CN111541005B

CN111541005B - Communication exchange terminal

Info

Publication number: CN111541005B
Application number: CN202010306424.6A
Authority: CN
Inventors: 罗运红; 张永
Original assignee: Chongqing Communication Design Institute Co ltd
Current assignee: CHONGQING COMMUNICATION DESIGN INSTITUTE Co.,Ltd.
Priority date: 2020-04-17
Filing date: 2020-04-17
Publication date: 2021-06-04
Anticipated expiration: 2040-04-17
Also published as: CN111541005A

Abstract

The invention relates to the technical field of communication equipment, in particular to a communication exchange terminal, which comprises a shell, a base and a power supply, wherein the shell is provided with a first end and a second end; a processor assembly and a directional antenna are arranged inside the shell; a control rod is arranged in the middle of the directional antenna; because the communication signal is easy to be interfered by the electromagnetic interference with the same frequency spectrum in the environment, the directional antenna is selected to control the transmission direction of the communication signal so as to weaken the interference with other electromagnetic signals in the frequency spectrum, and the directional antenna is required to be conveniently arranged at various positions in the environment so as to control the transmission direction of the communication signal; therefore, the adjustable range of the direction of the output signal of the terminal is enlarged by the control rod arranged on the shell and the steering shaft on the base, the output power of the terminal is reduced by the accurate guiding of the directional antenna to the communication signal, the required power supply capacity is reduced, and the light-weight terminal is convenient to fix at each position, so that the use effect of the communication exchange terminal is improved.

Description

Communication exchange terminal

Technical Field

The invention relates to the technical field of communication equipment, in particular to a communication exchange terminal.

Background

Communication is a method of transmitting messages or audio signals using telecommunication equipment, and exchange refers to a process of interconnecting some functional units, transmission paths or telecommunication circuits when signals need to be carried. The quality of the exchange level and the quality of the exchange level determine the quality and the quality of the communication quality of the whole communication network to a certain extent; the terminal is an input and output device used for displaying communication information; for a description of communication technology, see: weihong, modern exchange and communication technology [ J ], communications world, 2015(No.8) 17-18.

When a wireless node in the existing communication exchange is used in a complex electromagnetic environment, the wireless node is easily subjected to electromagnetic interference of the same frequency spectrum, so that the use effect of a communication exchange terminal is reduced.

Some technical solutions related to a communication switching terminal also appear in the prior art, for example, a chinese patent with application number 2017102176492 discloses a communication loopback fault detection method and device in a communication network, the method includes: acquiring an address record table of a switch; the address record table correspondingly stores the physical addresses of the communication terminals and the communication interfaces communicated with the communication terminals; determining that the same target physical address corresponding to different communication interfaces exists in the address record log, and judging that the communication network currently has a communication loopback fault; and sending a communication loopback fault prompt notice to the target communication terminal indicated by the target physical address, wherein the technical scheme is used for indicating the target communication terminal and the switch to suspend communication. According to the embodiment of the invention, the normal operation of the communication service of the communication network can be ensured; however, in the technical scheme, only the fault in the communication process is detected, the fault is not solved or reduced, and the quality in the communication process cannot be improved.

In view of this, in order to overcome the above technical problems, the present company has designed and developed a communication exchange terminal, which adopts a special breathing structure to solve the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the communication exchange terminal, the adjustable range of the direction of the output signal of the terminal is increased by the control rod arranged on the shell and the steering shaft on the base, the output power of the terminal is reduced by the accurate guiding of the directional antenna to the communication signal, the required power capacity is reduced, and the lightweight terminal is convenient to fix at each position, so that the use effect of the communication exchange terminal is improved.

The invention relates to a communication exchange terminal, which comprises a shell, a base and a power supply, wherein the shell is provided with a first end and a second end; a base is arranged above the shell, a steering shaft is arranged between the base and the shell, and the shell is connected to the base through the steering shaft; the power supply is arranged on the inner wall of one side of the shell facing the base; a processor assembly and a directional antenna are arranged inside the shell; the processor assembly is positioned below the power supply, a fixed rod is arranged on the processor assembly and is installed on the shell, and a gap is reserved between the fixed rod and the shell of the shell; a back plate is arranged in a gap between the processor assembly and the shell, and a connecting rod is arranged on the back plate and is installed on the back of the processor assembly; the tail end of the connecting rod is provided with a radio frequency board, a directional antenna is mounted on the radio frequency board, the directional antenna is attached to the end face of the inner side of the shell, four corners of the directional antenna are provided with elastic rods, and the directional antenna is fixed on the shell through the elastic rods; the middle part of directional antenna is provided with the control lever, and the middle part at directional antenna is installed to the one end of control lever, and on the other end of control lever ran through the terminal surface that stretches out to the shell, through the control lever tip on the shell regulation directional antenna deflection angle: when the communication exchange terminal runs; the communication signal is received through the processor assembly, converted into an electric signal and conducted to the radio frequency board through the connecting rod, the radio frequency board outputs the electric signal to be a communication signal, the communication signal is sent to a facing area through the directional antenna, and the directional antenna is selected to control the transmission direction of the communication signal to weaken the interference with other electromagnetic signals in a frequency spectrum because the communication signal is easily subjected to electromagnetic interference of the same frequency spectrum in the environment, so that the communication signal is required to be conveniently installed at various positions in the environment to control the transmission direction of the communication signal, and the requirements of different positions of a receiving terminal in communication are difficult to meet through terminal angle setting during installation; therefore, the deflection angle of the directional antenna is controlled by the control rod arranged on the terminal shell, the communication model output by the radio frequency board is oriented to the direction of the communication receiving terminal in real time, and the steering shaft arranged on the base is matched, so that the angle range which can be controlled and adjusted by the communication exchange terminal is enlarged, and the limitation of the communication exchange terminal in the signal transmission direction is avoided; the invention utilizes the control rod arranged on the shell and matched with the steering shaft on the base, increases the adjustable range of the direction of the output signal of the terminal, reduces the output power of the terminal and the required power supply capacity by the accurate guidance of the directional antenna to the communication signal, and is convenient for the light-weight terminal to be fixed at each position, thereby improving the use effect of the communication exchange terminal.

Preferably, the control rod comprises a rotating rod and a transmission rod; the lower end of the rotating rod extends out of the shell, the top end of the rotating rod is provided with a transmission rod, and a rotating joint is arranged between the rotating rod and the transmission rod; the rotating joint rotatably connects the rotating rod with the transmission rod; the control rod on the operation shell is used for adjusting the deflection angle of the directional antenna, the control rod is required to have a large rotating position on the shell to meet the deflection of the directional antenna, the sealing protection effect of the shell on a terminal is damaged, the rotating rod and the transmission rod are arranged, the rotating rod on the shell uses the shell as a rotating shaft by utilizing the rotating fit between the two rods, the transmission rod is driven by the rotating joint to rotate correspondingly, the deflection control on the directional antenna is achieved, and the protection effect of the shell on the communication exchange terminal is ensured.

Preferably, the bottom of the transmission rod is provided with a pair of driving rings, the driving rings are fixed on a grid frame of the directional antenna, a driving shaft is arranged between the driving rings, and two ends of the driving shaft are fixedly connected on the driving rings; the top end of the transmission rod is fixed on the driving shaft; the transmission rod drives the deflection force of the alignment antenna to be influenced by the force applied to the rotating rod, so that the force required for controlling the deflection of the directional antenna is increased, the terminal is inconvenient to use, and the stability of terminal equipment installation is influenced by the larger acting force of the rotating rod; through the driving ring arranged at the bottom of the transmission rod, the moment is increased by the deflection force of the transmission rod for controlling the directional antenna, the control force required by the rotating rod on the shell is reduced, the deflection of the directional antenna is adjusted through the rotating rod, the damage of the acting force to the stability of the terminal in the adjusting process is avoided, and the control effect of the directional antenna in the communication exchange terminal is improved.

Preferably, a steering ball is arranged on each directional antenna at the central position of the driving ring, a ball seat is arranged between each steering ball and the radio frequency board, the ball seats are arranged on the radio frequency board, and the ball seats are in rotating contact with the steering balls; the steering ball is respectively and electrically connected with the directional antenna in two perpendicular directions; the communication signal output by the radio frequency board is transmitted to the directional antenna, and the directional antenna can change the deflection angle to adapt to the transmission direction of the required communication signal, so that the wire between the radio frequency board and the directional antenna generates loss under the reciprocating rotation, the service life of the wire is reduced, and the fault rate of the terminal is increased; the steering ball arranged on the directional antenna is in rotating contact with the ball seat on the radio frequency board to replace the function of a lead, the influence of the directional antenna on a signal output circuit in reciprocating deflection is avoided, and then the fault rate of the communication switching terminal in use is reduced.

Preferably, an induction plate is arranged on the inner wall of one side of the shell and is electrically connected with the power supply; through contacting with the position of tablet on the shell, carry out wireless charging to the power in the terminal: in order to meet the transmission of communication signals in a use environment, the communication terminal is required to be conveniently installed at each position, and the quality of the terminal limits the selectivity of the installation position; the electric quantity of the power supply is supplemented through the induction plate arranged in the shell, a plug in the use of the terminal is replaced, the direction of a transmission signal is accurately controlled by adjusting the deflection angle of the directional antenna, the power consumption in the operation of the terminal and the capacity requirement of the power supply are reduced, the overall weight of the terminal is reduced, and therefore the application range of the installation of the communication exchange terminal is widened.

Preferably, a raised magnetic sheet is arranged at the top end of the steering shaft, and the steering shaft is fixed on the base through the magnetic sheet; the steering shaft is also provided with vent holes in the circumferential direction; the terminal needs to be correspondingly adjusted by matching with the deflection of the directional antenna after being installed, and the quality of the terminal needs to be reduced as much as possible so as to meet the requirement on convenience of terminal installation; adsorb the terminal on the base through the magnetic sheet that sets up on the steering spindle, simplified the mounting structure at terminal, set up the air vent on the steering spindle simultaneously, give out the heat of the power of shell back position in service, maintain the inside temperature in stable range at terminal to the operational environment at communication exchange terminal has been stabilized.

The invention has the following beneficial effects:

1. according to the invention, the control rod arranged on the shell is matched with the steering shaft on the base, so that the adjustable range of the direction of the output signal of the terminal is increased, and the accurate guidance of the directional antenna on the communication signal is realized, so that the output power of the terminal is reduced, the required power supply capacity is reduced, and the light-weight terminal is convenient to fix at each position; the rotating rod and the transmission rod are arranged, and the rotating rod on the shell takes the shell as a rotating shaft by utilizing the rotating fit between the two rods, and the transmission rod is driven by the rotating joint to correspondingly rotate so as to achieve the deflection control of the directional antenna; the driving ring is arranged at the bottom of the transmission rod, so that the moment is increased by the transmission rod to control the deflection force of the directional antenna, the control force required by the rotating rod on the shell is reduced, the deflection of the directional antenna is adjusted through the rotating rod, and the damage of the acting force to the stability of the terminal in the adjusting process is avoided.

2. The steering ball arranged on the directional antenna is in rotating contact with the ball seat on the radio frequency board to replace the function of a lead, and the influence of the directional antenna on a signal output circuit in reciprocating deflection is avoided; the induction board arranged in the shell supplements the electric quantity of the power supply, replaces a plug in the use of the terminal, and accurately controls the direction of a transmission signal by adjusting the deflection angle of the directional antenna, so that the power consumption and the capacity requirement of the power supply in the operation of the terminal are reduced, and the overall weight of the terminal is reduced; the terminal is adsorbed on the base by the magnetic sheet arranged on the steering shaft, the mounting structure of the terminal is simplified, and meanwhile, the vent hole arranged on the steering shaft distributes heat of the power supply at the back of the shell in the running process, so that the temperature inside the terminal is maintained within a stable range.

Drawings

The invention is further described with reference to the following figures and embodiments.

Fig. 1 is a perspective view of a communication exchange terminal according to the present invention;

FIG. 2 is a perspective view of a telecommunications switching terminal assembly of the present invention;

fig. 3 is a perspective view of the inverted components of the communication switching terminal of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2 at A;

FIG. 5 is a partial enlarged view at B in FIG. 3;

in the figure: the device comprises a shell 1, an induction plate 11, a base 2, a steering shaft 21, a magnetic sheet 211, a vent hole 212, a power supply 3, a processor assembly 4, a fixed rod 41, a back plate 42, a connecting rod 421, a directional antenna 5, an elastic rod 51, a control rod 52, a rotating rod 53, a rotating joint 531, a driving rod 54, a driving ring 55, a driving shaft 551, a steering ball 56, a ball seat 561 and a radio frequency board 6.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, a communication exchange terminal according to the present invention includes a housing 1, a base 2 and a power supply 3; a base 2 is arranged above the shell 1, a steering shaft 21 is arranged between the base 2 and the shell 1, and the shell 1 is connected to the base 2 through the steering shaft 21; the power supply 3 is arranged on the inner wall of the side, facing the base 2, of the shell 1; a processor assembly 4 and a directional antenna 5 are arranged inside the shell 1; the processor assembly 4 is positioned below the power supply 3, a fixing rod 41 is arranged on the processor assembly 4 and is installed on the shell 1, and a gap is reserved between the fixing rod and the shell of the shell 1; a back plate 42 is arranged in a gap between the processor assembly 4 and the shell 1, and a connecting rod 421 arranged on the back plate 42 is installed on the back of the processor assembly 4; a radio frequency board 6 is arranged at the tail end of the connecting rod 421, a directional antenna 5 is arranged on the radio frequency board 6, the directional antenna 5 is attached to the end surface of the inner side of the shell 1, elastic rods 51 are arranged at four corners of the directional antenna 5, and the directional antenna 5 is fixed on the shell 1 by the elastic rods 51; a control rod 52 is arranged in the middle of the directional antenna 5, one end of the control rod 52 is installed in the middle of the directional antenna 5, the other end of the control rod 52 penetrates and extends out of the end face of the housing 1, and the deflection angle of the directional antenna 5 is adjusted through the end part of the control rod 52 on the housing 1: when the communication exchange terminal runs; the communication signal is received through the processor assembly 4, converted into an electric signal and conducted to the radio frequency board 6 through the connecting rod 421, then the electric signal is output as the communication signal by the radio frequency board 6 and sent to the oriented area through the directional antenna 5, because the communication signal is easily subjected to electromagnetic interference of the same frequency spectrum in the environment, the directional antenna 5 is selected to control the transmission direction of the communication signal so as to weaken the interference with other electromagnetic signals in the frequency spectrum, the communication signal is required to be conveniently installed at various positions in the environment so as to control the transmission direction of the communication signal, and the requirements of different positions of a receiving terminal in communication are difficult to meet through the terminal angle setting during installation; therefore, the invention controls the deflection angle of the directional antenna 5 by the control rod 52 arranged on the terminal shell 1, and the communication model output by the radio frequency board 6 is real-time oriented to the direction of the communication receiving terminal, and is matched with the steering shaft 21 arranged on the base 2, thereby enlarging the angle range which can be controlled and adjusted by the communication exchange terminal and avoiding the limitation of the communication exchange terminal in the signal transmission direction; the invention utilizes the control rod 52 arranged on the shell 1 and matches with the steering shaft 21 on the base 2, thereby increasing the adjustable range of the terminal output signal direction, reducing the output power of the terminal and the required quality of the power supply 3 by the accurate guidance of the directional antenna 5 to the communication signal, further facilitating the light-weighted terminal to be fixed at each position, and further improving the use effect of the communication exchange terminal.

As an embodiment of the present invention, the control lever 52 includes a rotating lever 53 and a transmission lever 54; the lower end of the rotating rod 53 extends out of the shell 1, the top end of the rotating rod 53 is provided with a driving rod 54, and a rotating joint 531 is arranged between the rotating rod 53 and the driving rod 54; the rotating joint 531 rotatably connects the rotating rod 53 with the transmission rod 54; the control rod 52 on the operation shell 1 adjusts the deflection angle of the directional antenna 5, the control rod 52 needs to have a larger rotation position on the shell 1 to meet the deflection of the directional antenna 5, and the closed protection effect of the shell 1 on the terminal is damaged, through the rotating rod 53 and the transmission rod 54 which are arranged, the rotating rod 53 on the shell 1 uses the shell as a rotating shaft, the transmission rod 54 is driven to rotate correspondingly through the rotating joint 531 by utilizing the rotation fit between the two rods, the deflection control on the directional antenna 5 is achieved, and the protection effect of the shell 1 on the communication exchange terminal is ensured.

As an embodiment of the present invention, the bottom of the transmission rod 54 is provided with a pair of driving rings 55, the driving rings 55 are fixed on the net rack of the directional antenna 5, a driving shaft 551 is arranged between the driving rings 55, and both ends of the driving shaft 551 are fixedly connected to the driving rings 55; the top end of the transmission rod 54 is fixed on the driving shaft 551; the transmission rod 54 drives the deflection force of the routing antenna, which is influenced by the force applied to the rotating rod 53, so that the force required for controlling the deflection of the directional antenna 5 is increased, the terminal is inconvenient to use, and the stability of terminal equipment installation is influenced by the larger acting force on the rotating rod 53; through the driving ring 55 arranged at the bottom of the transmission rod 54, the moment is increased by the transmission rod 54 to control the deflection force of the directional antenna 5, the control force required by the rotating rod 53 on the shell 1 is reduced, further, the deflection of the directional antenna 5 is adjusted through the rotating rod 53 is optimized, the damage of the acting force to the stability of the terminal in the adjusting process is avoided, and the control effect of the directional antenna 5 in the communication exchange terminal is improved.

As an embodiment of the invention, a steering ball 56 is respectively arranged on the directional antennas 5 at the central position of the driving ring 55, a ball seat 561 is arranged between the steering ball 56 and the radio frequency board 6, the ball seat 561 is mounted on the radio frequency board 6, and the ball seat 561 is in rotational contact with the steering ball 56; the steering ball 56 is separately and electrically connected with the directional antenna 5 in two perpendicular directions; the communication signal output by the radio frequency board 6 is transmitted to the directional antenna 5, and the directional antenna 5 can change the deflection angle to adapt to the transmission direction of the required communication signal, so that the wire between the radio frequency board 6 and the directional antenna 5 generates loss under reciprocating rotation, the service life of the wire is reduced, and the failure rate of the terminal is increased; the steering ball 56 arranged on the directional antenna 5 is in rotating contact with the ball seat 561 on the radio frequency board 6 to replace the function of a lead wire, and the influence of the directional antenna 5 on a signal output circuit in the reciprocating deflection is avoided, so that the fault rate of the communication switching terminal in use is reduced.

As an embodiment of the present invention, an induction board 11 is disposed on an inner wall of one side of the housing 1, and the induction board 11 is electrically connected to the power supply 3; the power supply 3 in the terminal is wirelessly charged by contacting with the position of the induction board 11 on the housing 1: in order to meet the transmission of communication signals in a use environment, the communication terminal is required to be conveniently installed at each position, and the quality of the terminal limits the selectivity of the installation position; the electric quantity of the power supply 3 is supplemented through the induction plate 11 arranged in the shell 1, a plug in the use of the terminal is replaced, the direction of a transmission signal is accurately controlled by adjusting the deflection angle of the directional antenna 5, then the power consumption in the operation of the terminal and the capacity requirement of the power supply 3 are reduced, the whole weight of the terminal is reduced, and the application range of the installation of the communication exchange terminal is further expanded.

As an embodiment of the present invention, a protruding magnetic sheet 211 is disposed on the top end of the steering shaft 21, and the steering shaft 21 is fixed on the base 2 through the magnetic sheet 211; a vent hole 212 is also arranged on the circumferential direction of the steering shaft 21; after the terminal is installed, the terminal needs to be correspondingly adjusted by matching with the deflection of the directional antenna 5, so that the quality of the terminal needs to be reduced as much as possible to meet the requirement of convenience in installation of the terminal; the terminal is adsorbed on the base 2 through the magnetic sheet 211 arranged on the steering shaft 21, the mounting structure of the terminal is simplified, meanwhile, the vent hole 212 arranged on the steering shaft 21 distributes heat of the power supply 3 at the back position of the shell 1 in the running process, the temperature inside the terminal is maintained to be in a stable range, and therefore the running environment of the communication exchange terminal is stabilized.

When the communication exchange terminal works, the communication exchange terminal runs; the processor assembly 4 receives the communication signal, converts the communication signal into an electric signal, transmits the electric signal to the radio frequency board 6 through the connecting rod 421, outputs the electric signal as the communication signal through the radio frequency board 6, and sends the communication signal to the oriented area through the directional antenna 5; the control rod 52 arranged on the terminal shell 1 controls the deflection angle of the directional antenna 5 by the control rod 52, the communication model output by the radio frequency board 6 faces the direction of the communication receiving terminal in real time, and the steering shaft 21 arranged on the base 2 is matched, so that the angle range of controllable adjustment of the communication exchange terminal is enlarged, and the limitation of the communication exchange terminal in the signal transmission direction is avoided; the rotating rod 53 and the transmission rod 54 are arranged, and the rotating rod 53 on the shell 1 uses the shell as a rotating shaft by utilizing the rotating fit between the two rods, and the transmission rod 54 is driven to rotate correspondingly through the rotating joint 531, so that the deflection control of the directional antenna 5 is realized; the driving ring 55 is arranged at the bottom of the transmission rod 54, so that the moment is increased by the transmission rod 54 controlling the deflection force of the directional antenna 5, the control force required by the rotating rod 53 on the shell 1 is reduced, the deflection of the directional antenna 5 adjusted by the rotating rod 53 is further optimized, and the damage of the acting force to the stability of the terminal in the adjusting process is avoided; the steering ball 56 arranged on the directional antenna 5 is in rotating contact with the ball seat 561 on the radio frequency board 6 to replace the function of a lead wire, and the influence of the directional antenna 5 on a signal output circuit in the reciprocating deflection is avoided; the induction board 11 arranged in the shell 1 supplements the electric quantity of the power supply 3, replaces a plug in the use of the terminal, and accurately controls the direction of a transmission signal by adjusting the deflection angle of the directional antenna 5, so that the power consumption in the operation of the terminal and the capacity requirement of the power supply 3 are reduced; the magnetic sheet 211 arranged on the steering shaft 21 adsorbs the terminal on the base 2, so that the mounting structure of the terminal is simplified, and meanwhile, the vent hole 212 arranged on the steering shaft 21 radiates heat of the power supply 3 at the back position of the shell 1 in the running process, so that the temperature in the terminal is maintained in a stable range.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A communication exchange terminal comprises a shell (1), a base (2) and a power supply (3); a base (2) is arranged above the shell (1), a steering shaft (21) is arranged between the base (2) and the shell (1), and the shell (1) is connected onto the base (2) through the steering shaft (21); the power supply (3) is arranged on the inner wall of one side, facing the base (2), of the shell (1); the method is characterized in that: a processor assembly (4) and a directional antenna (5) are arranged in the shell (1); the processor assembly (4) is positioned below the power supply (3), a fixing rod (41) is arranged on the processor assembly (4) and is installed on the shell (1), and a gap is reserved between the fixing rod and the shell of the shell (1); a back plate (42) is arranged in a gap between the processor assembly (4) and the shell (1), and a connecting rod (421) is arranged on the back plate (42) and is installed on the back of the processor assembly (4); the tail end of the connecting rod (421) is provided with a radio frequency plate (6), the radio frequency plate (6) is provided with a directional antenna (5), the directional antenna (5) is attached to the end surface of the inner side of the shell (1), four corners of the directional antenna (5) are provided with elastic rods (51), and the directional antenna (5) is fixed on the shell (1) through the elastic rods (51); the middle part of the directional antenna (5) is provided with a control rod (52), one end of the control rod (52) is installed in the middle part of the directional antenna (5), the other end of the control rod (52) penetrates through the end face extending out of the shell (1), and the deflection angle of the directional antenna (5) is adjusted through the end part of the control rod (52) on the shell (1).

2. A communication switching terminal according to claim 1, characterized in that: the control rod (52) comprises a rotating rod (53) and a transmission rod (54); the lower end of the rotating rod (53) extends out of the shell (1), the top end of the rotating rod (53) is provided with a driving rod (54), and a rotating joint (531) is arranged between the rotating rod (53) and the driving rod (54); the rotating joint (531) rotatably connects the rotating rod (53) with the transmission rod (54).

3. A communications switching terminal according to claim 2, wherein: the bottom of the transmission rod (54) is provided with a pair of driving rings (55), the driving rings (55) are fixed on a net rack of the directional antenna (5), a driving shaft (551) is arranged between the driving rings (55), and two ends of the driving shaft (551) are fixedly connected on the driving rings (55); the top end of the transmission rod (54) is fixed on the driving shaft (551).

4. A communications switching terminal according to claim 3, wherein: a steering ball (56) is respectively arranged on the directional antenna (5) at the central position of the driving ring (55), a ball seat (561) is arranged between the steering ball (56) and the radio frequency board (6), the ball seat (561) is installed on the radio frequency board (6), and the ball seat (561) is in rotating contact with the steering ball (56); the steering ball (56) is separately and electrically connected with the directional antenna (5) in two perpendicular directions.

5. A communication switching terminal according to claim 1, characterized in that: an induction plate (11) is arranged on the inner wall of one side of the shell (1), and the induction plate (11) is electrically connected with the power supply (3); the power supply (3) in the terminal is charged wirelessly by contact with the position of the sensing plate (11) on the housing (1).

6. A communication switching terminal according to claim 1, characterized in that: a raised magnetic sheet (211) is arranged at the top end of the steering shaft (21), and the steering shaft (21) is fixed on the base (2) through the magnetic sheet (211); the steering shaft (21) is also provided with a vent hole (212) in the circumferential direction.