CN214011429U - Detection device - Google Patents

Abstract

The utility model discloses a detection device, including control module, connect switch and state acquisition module between AC power supply and the urgent escape device that awaits measuring, the user can send the test instruction when needs detect the urgent escape device that awaits measuring, control module receives the test instruction back output disconnection control signal that the user sent, thereby will connect the switch disconnection between AC power supply and the urgent escape device that awaits measuring, state acquisition module gathers the state of the urgent escape device that awaits measuring behind the switch disconnection, so that control module can normally work to the urgent escape device that awaits measuring and judge. Therefore, only by sending a detection instruction by a user, the detection device can automatically disconnect the circuit between the alternating current power supply and the emergency escape device to be detected, so that whether the emergency escape device to be detected can normally work is detected, manpower and material resources are saved, and the detection efficiency is improved.

Description

Detection device

Technical Field

The utility model relates to an automatic detection field especially relates to a detection device.

Background

At present, emergency escape signs and emergency lighting lamps are arranged in various buildings and are used for automatically lighting when an alternating current power supply fails due to certain accidents, so that users can be illuminated and escape routes are provided. The emergency escape indicating plate and the emergency lighting lamp are internally provided with storage batteries, so that the emergency escape indicating plate and the emergency lighting lamp can be conveniently powered to light when an alternating current power supply fails. When the alternating current power supply works normally, namely when power failure does not occur, the emergency escape indication board and the emergency lighting lamp are in an off state, and the alternating current power supply charges storage batteries in the emergency escape indication board and the emergency lighting lamp. However, sign and emergency lighting lamps and lanterns of promptly fleing do not light this moment, also do not work, can't judge sign and emergency lighting lamps and lanterns of promptly fleing do not break down and can normally light when alternating current power supply has a power failure, if just discover sign and the unable normal lighting of emergency lighting lamps and lanterns of promptly fleing when alternating current power supply has a power failure, then can't throw light on and provide the route of fleing for the user, can be to hindering user's the escape and can't guarantee user's safety, consequently, also need normally whether can normally light and detect sign and emergency lighting lamps and lanterns of promptly fleing when alternating current power supply has no power failure, thereby in time maintain when sign and emergency lighting lamps and lanterns of promptly fleing can not normally light.

Among the prior art, government fire control unit can carry out regularly spot check to sign and emergency lighting lamps and lanterns promptly flee for one's life, detects whether sign and emergency lighting lamps and lanterns of promptly fleing are qualified, can whether automatic lighting immediately when alternating current power supply has a power failure. However, the government fire department performs spot inspection at intervals, and cannot detect whether the emergency escape sign and the emergency lighting lamp can work normally every day, and the emergency escape sign and the emergency lighting lamp can not be lightened normally every day. And because the detection mode among the prior art is through the artifical manual alternating current power supply who breaks each sign of promptly fleing and emergency lighting lamps and lanterns to judge whether each sign of promptly fleing and emergency lighting lamps and lanterns can normally light, this not only waste time, manpower and material resources, still reduced the efficiency that detects.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a detection device only needs the user to send the detection instruction, and detection device just can be automatic with alternating current power supply and the circuit disconnection between the urgent escape device that awaits measuring to whether can normal work detect the urgent escape device that awaits measuring, not only saved manpower and material resources, still improved the efficiency that detects.

In order to solve the above technical problem, the utility model provides a detection device, include:

the control module is used for outputting a disconnection control signal after receiving a detection instruction sent by a user, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module;

the switch is used for switching off after receiving the switching-off control signal, and the switch is connected with the output end of the alternating current power supply at the first end, connected with the power supply input end of the emergency escape device to be tested at the second end and connected with the control end of the control module at the control end;

the input end of the state acquisition module is connected with the emergency escape device to be detected, and the output end of the state acquisition module is connected with the signal input end of the control module and used for acquiring state information of the emergency escape device to be detected after the switch is disconnected.

Preferably, the method further comprises the following steps:

and the user instruction receiving module is connected with the signal transmission end of the control module and used for receiving the detection instruction sent by the user and sending the detection instruction to the control module.

Preferably, the user instruction receiving module includes:

the detection button is used for receiving the detection instruction sent by the user;

the first input end is connected with the output end of the detection button, and the signal transmission end is used as a first wireless communication module of the signal transmission end of the user instruction receiving module and used for sending the detection instruction to the control module;

the control module includes:

the second wireless communication module, of which the signal transmission end is used as the signal transmission end of the control module, is used for receiving the detection instruction sent by the first wireless communication module;

the input end is connected with the internal signal output end of the second wireless communication module, the control signal output end is used as a control circuit of the control signal output end of the control module, the control circuit is used for receiving the detection instruction and outputting the disconnection control signal by the second wireless communication module, and the control circuit is further used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module.

Preferably, the first wireless communication module and the second wireless communication module are bluetooth.

Preferably, the user instruction receiving module further includes:

the recovery button is connected with the second input end of the first wireless communication module at the output end and used for receiving a recovery instruction sent by a user;

the first wireless communication module is further configured to send the recovery instruction to the second wireless communication module;

the control circuit is further configured to output a closing control signal after the second wireless communication module receives the recovery instruction;

the switch is also used for closing after receiving the closing control signal.

Preferably, the method further comprises the following steps:

the input end of the prompting module is connected with the judgment result output end of the control module and is used for correspondingly prompting a user after receiving a judgment result that whether the emergency escape device to be detected works normally or not is judged by the control module;

the control module is also used for sending a judgment result to the prompt module after judging whether the emergency escape device to be detected works normally or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module.

Preferably, the state acquisition module includes:

the input end of the light sensing element is used as the input end of the state acquisition module, the output end of the light sensing element is used as the output end of the state acquisition module, and the light sensing element is used for acquiring the brightness of the emergency escape device to be detected after the switch is switched off and sending the acquired brightness of the emergency escape device to be detected to the control module;

the control module is specifically used for judging whether the emergency escape device to be detected works normally or not based on the brightness of the emergency escape device to be detected, which is acquired by the state acquisition module.

Preferably, the switch comprises:

the first switch is connected with the first output end of the alternating current power supply at a first end, connected with the first power supply input end of the emergency escape device to be tested at a second end, and connected with the control signal output end of the control module, wherein the control end of the first switch is used as a first control end of the switch;

the first end of the second switch is connected with the second output end of the alternating current power supply, the second end of the second switch is connected with the second power supply input end of the emergency escape device to be tested, and the control end of the second switch is used as the second control end of the switch and is connected with the control signal output end of the control module;

the first switch and the second switch are used for being switched off after receiving the switching-off control signal.

Preferably, the emergency escape device to be tested is provided with a plurality of devices, the switches are provided with a plurality of switches, the control modules are provided with a plurality of state acquisition modules, the switches are respectively connected between the alternating current power supply and the emergency escape devices to be tested in a one-to-one correspondence manner, the control ends of the switches are respectively connected with the control signal output ends of the control modules in a one-to-one correspondence manner, the input ends of the state acquisition modules are connected with the emergency escape devices to be tested in a one-to-one correspondence manner, and the output ends of the state acquisition modules are connected with the signal input ends of the control modules in a one-to-one correspondence manner;

the detection device further comprises:

the control system is used for receiving the detection time of each emergency escape device to be detected set by a user, sending the detection time of each emergency escape device to be detected to each corresponding control module, and correspondingly prompting the user after receiving a judgment result of whether the control module judges whether the emergency escape device to be detected works normally or not;

each control module is further used for outputting the disconnection control signal when the detection time is up after the detection time of the emergency escape device to be detected corresponding to the switch connected with the control module is received, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module connected with the control module, and sending the detection result to the control system;

each switch is also used for being disconnected after receiving the disconnection control signal sent by the control module connected with the switch;

the output end of each state acquisition module is connected with the signal input end of the control module corresponding to the state acquisition module, and is also used for acquiring state information of the emergency escape device to be detected after the switch is disconnected, which corresponds to the emergency escape device to be detected, and sending the state information to the control module.

Preferably, a power input end of the control module is connected with an output end of the alternating current power supply, so that the control module works in a mode of supplying power by the alternating current power supply.

The application provides a detection device, including control module, connect switch and state acquisition module between AC power supply and the urgent escape device that awaits measuring, the user can send the detection instruction when needs detect the urgent escape device that awaits measuring, control module receives and exports disconnection control signal behind the detection instruction that the user sent, thereby will connect the switch disconnection between AC power supply and the urgent escape device that awaits measuring, state acquisition module gathers the state of the urgent escape device that awaits measuring behind the switch disconnection, so that control module can judge whether the urgent escape device that awaits measuring can normally work. Therefore, only by sending a detection instruction by a user, the detection device can automatically disconnect the circuit between the alternating current power supply and the emergency escape device to be detected, so that whether the emergency escape device to be detected can normally work is detected, manpower and material resources are saved, and the detection efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required in the prior art and the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a detection device provided by the present invention;

fig. 2 is a schematic structural diagram of a specific detection device provided by the present invention;

fig. 3 is a schematic structural diagram of a detection device for detecting a plurality of emergency escape devices to be detected according to the present invention.

Detailed Description

The core of the utility model is to provide a detection device, only need the user to send the detection instruction, detection device just can be automatic with alternating current power supply and the circuit disconnection between the urgent escape device that awaits measuring to whether can normally work detect the urgent escape device that awaits measuring, not only saved manpower and material resources, still improved the efficiency that detects.

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.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a detection device according to the present invention.

The device includes:

the control module 1 is used for outputting a disconnection control signal after receiving a detection instruction sent by a user, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module 3;

the switch 2 is connected with the output end of the alternating current power supply at the first end, is connected with the power supply input end of the emergency escape device to be tested at the second end, and is used for being disconnected after receiving a disconnection control signal at the control end;

and the state acquisition module 3 is used for acquiring the state information of the emergency escape device to be detected after the switch 2 is disconnected, and the input end of the state acquisition module is connected with the emergency escape device to be detected, and the output end of the state acquisition module is connected with the signal input end of the control module 1.

The applicant considers that the emergency escape device to be detected cannot be automatically lightened when the alternating current power supply is not powered off, so that a user cannot determine whether each part in the emergency escape device to be detected can normally work at the moment, and an emergency accident, such as power failure of the alternating current power supply during an earthquake, can cause that the user cannot escape in the dark, and cannot ensure the safety of the user. In order to ensure that the emergency escape device to be detected can normally work during power failure, so as to provide illumination and emergency escape indication for users, the emergency escape device to be detected needs to be detected, but in the prior art, generally, government fire-fighting units perform regular spot inspection on the emergency escape device to be detected, and the applicant considers that the detection mode cannot detect each emergency escape device to be detected every day, so that the emergency escape device to be detected cannot normally work every day.

In order to solve the above problems, the applicant considers that a storage battery is arranged in the emergency escape device to be detected, the storage battery is charged by an external alternating current power supply, the alternating current power supply is not powered off, that is, when the power is not off, the alternating current power supply supplies power to the storage battery in the emergency escape device to be detected, at this time, the storage battery is in a charging state and cannot supply power to the emergency escape sign or the emergency lighting lamp in the emergency escape device to be detected, therefore, the emergency escape sign or the emergency lighting lamp cannot be lightened, and after the power is off, the storage battery of the emergency escape device to be detected loses the charging of the alternating current power supply to self, and immediately supplies power to the emergency escape sign or the emergency lighting lamp, so that the emergency escape sign or the emergency lighting lamp is lightened, an escape route and a bright environment are provided for a user, and the user can conveniently escape.

Based on the principle, the switch 2 is connected between the alternating-current power supply and the emergency escape device to be detected, a user can send a detection instruction when the emergency escape device to be detected needs to be detected, the control module 1 can send a disconnection control signal, so that the switch 2 is disconnected, and if the emergency escape indication board or the emergency lighting lamp can be automatically lightened at the moment, the emergency escape device to be detected can normally work; if the emergency escape indication board or the emergency lighting lamp cannot be automatically lightened at the moment, the emergency escape device to be tested cannot normally work, and the staff is required to overhaul, so that the normal work of the emergency escape device to be tested is ensured.

Specifically, state acquisition module 3 in this application can gather the state information of the emergency escape device that awaits measuring to make control module 1 can judge whether the emergency escape device that awaits measuring can normally work after the outage based on the state information of the emergency escape device that awaits measuring. The state acquisition module 3 can be but not limited to the light sense element, and the light sense element can gather the luminance of the emergency escape device that awaits measuring to convert the luminance of the emergency escape device that awaits measuring that gathers into the voltage value and send to control module 1, and control module 1 compares the voltage value that received light sense element sent with the voltage value that corresponds when the emergency escape device that awaits measuring was normally lighted, thereby judges whether the emergency escape device that awaits measuring normally works.

The emergency escape device to be tested comprises a storage battery, an emergency escape sign or an emergency lighting lamp without limitation.

In addition, the switch 2 connected between the ac power source and the emergency escape device under test in the present application may be, but is not limited to, a relay.

It should be noted that, when detecting whether a certain emergency escape device to be detected normally works in this application, the user can directly observe whether the emergency escape device to be detected normally lights up through naked eyes after sending a detection instruction, thereby judging whether the emergency escape device to be detected normally works, and maintaining the emergency escape device to be detected when the emergency escape device to be detected does not normally light up, thereby maintaining the safety quality of the emergency escape device to be detected.

In addition, the control module 1 in the present application may directly receive the detection instruction sent by the user, or additionally provide a user instruction receiving module, and send the detection instruction sent by the user to the control module 1 after receiving the detection instruction sent by the user, which is not limited in the present application.

It should be noted that the control module 1 and the state acquisition module 3 in this application may be disposed on the ac power supply side, or may be disposed in the casing of the emergency escape device to be tested, which is not limited in this application.

Further, the output voltage of the alternating current power supply AC in the present application may be, but is not limited to, 100V or 240V.

In conclusion, in the application, only the user needs to send the detection instruction, the detection device can automatically disconnect the circuit between the alternating current power supply and the emergency escape device to be detected, so that whether the emergency escape device to be detected can normally work is detected, manpower and material resources are saved, and the detection efficiency is improved.

On the basis of the above-described embodiment:

as a preferred embodiment, the method further comprises the following steps:

and the user instruction receiving module 4 is connected with the signal transmission end of the control module 1, and is used for receiving the detection instruction sent by the user and sending the detection instruction to the control module 1.

Please refer to fig. 2, fig. 2 is a schematic structural diagram of a specific detection device provided in the present invention.

In the application, the user instruction receiving module 4 is independently arranged, the detection instruction sent by the user can be received, the detection instruction is sent to the control module 1, and the user can conveniently detect whether the emergency escape device to be detected can normally work.

The user instruction receiving module 4 may be, but is not limited to, a mobile phone or a remote controller having a button capable of receiving a detection instruction sent by a user.

It should be noted that, in the present application, the user instruction receiving module 4 may be configured as a device that wirelessly communicates with the control module 1, so that the user can remotely detect whether the emergency escape device to be detected can normally operate even at a position away from the emergency escape device to be detected. Wherein, the user instruction receiving module 4 can, but not limited to, transmit signals through the bluetooth and control module 1.

As a preferred embodiment, the user instruction receiving module 4 includes:

a detection button P1 for receiving a detection instruction sent by a user;

the first input end is connected with the output end of the detection button P1, and the signal transmission end is used as the first wireless communication module 51 of the signal transmission end of the user instruction receiving module 4, and is used for sending the detection instruction to the control module 1;

the control module 1 includes:

the second wireless communication module 52, whose signal transmission end is the signal transmission end of the control module 1, is used for receiving the detection instruction sent by the first wireless communication module 51;

the input end of the control signal output end is connected to the internal signal output end of the second wireless communication module 52, and the control signal output end is used as a control circuit of the control signal output end of the control module 1, and is used for outputting a disconnection control signal after the second wireless communication module 52 receives the detection instruction, and is further used for judging whether the emergency escape device to be detected normally works based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module 3.

In order to facilitate the user to send the detection instruction through the user instruction receiving module 4, a detection button P1 is provided in the user instruction receiving module 4 in the present application, please refer to fig. 2, the user can press the detection button P1, thereby realizing sending of the detection instruction.

In addition, in order to realize the connection between the user instruction receiving module 4 and the control module 1, a first wireless communication module 51 and a second wireless communication module 52 which can communicate with each other are respectively arranged in the user instruction receiving module 4 and the control module 1, so that the wireless transmission of the detection instruction is realized. It should be noted that, when the user instruction receiving module 4 is a remote controller, the first wireless communication module 51 and the second wireless communication module 52 in this application may be, but are not limited to, antennas that perform communication based on infrared ray, RF (Radio Frequency), or bluetooth; when the user instruction receiving module 4 is a mobile phone, the first wireless communication module 51 and the second wireless communication module 52 in this application may be, but are not limited to, antennas configured to be based on a network that is configured by a bluetooth 5.0mesh architecture and communicates with each other.

It should be noted that, the control module 1 in the present application is provided with a control circuit, and can generate a disconnection control signal based on the detection instruction, so as to control the switch 2 to be disconnected, and to detect whether the emergency escape device to be detected can normally operate.

It can be seen that, when this application detects the emergency escape device that awaits measuring whether normal work, the user can detect at the position far away from the emergency escape device that awaits measuring, only needs to press detection button P1, and control circuit just can judge whether normal work of the emergency escape device that awaits measuring based on the state information of the emergency escape device that awaits measuring that state acquisition module 3 gathered to be convenient for the user carries out follow-up operation.

In a preferred embodiment, the first wireless communication module 51 and the second wireless communication module 52 are bluetooth.

In this application, the first wireless communication module 51 and the second wireless communication module 52 are set as bluetooth, and bluetooth not only can realize wireless communication, but also has the characteristics of low power and low cost.

Of course, the first wireless communication module 51 and the second wireless communication module 52 in this application may also be infrared or RF, which is not limited in this application.

As a preferred embodiment, the user instruction receiving module 4 further includes:

a recovery button P2 having an output end connected to the second input end of the first wireless communication module 51, and configured to receive a recovery instruction sent by the user;

the first wireless communication module 51 is further configured to send a recovery instruction to the second wireless communication module 52;

the control circuit is further configured to output a close control signal after the second wireless communication module 52 receives the recovery instruction;

the switch 2 is also adapted to close upon receiving a close control signal.

The applicant considers that when the emergency escape device to be detected can normally work, the switch 2 connected between the alternating current power supply AC and the emergency escape device to be detected is disconnected, but the switch 2 needs to be closed after the detection is finished so as to ensure that the emergency escape device to be detected can normally work when the alternating current power supply AC is powered off.

In order to solve the above technical problem, a recovery button P2 is further disposed in the user instruction receiving module 4 in the present application, please refer to fig. 2, when the user knows that the determination result of the control module 1 is that the emergency escape device to be tested is normal or the emergency escape device to be tested is repaired, the recovery button P2 can be pressed, and the control module 1 generates a closing control signal after receiving the recovery instruction, so that the control switch 2 recovers a closing state, and the emergency escape device to be tested is ensured to normally work after the AC power supply has a power failure.

As a preferred embodiment, the method further comprises the following steps:

the prompting module is connected with the input end of the judging result output end of the control module 1 and used for correspondingly prompting a user after receiving a judging result of judging whether the emergency escape device to be detected works normally or not by the control module 1;

the control module 1 is further configured to send a judgment result to the prompt module after judging whether the emergency escape device to be detected works normally based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module 3.

In this application, whether the emergency escape device that awaits measuring normally works is judged at control module 1 based on the state information of the emergency escape device that awaits measuring that state collection module 3 gathered, the result of will judging is sent to the suggestion module to remind the user correspondingly, specifically, judge after switch 2 breaks off and remind the user that the emergency escape device that awaits measuring is normal when lighting, remind the user that the emergency escape device that awaits measuring is normal when judging that the emergency escape device that awaits measuring does not light, need to overhaul when judging that the emergency escape device that awaits measuring needs.

The reminding module can be but is not limited to a sound reminding module and/or a display reminding module, the sound reminding module can be but is not limited to a loudspeaker or a buzzer, the loudspeaker can make specific statement sound, and the buzzer can output sound with different frequencies so as to remind a user of different types; the display reminding module can be but is not limited to a display screen or an indicator light, the display screen can display specific pictures, and the indicator light can be turned on or off to remind the user differently, or can be turned on or off to remind the user differently by displaying lights with different colors.

It should be noted that, the prompting module in the present application may be disposed together with the user instruction receiving module 4, so that the user can know the detection result without moving after sending the detection instruction through the user instruction receiving module 4.

As a preferred embodiment, the state acquisition module 3 includes:

the input end of the state acquisition module 3 is used as the input end of the state acquisition module 3, and the output end of the state acquisition module 3 is used as the light sensing element of the output end of the state acquisition module 3, and the light sensing element is used for acquiring the brightness of the emergency escape device to be detected after the switch 2 is switched off and sending the acquired brightness of the emergency escape device to be detected to the control module 1;

the control module 1 is specifically configured to determine whether the emergency escape device to be detected works normally based on the brightness of the emergency escape device to be detected, which is acquired by the state acquisition module 3.

The state acquisition module 3 in this application can be for the light sense component, and the light sense component gathers the luminance of the urgent escape device that awaits measuring to convert the luminance of the urgent escape device that awaits measuring that will gather into the magnitude of voltage and send to control module 1, control module 1 compares the magnitude of voltage that received light sense component sent and the corresponding magnitude of voltage when the urgent escape device that awaits measuring is normally lighted, thereby judges whether the urgent escape device that awaits measuring normally works.

It should be noted that the state acquisition module 3 in the present application may also be a photosensitive sensor, which is not limited in the present application.

As a preferred embodiment, the switch 2 includes:

the first switch is connected with a first output end of an alternating current power supply AC at a first end, connected with a first power supply input end of the emergency escape device to be tested at a second end, and connected with a control signal output end of the control module 1, wherein a control end of the first switch is used as a first control end of the switch 2;

the first end of the second switch is connected with the second output end of the alternating current power supply AC, the second end of the second switch is connected with the second power supply input end of the emergency escape device to be tested, and the control end of the second switch is used as the second control end of the switch 2 and is connected with the control signal output end of the control module 1;

the first switch and the second switch are used for being switched off after receiving the switching-off control signal.

The applicant considers that two output ends (namely a zero line N and a live line L) exist in an alternating current power supply AC, please refer to fig. 2, so that a first switch is connected between a first output end of the alternating current power supply AC and a first power input end of the emergency escape device to be tested, a second switch is connected between a second output end of the alternating current power supply AC and a second power input end of the emergency escape device to be tested, and the first switch and the second switch are simultaneously disconnected when a disconnection control signal is received, so that a circuit between the alternating current power supply AC and the emergency escape device to be tested is disconnected, and whether the emergency escape device to be tested normally works or not is conveniently judged subsequently.

Of course, the first switch and the second switch in the present application may be, but are not limited to, relays.

As a preferred embodiment, a plurality of emergency escape devices to be tested are provided, a plurality of switches 2 are provided, a plurality of control modules 1 are provided, a plurality of state acquisition modules 3 are provided, each switch 2 is respectively connected between the AC power supply AC and each emergency escape device to be tested in a one-to-one correspondence manner, the control end of each switch 2 is respectively connected with the control signal output end of each control module 1 in a one-to-one correspondence manner, the input end of each state acquisition module 3 is connected with each emergency escape device to be tested in a one-to-one correspondence manner, and the output end of each state acquisition module 3 is connected with the signal input end of each control module 1 in a one-to-one correspondence manner;

the detection device further comprises:

the control system 6 is used for receiving the detection time of each emergency escape device to be detected set by a user, sending the detection time of each emergency escape device to be detected to each corresponding control module 1, and correspondingly prompting the user after receiving a judgment result of whether the emergency escape device to be detected works normally or not by the control module 1;

each control module 1 is also used for outputting a disconnection control signal when the detection time is reached after receiving the detection time of the emergency escape device to be detected corresponding to the switch 2 connected with the control module, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module 3 connected with the control module, and sending the detection result to the control system 6;

each switch 2 is also used for being disconnected after receiving a disconnection control signal sent by the control module 1 connected with the switch 2;

the output end of each state acquisition module 3 is connected with the signal input end of the corresponding control module 1, and is also used for acquiring the state information of the emergency escape device to be detected after the switch 2 corresponding to the emergency escape device to be detected connected with the state acquisition module is disconnected, and sending the state information to the control module 1.

The applicant considers that in practical situations, a plurality of emergency escape devices to be detected may need to be detected, in order to facilitate user detection, each emergency escape device to be detected is provided with a corresponding switch 2, a control module 1 and a state acquisition module 3, and a control system 6 is arranged, and the control system 6 is connected with the control module 1 corresponding to each emergency escape device to be detected, so as to detect each emergency escape device to be detected. Please refer to fig. 3, fig. 3 is a schematic structural diagram of a detection apparatus for detecting a plurality of emergency escape devices to be detected according to the present invention, in which only the switch 2 connected between the AC with energy source and the emergency escape device to be detected is shown, and the specific connection mode of the control module 1 and the state acquisition module 3 is not shown, and please refer to fig. 2 for the specific connection mode of the control module 1 and the state acquisition module 3.

Specifically, a user can set the detection time of each emergency escape device to be detected through the control system 6, for example, the emergency escape device to be detected is detected every day, the emergency escape device to be detected is detected every other day, the detection time of each emergency escape device to be detected is set or the detection sequence of each emergency escape device to be detected is set respectively, the control system 6 utilizes a network formed by a framework such as bluetooth 5.0mesh and communicated with the control center of the internet or an internal network through a gateway to communicate with the control module 1 corresponding to each emergency escape device to be detected, so that the detection time of each emergency escape device to be detected is sent to the corresponding control module 1 respectively, the control module 1 outputs a disconnection control signal after reaching the detection time of the emergency escape device to be detected corresponding to itself, so as to disconnect the switch 2 corresponding to itself, so as to detect the corresponding emergency escape device to be detected.

It should be noted that, when the emergency escape device to be detected in a smaller range, for example, in a certain floor needs to be detected in a centralized manner, the mobile phone can be used as the control system 6, and the mobile phone is connected with each control module 1 through bluetooth, so as to set the detection time of each emergency escape device to be detected.

As a preferred embodiment, the power input terminal of the control module 1 is connected to the output terminal of the AC power source AC, so that the control module 1 operates in the AC power supply mode.

In this application, the power input end of the control module 1 can be connected with the output end of the alternating current power supply AC, and is directly supplied with power by the alternating current power supply AC, so that the cost is saved.

Of course, an external power source may be provided to supply power to the control module 1, which is not limited in this application.

It is further noted that, in the present specification, relational terms such as first and second, and the like are 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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A detection device, comprising:

the control module is used for outputting a disconnection control signal after receiving a detection instruction sent by a user, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module;

the switch is used for switching off after receiving the switching-off control signal, and the switch is connected with the output end of the alternating current power supply at the first end, connected with the power supply input end of the emergency escape device to be tested at the second end and connected with the control end of the control module at the control end;

the input end of the state acquisition module is connected with the emergency escape device to be detected, and the output end of the state acquisition module is connected with the signal input end of the control module and used for acquiring state information of the emergency escape device to be detected after the switch is disconnected.

2. The detection device of claim 1, further comprising:

and the user instruction receiving module is connected with the signal transmission end of the control module and used for receiving the detection instruction sent by the user and sending the detection instruction to the control module.

3. The detection apparatus of claim 2, wherein the user instruction receiving module comprises:

the detection button is used for receiving the detection instruction sent by the user;

the first input end is connected with the output end of the detection button, and the signal transmission end is used as a first wireless communication module of the signal transmission end of the user instruction receiving module and used for sending the detection instruction to the control module;

the control module includes:

the second wireless communication module, of which the signal transmission end is used as the signal transmission end of the control module, is used for receiving the detection instruction sent by the first wireless communication module;

the input end is connected with the internal signal output end of the second wireless communication module, the control signal output end is used as a control circuit of the control signal output end of the control module, the control circuit is used for receiving the detection instruction and outputting the disconnection control signal by the second wireless communication module, and the control circuit is further used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module.

4. The detecting device as claimed in claim 3, wherein the first wireless communication module and the second wireless communication module are bluetooth.

5. The detection apparatus of claim 3, wherein the user instruction receiving module further comprises:

the recovery button is connected with the second input end of the first wireless communication module at the output end and used for receiving a recovery instruction sent by a user;

the first wireless communication module is further configured to send the recovery instruction to the second wireless communication module;

the control circuit is further configured to output a closing control signal after the second wireless communication module receives the recovery instruction;

the switch is also used for closing after receiving the closing control signal.

6. The detection device of claim 1, further comprising:

the input end of the prompting module is connected with the judgment result output end of the control module and is used for correspondingly prompting a user after receiving a judgment result that whether the emergency escape device to be detected works normally or not is judged by the control module;

the control module is also used for sending a judgment result to the prompt module after judging whether the emergency escape device to be detected works normally or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module.

7. The detection device of claim 6, wherein the state acquisition module comprises:

the input end of the light sensing element is used as the input end of the state acquisition module, the output end of the light sensing element is used as the output end of the state acquisition module, and the light sensing element is used for acquiring the brightness of the emergency escape device to be detected after the switch is switched off and sending the acquired brightness of the emergency escape device to be detected to the control module;

the control module is specifically used for judging whether the emergency escape device to be detected works normally or not based on the brightness of the emergency escape device to be detected, which is acquired by the state acquisition module.

8. The detection device of claim 1, wherein the switch comprises:

the first switch is connected with the first output end of the alternating current power supply at a first end, connected with the first power supply input end of the emergency escape device to be tested at a second end, and connected with the control signal output end of the control module, wherein the control end of the first switch is used as a first control end of the switch;

the first end of the second switch is connected with the second output end of the alternating current power supply, the second end of the second switch is connected with the second power supply input end of the emergency escape device to be tested, and the control end of the second switch is used as the second control end of the switch and is connected with the control signal output end of the control module;

the first switch and the second switch are used for being switched off after receiving the switching-off control signal.

9. The detecting device according to claim 1, wherein the number of the emergency escape devices to be detected is plural, the number of the switches is plural, the number of the control modules is plural, the number of the state collecting modules is plural, each of the switches is connected between the ac power supply and each of the emergency escape devices to be detected in a one-to-one correspondence manner, a control terminal of each of the switches is connected to a control signal output terminal of each of the control modules in a one-to-one correspondence manner, an input terminal of each of the state collecting modules is connected to each of the emergency escape devices to be detected in a one-to-one correspondence manner, and an output terminal of each of the state collecting modules is connected to a signal input terminal of each of the control modules in a one-to-one correspondence manner;

the detection device further comprises:

the control system is used for receiving the detection time of each emergency escape device to be detected set by a user, sending the detection time of each emergency escape device to be detected to each corresponding control module, and correspondingly prompting the user after receiving a judgment result of whether the control module judges whether the emergency escape device to be detected works normally or not;

each control module is further used for outputting the disconnection control signal when the detection time is up after the detection time of the emergency escape device to be detected corresponding to the switch connected with the control module is received, and is also used for judging whether the emergency escape device to be detected normally works or not based on the state information of the emergency escape device to be detected, which is acquired by the state acquisition module connected with the control module, and sending the detection result to the control system;

each switch is also used for being disconnected after receiving the disconnection control signal sent by the control module connected with the switch;

the output end of each state acquisition module is connected with the signal input end of the control module corresponding to the state acquisition module, and is also used for acquiring state information of the emergency escape device to be detected after the switch is disconnected, which corresponds to the emergency escape device to be detected, and sending the state information to the control module.

10. A testing device according to any one of claims 1 to 9 wherein the power input of the control module is connected to the output of the ac power source such that the control module operates on the ac power source.

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