CN210246789U - Routing equipment - Google Patents

Abstract

The utility model discloses a routing device, include: the device comprises a shell, a dial switch and a control circuit, wherein the dial switch is arranged on the surface of the shell and is used for setting a target channel; the control circuit is arranged in the shell and connected to the dial switch, and the control circuit is used for controlling the routing equipment to work under a target channel. The utility model discloses an use dial switch to carry out automatic deployment to routing equipment's channel parameter, reach and improve deployment efficiency, promote user experience's effect.

Description

Routing equipment

Technical Field

The embodiment of the utility model provides a relate to wireless network communication technology, especially relate to a routing device.

Background

In recent years, the demand for WIFI in office areas, shopping malls, houses, campuses, hospitals and other dense areas is higher and higher, which results in the improvement of the number and density of the wireless routing devices in different degrees. Because the routing equipment in these areas is planned intensively, designers need to set channel isolation manually or use a mechanism of software automatic channel switching after deployment to prevent interference of adjacent wireless routing equipment in order to ensure that signals of the adjacent wireless routing equipment are not interfered.

The method usually adopted is to set the wireless routing equipment into an automatic channel switching mode, or enter a software page to manually set a fixed channel when the routing equipment is deployed to avoid mutual interference of channels, but the automatic channel mode may cause that the network routing equipment is interfered by switching channels by other routing equipment, resulting in disconnection of the user network; the manual setting of the channel parameters increases the workload of managers in the deployment process and influences the working efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a routing device carries out automatic deployment through using dial switch 2 to routing device's channel parameter, reaches to improve and deploys efficiency, promotes user experience's effect. The utility model provides a pair of routing equipment includes:

a shell, a dial switch and a control circuit, wherein,

the dial switch is arranged on the surface of the shell and used for setting a target channel;

the control circuit is arranged in the shell and connected to the dial switch, and the control circuit is used for controlling the routing equipment to work under a target channel.

The utility model discloses a set up dial switch on routing equipment, carry out automatic deployment to routing equipment's channel parameter, will originally need carry out the process simplification that the channel disposed through logging in the page to only need operate the hardware on the equipment body and accomplish, can reach the effect that improves deployment efficiency, promotion user experience.

Drawings

Fig. 1 is a structure diagram of a dial switch according to a first embodiment of the present invention.

Fig. 2 is a schematic diagram of a control circuit module according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of an alternative embodiment circuit module according to a first embodiment of the present invention.

Description of the main element symbols:

housing 1

Dial switch 2

Control circuit 3

Indicating device 4

Digital disc 21

Knob 22

Connecting foot 23

Fixed module 24

Warning module 25

Acquisition module 31

Logic module 32

Control module 33

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

An embodiment of the utility model provides a routing device, a plurality of routing device are used for deploying wireless network coverage in predetermineeing the large tracts of land.

The utility model provides a routing device includes following structure:

a shell 1, a dial switch 2 and a control circuit 3.

The dial switch 2 is arranged on the surface of the shell 1, and the dial switch 2 is used for setting a target channel. The dial switch 2 is also called as a toggle switch, an over-frequency switch or an address switch, is an address switch which is operated and controlled by adopting a coding principle, and is used for products which need manual programming, such as data processing, communication, remote control, anti-theft and/or automatic alarm system and the like. The dial switches 2 comprise 4 bits, 6 bits, 8 bits, 12 bits or 16 bits, and the shapes and the pin numbers of different types of dial switches 2 are different. In the present embodiment, the dip switch 2 is preferably a 16-bit dip switch 2, as shown in fig. 1, comprising:

a digital disc 21, the surface of which is 16 digits which are increased from 0 to F in hexadecimal;

the knob 22 is arranged on the surface of the digital disc, and the numbers on the digital disc indicated by the knob represent preset target channel values; the knob indicates the 0 bit for setting the auto channel and the 1-D bits for setting the different target channels. Before the routing equipment is deployed and powered on, a manager determines channels which should be used by a plurality of wireless routing equipment in the area based on the principle that the channels do not interfere with each other, and correspondingly sets a target channel by adopting a knob of a dial switch 2. The target channel of the step can be successfully set by using the dial switch 2 knob, so that the workload of workers is reduced, and the working efficiency is improved. After the setting is completed, the bit value of the dial switch 2 is determined, and the routing equipment does not change in the working process.

And the connecting pin 23 is electrically connected with the knob and is used for electrically connecting the dial switch 2 with a corresponding pin of the control circuit.

And the fixing module 24 is used for arranging the dial switch 2 on the surface of the shell 1. Alternatively, the fixing module 24 includes, but is not limited to, a snap, a screw hole, or a connecting line.

And the control circuit 3 is arranged in the shell 1 and connected to the dial switch 2, and the control circuit 3 is used for controlling the routing equipment to work under a target channel. Specifically, as shown in fig. 2, the control circuit 3 includes an obtaining module 31, a logic module 32, and a control module 33. The acquisition module 31, the logic module 32 and the control module 33 are electrically connected with the control circuit respectively.

The obtaining module 31 is configured to obtain the number of digits of the dial switch 2 and an initial channel value of the wireless routing device; the hardware of the wireless routing device is set with an initial channel value when being shipped from a factory, and wireless routing devices in the same batch may be set to the same channel when being shipped from the factory. The number of bits of the dial switch 2 is a target channel set for preventing mutual interference when a plurality of wireless routing devices are deployed in a preset area, and the target channel is different from the initial channel of the wireless routing device. When the routing device is powered on, the obtaining module 31 obtains the bit value of the dial switch 2 according to the electrical signal of the dial switch 2, and the bit value is used as the target channel of the dial switch 2, and meanwhile, the initial channel value of the routing device is obtained from the control circuit.

The logic module 32 is used for comparing the number of digits of the dial switch 2 with the initial channel value of the wireless routing equipment; and finally, adjusting the initial channel to be the target channel by logically judging whether the target channel is the same as the initial channel.

The control module 33 is configured to execute corresponding steps according to the determination result of the logic module 32, so as to adjust the initial channel of the routing device to be the target channel;

since the number indicated by the knob of the dial switch 2 is a target channel preset by the administrator and cannot be changed, in an alternative embodiment, the dial switch 2 further includes a warning module 25, and the warning module 25 is electrically connected to the knob 22 and the control circuit 3, respectively, and is configured to send a warning when the knob 22 is detected to be touched or rotated. Optionally, the warning module 25 includes, but is not limited to, a warning light, an infrared sensor and/or a warning broadcast.

In another alternative embodiment, the dial switch 2 further comprises a knob catch 26, the knob catch 26 being disposed on the surface of the digital disc for fixing the knob of the dial switch 2 to prevent the knob 22 from being touched or rotated.

In another alternative embodiment, the routing device further comprises an indication device 4 disposed on the surface of the housing 1 and electrically connected to the control circuit 3 for indicating the current channel state of the routing device, wherein the current channel state includes an automatic channel state and a fixed channel state.

Optionally, the indication means 4 is an electronic display screen displaying numbers 0-13; when the electronic display screen displays 0, the routing equipment is in an automatic channel state; when the electronic display screen displays any number from 1 to 13, the routing equipment is in a fixed channel state, and the corresponding number represents the current channel value.

Optionally, as shown in fig. 3, the indicating device 4 is a plurality of LED indicator lamps, each of the LED indicator lamps has a number of 0 to 13, and when the LED indicator lamp with the number of 0 is on, it indicates that the routing device is in an automatic channel state; when any LED indicator light with the number of 1-13 is on, the routing equipment is in a fixed channel state, and the corresponding number represents the current channel value.

In the alternative embodiment of the above scheme, the LED indicator lamp includes a rectifying and filtering circuit, the control circuit includes a power module 34, and the rectifying and filtering circuit is connected to the power module 34 to stably supply power to the LED indicator lamp, so that the service life of the LED lamp is prolonged, and the stability of the routing device is enhanced.

In another alternative embodiment, the routing device further includes a reset key 5, and the reset key 5 is connected to the control circuit and is used for restoring the routing device to the factory setting when the target channel set by the dial switch 2 is abnormal.

In specific practice, the method for implementing the fast channel setting of the routing device by adopting the structure is as follows:

in a first preset time interval, the acquisition module acquires the first current digit of the dial switch 2 twice continuously, and the logic module judges whether the first current digits are the same twice;

if the current digits are the same, the acquisition module determines the first current digit of the dial switch 2 as a target channel;

if not, the acquisition module continuously acquires the second current digit of the dial switch 2 twice within the next first preset time interval, and the logic module judges whether the second current digits are the same or not; and repeating the steps until the logic module judges that the current digits of the dial switch 2 obtained twice continuously are the same in a first preset time interval, and then the obtaining module takes the current digits as a target channel set by the dial switch 2.

During the operation of the dial switch 2, the target channel may be changed due to an abnormal condition, for example, the abnormal condition may be that the knob is touched or rotated by mistake, or that the internal circuit of the dial switch 2 is broken. Therefore, the cyclic detection in the above steps is used to reduce errors and/or correct errors until the dial switch 2 is stable in a time interval, and the stable number of bits of the dial switch 2 is obtained as the target channel.

After determining the target channel of the dip switch 2, since the dip switch 2 is a 16-bit rotary dip switch 2, which includes 16-bit numbers of 0-F, while in the routing device, 0 represents the automatic channel status and 1-13 represent the channel value of the fixed channel, when the knob of the dip switch 2 indicates E or F, the number of bits of the dip switch 2 has no corresponding channel on the routing device. Therefore, after the number of bits of the dial switch 2 is obtained, it is further necessary to determine whether the obtained number of bits is less than 14, and at the same time, it is also necessary to determine whether the obtained number of bits is 0 when the number of bits is less than 14, so as to distinguish the automatic channel mode and the fixed channel mode of the routing device, specifically:

the logic module judges whether the acquired target channel is smaller than 14, and sends the judgment result that the target channel is larger than or equal to 14 to the control module, at the moment, the target channel is set to be wrong, the control module does not execute operation, and meanwhile, wrong setting information is stored in the storage module for the dial switch 2, so that a worker can deploy the target channel of the dial switch 2 again.

When the target channel is smaller than 14, sending the judgment result to an acquisition module, and reading an initial channel set by the wireless routing equipment by the acquisition module; the acquisition module returns the acquired initial channel to the logic module, and the logic module judges whether the target channel is equal to 0;

if the channel is equal to 0, the logic module judges whether the routing equipment is in an automatic channel mode according to the initial channel;

if the mobile terminal is in the automatic channel mode, the operation is not executed;

if the wireless routing equipment is not in the automatic channel mode, the logic module sends an instruction to the control module, and the control module sets the wireless routing equipment to be in the automatic channel mode;

if not, the acquisition module reads an initial channel set by the wireless routing equipment, and the control module switches the initial channel to a target channel;

after the switching is completed, the working states of the plurality of routing devices, which are not interfered with each other, are unstable, and when the target channel set by a certain dial switch 2 is wrong, a manager temporarily adjusts the target channel, and the routing devices are interfered by other signals, the working channel of the routing device changes and is different from the target channel. Therefore, the acquisition module sequentially acquires the target channels of the dial switch 2 at regular time intervals, and repeats the steps to dynamically adjust the working channels of the routing equipment, so that the channels of the routing equipment are always in a non-interfering state.

When the control circuit executes the steps, managers can visually observe the current state of the routing equipment through the warning module and the indicating device, and can also obtain the information of setting errors of the dial-up switch 2 recorded by the storage module through entering a background so as to execute corresponding modification.

This embodiment is through setting up dial switch on routing equipment, carries out automatic deployment to routing equipment's channel parameter, and the process that originally need carry out channel configuration through logging in the page simplifies to only needing to operate hardware on the equipment body and accomplish, can reach the effect that improves deployment efficiency, promotes user experience.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. A routing device, comprising:

a shell, a dial switch and a control circuit, wherein,

the dial switch is arranged on the surface of the shell and used for setting a target channel;

the control circuit is arranged in the shell and connected to the dial switch, and the control circuit is used for controlling the routing equipment to work under a target channel.

2. The routing device of claim 1, wherein the dial switch comprises:

the digital disc, the surface of the digital disc is 16 digits which are increased from 0-F in hexadecimal;

the knob is arranged on the surface of the digital disc, and the numbers on the digital disc indicated by the knob represent preset target channel values of the target channels;

the connecting pin is electrically connected with the knob and is used for electrically connecting the dial switch with the corresponding pin of the control circuit;

and the fixing module is used for arranging the dial switch on the surface of the shell.

3. The routing device of claim 2, wherein the knob indicates a 0 bit for setting an auto channel and a 1-D bit for setting a different target channel.

4. A routing device according to claim 2, wherein said dial switch 2 further comprises:

and the warning module is electrically connected with the knob and the control circuit respectively.

5. The routing device of claim 1, wherein the routing device further comprises:

and the indicating device is arranged on the surface of the shell, is electrically connected with the control circuit and is used for indicating the current channel state of the routing equipment, and the current channel state comprises an automatic channel state and a fixed channel state.

6. The routing device of claim 5, wherein the indication means is an electronic display screen displaying a number from 0 to 13;

when the electronic display screen displays 0, the routing equipment is in an automatic channel state;

when the electronic display screen displays any number from 1 to 13, the routing equipment is in the fixed channel state, and the corresponding number represents the current channel value.

7. The routing device of claim 5, wherein the indication means is a plurality of LED indicator lights with respective numerical numbers of 0-13,

when the LED indicator light with the number of 0 is on, the routing equipment is in an automatic channel state;

when any LED indicator light with the number of 1-13 is turned on, the routing equipment is in the fixed channel state, and the corresponding number represents the current channel value.

8. The routing device of claim 7, wherein the LED indicator light comprises a rectifying and filtering circuit,

the control circuit comprises a power supply module, and the rectification filter circuit is connected with the power supply module to stably supply power to the LED indicator lamp.

9. The routing device of claim 1, further comprising:

and the reset key is connected with the control circuit and used for restoring the routing equipment to factory settings when the target channel set by the dial switch is abnormal.

10. The routing device of claim 2, wherein the dial switch further comprises a knob latch, the knob latch being disposed on a surface of the digital disk for securing a knob of the dial switch.

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