CN218735001U - Network signal acquisition alarm - Google Patents

Abstract

The utility model provides a network signal acquisition alarm, including casing and alarm device and the signal acquisition device of setting in the casing. The alarm device is used for giving out alarm sound when a fire disaster happens to the surrounding environment, and the signal acquisition device is used for acquiring network signals in the surrounding environment and transmitting acquired signal data to the upper data platform. In the process of carrying out fire monitoring on the indoor environment by the network signal acquisition alarm, the network signal acquisition alarm can also detect indoor network signals and send the monitored network signal data to an upper data platform. The staff can evaluate the received signal data through the upper data platform to judge that the network quality of the indoor area meets the requirements, so that the staff can optimize the network quality of the area in time according to the evaluation result to improve the user experience.

Description

Network signal acquisition alarm

Technical Field

The utility model relates to a network evaluation technical field especially relates to a network signal acquisition alarm.

Background

With the continuous development of network technology, network information occupies an increasingly important position in people's life, and networks have penetrated aspects of people's life. For example, banks, medical, educational, transportation, businesses, etc. may be associated with a person's life through a network. The network can make the daily things of people simple and convenient, enrich life, and make information intercommunication and resource sharing of people.

In the network operation process, it is usually necessary to evaluate network signals to determine whether the network signals at each location meet the requirements, and further determine the coverage of the network at each location. At present, workers usually carry a signal acquisition device to a field to perform on-site evaluation so as to measure network signals of various places, so that the workers can perform corresponding processing according to the quality of the network signals of various places.

However, the evaluation method is difficult to evaluate network signals of indoor areas, so that the indoor network is difficult to be optimized well, and the user experience is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a network signal acquisition alarm to solve current network evaluation mode and be difficult to realize carrying out the evaluation to indoor region's network signal, make indoor network be difficult to obtain better optimization, reduced user experience's problem.

The utility model provides a network signal acquisition alarm, which comprises a shell, an alarm device and a signal acquisition device, wherein the alarm device and the signal acquisition device are arranged in the shell;

the alarm device is used for giving out alarm sound when a fire disaster happens to the surrounding environment, and the signal acquisition device is used for acquiring network signals in the surrounding environment and transmitting acquired signal data to the upper data platform.

Therefore, in the process of carrying out fire monitoring on the indoor environment by the network signal acquisition alarm, the indoor network signals can be detected, and the monitored network signal data is sent to the upper layer data platform. The staff can evaluate the received signal data through the upper data platform to judge that the network quality of the indoor area meets the requirements, so that the staff can optimize the network quality of the area in time according to the evaluation result to improve the user experience.

In one possible implementation manner, the signal acquisition device includes a signal collector, a processor and a communication transmitter, and both the signal collector and the communication transmitter are electrically connected to the processor;

the signal collector is used for collecting network signals and sending collected signal data to the processor, and the processor is used for sending the signal data to the upper layer data platform through the communication transmitter.

In a possible implementation manner, the signal acquisition device further includes a timer and a controller, both the timer and the controller are electrically connected to the processor, and the controller is further electrically connected to the signal acquisition device;

the timer is used for recording time and sending the recorded duration to the processor, and the controller is used for controlling the opening and closing of the signal collector;

when the time length recorded by the timer and received by the processor reaches the preset time length, the processor sends an opening instruction to the controller, and the controller opens the signal collector after receiving the opening instruction sent by the processor.

Therefore, the signal collector can collect the surrounding network signals only in the specified time period, the increase of the running load of the signal collector due to the long-time work of the signal collector is avoided, the improvement of the running rationality of the signals is facilitated, and the energy consumption is reduced or avoided. And, still be favorable to improving the life of signal collector.

In addition, the signal collector works in stages to collect signals, so that the phenomenon that the processor and the upper data platform receive too much useless information can be reduced or avoided, and the reduction of the running load of the processor and the upper data platform is facilitated.

In one possible implementation manner, the system further includes a display device, the display device is electrically connected with the processor, the display device is used for displaying quality grades of the network signals, and the quality grades at least include: good, good and bad. Therefore, the quality condition of the network signal can be displayed in a more concise and clear mode, a user can understand the current network quality grade more conveniently, the user can know the current network condition intuitively, and the user experience is improved.

In one possible implementation, the display device includes a display screen and a signal display key, the signal display key is electrically connected to the processor, and the processor sends a quality level of the network signal to the display device when the signal display key is pressed, so that the quality level is displayed on the display screen. Therefore, the user can conveniently check the quality condition of the network signal at any time, and when finding that the quality of the network signal is poor, the user can timely contact related working personnel to check and maintain so as to improve the user experience.

In one possible implementation, the display device further includes a network feedback key electrically connected to the processor, and the processor transmits signal data to the upper data platform through the communication transmitter when the network feedback key is pressed. Therefore, the missing of important signal data (for example, signal data with poor network quality) due to excessive signal data received by an upper data platform can be reduced or avoided, the missing of important signal data and the failure of timely optimization of a network are avoided, and the further improvement of user experience is facilitated.

In one possible implementation manner, the system further comprises a locator which is electrically connected with the processor and is used for sending position information to the processor so that the processor sends the position information to an upper layer data platform through the communication transmitter. Therefore, when a worker finds that the network quality of a certain area is poor through the upper data platform, the worker can optimize or maintain the network quality of the position through the position information of the positioner or the specific position with poor network quality.

In a possible implementation manner, the positioning device further includes a memory, the memory is electrically connected to the signal collector and the positioner, and the memory is used for storing the signal data collected by the signal collector and the position information of the positioner. Therefore, the quality of the network signal can be conveniently analyzed by the staff in the later stage. The situations of loss and the like of the information data can be effectively avoided.

In a possible implementation manner, the alarm device comprises a smoke detector, a power supply device, a circuit board and a buzzer arranged on the circuit board, wherein the smoke detector and the buzzer are both electrically connected with the power supply device;

the smoke detector is used for detecting smoke in the surrounding environment, and the buzzer gives an alarm sound after the smoke detector detects the smoke.

In a possible implementation manner, the power supply device is also electrically connected with the signal acquisition device to supply power to the signal acquisition device.

Drawings

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

Fig. 1 is a schematic structural diagram of a network signal acquisition alarm provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a network signal acquisition alarm provided in the embodiment of the present application with an upper cover removed;

fig. 3 is a schematic structural diagram of a display device according to an embodiment of the present application.

Description of reference numerals:

100-network signal acquisition alarm;

110-a housing;

111-a lower shell;

112-an upper cover;

113-a containment chamber;

120-an alarm device;

121-a detector;

122-a power supply device;

123-a circuit board;

124-a buzzer;

130-a signal acquisition device;

131-a signal collector;

132-a processor;

133-a communication transmitter;

134-a timer;

135-a controller;

136-a display device;

1361-display screen;

1362-signal display key;

1363-network feedback key;

1364-sound off key;

137-a positioner;

138-memory.

Detailed Description

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

As mentioned in the background art, at present, for the evaluation of network signals, a worker usually carries a signal acquisition device to each site to perform on-site measurement, and then evaluates the on-site network quality according to the signal data of the network signals acquired by the signal acquisition device. Then, the above evaluation method is difficult to evaluate network signals of indoor areas, such as offices, resident rooms, and the like. Therefore, the indoor network quality is difficult to be optimized better, and the experience of network users is reduced.

Based on the above problem, the embodiment of the application provides a network signal acquisition alarm, can make the alarm of installing in indoor can have the signal acquisition function concurrently to network signal to the indoor environment gathers and evaluates, thereby makes the staff can optimize indoor regional network quality according to the evaluation result, effectively improves user experience.

Fig. 1 is a schematic structural diagram of a network signal acquisition alarm provided in an embodiment of the present application, and fig. 2 is a schematic structural diagram of the network signal acquisition alarm provided in the embodiment of the present application with an upper cover removed.

Referring to fig. 1, the embodiment of the present application provides a network signal acquisition alarm 100, which includes a housing 110, and an alarm device 120 and a signal acquisition device 130 disposed in the housing 110. For example, the housing 110 may include a lower housing 111 and an upper cover 112 covering the lower housing 111, as shown in fig. 2, the lower housing 111 and the upper cover 112 may together enclose a receiving cavity 113, and the alarm device 120 and the signal detection device may be disposed in the receiving cavity 113.

This network signal acquisition alarm 100 can set up at indoor places such as resident's indoor, office, wherein, the alarm can detect the smog of surrounding environment to send the chimes of doom when the surrounding environment breaks out a fire, can make people in time learn the condition of a fire through the chimes of doom like this, and take corresponding rescue measures in time, thereby effectively reduce or avoid the emergence of incident, can effectively improve user's personal safety and property safety.

For example, the alarm device 120 may include a smoke detector 121, a power supply device 122, a circuit board 123, and a buzzer 124 disposed on the circuit board 123, wherein the smoke detector 121 and the buzzer 124 are both electrically connected to the power supply device 122. For example, the power supply device 122 may be a storage battery, so that the power supply device 122 can supply power to the smoke detector 121 and the buzzer 124 through the storage battery, or the power supply device 122 may be an electric plug device, one end of which may be electrically connected to the detector, the circuit board 123, and the like, and the other end of which may be provided with a plug, which may be inserted into a jack of the socket to be electrically connected to an internal circuit of the socket, so that the power supply device 122 may supply power through the socket. Specifically, the power supply mode of the power supply device 122 may be selected and set according to specific requirements of a scene.

The buzzer 124 may be electrically connected to the power supply device 122 through the circuit board 123, so that the power supply device 122 may supply power to the buzzer 124 through the circuit board 123. The smoke detector 121 may be electrically connected directly to the power supply means 122 or the smoke detector 121 may be provided on the circuit board 123 such that the power supply means 122 may supply power to the smoke detector 121 via the circuit board 123.

The smoke detector 121 may be configured to detect smoke in the surrounding environment, and the buzzer 124 may sound an alarm after the smoke detector 121 detects the smoke, so that the user may know the occurrence of a fire in time. The alarm device 120 may be designed by referring to the related art in the existing smoke alarm device 120, and details are not described in this application.

The power supply device 122 may also be electrically connected to the signal acquisition device 130, so that the power supply device 122 may supply power to the signal acquisition device 130.

The signal acquisition device 130 may be configured to acquire network signals in the surrounding environment and send the acquired signal data to the upper data platform. For example, the signal acquisition device 130 may acquire wireless network signals in the surrounding environment, for example, signal data such as the strength of the network signals, the signal power, and uplink and downlink level values of the signals.

In this way, in the process of monitoring the indoor environment by the network signal acquisition alarm 100 for a fire, the signal acquisition device 130 may also detect an indoor network signal and send the monitored network signal data to the upper data platform. The staff can evaluate the received signal data through the upper data platform to judge that the network quality of the indoor area meets the requirements, so that the staff can optimize the network quality of the area in time according to the evaluation result to improve the user experience.

With continued reference to fig. 2, the signal acquisition device 130 may include a signal collector 131, a processor 132, and a communication transmitter 133, and the signal collector 131 and the communication transmitter 133 may both be electrically connected to the processor 132. The signal collector 131 may be configured to collect a network signal and send the collected signal data to the processor 132, and the processor 132 may send the signal data to the upper data platform through the communication transmitter 133.

For example, the Signal collector 131 may collect a wireless network in a surrounding environment, for example, the Signal collector 131 may collect a Signal Strength value (referred to as "RSSI") of the network, and then send the collected RSSI to the processor 132, the processor 132 may be a Central Processing Unit (CPU) 132, and the processor 132 may process Received Signal data and send the Received data to an upper data platform, so that a worker may perform evaluation.

A wireless network transmitter and receiver may be disposed in the communication transmitter 133, so that the processor 132 can be connected to the upper layer data platform through a wireless network, so that the processor 132 can transmit the received signal data to the upper layer data platform.

With continued reference to fig. 2, the network signal collection alarm 100 may further include a timer 134 and a controller 135, wherein the timer 134 and the controller 135 may both be electrically connected to the processor 132, and the controller 135 is also electrically connected to the signal collector 131. Wherein, the timer 134 can be used to record time, and the timer 134 can send the recorded duration to the processor 132, and the controller 135 can control the signal collector 131 to be turned on and off.

When the time length recorded by the timer 134 received by the processor 132 reaches the preset time length in the processor 132, the processor 132 may send an open instruction to the controller 135, and the controller 135 may open the signal collector 131 after receiving the open instruction sent by the processor 132, so that the signal collector 131 may collect signal data.

For example, the preset time period may be 24 hours, so that when the timer 134 counts for 24 hours, the signal collector 131 may be in an open state and collect the surrounding network signals once. Alternatively, the preset time duration may be a time duration of one week, so that when the timer 134 counts the time duration of one week, the signal collector 131 may be in an open state and collect the surrounding network signals once. Or, in some examples, the preset duration set in the processor 132 may also be two weeks, one month, and the like, and specifically, the preset duration set in the processor 132 may be selectively set according to specific scene requirements.

Therefore, the signal collector 131 can collect the surrounding network signals only in a specified time period, the increase of the running load of the signal collector 131 caused by the long-time work of the signal collector 131 is avoided, the improvement of the running rationality of the signals is facilitated, and the energy consumption is reduced or avoided. Moreover, the service life of the signal collector 131 is also prolonged.

In addition, the signal collector 131 is enabled to work in stages to collect signals, so that too much useless information received by the processor 132 and the upper layer data platform can be reduced or avoided, and the operating load of the processor 132 and the upper layer data platform can be reduced.

With continued reference to fig. 2, the network signal collection alarm 100 may further include a locator 137, the locator 137 may be electrically connected to the processor 132, and the locator 137 may transmit the location information to the processor 132, so that the processor 132 may transmit the location information to an upper data platform via the communication transmitter 133. Therefore, when a worker finds that the network quality of a certain area is poor through the upper data platform, the worker can optimize or maintain the network quality of the position through the position information of the positioner 137 or the specific position with poor network quality.

With continued reference to fig. 2, the network signal collection alarm 100 may further include a memory 138, the memory 138 may be electrically connected to the signal collector 131 and the locator 137, and the memory 138 may be configured to store the signal data collected by the signal collector 131 and the position information of the locator 137. Therefore, the quality of the network signal can be conveniently analyzed by the staff in the later stage. The situations of loss and the like of the information data can be effectively avoided.

With continued reference to fig. 2, the network signal collection alarm 100 may further include a display device 136, the display device 136 may be electrically connected to the processor 132, and the display device 136 may be configured to display a quality level of the network signal, wherein the quality level may include: good, passing and bad.

For example, when the processor 132 receives the signal strength value sent by the signal collector 131, the signal strength value may be processed and converted, and a converted result is sent to the display device 136, so that the display device 136 may display the current network quality level.

For example, when the signal strength value received by the processor 132 is in the range of-50 dbm to 0dbm, the network quality level may be good, and at this time, the processor 132 may send a good text signal to the display device 136 so that the display device 136 may display a good text for the user to view and understand.

When the signal strength value is within-75 dbm to-50 dbm, the network quality level may be a pass, and the processor 132 may send a pass text signal to the display device 136 so that the display device 136 may display the pass text.

The network quality level may be poor when the signal strength value is less than-75 dbm, at which point the processor 132 may send a poor text signal to the display device 136 so that the display device 136 may display poor text. Therefore, the quality condition of the network signal can be displayed in a more concise and clear mode, a user can understand the current network quality grade more conveniently, the user can know the current network condition intuitively, and the user experience is improved.

Alternatively, in some examples, the display device 136 may also display other information of the network signal collection alarm 100, such as, for example, an operating state, a power level, a smoke detection result, and the like.

Fig. 3 is a schematic structural diagram of a display device according to an embodiment of the present application.

Referring to fig. 3, the display device 136 may include a display screen 1361 and a signal display key 1362, wherein the signal display key 1362 may be electrically connected to the processor 132, and the processor 132 may transmit the quality level of the network signal to the display device 136 when the signal display key 1362 is pressed, so that the quality level of the network signal may be displayed on the display screen 1361.

For example, when the user presses the signal display key 1362, the processor 132 may send an open instruction to the controller 135 after receiving the signal that the signal display key 1362 is pressed, so that the controller 135 may open the signal collector 131 after receiving the open quality, so that the signal collector 131 may collect the network signal of the surrounding environment and send the network signal to the processor 132, and the processor 132 may perform conversion according to the magnitude of the signal strength value after receiving the signal data collected by the signal collector 131. For example, the information may be converted into good, bad, etc. text information that is easy for the user to understand, and finally, the converted text information is sent to the display device 136, so that the display device 136 may display the current network quality condition on the display screen 1361.

Therefore, the user can conveniently check the quality condition of the network signal at any time, and when finding that the quality of the network signal is poor, the user can timely contact related working personnel to check and maintain so as to improve the user experience.

With continued reference to fig. 3, the display device 136 may further include a network feedback key 1363, the network feedback key 1363 may be electrically connected to the processor 132, and the processor 132 may transmit signal data to the upper data platform via the communication transmitter 133 when the network feedback key 1363 is pressed.

For example, when the user presses the signal display key 1362 and then finds that the quality of the current network signal is poor, at this time, the user may press the network feedback key 1363, after receiving the signal that the network feedback key 1363 is pressed, the processor 132 may first send an open instruction to the controller 135, so that the controller 135 may open the signal acquirer 131 after receiving the open quality, so that the signal acquirer 131 may acquire the network signal of the surrounding environment and send the acquired network signal to the processor 132, and after receiving the signal data acquired by the signal acquirer 131, the processor 132 may send the signal data to the upper data platform through the communication transmitter 133.

The signal data received by the upper data platform after the user presses the network feedback key 1363 has a higher priority level, and when the signal data fed back by the worker is received by the upper data platform, the worker can preferentially check and evaluate the signal data, so that the network is optimized. Therefore, the missing of important signal data (for example, signal data with poor network quality) caused by excessive signal data received by an upper data platform can be reduced or avoided, the missing of important signal data and the failure of timely optimization of the network are avoided, and the user experience is further improved.

With continued reference to fig. 3, the display device 136 may further include a sound off key 1364, the sound off key 1364 may be electrically connected to the buzzer 124 of the alarm device 120, and when the buzzer 124 sounds an alarm, the user presses the sound off key 1364 to stop the buzzer 124 from sounding the alarm, so as to prevent the buzzer 124 from continuously sounding the alarm and causing noise interference to the user.

Among them, the display screen 1361, the signal display key 1362, the network feedback key 1363 and the sound off key 1364 may all be located in the upper cover 112 (shown with reference to fig. 1) of the housing 110 for the user to operate and view.

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

In the description of the present invention, it is to be understood that the terms "comprises" and "comprising," and any variations thereof, as used herein, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and encompass, for example, both fixed and removable connections, or integral combinations thereof; either directly or indirectly through intervening media, may be used in either the internal or the external relationship of the two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

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

Claims (10)

1. A network signal acquisition alarm is characterized by comprising a shell, an alarm device and a signal acquisition device, wherein the alarm device and the signal acquisition device are arranged in the shell;

the alarm device is used for giving out alarm sound when a fire disaster happens to the surrounding environment, and the signal acquisition device is used for acquiring network signals in the surrounding environment and transmitting acquired signal data to the upper data platform.

2. The network signal acquisition alarm device according to claim 1, wherein the signal acquisition device comprises a signal acquisition device, a processor and a communication transmitter, and the signal acquisition device and the communication transmitter are electrically connected with the processor;

the signal collector is used for collecting network signals and sending collected signal data to the processor, and the processor is used for sending the signal data to the upper layer data platform through the communication transmitter.

3. The network signal acquisition alarm according to claim 2, wherein the signal acquisition device further comprises a timer and a controller, both the timer and the controller are electrically connected with the processor, and the controller is further electrically connected with the signal acquisition device;

the timer is used for recording time and sending the recorded duration to the processor, and the controller is used for controlling the signal collector to be opened and closed;

when the time length recorded by the timer and received by the processor reaches the preset time length, the processor sends an opening instruction to the controller, and the controller opens the signal collector after receiving the opening instruction sent by the processor.

4. A network signal collection alarm according to claim 2 or 3, further comprising a display device electrically connected to the processor, the display device being configured to display a quality rating of the network signal, the quality rating comprising at least: good, good and bad.

5. The network signal collection alarm of claim 4, wherein the display device comprises a display screen and a signal display key, the signal display key is electrically connected to the processor, and the processor sends the quality level of the network signal to the display device when the signal display key is pressed, so that the quality level is displayed on the display screen.

6. The network signal collection annunciator of claim 4 wherein the display device further comprises a network feedback key electrically connected to the processor, the processor transmitting signal data to the upper data platform via the communication transmitter when the network feedback key is pressed.

7. A network signal collection alarm according to claim 2 or claim 3 further comprising a locator electrically connected to the processor, the locator being configured to send location information to the processor such that the processor sends the location information to an upper data platform via the communications transmitter.

8. The network signal acquisition alarm according to claim 7, further comprising a memory electrically connected to the signal acquisition device and the locator, wherein the memory is configured to store the signal data acquired by the signal acquisition device and the location information of the locator.

9. The network signal acquisition alarm device according to any one of claims 1 to 3, wherein the alarm device comprises a smoke detector, a power supply device, a circuit board and a buzzer arranged on the circuit board, and the smoke detector and the buzzer are both electrically connected with the power supply device;

the smoke detector is used for detecting smoke in the surrounding environment, and the buzzer gives an alarm sound after the smoke detector detects the smoke.

10. The network signal collection alarm of claim 9, wherein the power supply unit is further electrically connected to the signal collection unit to provide power to the signal collection unit.

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