CN217119207U - Intelligent fire hydrant box and maintenance intelligent supervision system - Google Patents

Abstract

The application discloses intelligent fire hydrant case. The fire hydrant case of intelligence includes: the box, the box includes: the frame body is provided with a containing groove for containing the fire hydrant; the door body is rotationally connected with the frame body, and covers the accommodating groove when the door body rotates to a preset position; the magnetic element is arranged on the inner side wall of the accommodating groove; and the monitoring module is detachably arranged on the door body and is opposite to the magnetic element when the door body rotates to a preset position, and the monitoring module monitors the rotation behavior of the door body relative to the frame body by sensing the magnetic element. Above-mentioned intelligent fire hydrant case, monitoring module is through the position of response magnetic element in order to monitor the relative framework pivoted action of door body, is favorable to maintaining fire-fighting equipment's property safety, guarantees fire water system's normal operating, guarantees the security of the lives and property. The application also discloses a maintenance intelligent supervision system.

Description

Intelligent fire hydrant box and maintenance intelligent supervision system

Technical Field

The application relates to the technical field of fire control, concretely relates to intelligent fire hydrant case and dimension guarantor intelligent supervisory systems.

Background

The fire hydrant belongs to an important component of a fire-fighting water system, is a main fire extinguishing facility in case of fire and is of great importance to the safety of buildings. Fire hydrants are typically placed in a fire hydrant cabinet to avoid damage to the fire hydrant and loss of accessories. However, since the abnormal behavior of the fire hydrant and the fire hydrant box cannot be monitored, the fire hydrant in the fire hydrant box is easily damaged and accessories are easily lost, which affects the normal operation of the fire-fighting water system.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for an intelligent fire hydrant cabinet and a maintenance intelligent monitoring system to monitor abnormal behavior of the fire hydrant cabinet, prevent damage to fire hydrant in the fire hydrant cabinet and loss of accessories, and ensure normal operation of a fire water system.

The application provides an intelligent fire hydrant case for hold the fire hydrant, include: a case, the case comprising: the frame body is provided with a containing groove for containing the fire hydrant; the door body is rotationally connected with the frame body, and covers the accommodating groove when the door body rotates to a preset position; the magnetic element is arranged on the inner side wall of the accommodating groove; and the monitoring module is detachably arranged on the door body and is opposite to the magnetic element when the door body rotates to the preset position, and the monitoring module monitors the rotation behavior of the door body relative to the frame body by sensing the magnetic element.

In some embodiments, the hydrant cabinet further comprises: and the buckle assembly is detachably arranged on the door body and is used for clamping or loosening the monitoring module so that the monitoring module is detachably arranged on the door body.

In some embodiments, the snap assembly comprises: a handle member; the connecting piece is movably connected with the handle piece and is provided with an accommodating cavity; the two clamping pieces are respectively movably connected with the two ends of the connecting piece and are oppositely arranged; the elastic piece is arranged in the accommodating cavity of the connecting piece and is respectively connected with the handle piece and the two clamping pieces; the handle part drives the elastic part to move so as to drive the two clamping parts to move relatively to clamp or loosen the monitoring module.

In some embodiments, the two ends of the monitoring module are respectively provided with a clamping part; the clamping part is matched with the corresponding clamping piece; the handle part drives the elastic part to move so as to drive the two clamping parts to move relatively to clamp or loosen the corresponding clamping parts.

In some embodiments, the monitoring module comprises: the magnetic induction unit is arranged opposite to the magnetic element when the door body rotates to the preset position and is used for inducing the magnetic element and sending an induction signal; the control unit is electrically connected with the magnetic induction unit and used for receiving the induction signal and sending a control signal according to the induction signal; and the communication unit is electrically connected with the control unit and used for receiving the control signal and sending out a communication signal according to the control signal.

In some embodiments, the monitoring module further comprises: and the power supply unit is electrically connected with the control unit and is used for providing electric energy for the control unit.

In some embodiments, the monitoring module further comprises: and the indicating unit is electrically connected with the control unit and used for receiving the control signal and sending an indicating signal according to the control signal.

In some embodiments, the monitoring module further comprises: the casing, detachably locates the door body, the magnetic induction unit the control unit the communication unit reaches the power supply unit is located the inside of casing, the instruction unit is located the surface of casing.

This application provides a dimension protects intelligent monitoring system simultaneously for supervise the fire hydrant, include: the intelligent fire hydrant cabinet as described above; the server is in communication connection with the monitoring module of the intelligent fire hydrant box and is used for receiving information monitored by the monitoring module; and the terminal is in communication connection with the server and is used for receiving the information sent by the server.

In some embodiments, the maintenance intelligent monitoring system further comprises: and the associated equipment is in communication connection with the server and receives the information sent by the server.

Above-mentioned intelligent fire hydrant case and dimension guarantor intelligence supervisory systems, through set up magnetic element on the inside wall of the holding tank at the framework, set up monitoring module on the door body, monitoring module monitors with the relative framework pivoted action of door body through response magnetic element's position, when the relative framework of door body takes place the abnormal rotation, monitoring module can not respond to magnetic element, monitoring module can send monitoring information, this fire hydrant case is opened by the anomaly with the suggestion dimension guarantor, need carry out comprehensive inspection to fire hydrant and annex in this fire hydrant case and the fire hydrant case, be favorable to maintaining fire-fighting equipment's property safety, guarantee fire water system's normal operating, guarantee the security of lives and property.

Drawings

Fig. 1 is a schematic perspective view of an intelligent fire hydrant cabinet according to some embodiments of the present disclosure.

Fig. 2 is a schematic view of another perspective structure of the intelligent fire hydrant cabinet shown in fig. 1.

Fig. 3 is a schematic perspective view of the monitoring module and the snap assembly.

Figure 4 is a cross-sectional view of the buckle assembly taken along line iv-iv.

Fig. 5 is a cross-sectional view of the monitoring module along v-v.

FIG. 6 is a functional block diagram of a maintenance intelligent supervision system according to some embodiments of the present application.

Description of the main elements

Maintenance intelligent monitoring system 1000

Intelligent hydrant box 100

Box 10

Frame body 11

Accommodating groove 111

Blind hole 112

Door body 12

Mounting groove 121

Notch 1211

Lock catch 13

Magnetic element 20

Monitoring module 30

Magnetic induction unit 31

Control unit 32

Communication unit 33

Power supply unit 34

Indication unit 35

Housing 36

Card portion 361

Snap assembly 40

Handle part 41

Connecting piece 42

Containing cavity 421

Clip 43

Elastic member 44

Server 200

Terminal 300

Association device 400

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, 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," "clockwise," "counterclockwise," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the present application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated in a particular orientation, and thus are not to be construed as limiting the present application. Furthermore, the terms "first", "second" and "first" 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. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, it is to be noted that the meaning of "a plurality" is two or more unless specifically defined otherwise.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be mechanically coupled, electrically coupled, or in communication with each other, directly coupled, or indirectly coupled through intervening media, in which case they may be interconnected, or in which case they may be in an interconnecting relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise direct contact between the first and second features through another feature in between. Also, the first feature "on," "above" and "over" the second feature includes the first feature being directly above and obliquely above the second feature, or merely indicating that the horizontal thickness of the first feature is higher than that of the second feature. A first feature "under," "below," and "beneath" a second feature includes a first feature that is directly under and obliquely below the second feature, or simply means that the first feature is less horizontally thick than the second feature.

The following disclosure provides many different embodiments or examples for implementing different features of the application. In order to simplify the disclosure of the present application, specific example components and arrangements are described below. Of course, they are merely examples and are not intended to limit the present application. Moreover, the present application may repeat reference numerals and/or letters in the various examples, such repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

The embodiment of the application provides an intelligent fire hydrant case for hold the fire hydrant, include: a case, the case comprising: the frame body is provided with an accommodating groove for accommodating the fire hydrant; the door body is rotationally connected with the frame body, and covers the accommodating groove when the door body rotates to a preset position; the magnetic element is arranged on the inner side wall of the accommodating groove; and the monitoring module is detachably arranged on the door body and is opposite to the magnetic element when the door body rotates to the preset position, and the monitoring module monitors the rotation behavior of the door body relative to the frame body by sensing the magnetic element.

The embodiment of the application provides a dimension guarantor intelligent monitoring system simultaneously for supervision is carried out the fire hydrant, include: the intelligent fire hydrant cabinet as described above; the server is in communication connection with the monitoring module of the intelligent fire hydrant and is used for receiving information monitored by the monitoring module; and the terminal is in communication connection with the server and is used for receiving the information sent by the server.

Above-mentioned intelligent fire hydrant case and dimension guarantor intelligence supervisory systems, through set up magnetic element on the inside wall of the holding tank at the framework, set up monitoring module on the door body, monitoring module monitors with the relative framework pivoted action of door body through response magnetic element's position, when the relative framework of door body takes place the abnormal rotation, monitoring module can not respond to magnetic element, monitoring module can send monitoring information, this fire hydrant case is opened by the anomaly with the suggestion dimension guarantor, need carry out comprehensive inspection to fire hydrant and annex in this fire hydrant case and the fire hydrant case, be favorable to maintaining fire-fighting equipment's property safety, guarantee fire water system's normal operating, guarantee the security of lives and property.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic diagram of an intelligent fire hydrant cabinet according to some embodiments of the present invention. The hydrant cabinet 100 is used to accommodate a hydrant (not shown) and can monitor abnormal behavior of the hydrant cabinet 100. It should be noted that "abnormal behavior" may be understood as a behavior that the hydrant cabinet is opened at a non-maintenance time, or the like, which is not performed by a maintenance person or the hydrant cabinet is opened at a non-maintenance time. The hydrant cabinet 100 includes a cabinet 10, a magnetic element 20 (shown in fig. 2) and a monitoring module 30.

Referring to fig. 2, the box 10 includes a frame 11 and a door 12. The frame 11 is substantially cubic, and the frame 11 has a receiving groove 111 for receiving the hydrant, and the receiving groove 111 has a sufficient space for receiving the hydrant and accessories of the hydrant. The door 12 is substantially plate-shaped, the door 12 is rotatably connected to the frame 11, the door 12 covers the accommodating groove 111 when rotating to a predetermined position, and the accommodating groove 111 is covered by the door 12, so that the box 10 formed by the door 12 and the frame 11 has a closed space (accommodating groove 111), and the fire hydrant and the accessories are stored in the accommodating groove 111. The "preset position" in the present embodiment may be understood as a position where the door 12 is parallel to the frame 11.

In some embodiments, the cabinet 10 may further include a latch 13, the latch 13 is disposed on the door 12, and the latch 13 is used for locking the door 12 to the frame 11 when the door 12 rotates to a predetermined position. It is understood that in other embodiments, the door 12 may be fixed to the frame 11 by snapping. Exemplarily, a first clamping piece (not shown) is arranged on the door body 12, a second clamping piece (not shown) corresponding to the first clamping piece is arranged on the frame body 11, the second clamping piece can be matched with the first clamping piece to be clamped and connected, and when the door body 12 rotates to a preset position, the first clamping piece is clamped and connected with the second clamping piece, so that the door body 12 is fixed on the frame body 11.

The magnetic element 20 is substantially in the shape of a bar, and the magnetic element 20 is disposed on the inner sidewall of the receiving groove 111. In some embodiments, the frame 11 further has a blind hole 112 for mounting the magnetic element 20, and the magnetic element 20 is mounted in the blind hole 112, so that the surface of the magnetic element 20 is parallel to the surface of the inner sidewall of the receiving groove 111, and the magnetic element 20 is prevented from being damaged by collision due to protruding from the surface of the inner sidewall of the receiving groove 111.

The monitoring module 30 is generally block-shaped, the monitoring module 30 is detachably disposed on the door 12 and is opposite to the magnetic element 20 when the door 12 rotates to a preset position, so that the monitoring module 30 can sense the magnetic element 20, and the monitoring module 30 monitors the rotation of the door 12 relative to the frame 11 by sensing the magnetic element 20. In some embodiments, the door 12 defines a mounting groove 121 for mounting the monitoring module 30, and the mounting groove 121 has a notch 1211 corresponding to the blind hole 112 of the frame 11, so that the monitoring module 30 can be opposite to the magnetic element 20 to sense the magnetic element 20.

In some embodiments, the hydrant cabinet 100 may further include a clip assembly 40. The buckle assembly 40 is detachably disposed in the mounting groove 121 of the door 12, and the buckle assembly 40 is used for clamping or loosening the monitoring module 30, so that the monitoring module 30 is detachably disposed in the mounting groove 121 of the door 12. In some embodiments, the mounting slot 121 further has a notch 1211 for mounting the snap assembly 40, i.e., the mounting slot 121 has two notches 1211.

Referring to fig. 3 and 4, in some embodiments, the clip assembly 40 may include a handle 41, a connecting member 42, two clip members 43, and an elastic member 44. The handle member 41 is substantially plate-shaped; the connecting element 42 is approximately in a concave shape, the concave shape of the connecting element 42 is matched with that of the monitoring module 30, the connecting element 42 is movably connected with the handle element 41, the connecting element 42 is provided with a containing cavity 421, and the connecting element 42 can be understood as a hollow structure; the handle member 41 is movably connected to a substantially middle portion of the connecting member 42. The clamping members 43 are substantially plate-shaped, the two clamping members 43 are movably connected with two ends of the connecting member 42 respectively, the two clamping members 43 are arranged oppositely, and the two clamping members 43 respectively use the end part of the connecting member 42 as a fulcrum to perform rotary motion approximately so as to enable the end parts, far away from the connecting member 42, of the two clamping members 43 to be close to or far away from each other, and therefore the clamping members 43 can clamp or loosen the monitoring module 30. The elastic member 44 has elasticity, the elastic member 44 is substantially strip-shaped, the elastic member 44 is disposed in the accommodating cavity 421 of the connecting member 42, and the elastic member 44 is connected with the handle member 41 and the two clamping members 43 respectively, so that the handle member 41 can drive the two clamping members 43 to move through the elastic member 44. The handle 41 drives the elastic member 44 to move, and then drives the two clamping members 43 to move relatively to clamp or release the monitoring module 30.

Some embodiments provide for an implementation of the snap assembly 40 that is substantially: in a natural state, the elastic member 44 naturally expands and contracts, and the ends of the two clamping members 43 approach each other to clamp the monitoring module 30. After pressing handle 41, handle 41 drives elastic component 44 and contracts, and elastic component 44 produces compressive force, and elastic component 44 further drives two joint spare 43 and uses the tip of connecting piece 42 as the fulcrum respectively and roughly carries out circular motion and the tip of two joint spare 43 keeps away from each other to make the distance between two joint spare 43 grow in order to open, and then loosen monitoring module 30. After the monitoring module 30 is taken out, the handle part 41 is loosened, the elastic part 44 recovers towards the trend of the natural state under the elastic action, the elastic part 44 drives the two clamping parts to respectively roughly perform circular motion by taking the end part of the connecting part 42 as a fulcrum while recovering, the end parts of the two clamping parts 43 are close to each other, finally, the elastic part 44 and the two clamping parts 43 recover to the natural state, and at the moment, the two clamping parts 43 can clamp the monitoring module 30.

Some embodiments provide that the connector 42 of the clip assembly 40 can be in interference connection with the mounting slot 121 when the clip assembly 40 is mounted in the mounting slot 121, since the connector 42 of the clip assembly 40 does not require any action, thereby integrally mounting the clip assembly 40 in the mounting slot 121. When the monitoring module 30 is installed, the handle member 41 is pressed so that the two engaging members 43 are spaced apart from each other to be opened, the monitoring module 30 is inserted between the two engaging members 43 from the other notch 1211 of the installation groove 121, and the handle member 41 is released so that the two engaging members 43 approach each other by the elastic force of the elastic member 44 to clamp the monitoring module 30.

Referring to fig. 3 and 5, in some embodiments, the two ends of the monitoring module 30 are respectively provided with a clamping portion 361. The clamping part 361 is approximately groove-shaped, and the clamping part 361 is matched with the corresponding clamping piece 43; the ends of the two engaging members 43 are extended into the engaging portions 361 when they approach each other, thereby engaging the monitoring module 30. The handle 41 drives the elastic member 44 to move, and then drives the two clamping members 43 to move relatively to clamp or release the corresponding clamping portions 361.

It is understood that in other embodiments, the resilient member 44 may not have resilience. The handle member 41 moves in different directions to make the elastic member 44 bring the ends of the two clamping members 43 close to or away from each other, so as to clamp or release the monitoring module 30.

In some embodiments, the monitoring module 30 may include a magnetic induction unit 31, a control unit 32, and a communication unit 33.

The magnetic induction unit 31 is disposed opposite to the magnetic element 20 when the door body 12 rotates to a preset position, and the magnetic induction unit 31 is configured to induce the magnetic element 20 and emit an induction signal, which may be an electrical signal. The control unit 32 is electrically connected to the magnetic induction unit 31, and the control unit 32 is configured to receive the sensing signal and send a control signal according to the sensing signal. The communication unit 33 is electrically connected to the control unit 32, and the communication unit 33 is configured to receive the control signal and send a communication signal according to the control signal. Therefore, the monitoring module 30 senses the magnetic element 20 through the magnetic sensing unit 31 and sends a sensing signal to the control unit 32, the control unit 32 judges whether the fire hydrant cabinet is in an abnormal behavior according to the sensing signal and a preset threshold, when the fire hydrant cabinet is in the abnormal behavior, the control unit 32 sends a control signal, and the communication unit 33 receives the control signal and sends a communication signal so as to report the event that the fire hydrant cabinet is in the abnormal behavior. The preset threshold may be: the magnetic induction unit 31 is normal when it senses the magnetic element 20, and the magnetic induction unit 31 is abnormal when it senses the magnetic element 20.

In some embodiments, the control Unit 32 may be a Central Processing Unit (CPU), and may further include other general purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, and the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The control unit 32 is a processing center of the monitoring module 30, and is connected to the units through various interfaces and lines.

In some embodiments, the communication unit 33 may be an NB internet of things card, a SIM (Subscriber Identity Module) card, or other devices capable of performing communication. The NB internet of things card has the advantages of being special in communication channel, stable in signal, strong in adaptability, low in power consumption, capable of transmitting wireless signals and the like.

In some embodiments, the monitoring module 30 may further include a power supply unit 34 and an indication unit 35.

The indication unit 35 is electrically connected to the control unit 32, and the indication unit 35 is configured to receive the control signal and send an indication signal according to the control signal. The power supply unit 34 is electrically connected to the control unit 32, and the power supply unit 34 is used for supplying power to the control unit 32. The control unit 32 further provides power to the magnetic induction unit 31, the communication unit 33 and the indication unit 35. The control unit 32 may have functions of lamp management, alarm management, communication management, power management, and the like.

In some embodiments, the power supply unit 34 may be a high energy lithium battery. In other embodiments, the power supply unit 34 may also be an external power supply, the external power supply is electrically connected to the control unit 32, and the control unit 32 rectifies and transforms the external power supply to supply power to the magnetic induction unit 31, the communication unit 33, and the indication unit 35.

In some embodiments, the indication unit 35 may be an indication lamp which may display at least two colors, for example, red, green, yellow and blue, and the frequency of the flashing of the indication lamp is 1 time/hour. When the intelligent fire hydrant box 100 is normal, the control unit 32 controls the indicator light to display green; when the intelligent fire hydrant box 100 is in abnormal behavior, the control unit 32 controls the indicator light to display red; when at least one unit in the monitoring module 30 fails to work normally, the control unit 32 controls the indicator light to display yellow; when the power supply unit 34 in the monitoring module 30 is low in power, the control unit 32 controls the indicator light to display blue, and the control unit 32 can also control the communication unit 33 to send out a communication signal to prompt maintenance personnel, so that the monitoring module needs to replace the power supply unit 34.

It is understood that in other embodiments, the indicating unit 35 may also be a sound player, and the sound player reminds the maintainer or other people of the corresponding behavior by playing the corresponding voice content.

In some embodiments, the monitoring module 30 may also include a housing 36. The housing 36 is substantially block-shaped, the two ends of the housing 36 are provided with clamping portions 361, and the housing 36 is detachably disposed in the mounting groove 121 of the door body 12 through the clamping assembly 40. The magnetic induction unit 31, the control unit 32, the communication unit 33 and the power supply unit 34 are all disposed inside the casing 36, and the magnetic induction unit 31 is disposed opposite to the magnetic element 20. The indicating unit 35 is provided on the surface of the housing 36. In some embodiments, the indication unit 35 and the magnetic induction unit 31 are respectively disposed on two adjacent surfaces of the housing 36.

Some embodiments provide an implementation of the intelligent fire hydrant cabinet 100 that is generally: under normal conditions, the power supply unit 34 of the monitoring module 30 normally supplies power to the control unit 32, and the indicating unit 35 is displayed in green; the monitoring module 30 is fixed on the door body 12 through the buckle assembly 40, the magnetic induction unit 31 is arranged opposite to the magnetic element 20, and the magnetic induction unit 31 can induce the magnetic element 20; the control unit 32 can not send out a control signal based on the magnetic induction unit 31 sensing the magnetic element 20; in the non-maintenance time, the door body 12 is opened, and the magnetic induction unit 31 cannot induce the magnetic element 20; the control unit 32 controls the communication unit 33 to send a communication signal to remind a maintenance person of paying attention to the abnormal behavior based on that the magnetic induction unit 31 cannot induce the magnetic element 20 to send a control signal, and controls the indicator light to display red color to remind a person opening the door body 12 of paying attention to the abnormal behavior and closing the door body 12. When the person who opens the door body 12 receives the indication signal and closes the door body 12, the magnetic induction unit 31 senses the magnetic element 20, the control unit 32 senses the magnetic element 20 based on the magnetic induction unit 31, the control signal is not sent any more, the indication lamp displays green, and the communication unit 33 does not send any more a communication signal. It should be noted, however, that since the communication unit 33 has sent a communication signal indicating that the hydrant cabinet has been opened, the service personnel still needs to check the hydrant cabinet.

It is understood that, in other implementation processes, when the power supply unit 34 in the monitoring module 30 is low in power, the control unit 32 controls the communication unit 33 to send out the communication signal and simultaneously controls the indication unit 35 to display blue color based on the low power of the power supply unit 34; after receiving the communication signal, the maintenance worker replaces the power supply unit 34. The maintenance personnel firstly take down the buckle assembly 40 and the monitoring module 30 clamped by the buckle assembly 40, the maintenance personnel press the handle piece 41 to enable the end parts of the two clamping pieces 43 to be away from each other to be opened, the buckle assembly 40 loosens the monitoring module 30, and the maintenance personnel take out the monitoring module 30 and replace the power supply unit 34; after the power supply unit 34 is replaced, the maintenance personnel presses the handle part 41 to enable the end parts of the two clamping pieces 43 to be away from each other so as to open, the maintenance personnel places the monitoring module 30 between the two clamping pieces 43, releases the handle part 41, and enables the end parts of the two clamping pieces 43 to approach each other under the elastic action of the elastic piece 44 so as to clamp the clamping part 361 of the monitoring module 30; the maintenance personnel place the fastener assembly 40 and the monitoring module 30 clamped by the fastener assembly 40 into the mounting groove 121 of the door body 12. In this way, replacement of the power supply unit 34 in the monitoring module 30 is achieved.

It is to be appreciated that in other embodiments, the maintenance center issues a maintenance instruction to each monitoring module 30 during the maintenance time, which the control unit 32 receives. When the magnetic induction unit 31 cannot sense the magnetic element 20 during the maintenance time, the control unit 32 no longer controls the communication unit 33 to send out the communication signal based on the fact that the magnetic induction unit 31 cannot sense the magnetic element 20.

Referring to fig. 6, fig. 6 is a diagram illustrating an intelligent maintenance monitoring system according to some embodiments of the present application. The maintenance intelligent monitoring system 1000 is used for monitoring fire hydrants and fire water systems. The maintenance intelligent supervision system 1000 comprises the intelligent fire hydrant box 100, the server 200 and the terminal 300.

The server 200 is connected to the monitoring module 30 of the hydrant box 100 in a communication manner, and the server 200 is used for receiving the information monitored by the monitoring module 30. The terminal 300 is in communication connection with the server 200, and the terminal 300 is used for receiving information sent by the server 200.

In some embodiments, server 200 may be a computer, processor, or the like capable of receiving, processing, and transmitting data information. The server 200 may be located in a computer room, a monitoring center, or the like. The server 200 may have functions of fire hydrant maintenance planning and arrangement, alarm management, map management, integrated monitoring module ID management, personnel information management, fire fighting water system signal receiving management, monitoring system calling and the like.

In some embodiments, the terminal 300 may be an electronic device used by a maintenance worker, such as a mobile phone, a tablet, or a smart watch, and the terminal 300 is configured to receive information sent by the server 200 in time and also send information to the server 200, so that the maintenance worker can receive and process information monitored by the smart hydrant cabinet 100 in time.

In some embodiments, the maintenance intelligent supervision system 1000 may further include at least one association device 400, where the at least one association device 400 is communicatively connected to the server 200 and receives information sent by the server 200. Illustratively, the association device 400 may be a camera, a fire-fighting water system, or the like, around the intelligent hydrant cabinet 100. By communicatively connecting the association device 400 with the server 200, monitoring devices around the fire hydrant may be integrated, facilitating timely confirmation of conditions around the fire hydrant.

In the maintenance intelligent supervision system 1000 according to some embodiments, only information is recorded for the intelligent fire hydrant cabinet 100, the intelligent fire hydrant cabinet 100 and the server 200 that need to be maintained within the maintenance scheduling time, and no alarm is given. When the maintenance scheduling time is exceeded, the intelligent fire hydrant cabinet 100 is in an alert state, and when the door body 12 is opened abnormally, the maintenance intelligent monitoring system 1000 continuously gives an alarm and calls peripheral camera devices, and meanwhile relevant information is pushed to the terminal 300. In the maintenance scheduling time, the door body 12 of the intelligent fire hydrant cabinet 100 is opened, the monitoring module 30 and the server 200 correspondingly record information and do not push messages any more, and when the server 200 receives a fire hydrant manual alarm button signal or a fire water system alarm signal at the same time, the maintenance is determined to be normal. In the maintenance scheduling time, after the door body 12 of the intelligent hydrant cabinet 100 is opened, no relevant fire fighting water system signal exists, the server 200 records the maintenance exception, and after the maintenance scheduling is finished, the server 200 sends the maintenance exception information to the terminal 300. In the maintenance scheduling time, the server 200 receives a signal related to the fire water system, does not receive a signal for opening the door body 12 of the intelligent hydrant cabinet 100, and records the abnormal maintenance, and after the maintenance scheduling is finished, the server 200 sends information of the abnormal maintenance to the terminal 300. And in the maintenance scheduling time, the server 200 does not receive a signal of opening the door body 12 of the intelligent fire hydrant cabinet 100 and records the signal as maintenance abnormity, and after the maintenance scheduling is finished, the server 200 sends maintenance abnormity information to the terminal 300.

The maintenance intelligent supervision system 1000 that some embodiments provided, set up magnetic element 20 on the inside wall through the holding tank 111 of the framework 11 at intelligent hydrant box 100, set up monitoring module 30 on door body 12, monitoring module 30 is through the position of response magnetic element 20 with monitor the relative framework 11 pivoted action of door body 12, when door body 12 takes place unusual rotation relative to framework 11, monitoring module 30 can not respond to magnetic element 20, monitoring module 30 can send monitoring information, in order to indicate the maintenance personnel this intelligent hydrant box 100 is opened by the anomaly, need carry out comprehensive inspection to the fire hydrant and the annex in this intelligent hydrant box 100 and the intelligent hydrant box 100, be favorable to maintaining fire-fighting equipment's property safety. The maintenance intelligent monitoring system 1000 can also be associated with the association equipment 400, so that the normal operation of the fire hydrant in the intelligent fire hydrant cabinet 100 is further ensured, the normal operation of a fire fighting water system is ensured, and the safety of lives and properties is ensured.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present application and not for limiting, and although the present application is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.

Claims (10)

1. An intelligent hydrant cabinet for accommodating fire hydrants, comprising:

a case, the case comprising:

the frame body is provided with a containing groove for containing the fire hydrant; and

the door body is rotationally connected with the frame body, and covers the accommodating groove when the door body rotates to a preset position;

the magnetic element is arranged on the inner side wall of the accommodating groove; and

the monitoring module is detachably arranged on the door body, the door body rotates to the preset position and is opposite to the magnetic element, and the monitoring module monitors the rotation behavior of the door body relative to the frame body through sensing the magnetic element.

2. The intelligent fire hydrant cabinet according to claim 1,

the intelligent fire hydrant case still includes:

and the buckle assembly is detachably arranged on the door body and is used for clamping or loosening the monitoring module so that the monitoring module is detachably arranged on the door body.

3. The hydrant cabinet in claim 2,

the buckle subassembly includes:

a handle member;

the connecting piece is movably connected with the handle piece and is provided with an accommodating cavity;

the two clamping pieces are respectively movably connected with the two ends of the connecting piece and are oppositely arranged; and

the elastic piece is arranged in the accommodating cavity of the connecting piece and is respectively connected with the handle piece and the two clamping pieces;

the handle part drives the elastic part to move so as to drive the two clamping parts to move relatively to clamp or loosen the monitoring module.

4. The hydrant cabinet in claim 3,

the two ends of the monitoring module are respectively provided with a clamping part;

the clamping part is matched with the corresponding clamping piece;

the handle part drives the elastic part to move so as to drive the two clamping parts to move relatively to clamp or loosen the corresponding clamping parts.

5. The hydrant cabinet in claim 1,

the monitoring module includes:

the magnetic induction unit is arranged opposite to the magnetic element when the door body rotates to the preset position and is used for inducing the magnetic element and sending an induction signal;

the control unit is electrically connected with the magnetic induction unit and used for receiving the induction signal and sending a control signal according to the induction signal; and

and the communication unit is electrically connected with the control unit and used for receiving the control signal and sending out a communication signal according to the control signal.

6. The hydrant cabinet in claim 5,

the monitoring module further comprises:

and the power supply unit is electrically connected with the control unit and is used for providing electric energy for the control unit.

7. The hydrant cabinet in claim 6,

the monitoring module further comprises:

and the indicating unit is electrically connected with the control unit and used for receiving the control signal and sending an indicating signal according to the control signal.

8. The hydrant cabinet in claim 7,

the monitoring module further comprises:

the casing, detachably locates the door body, the magnetic induction unit the control unit the communication unit reaches the power supply unit is located the inside of casing, the instruction unit is located the surface of casing.

9. A dimension guarantor intelligent monitoring system for supervise the fire hydrant, its characterized in that includes:

the hydrant cabinet of any one of claims 1-8;

the server is in communication connection with the monitoring module of the intelligent fire hydrant box and is used for receiving information monitored by the monitoring module; and

and the terminal is in communication connection with the server and is used for receiving the information sent by the server.

10. The maintenance intelligence monitoring system of claim 9,

the maintenance intelligent monitoring system further comprises:

and the associated equipment is in communication connection with the server and receives the information sent by the server.

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