61 is rotatably connected to the second cross bar 62, a first end (i.e., a top end in fig. 1) of the first cross bar 61 is rotatably connected to a bottom of the load-bearing platform 1, and a second end (i.e., a bottom end in fig. 1) of the first cross bar 61 is slidably disposed on the movable base 5; a first end (namely, the top end in fig. 1) of the second cross rod 62 is slidably arranged at the bottom of the load bearing platform 1, and a second end (namely, the bottom end in fig. 1) of the second cross rod 62 is rotatably connected with the movable base 5; the bottom of the hydraulic cylinder 63 is hinged with the movable base 5, and the piston rod of the hydraulic cylinder 63 is connected with the second cross rod 62. In this embodiment, the bearing platform 1 only ascends or descends along the vertical direction under the driving action of the lifting device 6, no displacement is generated in the horizontal direction, the movement range of the communication base station is small, and the space is saved.

Specifically, the top end of the first cross bar 61 is hinged with the carrying platform 1, the bottom end of the second cross bar 62 is hinged with the movable base 5, and the first cross bar 61 is hinged with the second cross bar 62. The hydraulic cylinder 63 comprises a cylinder bottom, a cylinder barrel, a guide sleeve, a piston and a piston rod, one end of the cylinder barrel is connected with the cylinder bottom, the other end of the cylinder barrel is connected with the guide sleeve, an axial through hole communicated with the inside of the cylinder barrel is formed in the guide sleeve, the piston rod is inserted into the cylinder barrel, the piston rod penetrates through the axial through hole and extends out of the cylinder barrel, the piston is sleeved on the piston rod and is fixedly connected with the piston rod, and the piston can slide relative to the cylinder barrel. Wherein the bottom of the cylinder is hinged with the movable base 5, and the piston rod extending out of the cylinder is hinged with the second cross rod 62.

Optionally, a first sliding block is arranged at the bottom end of the first cross rod 61, a first sliding groove is arranged on the movable base 5, and the first sliding block is slidably arranged in the first sliding groove; the top of the second cross rod 62 is provided with a second sliding block, the bearing platform 1 is provided with a second sliding groove, and the first sliding block is slidably arranged in the first sliding groove.

Or, the bottom end of the first cross rod 61 is provided with a first pulley, the movable base 5 is provided with a first slide rail, and the first pulley is slidably arranged on the first slide rail; the top of second crossbar 62 is equipped with the second pulley, and load-bearing platform 1 is equipped with the second slide rail, and the second pulley is slided and is established on the second slide rail to realize that the bottom slidable of first crossbar 61 sets up on portable base 5, and the top slidable of second crossbar 62 sets up in the bottom of load-bearing platform 1.

In this embodiment, at least one roller 7 is further disposed at the bottom of the movable base 5, and the roller 7 is connected to the bottom of the movable base 5. Through setting up gyro wheel 7, during the use, promote communication base station to the target coverage area and carry out 5G network deployment, the mobile communication base station of being convenient for, above-mentioned communication base station's flexibility is strong, and the cost of relocation is low, has practiced thrift the cost of transportation.

For example, when the movable base 5 has a plate-like structure, the number of the rollers 7 may be four, and the four rollers 7 are respectively disposed at four corner points of the movable base 5. When the number of the rollers 7 is plural, at least one of the plural rollers 7 is a steering wheel so as to change the running direction, so that the communication base station can move in any direction. The roller 7 may be made of a high-elasticity material such as rubber or plastic, and the high-elasticity roller 7 has a function of buffering and damping.

Furthermore, the communication base station also comprises a brake device, wherein the brake device is used for controllably preventing the roller 7 from rolling, and the communication base station is braked by the brake device, so that the phenomenon that the communication base station moves after being arranged in a target coverage area to cause the change of a network coverage area is avoided. The brake device is a structure that is common in the related art, and this embodiment is not described herein again.

On the basis of the above embodiment, the communication base station further includes a cover body with an opening at the bottom, the cover body is covered on the movable base 5, and the bearing platform 1, the antenna, the holding pole 3, the communication cabinet 2 and the lifting device 6 are all accommodated inside the cover body. Through setting up the cover body for load-bearing platform 1, antenna, armful pole 3, communication rack 2 and the equal holding of elevating gear 6 are covered at the internal, avoid antenna, armful pole 3, communication rack 2 and elevating gear 6 to expose outside, and then avoid influencing visual environment.

The bottom of the cover body is provided with a first cross rod and a second cross rod which are both connected with the movable base 5, so that the cover body is covered on the movable base 5. The connection mode of the first cross rod and the movable base 5 may be welding, screw connection or clamping, which is not limited in this embodiment, and the connection mode of the second cross rod and the movable base 5 is similar to the connection mode of the first cross rod and the movable base 5, which is not described herein again.

Because antenna and communications facilities during operation can produce the heat, the heat gathering can influence antenna and communications facilities's working property in the cover body, and the thermovent has been seted up at the top of the cover body in this embodiment, and thermovent, the inside and bottom opening intercommunication of the cover body form flow channel. When the heat-insulation cover is used, outside air enters the cover body along the flow channel, flows through the antenna and the communication equipment, absorbs heat and then becomes hot air, and the hot air flows out along the flow channel so as to reduce the influence of the heat on the working performance of the antenna and the communication equipment. The heat dissipation opening may be in a regular shape such as a circle, a rectangle, or a strip, or may be in other irregular shapes, which is not limited in this embodiment.

The cover body can be a glass fiber reinforced plastic cover body, the glass fiber reinforced plastic has the advantage of light weight, the loss to electromagnetic waves is small, the wave-transmitting performance is good, and the attenuation to network signals is reduced. In order to further reduce the loss of the cover body to electromagnetic waves, the cover body may be made of glass fiber cloth with resin attached, and the proportion of resin is reduced compared with the glass fiber reinforced plastic cover body so as to reduce the blocking of signals.

Because the weight of the antenna is up to 15kg-50kg, the antenna arranged on the pole 3 exerts an acting force on the pole 3, so that the pole 3 is easy to bend, in order to improve the stability of the pole 3, the communication base station further comprises a first supporting rod 8 and a second supporting rod 9, the first end (namely the top end in fig. 1) of the first supporting rod 8 is connected with the pole 3, the second end (namely the bottom end in fig. 1) of the first supporting rod 8 is connected with the bearing platform 1, the first end of the second supporting rod 9 is connected with the pole 3, the second end of the second supporting rod 9 is connected with the bearing platform 1, an included angle is formed between the first supporting rod 8 and the second supporting rod 9, and the first supporting rod 8 and the second supporting rod 9 both play a role in supporting the pole 3.

The first support rod 8 and the holding rod 3 can be connected in a detachable connection mode such as a threaded connection mode or a clamping connection mode, the preferred embodiment of the embodiment is that the first support rod 8 and the holding rod 3 are connected in a fixed connection mode such as a welding connection mode, and compared with the detachable connection mode, the number of auxiliary connecting pieces is small, and the connection is reliable; the top of first bracing piece 8 is located the 1/4 department that the pole 3 extends by the bottom to the top with the hookup location of pole 3, and is located 1/2 department that the centre of pole 3 extends by the bottom to the top with the top of first bracing piece 8 and the hookup location of pole 3 and compares, and the centre of gravity position of first bracing piece 8 leans on down, and stability is higher. The connection mode and the connection position of the second support rod 9 and the holding pole 3 are similar to the connection mode and the connection position of the first support rod 8 and the holding pole 3, and the detailed description is omitted here.

The included angle between the first support bar 8 and the second support bar 9 may be 60 ° or 90 °, which is not limited in this embodiment. Optionally, the projection of the antenna on the bearing platform 1 is located between the first support rod 8 and the second support rod 9, and the included angle between the center of the projection and the bisector of the included angle is between 0 ° and 5 °; or, taking the orientation shown in fig. 2 as an example, the projection of the antenna on the bearing platform 1 is located between the first support rod 8 and the second support rod 9, and the center of the projection is located on the angular bisector of the included angle, so that the angular bisector of the first support rod 8 and the angular bisector of the second support rod 9 coincides with the forward tilting direction of the antenna, thereby preventing the holding pole 3 from being bent under the forward tilting effect of the antenna.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless explicitly stated otherwise, the terms "mounting," "connecting," "fixing," and the like are to be understood in a broad sense, and for example, may be fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, or communicable with each other; they may be directly connected or indirectly connected through an intermediate medium, or they may be connected internally or in any other manner known to those skilled in the art, unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A communication base station, comprising: but mobile base, load-bearing platform, antenna, armful pole and be used for the communication rack of communication, load-bearing platform installs on the mobile base, it is in to embrace the vertical setting of pole on the load-bearing platform, the antenna is installed on embracing the pole, the communication rack sets up on the load-bearing platform, the inside holding communication equipment that is used for of communication rack, the antenna with the communication equipment electricity is connected.

2. The communication base station of claim 1, further comprising a lifting device disposed between the movable base and the carrying platform, wherein the lifting device is configured to drive the carrying platform to ascend or descend.

3. The communication base station of claim 2, wherein the lifting device comprises a first cross bar, a second cross bar and a hydraulic cylinder, the first cross bar is disposed to intersect with the second cross bar, the first cross bar is rotatably connected to the second cross bar, a first end of the first cross bar is rotatably connected to the bottom of the carrying platform, and a second end of the first cross bar is slidably disposed on the movable base; the first end of the second cross rod is slidably arranged at the bottom of the bearing platform, and the second end of the second cross rod is rotatably connected with the movable base; the bottom of the hydraulic cylinder is hinged to the movable base, and a piston rod of the hydraulic cylinder is connected with the second cross rod.

4. The communication base station according to claim 3, wherein a second end of the first cross bar is provided with a first pulley, the movable base is provided with a first slide rail, and the first pulley is slidably provided on the first slide rail; and a second pulley is arranged at the first end of the second cross rod, a second sliding rail is arranged on the bearing platform, and the second pulley is arranged on the second sliding rail in a sliding manner.

5. The communication base station of claim 1, wherein the bottom of the moveable base is provided with at least one roller.

6. The communication base station of claim 5, further comprising a brake device for controllably preventing the roller from rolling.

7. The communication base station of claim 2, further comprising an open-bottomed enclosure that is disposed over the movable base, wherein the load-bearing platform, the antenna, the pole, the communication cabinet, and the lifting device are all housed inside the enclosure.

8. The communication base station of claim 7, wherein the enclosure is a fiberglass enclosure.

9. The communication base station according to any one of claims 1 to 8, further comprising a first support bar and a second support bar, wherein a first end of the first support bar is connected to the clasping bar, a second end of the first support bar is connected to the carrying platform, a first end of the second support bar is connected to the clasping bar, a second end of the second support bar is connected to the carrying platform, and an included angle is formed between the first support bar and the second support bar; and/or the presence of a gas in the gas,

the communication base station further comprises a 4G networking antenna installed on the holding pole, and the 4G networking antenna is electrically connected with the communication equipment.

10. The communication base station of claim 9, wherein a projection of the antenna on the load-bearing platform is located between the first support rod and the second support rod, and a center of the projection is located on a bisector of the included angle.

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