CN112350915A

CN112350915A - High-density WLAN management terminal

Info

Publication number: CN112350915A
Application number: CN202011012251.3A
Authority: CN
Inventors: ***; 邵剑集; 陈贤; 施郁文; 孙豪
Original assignee: Wenzhou Polytechnic
Current assignee: Wenzhou Polytechnic
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2021-02-09
Anticipated expiration: 2040-09-23
Also published as: CN112350915B

Abstract

The invention discloses a high-density WLAN management terminal, which comprises a receiving module, a processing module and a processing module, wherein the receiving module is used for receiving WLAN information acquired by an external acquisition terminal; the antenna module is used for improving the communication strength between the receiving terminal and an external acquisition terminal; the analysis module analyzes the density according to the WLAN information; the comparison module compares the previous density with the currently obtained density information to obtain density change information; and the report module is used for tabulating and outputting according to the plurality of intensity change information. The invention is convenient for regularly managing the WLAN of the city.

Description

High-density WLAN management terminal

Technical Field

The invention relates to the field of internet, in particular to a high-density WLAN management terminal.

Background

The development of digitization promotes the comprehensive layout of wireless network in city, and wireless network is as the basis of thing networking, can let whole city get into intellectuality, therefore the WLAN overall arrangement in city is essential process. But the evolution of a city is variable and as traffic changes, the layout of a city WLAN needs to be adapted. Therefore, the WLAN density of a city needs to be collected and managed regularly, especially for areas with higher density, and the WLAN layout needs to be managed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a high-density WLAN management terminal which is convenient for regularly managing urban WLANs.

In order to achieve the purpose, the invention provides the following technical scheme: a high-density WLAN management terminal comprises

The receiving module is used for receiving the WLAN information acquired by the external acquisition terminal;

the antenna module is used for improving the communication strength between the receiving terminal and an external acquisition terminal;

the analysis module analyzes the density according to the WLAN information;

the comparison module compares the previous density with the currently obtained density information to obtain density change information;

and the report module is used for tabulating and outputting according to the plurality of intensity change information.

As a further improvement of the present invention, the antenna module is connected to a receiving module, the receiving module includes a housing and a receiving circuit disposed inside the housing, the antenna module includes an antenna body and a connecting member for connecting the antenna body to the receiving circuit, the connecting member includes a base disposed on the receiving circuit and a plug connector connected to the antenna, and the base is detachably connected to the plug connector; the antenna comprises a base, a connector and a receiving circuit, wherein the base is provided with a receiving circuit, the receiving circuit is connected with the base, the connector is provided with a contact plate and a through hole which are electrically connected with an antenna, the base is provided with a conductive elastic sheet which is electrically connected with the receiving circuit, and when the connector is plugged with the base, the conductive elastic sheet is abutted against the contact plate.

As a further improvement of the invention, the base is provided with a slot for inserting the plug connector, when the plug connector is inserted into the slot, the contact piece is abutted against the slot wall of the slot, and the conductive elastic piece is abutted against the contact piece after passing through the through hole after the plug connector is inserted in place.

As a further improvement of the invention, the plug connector comprises a vertical plate and a transverse plate, the vertical plate and the transverse plate are mutually connected to form an L shape, and the through hole comprises two T-shaped clamping grooves respectively formed in the transverse plate and the vertical plate; the base is provided with a clamping block corresponding to the T-shaped clamping groove on the vertical plate, and when the transverse plate is inserted into the slot in place, the clamping block is embedded into the clamping groove; the conductive elastic sheet is positioned at the position of the base corresponding to the clamping groove of the transverse plate, and when the transverse plate is inserted into the slot in place, the conductive elastic sheet is bounced and embedded into the clamping groove and abutted against the contact sheet.

As a further improvement of the invention, the plug connector also comprises triangular side plates, the two triangular side plates are fixedly connected between the vertical plate and the transverse plate and respectively positioned at two sides of the transverse plate and the side plates to form an enclosure with the transverse plate and the side plates, and the slot is shaped like a [ -shape and is adaptive to the enclosure formed by the transverse plate, the side plates and the vertical plate.

As a further improvement of the invention, the two sides of the conductive elastic sheet on the base are also provided with auxiliary elastic sheets, the positions of the auxiliary elastic sheets correspond to the two transverse sides of the T-shaped clamping groove on the vertical plate, and when the conductive elastic sheets are embedded into the clamping grooves, the auxiliary elastic sheets are embedded into the two transverse sides of the clamping grooves and are abutted against the contact sheets.

As a further improvement of the present invention, the auxiliary spring is made of a conductive material and electrically connected to the receiving circuit, and when the auxiliary spring abuts against the contact, the auxiliary spring is conducted to the contact to transmit the electrical signal.

As a further improvement of the invention, the lower surface of the T-shaped clamping groove on the transverse plate is provided with a limiting inclined surface, and when the conductive elastic sheet is bounced and embedded into the clamping groove, one end of the conductive elastic sheet is attached to the limiting inclined surface.

As a further improvement of the invention, one end of the transverse plate, which is far away from the vertical plate, is provided with a guide inclined surface, an embedded groove is arranged on the transverse plate in the extension direction of the guide inclined surface, and a raised elastic sheet is arranged on the base at a position corresponding to the embedded groove; when the transverse plate is inserted into the base, the protruding elastic sheet is pressed down under the action of the guide inclined plane, and after the transverse plate is inserted in place, the protruding elastic sheet is bounced and embedded into the embedded groove.

As a further improvement of the invention, the analysis module also acquires the current regional pedestrian volume; the comparison module is also used for comparing the previous flow rate with the currently obtained flow rate to obtain the flow rate change information and feeding the flow rate change information back to the analysis module; the analysis module analyzes the acquired density adjustment value according to the people flow change information and sends the density adjustment value to the report module; the reporting module also outputs the density adjustment value.

The invention has the advantages that the receiving module is used for receiving the WLAN information acquired by the external acquisition terminal, the antenna module is used for improving the communication strength, good communication between the receiving module and the aircraft can be ensured, the communication distance is improved, the aircraft can feed back data at a farther place after acquisition, the aircraft can quickly enter the next area for acquiring the WLAN information after the feedback is finished, the energy consumption can be reduced, and the efficiency can be improved. The WLAN information comprises the position and the coverage range of the WLAN, the collected WLAN density can be obtained through the analysis module, the comparison module is used for comparing, the difference between the current density and the previous density can be obtained, the report module is used for making a chart form for outputting, the change degree of the density is reflected, the damage condition of the WLAN can be further obtained, the change rule of the WLAN layout can be approximately obtained according to the curve of the chart, and whether the WLAN layout needs to be adjusted, such as density increase or gravity center shift, can be predicted.

Drawings

FIG. 1 is a block diagram of the modules of the present invention;

FIG. 2 is a schematic flow chart of the present invention;

FIG. 3 is a schematic view of the connector assembly of the present invention;

FIG. 4 is a schematic view of another perspective structure of the connector of the present invention;

FIG. 5 is a schematic view of the mating structure of the connector and the base of the present invention.

Reference numerals: 1. a receiving module; 2. an antenna module; 3. an analysis module; 4. a comparison module; 5. a report module; 61. a base; 62. a plug-in unit; 70. a vertical plate; 71. a transverse plate; 72. a side plate; 73. a card slot; 74. a guide slope; 75. a groove is embedded; 76. a raised elastic sheet; 77. a conductive spring plate; 78. an auxiliary spring plate; 79. a limiting inclined plane; 80. a clamping block; 81. a slot; 82. a contact piece.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to fig. 1 to 5, a high-density WLAN management terminal of the embodiment includes

The receiving module 1 is used for receiving WLAN information acquired by an external acquisition terminal;

the antenna module 2 is used for improving the communication strength between the receiving terminal and an external acquisition terminal;

the analysis module 3 analyzes the density according to the WLAN information;

the comparison module 4 is used for comparing the previous density with the currently obtained density information to obtain density change information;

and the report module 5 is used for making a report according to the plurality of intensity change information and outputting the report.

The terminal firstly collects WLAN information through the external collection terminals matched with each other, a land trolley or an aircraft can be adopted, the terminal is preferably an aircraft, and the terminal capable of collecting the WLAN information is installed on the aircraft.

The receiving module 1 is used for receiving the WLAN information collected by the external collecting terminal, the antenna module 2 is used for improving the communication strength, good communication between the receiving module 1 and the aircraft can be ensured, the communication distance is improved, the aircraft can feed back data at a farther place after collection, the aircraft can quickly enter a next area to collect the WLAN information after the feedback is finished, and the energy consumption can be reduced and the efficiency can be improved. The WLAN information comprises the position and the coverage range of the WLAN, the collected WLAN density can be obtained through the analysis module 3, the comparison module 4 is used for comparing, the difference between the current density and the previous density can be obtained, the report module 5 is used for making a chart form for outputting, the change degree of the density is reflected, the damage condition of the WLAN can be further obtained, the change rule of the WLAN layout can be approximately obtained according to the curve of the chart, and whether the WLAN layout needs to be adjusted, such as density increase or gravity center shift, can be predicted.

Therefore, the scheme can enable the WLAN management with high density to be more convenient, can intelligently collect and compare, and finally look up the report, and the scheme adopts the aircraft to combine with the additional antenna module 2 to play a certain energy-saving role.

As a preferred embodiment of the antenna module 2 and the receiving module 1, the antenna module 2 is connected with the receiving module 1, the receiving module 1 includes a housing and a receiving circuit disposed inside the housing, the antenna module 2 includes an antenna body and a connecting member for connecting the antenna body with the receiving circuit, the connecting member includes a base 61 disposed on the receiving circuit and a plug-in connector 62 connected with the antenna, and the base 61 is detachably connected with the plug-in connector 62; the plug 62 is provided with a contact plate 82 and a through hole which are electrically connected with the antenna, the base 61 is provided with a conductive elastic sheet 77 which is electrically connected with the receiving circuit, and when the plug 62 is plugged with the base 61, the conductive elastic sheet 77 is abutted against the contact plate 82 through the through hole.

Because antenna module 2 sets up and adopts the detachable mode can let receiving module 1's carry more convenient, perhaps assemble more convenient, can carry out antenna module 2's selection and installation according to actual demand whether. In this scheme, in the mounting means of concrete adoption, can connect both detachable through the connecting piece, and the mode of connection adopts the grafting, the mounting means operation degree of difficulty of grafting is low, and the installation rate is fast, after the grafting, utilize the through-hole on plug connector 62 and the conductive elastic sheet 77 on the contact piece 82 cooperation base 61 on the plug connector 62, can switch on fast in quick installation, specifically, conductive elastic sheet 77 is after bounce, the through-hole has been passed through, then contradict each other with contact piece 82, can utilize the through-hole to fix a position conductive elastic sheet 77, let conductive elastic sheet 77's contact effect better, after conductive elastic sheet 77 imbeds the through-hole simultaneously, can react on plug connector 62, certain limiting displacement has to plug connector 62, improve the joint strength of plug connector 62.

More specifically, the base 61 is provided with a slot 81 for inserting the plug 62, when the plug 62 is inserted into the slot 81, the contact piece 82 abuts against a slot wall of the slot 81, and after the plug 62 is inserted in place, the conductive elastic piece 77 abuts against the contact piece 82 after passing through the through hole.

Through slot 81's setting, can contact 82 contradict with slot 81's cell wall, combine the through-hole to conductive elastic sheet 77's location, when conductive elastic sheet 77 bounces, can contradict with contact 82, including the reaction of slot 81's cell wall, can let contact 82 and shell fragment tightly laminate, make its stable switch on, and then accomplish the transmission of signal, this combination mode can let conductive elastic sheet 77 better with contact 82's mating reaction, and conductive elastic sheet 77 has the positioning action under the effect of through-hole, the complex effect has further been improved, it is more stable effective to make its pain guide effect. And the adopted structure is simple and effective, and is convenient to implement.

Furthermore, the plug connector 62 comprises a vertical plate 70 and a transverse plate 71, the vertical plate 70 and the transverse plate 71 are connected with each other to form an L shape, and the through hole comprises two T-shaped clamping grooves 73 which are respectively formed in the transverse plate 71 and the vertical plate 70; a clamping block 80 corresponding to the T-shaped clamping groove 73 on the vertical plate 70 is arranged on the base 61, and when the transverse plate 71 is inserted into the slot 81 in place, the clamping block 80 is embedded into the clamping groove 73; the conductive elastic sheet 77 is located at a position of the base 61 corresponding to the slot 73 of the horizontal plate 71, and when the horizontal plate 71 is inserted into the slot 81, the conductive elastic sheet 77 is inserted into the slot 73 and abuts against the contact 82.

When the transverse plate 71 is inserted in place, the clamping block 80 on the base 61 is embedded into the T-shaped groove of the vertical plate 70 to limit the vertical plate 70, so that the fixing effect is further improved, and the transverse plate 71 and the vertical plate 70 are matched, so that the limiting effect of the conductive elastic sheet 77 on the transverse plate 71 in the vertical direction and the fixing effect of the clamping block 80 on the vertical plate 70 in the horizontal direction can be combined, and the transverse plate 71 and the vertical plate 70 can be fixed simultaneously. Specifically, the latch 80 can be combined with the existing hook structure to fix the vertical plate 70, and at this time, the vertical plate 70 can be stably fixed on the base 61. The locking groove 73 is T-shaped and can be combined with the locking block 80, so that the locking block 80 can be supported in the horizontal and vertical directions. In addition, the conductive elastic sheet 77 is combined, so that the conductive elastic sheet 77 has enough space movement in the length direction.

In a further arrangement, the plug 62 further comprises two triangular side plates 72, the two triangular side plates 72 are fixedly connected between the vertical plate 70 and the transverse plate 71 and are respectively positioned at two sides of the transverse plate 71 and the side plates 72 to form an enclosure with the transverse plate 71 and the side plates 72, and the slot 81 is shaped like a [ "and is adapted to the enclosure formed by the transverse plate 71, the side plates 72 and the vertical plate 70.

The plug connector 62 forms a surrounding structure through the triangular side plates 72, the vertical plates 70 and the transverse plates 71, and the side plates 72 can be used for positioning the transverse plates 71 by matching with the [ -shaped slots 81, so that the connecting structure is more stable.

Furthermore, the two sides of the conductive elastic sheet 77 on the base 61 are further provided with auxiliary elastic sheets 78, the positions of the auxiliary elastic sheets 78 correspond to the two lateral sides of the T-shaped slot 73 on the vertical plate 70, and when the conductive elastic sheet 77 is embedded into the slot 73, the auxiliary elastic sheets 78 are embedded into the two lateral sides of the slot 73 and abut against the contact sheet 82.

Moreover, the auxiliary spring plate 78 is made of conductive material and electrically connected to the receiving circuit, and when the auxiliary spring plate 78 abuts against the contact plate 82, the auxiliary spring plate 78 is conducted to the contact plate 82 to transmit the electrical signal.

Utilize supplementary shell fragment 78 to combine electrically conductive shell fragment 77, constitute the cooperation relation with the draw-in groove 73 of T type, electrically conductive shell fragment 77 is located the center pin position of T type, supplementary shell fragment 78 is located the both sides of the horizontal portion of T type, can constitute stable contact effect this moment, supplementary shell fragment 78 cooperation electrically conductive shell fragment 77, all constitute conflict relation with the circuit board on diaphragm 71, carry out signal transmission, consequently, supplementary effect has, and the protruding shell fragment 76 of cooperation can further assist the circuit board on diaphragm 71 and electrically conductive shell fragment 77's contact effect, the cell wall through slot 81 on the base 61 adds the support of supplementary shell fragment 78 to contact 82, can let diaphragm 71 and contact 82 all conflict with the cell wall of slot 81 on the base 61, and then let contact and supplementary shell fragment 78 and electrically conductive shell fragment 77 on the contact 82 fully contact electrically.

In addition, the lower surface of the T-shaped slot 73 on the horizontal plate 71 is provided with a limiting inclined surface 79, and when the conductive elastic sheet 77 is bounced and embedded in the slot 73, one end of the conductive elastic sheet 77 is attached to the limiting inclined surface 79.

The spacing inclined plane 79 that sets up can cooperate electrically conductive shell fragment 77, utilizes spacing inclined plane 79 and electrically conductive shell fragment 77's laminating effect, improves electrically conductive shell fragment 77's intensity, restricts electrically conductive shell fragment 77's deformation promptly through spacing inclined plane 79 to electrically conductive shell fragment 77's supporting effect, and then improves the contact effect.

Preferably, a guide inclined surface 74 is arranged at one end of the horizontal plate 71 far away from the vertical plate 70, an embedded groove 75 is arranged on the horizontal plate 71 in the extension direction of the guide inclined surface 74, and a protruding elastic sheet 76 is arranged on the base 61 corresponding to the embedded groove 75; when the transverse plate 71 is inserted into the base 61, the protruding elastic sheet 76 is pressed down by the guiding inclined surface 74, and after the transverse plate 71 is inserted in place, the protruding elastic sheet 76 is inserted into the embedded groove 75 in a bouncing manner.

As shown in the figure, the direction inclined plane 74 is an inclined plane recess on the diaphragm 71, protruding shell fragment 76 that sets up cooperates this direction inclined plane 74, can play the effect of location, guide diaphragm 71's inserted position, and insert the back in place at diaphragm 71, protruding shell fragment 76 can be embedded into embedded groove 75, can further fix diaphragm 71 this moment, cooperate protruding shell fragment 76 can further assist the contact effect of contact 82 and conductive elastic piece 77 on the diaphragm 71 simultaneously, protruding shell fragment 76 can prop up diaphragm 71, diaphragm 71 and slot 81's cell wall cooperation centre gripping contact 82 this moment, it is more stable when the contact effect, stronger antidetonation effect has simultaneously.

In addition, the analysis module 3 also obtains the current regional pedestrian volume; the comparison module 4 also compares the past flow rate with the current flow rate to obtain the change information of the flow rate and feeds the change information back to the analysis module 3; the analysis module 3 also analyzes according to the people flow change information to obtain a density adjustment value and sends the density adjustment value to the report module 5; the reporting module 5 also outputs the density adjustment value.

The analysis module 3 can access a big data interface or a terminal with a human shadow recognition and counting function or a manual technology to obtain the human flow of the current area, and by comparing the human flow change information of the module 4, the analysis module 3 can analyze whether the WLAN density of the current area needs to be adjusted or not, and roughly how many WLANs need to be increased according to the increase of the human flow. When the flow of people is decreasing, no adjustment is needed. And the density adjustment value can be visually output through the report module 5 for a user to check, and the user can visually find out the change and adjustment condition of the current people flow rate in the area according to the density adjustment value so as to estimate the cost. The WLAN regular management of the city is more convenient.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. A high-density WLAN management terminal is characterized in that: comprises that

The receiving module (1) is used for receiving the WLAN information acquired by the external acquisition terminal;

the antenna module (2) is used for improving the communication strength between the receiving terminal and an external acquisition terminal;

the analysis module (3) analyzes the intensity according to the WLAN information;

the comparison module (4) is used for comparing the previous density with the currently obtained density information to obtain density change information;

and the report module (5) is used for making a report according to the plurality of intensity change information and outputting the report.

2. The high-intensity WLAN management terminal of claim 1, wherein: the antenna module (2) is connected with the receiving module (1), the receiving module (1) comprises a shell and a receiving circuit arranged in the shell, the antenna module (2) comprises an antenna body and a connecting piece used for connecting the antenna body with the receiving circuit, the connecting piece comprises a base (61) arranged on the receiving circuit and a plug connector (62) connected with the antenna, and the base (61) is detachably connected with the plug connector (62); the antenna is characterized in that the plug connector (62) is provided with a contact piece (82) and a through hole, the contact piece is electrically connected with the antenna, the base (61) is provided with a conductive elastic piece (77) which is electrically connected with the receiving circuit, and when the plug connector (62) is plugged with the base (61), the conductive elastic piece (77) is abutted against the contact piece (82) through the through hole.

3. The high-intensity WLAN management terminal of claim 2, wherein: offer slot (81) that are used for inserting plug connector (62) on base (61), when plug connector (62) inserted slot (81), contact (82) contradict with the cell wall of slot (81), and plug connector (62) insert after target in place conductive elastic sheet (77) through the through-hole with contact (82) contradict.

4. The high-intensity WLAN management terminal of claim 3, wherein: the plug connector (62) comprises a vertical plate (70) and a transverse plate (71), the vertical plate (70) and the transverse plate (71) are connected with each other to form an L shape, and the through hole comprises two T-shaped clamping grooves (73) which are respectively formed in the transverse plate (71) and the vertical plate (70); a clamping block (80) corresponding to the T-shaped clamping groove (73) in the vertical plate (70) is arranged on the base (61), and when the horizontal plate (71) is inserted into the slot (81) in place, the clamping block (80) is embedded into the clamping groove (73); the conductive elastic sheet (77) is positioned at the position corresponding to the clamping groove (73) of the base (61) and the transverse plate (71), and when the transverse plate (71) is inserted into the slot (81) in place, the conductive elastic sheet (77) is bounced to be embedded into the clamping groove (73) and is abutted to the contact sheet (82).

5. The high-intensity WLAN management terminal of claim 4, wherein: plug connector (62) still includes triangle curb plate (72), two triangle curb plate (72) fixed connection just is located the both sides of diaphragm (71) and curb plate (72) and constitutes with diaphragm (71) and curb plate (72) and surrounds between riser (70) and diaphragm (71) respectively, the shape of slot (81) becomes "[" type, suits with the surrounding that diaphragm (71), curb plate (72), riser (70) constitute.

6. The high-intensity WLAN management terminal of claim 4, wherein: the novel base is characterized in that auxiliary elastic pieces (78) are further arranged on two sides of a conductive elastic piece (77) on the base (61), the positions of the auxiliary elastic pieces (78) correspond to the positions of two transverse sides of a T-shaped clamping groove (73) in the vertical plate (70), and when the conductive elastic pieces (77) are embedded into the clamping groove (73), the auxiliary elastic pieces (78) are embedded into the two transverse sides of the clamping groove (73) and abut against the contact pieces (82).

7. The high-intensity WLAN management terminal of claim 6, wherein: the auxiliary elastic sheet (78) is made of conductive materials and is electrically connected with the receiving circuit, and when the auxiliary elastic sheet (78) is abutted against the contact sheet (82), the auxiliary elastic sheet (78) is communicated with the contact sheet (82) to transmit an electric signal.

8. The high-intensity WLAN management terminal of claim 7, wherein: the lower surface of the T-shaped clamping groove (73) on the transverse plate (71) is provided with a limiting inclined surface (79), and when the conductive elastic sheet (77) is bounced to be embedded into the clamping groove (73), one end of the conductive elastic sheet (77) is attached to the limiting inclined surface (79).

9. The high-intensity WLAN management terminal of claim 4, wherein: a guide inclined surface (74) is arranged at one end of the transverse plate (71) far away from the vertical plate (70), an embedded groove (75) is formed in the transverse plate (71) in the extending direction of the guide inclined surface (74), and a protruding elastic sheet (76) is arranged on the base (61) corresponding to the embedded groove (75); when the transverse plate (71) is inserted into the base (61), the protruding elastic sheet (76) is pressed down under the action of the guide inclined surface (74), and after the transverse plate (71) is inserted in place, the protruding elastic sheet (76) is bounced and embedded into the embedding groove (75).

10. The high-intensity WLAN management terminal of claim 1, wherein: the analysis module (3) also acquires the current regional pedestrian volume; the comparison module (4) is also used for comparing the past flow rate with the currently obtained flow rate to obtain the flow rate change information and feeding the flow rate change information back to the analysis module (3); the analysis module (3) analyzes the information according to the change of the pedestrian volume to obtain an intensity adjustment value and sends the intensity adjustment value to the report module (5); the reporting module (5) also outputs the density adjustment value.