CN115459792A

CN115459792A - 5G signal receiving equipment and receiving method

Info

Publication number: CN115459792A
Application number: CN202211166824.7A
Authority: CN
Inventors: 黄祥辉; 王维都
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-23
Filing date: 2022-09-23
Publication date: 2022-12-09

Abstract

The invention relates to the technical field of signal receiving equipment and discloses 5G signal receiving equipment and a receiving method. Through updraft ventilator's use, can make the module of bleeding that updraft ventilator included carry out extraction work to the inside gas of protection shield, then make the protection shield can carry out the work of bleeding to the outside through its radiating groove, and then make the inside gas of entering protection shield carry out the work of dispelling the heat to signal receiver, thereby the life of equipment has been improved, wherein the use of filter screen, can carry out filtering work to gas, prevent then that the dust from getting into the inside of protection shield, thereby prevent that signal receiver from being corroded by the dust, the life of equipment has further been improved.

Description

5G signal receiving equipment and receiving method

Technical Field

The invention relates to the technical field of signal receiving equipment, in particular to 5G signal receiving equipment and a receiving method.

Background

The fifth generation mobile communication technology is the latest generation cellular mobile communication technology, which is also an extension behind 4G, 3G and 2G systems. The performance goals of 5G are high data rates, reduced latency, energy savings, reduced cost, increased system capacity, and large-scale device connectivity. The development of 5G also comes from the increasing demand for mobile data. With the development of the mobile internet, more and more devices are connected to the mobile network, new services and applications are in endless, and global mobile broadband users are expected to reach 90 hundred million in 2018, and the capacity of the mobile communication network is expected to increase 1000 times on the current network capacity by 2020. The sudden increase of mobile data traffic will bring serious challenges to the network, and for the transmission and reception of 5G signals, 5G signal receiving equipment is required to work with the network.

At present, most antennas of signal receiving equipment are installed at the rear end of the equipment, then a user is required to continuously adjust the direction and the elevation angle of the receiving antennas to enable the strength of received signals to be strongest, but the emission direction of signal electromagnetic waves is more, the receiving antennas are only adjusted by the rear end, only the equipment can receive the signals at the rear end in a high-strength mode, the signals in the other three directions of the equipment cannot be received in a high-strength mode, the receiving quality of the equipment is further influenced, when the equipment receives the signals, devices in the equipment can generate larger heat, the phenomenon of overheating damage can be caused to the devices, the receiving quality of the signals can be reduced by the damaged devices, and the working quality of the equipment is further influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a 5G signal receiving device and a receiving method, which have the advantages of high-quality signal receiving and heat dissipation and overheating prevention and solve the problems stated above.

The invention provides the following technical scheme: the utility model provides a 5G signal reception equipment, includes base, power, the top fixedly connected with backup pad of base, the inside fixedly connected with signal intensifier of backup pad, the outer fixed surface of signal intensifier is connected with and discharges the antenna, the top fixedly connected with protection shield of backup pad, the center fixedly connected with induction system at protection shield top, the equal fixedly connected with updraft ventilator in both sides at protection shield top, movable groove has all been seted up all around at base top, the inside fixedly connected with rotary rod in movable groove, the surface swing joint of rotary rod has receiving antenna, the cable jack groove has all been seted up to the front end and the rear end of protection shield both sides, the bottom fixedly connected with signal receiver of protection shield inner chamber.

Preferably, radiating grooves are formed in the two sides of the front end and the rear end of the protection plate, a filter screen is fixedly connected to the inside of each radiating groove, clamping grooves are formed in the bottoms of the movable grooves, and the inner surfaces of the clamping grooves are matched with the outer surface of the receiving antenna.

Preferably, the induction system comprises a driver, the bottom of the driver is fixedly connected with a supporting rod, the bottom of the supporting rod penetrates through the protective plate and extends to the inside of the protective plate, the bottom of the supporting rod is fixedly connected with an induction sheet, and the bottom of the induction sheet is in contact with the top of the signal receiver.

Preferably, the driver comprises a signal receiving and releasing module and a circuit conversion module, the signal receiving and releasing module is connected with the induction sheet, and the circuit conversion module is connected with the signal receiving and releasing module.

Preferably, the air draft device comprises an air draft module and an exhaust module, the air draft module is connected with the circuit conversion module, the exhaust module is connected with the air draft module, and the induction sheet, the signal collecting and releasing module, the circuit conversion module, the air draft module and the exhaust module form a heat dissipation system.

Preferably, the signal receiver includes a first beam retracting module, a beam synthesis module, a beam filtering module, a beam processing module, a beam separation module, and a second beam retracting module, the first beam retracting module is connected to the receiving antenna, the beam synthesis module is connected to the first beam retracting module, the beam filtering module is connected to the beam synthesis module, the beam processing module is connected to the beam filtering module, the beam separation module is connected to the beam processing module, the second beam retracting module is connected to the beam separation module and the cable jack slot, and the first beam retracting module, the beam synthesis module, the beam filtering module, the beam processing module, the beam separation module, the second beam retracting module, and the receiving antenna form a signal receiving system.

Preferably, the power supply comprises a third beam folding and unfolding module, an anti-electromagnetic interference module and a beam enhancement module, the third beam folding and unfolding module is connected with the second beam folding and unfolding module, the anti-electromagnetic interference module is connected with the third beam folding and unfolding module, the beam enhancement module is connected with the anti-electromagnetic interference module, and the second beam folding and unfolding module, the third beam folding and unfolding module, the anti-electromagnetic interference module, the beam enhancement module, the cable jack slot and the emission antenna form a signal enhancement and emission system.

The signal receiving method of the 5G signal receiving equipment comprises the following steps:

the method comprises the following steps: the power supply is turned on, so that current flows into the two circuits of the signal receiver and the sensing device respectively, wherein the four receiving antennas of the circuit of the signal receiver can carry out all receiving work on signals around the equipment and then transmit the signals to the first beam receiving and releasing module included by the signal receiver, and the sensing piece of the circuit of the sensing device can carry out sensing work on the temperature of the signal receiver.

Step two: the first beam receiving and releasing module transmits the received signals to the beam synthesis module, the beam filtering module, the beam processing module, the beam separation module and the second beam receiving and releasing module in sequence, wherein the beam synthesis module combines all the signals, the beam filtering module filters and denoises the signals, the beam processing module classifies the filtered and denoised signals, the beam separation module separates the classified signals, and the second beam receiving and releasing module transmits the separated signals to the cable jack slot and the third beam receiving and releasing module.

Step three: the cable jack slot can be connected with the cable, then can carry out signal transmission work to the computer, and the third wave beam receive and releases the module then transmits the signal to anti-electromagnetic interference module, wave beam reinforcing module and emission antenna department in proper order, and wherein anti-electromagnetic interference module can prevent that the electromagnetism from causing the interference phenomenon to the signal, and wave beam reinforcing module can strengthen the signal, and the emission antenna can outwards transmit the signal after the reinforcing, lets the user can utilize the electronic product to receive the work to the signal then.

Step four: in the process of operation in step two and step three, under the condition that the temperature of sensing signal receiver appears rising when the response piece, can receive and release module transmission signal to the signal, make circuit conversion module change the circuit then, and then make updraft ventilator move inside pump module and exhaust module to make outside natural wind get into the inside of protection shield, and then carry out the heat dissipation work to signal receiver.

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

1. the 5G signal receiving equipment and the receiving method can completely absorb signals outside the equipment through receiving antennas capable of receiving the signals all around, thereby improving the receiving efficiency of the equipment to the signals, wherein the beam synthesis module, the beam filtering module and the beam processing module are used in a matched mode, the signals can be merged, the filtering and classifying work is carried out, further, the signals which are not needed by a user are eliminated, further, the receiving quality of the equipment is improved, the beam separation module and the second beam receiving and releasing module are used in a matched mode, the equipment has two signal transmission modes of line transmission and wireless transmission, further, the transmission efficiency of the equipment is improved, and the wireless transmission signals can be enhanced through the matched use of the anti-electromagnetic interference module and the beam enhancing module, further, the signal transmission quality of the equipment is improved.

2. This 5G signal reception equipment and receiving method through induction system's use, can respond to the work to signal receiver's temperature, and wherein circuit conversion module's use can sense signal receiver temperature when rising to the circuit conversion work, makes updraft ventilator then begin to operate, and when signal receiver's temperature did not rise, then updraft ventilator can not operate, and then reduced the consumption of the energy to the energy-conservation of equipment has been improved.

3. This 5G signal reception equipment and receiving method, use through updraft ventilator, can make the module of bleeding that updraft ventilator included to the inside gas of protection shield extract work, then make the protection shield can bleed work to the outside through its radiating groove, and then make the inside gas of entering protection shield carry out the heat dissipation work to signal receiver, thereby the life of equipment has been improved, wherein the use of filter screen, can carry out the filter work to gas, then prevent that the dust from getting into the inside of protection shield, thereby prevent that signal receiver from being corroded by the dust, the life of equipment has further been improved.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a top cross-sectional view of the structure of the present invention;

FIG. 3 is a front cross-sectional view of the structure of the present invention;

FIG. 4 is a circuit diagram illustrating the operation of the present invention;

FIG. 5 is a diagram of a heat dissipation system of the present invention;

FIG. 6 is a diagram of a signal receiving system according to the present invention;

FIG. 7 is a diagram of a structural signal enhancing venting system of the present invention.

In the figure: 1. a base; 2. a support plate; 3. a signal booster; d-1, a third beam receiving and releasing module; d-2, an anti-electromagnetic interference module; d-3, a beam enhancement module; 4. an exhaust antenna; 5. a protection plate; 6. an induction device; 601. a driver; a-1, a signal receiving and releasing module; a-2, a circuit conversion module; 602. a support bar; 603. an induction sheet; 7. an air draft device; b-1, an air extraction module; b-2, an exhaust module; 8. rotating the rod; 9. a receiving antenna; 10. a filter screen; 11. a cable jack slot; 12. a signal receiver; c-1, a first beam receiving and releasing module; c-2, a beam synthesis module; c-3, a wave beam filtering module; c-4, a beam processing module; c-5, a beam separation module; c-6, a second beam receiving and releasing module; 13. a power source.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4, a 5G signal receiving apparatus, which comprises a base 1, a power supply 13, the power supply 13 is turned on, and can perform current transmission work on a signal receiver 12 and an induction device 6, so that the signal receiver 12 and the induction device 6 start to operate, a supporting plate 2 is fixedly connected to the top of the base 1, the supporting plate 2 is used, not only can support the protecting plate 5, but also can protect the signal enhancer 3, a signal enhancer 3 is fixedly connected to the inside of the supporting plate 2, an emission antenna 4 is fixedly connected to the outer surface of the signal enhancer 3, and the protecting plate 5 is fixedly connected to the top of the supporting plate 2.

Wherein the radiating groove has all been seted up to the both sides of protection shield 5 front end and rear end, the setting up of radiating groove, make the outside natural wind of protection shield 5 can get into the inside of protection shield 5, then can carry out the heat dissipation work to signal receiver 12, the inside fixedly connected with filter screen 10 of radiating groove, the use of filter screen 10, can carry out filtering work to natural wind, and then prevent that the dust from getting into the inside of protection shield 5, the joint groove has all been seted up to the bottom of activity groove, the setting up of joint groove, can be when equipment stops the operation, carry out buckle work to receiving antenna 9, and then the area of equipment has been reduced, the internal surface in joint groove and receiving antenna 9's surface looks adaptation.

Wherein center fixedly connected with induction system 6 at protection shield 5 top, induction system 6 is including driver 601, the use of driver 601, can be so that response piece 603 begins the operation, the bottom fixedly connected with bracing piece 602 of driver 601, the use of bracing piece 602, can support the work to response piece 603, the bottom of bracing piece 602 runs through protection shield 5 and extends to inside, and the bottom fixedly connected with of bracing piece 602 responds to piece 603, the operation of response piece 603, can respond to the work to the temperature of signal receiver 12, the bottom of response piece 603 contacts with the top of signal receiver 12.

Wherein the equal fixedly connected with updraft ventilator 7 in both sides at protection shield 5 top, the activity groove has all been seted up all around at 1 top of base, the inside fixedly connected with rotary rod 8 in activity groove, rotary rod 8's use, can make receiving antenna 9 rotate, then adjust receiving antenna 9's receiving position, rotary rod 8's surface swing joint has receiving antenna 9, be located the receiving antenna 9 of four directions, can receive protection shield 5 signals all around, and then improved equipment received signal's efficiency, cable jack groove 11 has all been seted up to the front end and the rear end at protection shield 5 both sides, seting up of cable jack groove 11, make the user can be connected cable and protection shield 5, the bottom fixedly connected with signal receiver 12 of protection shield 5 inner chamber.

Referring to fig. 5, 6 and 7, the driver 601 includes a signal receiving and releasing module a-1 and a circuit converting module a-2, and the circuit converting module a-2 is used to enable the device to have two current transmission modes, so as to reduce energy consumption, the signal receiving and releasing module a-1 is connected to the sensing strip 603, so that a signal sensed by the sensing strip 603 can be transmitted to the signal receiving and releasing module a-1, and then the recognized signal is transmitted to the circuit converting module a-2, so as to enable the circuit converting module a-2 to operate or close, the circuit converting module a-2 is connected to the signal receiving and releasing module a-1, the air draft device 7 includes an air extracting module B-1 and an air exhausting module B-2, the air extracting module B-1 and the air exhausting module B-2 are used in cooperation, so that when the air extracting device 7 operates, air in the interior of the protective plate 5 is extracted and then exhausted out of the device, so as to accelerate natural wind entering the interior of the protective plate 5, thereby improving the air extracting efficiency of the protective plate device, the air extracting module B-1 is connected to the radiating module a-2, the radiating module a-1-2, and the radiating module a-1-2, and the radiating module B-2 are connected to form a radiating system, and the radiating module a radiating system.

Wherein the signal receiver 12 comprises a first beam receiving and releasing module C-1, a beam synthesizing module C-2, a beam filtering module C-3, a beam processing module C-4, a beam separating module C-5 and a second beam receiving and releasing module C-6, the first beam receiving and releasing module C-1 is connected with the receiving antenna 9, the first beam receiving and releasing module C-1 is used for receiving the signals transmitted by the receiving antenna 9 and then transmitting the signals to the beam synthesizing module C-2, the beam synthesizing module C-2 is connected with the first beam receiving and releasing module C-1, the beam synthesizing module C-2 can combine all the signals so as to facilitate the subsequent modules to process the signals, the beam filtering module C-3 is connected with the beam synthesizing module C-2, the use of the wave beam filtering module C-3 can filter signals and further improve the quality of the signals, the wave beam processing module C-4 is connected with the wave beam filtering module C-3, the use of the wave beam processing module C-4 can classify all the signals and further discharge useless signals, the wave beam separation module C-5 is connected with the wave beam processing module C-4, the use of the wave beam separation module C-5 can separate the signals into two parts, the second wave beam receiving and releasing module C-6 is connected with the wave beam separation module C-5 and the cable jack slot 11, the use of the second wave beam receiving and releasing module C-6 can respectively transmit the two signals to the cable jack slot 11 and the third wave beam receiving and releasing module D-1, the first wave beam receiving and releasing module C-1, the second wave beam receiving and releasing module C-6, the beam synthesis module C-2, the beam filtering module C-3, the beam processing module C-4, the beam separation module C-5, the second beam receiving and releasing module C-6 and the receiving antenna 9 form a signal receiving system.

The power supply 13 comprises a third beam folding and unfolding module D-1, an anti-electromagnetic interference module D-2 and a beam enhancement module D-3, the third beam folding and unfolding module D-1 is connected with the second beam folding and unfolding module C-6, the anti-electromagnetic interference module D-2 is connected with the third beam folding and unfolding module D-1, the anti-electromagnetic interference module D-2 is used for preventing electromagnetic interference from interfering with signals, the beam enhancement module D-3 is connected with the anti-electromagnetic interference module D-2, the beam enhancement module D-3 is used for enhancing the signals, and therefore a user can conveniently receive wireless signals, and the second beam folding and unfolding module C-6, the third beam folding and unfolding module D-1, the anti-electromagnetic interference module D-2, the beam enhancement module D-3, the cable jack slot 11 and the emission antenna 4 form a signal enhancement emission system.

the method comprises the following steps: the power supply 13 is turned on, so that current flows into two circuits, namely the signal receiver 12 and the sensing device 6, respectively, wherein the four receiving antennas 9 of one circuit, namely the signal receiver 12, can perform all receiving work on signals around the equipment, and then the signals are transmitted to the first beam receiving and releasing module C-1 included in the signal receiver 12, and the sensing piece 603 of one circuit, namely the sensing device 6, can perform sensing work on the temperature of the signal receiver 12.

Step two: the first beam folding and unfolding module C-1 sequentially transmits the received signals to the beam synthesis module C-2, the beam filtering module C-3, the beam processing module C-4, the beam separating module C-5 and the second beam folding and unfolding module C-6, wherein the beam synthesis module C-2 combines all the signals, the beam filtering module C-3 filters and de-noises the signals, the beam processing module C-4 classifies the filtered and de-noised signals, the beam separating module C-5 separates the classified signals, and the second beam folding and unfolding module C-6 transmits the separated signals to the cable jack slot 11 and the third beam folding and unfolding module D-1.

Step three: the cable jack slot 11 can be connected with a cable, and then can carry out signal transmission work on a computer, the third beam collecting and releasing module D-1 sequentially transmits signals to the anti-electromagnetic interference module D-2, the beam enhancement module D-3 and the discharging antenna 4, wherein the anti-electromagnetic interference module D-2 can prevent electromagnetism from causing interference phenomena on the signals, the beam enhancement module D-3 can enhance the signals, the discharging antenna 4 can outwards transmit the enhanced signals, and then a user can use an electronic product to receive the signals.

Step four: in the operation process of the second step and the third step, when the sensing piece 603 senses that the temperature of the signal receiver 12 rises, the signal receiving and releasing module a-1 is transmitted, the circuit conversion module a-2 changes the circuit, and the air exhaust device 7 operates the internal air exhaust module B-1 and the internal air exhaust module B-2, so that external natural wind enters the protection plate 5, and the signal receiver 12 is cooled.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. A5G signal receiving device comprises a base (1) and a power supply (13), and is characterized in that: the utility model discloses a signal processing device, including base (1), the top fixedly connected with backup pad (2) of base (1), the inside fixedly connected with signal intensifier (3) of backup pad (2), the outer fixed surface of signal intensifier (3) is connected with and discharges antenna (4), the top fixedly connected with protection shield (5) of backup pad (2), the central fixedly connected with induction system (6) at protection shield (5) top, the equal fixedly connected with updraft ventilator (7) in both sides at protection shield (5) top, movable groove has all been seted up all around at base (1) top, the inside fixedly connected with rotary rod (8) in movable groove, the surface swing joint of rotary rod (8) has receiving antenna (9), cable jack groove (11) have all been seted up to the front end and the rear end of protection shield (5) both sides, the bottom fixedly connected with signal receiver (12) of protection shield (5) inner chamber.

2. A 5G signal receiving apparatus according to claim 1, wherein: the radiating grooves are formed in the two sides of the front end and the rear end of the protective plate (5), the filter screen (10) is fixedly connected to the inner portion of each radiating groove, the bottom of each movable groove is provided with a clamping groove, and the inner surface of each clamping groove is matched with the outer surface of the corresponding receiving antenna (9).

3. A 5G signal receiving apparatus according to claim 1, wherein: induction system (6) including driver (601), the bottom fixedly connected with bracing piece (602) of driver (601), the bottom of bracing piece (602) is run through protection shield (5) and is extended to its inside, and the bottom fixedly connected with of bracing piece (602) responds to piece (603), the bottom of responding to piece (603) contacts with signal receiver (12)'s top.

4. A 5G signal receiving apparatus according to claim 3, wherein: the driver (601) comprises a signal receiving and releasing module (A-1) and a circuit conversion module (A-2), the signal receiving and releasing module (A-1) is connected with the induction sheet (603), and the circuit conversion module (A-2) is connected with the signal receiving and releasing module (A-1).

5. A5G signal receiving apparatus according to claim 4, wherein: the air draft device (7) comprises an air draft module (B-1) and an air exhaust module (B-2), the air draft module (B-1) is connected with a circuit conversion module (A-2), the air exhaust module (B-2) is connected with the air draft module (B-1), and the induction sheet (603), the signal folding and unfolding module (A-1), the circuit conversion module (A-2), the air draft module (B-1) and the air exhaust module (B-2) form a heat dissipation system.

6. A 5G signal receiving apparatus according to claim 1, wherein: the signal receiver (12) comprises a first wave beam receiving and releasing module (C-1), a wave beam synthesizing module (C-2), a wave beam filtering module (C-3), a wave beam processing module (C-4), a wave beam separating module (C-5) and a second wave beam receiving and releasing module (C-6), the first beam receiving and releasing module (C-1) is connected with a receiving antenna (9), the beam synthesis module (C-2) is connected with the first beam receiving and releasing module (C-1), the beam filtering module (C-3) is connected with the beam synthesis module (C-2), the beam processing module (C-4) is connected with the beam filtering module (C-3), the beam separation module (C-5) is connected with the beam processing module (C-4), the second beam retraction module (C-6) is connected with the beam separation module (C-5) and the cable jack slot (11), the first wave beam receiving and releasing module (C-1), the wave beam synthesizing module (C-2), the wave beam filtering module (C-3), the wave beam processing module (C-4), the wave beam separating module (C-5), the second wave beam receiving and releasing module (C-6) and the receiving antenna (9) form a signal receiving system.

7. The apparatus of claim 6, wherein: the power supply (13) comprises a third beam folding and unfolding module (D-1), an anti-electromagnetic interference module (D-2) and a beam enhancement module (D-3), the third beam folding and unfolding module (D-1) is connected with the second beam folding and unfolding module (C-6), the anti-electromagnetic interference module (D-2) is connected with the third beam folding and unfolding module (D-1), the beam enhancement module (D-3) is connected with the anti-electromagnetic interference module (D-2), and the second beam folding and unfolding module (C-6), the third beam folding and unfolding module (D-1), the anti-electromagnetic interference module (D-2), the beam enhancement module (D-3), a cable jack slot (11) and an emission antenna (4) form a signal enhancement emission system.

8. A 5G signal receiving apparatus and receiving method according to any one of claims 1 to 7, comprising the steps of:

the method comprises the following steps: the power supply (13) is turned on, so that current flows into two circuits, namely the signal receiver (12) and the sensing device (6), wherein four receiving antennas (9) of one circuit, namely the signal receiver (12), can completely receive signals around the equipment and then transmit the signals to a first beam receiving and releasing module (C-1) included by the signal receiver (12), and a sensing piece (603) of one circuit, namely the sensing device (6), can sense the temperature of the signal receiver (12).

Step two: the first beam receiving and releasing module (C-1) transmits the received signals to the beam synthesis module (C-2), the beam filtering module (C-3), the beam processing module (C-4), the beam separating module (C-5) and the second beam receiving and releasing module (C-6) in sequence, wherein the beam synthesis module (C-2) combines all the signals, the beam filtering module (C-3) filters and de-noises the signals, the beam processing module (C-4) classifies the filtered and de-noised signals, the beam separating module (C-5) separates the classified signals, and the second beam receiving and releasing module (C-6) transmits the separated signals to the cable jack slot (11) and the third beam receiving and releasing module (D-1).

Step three: the cable jack slot (11) can be connected with a cable, and then can carry out signal transmission work on a computer, the third beam folding and unfolding module (D-1) sequentially transmits signals to the anti-electromagnetic interference module (D-2), the beam enhancement module (D-3) and the emission antenna (4), wherein the anti-electromagnetic interference module (D-2) can prevent electromagnetism from interfering the signals, the beam enhancement module (D-3) can enhance the signals, the emission antenna (4) can outwards transmit the enhanced signals, and then a user can use an electronic product to receive the signals.

Step four: in the operation process of the second step and the third step, when the sensing piece (603) senses the temperature rise of the signal receiver (12), the sensing piece transmits a signal to the signal receiving and releasing module (A-1), so that the circuit conversion module (A-2) changes a circuit, the air exhaust module (B-1) and the air exhaust module (B-2) inside the air exhaust device (7) operate, external natural wind enters the protection plate (5), and the signal receiver (12) is cooled.