CN211935263U - Intelligent fire fighting system - Google Patents

Abstract

The utility model provides a novel intelligence fire extinguishing system, fire extinguishing system divide into a plurality of regions with the computer lab space, smoke transducer and temperature sensor are installed to every region to lay the track in computer lab top or ground, be equipped with fire control mechanism on the track, fire control mechanism be connected with power unit and drive, fire control mechanism is scalable, is equipped with a plurality of fire control bottles in, still is equipped with RFID induction system in the fire control mechanism. The utility model discloses a fire extinguishing system sends the order through sensor signal and gives dispatch system, sends the fire control mechanism to the alarm area through the RFID induction system is accurate and carries out the fire control operation. The utility model discloses the laying mode saves space, can be accurate judge the trouble to realize automatic operation, the ability of putting out a fire is strong, eliminates the potential safety hazard in the bud stage, improves website operational reliability, avoids the serious accident to produce.

Description

Intelligent fire fighting system

Technical Field

The utility model belongs to the technical field of the fire control safety, a special design intelligence fire extinguishing system.

Background

For machine rooms and other places, a large number of power supply devices are arranged, the devices are distributed densely, most stations are unattended, once a fire disaster occurs, the influence range is large, the fire extinguishing time is long, and large-area influence is caused on users and services. Most of the existing fire fighting equipment needs maintenance personnel to open a handheld or cart-type fire extinguisher for processing after finding out a dangerous case, the consumed time is long, the number of required personnel is large, and the fire point cannot be accurately judged. Some stations adopt the measures of a spraying system, but the spraying range is wide, and equipment which does not catch fire is also influenced.

SUMMERY OF THE UTILITY MODEL

The fire-fighting equipment to current computer lab moves inconveniently, can not accurately judge the ignition point, sprays the equipment that influences not firing, consumes a large amount of human labor's defect, the utility model provides an intelligence fire extinguishing system through set up the track in the computer lab, installs portable telescopic fire control unit, realizes accurately putting out a fire fast, just can move in the smoldering phase, eliminates the hidden danger in the bud stage, improves website operational reliability, avoids serious accident to produce.

The utility model discloses a realize through following technical scheme:

an intelligent fire-fighting system is arranged in a machine room and is controlled by a terminal control system; the terminal control system is one of a single chip microcomputer, a PLC or an ARM, and further comprises a display connected with the terminal control system; the machine room is divided into a plurality of small areas, and a sensor is arranged in each small area; a track is laid in the machine room and passes through each small area; the sensors are temperature sensors and smoke sensors.

The track is formed by symmetrically arranging two I-shaped tracks, and a fire-fighting mechanism is arranged on the track; the fire-fighting mechanism comprises a driving mechanism and a fire-fighting mechanism, a touch slide wire is further arranged at the bottom of the track and connected with a power supply box to enable the power supply box to be electrified.

The top of actuating mechanism on be provided with the RFID device, the RFID device can accurate discernment warning sensor's position, convey actuating mechanism to corresponding position and carry out fire control operation. Extension arms are respectively arranged on two sides of the bottom of the driving mechanism, and moving wheels are arranged at the end parts of the extension arms and sleeved in grooves on the outer sides of the I-shaped rails; a sliding contact head is also arranged on the extension arm of the driving mechanism and is contacted with a sliding contact line of the track; a driving gear is also arranged on one side of the driving mechanism and is meshed with a toothed belt arranged in a groove on the inner side of the I-shaped track; a motor and a lithium battery are also arranged in the driving mechanism, and a rotating shaft of the motor is connected with the driving gear; the lithium battery provides electric energy for the motor.

The driving mechanism adopts a hybrid power supply mode, the power is supplied to the driving mechanism through a sliding contact line of a sliding contact head contacting with a track, a built-in lithium battery can be automatically charged in a static state or when the voltage is insufficient, and when the sliding contact head and the track contact the sliding contact line or the power box is powered off in the operation process of the driving mechanism, the lithium battery is automatically converted into the lithium battery power supply mode.

The bottom of the driving mechanism is also provided with a telescopic device, one end of the telescopic device is fixed on the driving mechanism, and the other end of the telescopic device is fixedly connected with a connecting rod of the fire extinguishing mechanism through a rotating mechanism; the length of the fire extinguishing mechanism can be adjusted by the aid of the telescopic device, so that fire extinguishing operation can be performed at different heights. The rotating mechanism can rotate the fire extinguishing mechanism for 360 degrees, so that the fire extinguishing position is accurately determined, when the carbon dioxide or the dry powder of one fire extinguishing bottle is used up, the other fire extinguishing bottle can be switched to continue to extinguish fire until the fire is completely extinguished.

A placing groove for placing a fire extinguishing bottle is arranged in the fire extinguishing mechanism, and an opening is formed in the end face of the fire extinguishing mechanism; the included angle of every two bottle openings or the bottle tail of the fire extinguishing bottle is 90 degrees, and the nozzle of the fire extinguishing bottle is arranged in the opening.

The fire extinguishing bottle has two arrangement modes, one arrangement mode is that the bottle bottom is connected with the bottle bottom, and the included angle is 90 degrees; the other arrangement is that the bottle mouth is connected with the bottle mouth, and the included angle is 90 degrees. The significance of these two arrangements is that if there are multiple fire points, multiple orifices can be activated simultaneously, and if there is only one fire point, two orifices can be used to extinguish fire centrally.

The sensor, the telescopic device, the rotating mechanism, the RFID device and the fire extinguishing bottle are controlled by a terminal control system; the rotating mechanism can realize 360-degree rotation, and a VR camera is further arranged on the rotating mechanism. The VR camera is installed on rotary mechanism, can follow rotary mechanism and carry out the condition in the 360 rotations check computer lab, if smog or flare light are observed to the VR camera, also can give terminal control system send instruction, then the mechanism that puts out a fire begins work.

The utility model discloses a fire extinguishing system divides the cubical space of computer lab into a plurality of regions, and a smoke transducer and a temperature sensor are installed in each region, and the track is laid above the computer lab and is passed through each small region, if the computer lab area is very big, then can be equipped with a fire control mechanism on each small region or each adjacent 2 ~ 3 small region track; if the area of the machine room is small, 3-5 fire-fighting mechanisms can be arranged on the whole track, and each side of the machine room is guaranteed to be provided with one fire-fighting mechanism; when the smoke sensor or the temperature sensor gives an alarm, the fire fighting mechanism can accurately position the sensor giving the alarm through the RFID device and move to the corresponding area. If the smoke sensor senses the alarm sent by the smoke, the fire extinguishing mechanism directly acts, and the fire extinguishing bottle is opened to start operation; if the temperature sensor gives an alarm and the smoke sensor does not give an alarm, the fire fighting mechanism moves to a specified position first, and once the smoke sensor gives an alarm later, the fire fighting mechanism can work immediately. After the fire extinguishing is finished, the sensor signal is eliminated, and the fire fighting mechanism stops working. In order to guarantee the action accuracy, the signal of the first sensor which sends out the smoke alarm is taken as the standard.

Action height, the angle accessible telescoping device and the rotary mechanism of fire control mechanism are adjusted, can gather the temperature of every first cabinet of row, smoke transducer data simultaneously, carry out accurate fault diagnosis, realize accurate action. For some larger sites, the sensors of the standby non-active sites may be disregarded, i.e. not accessed to collect data first. Once in use, the sensor data is accessed. For an old machine room, original sensor data can be collected and used in cooperation with an original non-intelligent spraying system. The installation mode can be changed into underground installation.

The utility model discloses an intelligence fire extinguishing system still cooperates the VR camera, realizes long-range visual function of patrolling, and staff's accessible display realizes multimode, comprehensive disaster prevention control to important computer lab.

As a further improvement of the utility model, the telescopic device is a hydraulic telescopic rod.

Hydraulic telescoping rod intensity is big, and the reaction is sensitive, and the regulation of realization fire control mechanism height that can be quick has improved the utility model discloses an accuracy and the ability of quick operation.

As a further improvement, the rotating mechanism rotate through the brushless motor who establishes, brushless motor passes through the relay and is connected with the lithium cell, the relay is controlled through terminal control system.

The rotating mechanism is sleeved in the connecting rod and the telescopic device through a rotating shaft, so that the driving mechanism is connected with the fire extinguishing mechanism, the rotating shaft is movably connected, one end of the rotating shaft, which is positioned in the telescopic device, is fixedly connected with a rotating shaft of the brushless motor, the rotating shaft is driven through the brushless motor, the brushless motor supplies power through a lithium battery in the driving mechanism, the brushless motor is connected with the lithium battery through a relay, and the relay is controlled through a terminal control system; the brushless motor runs in a direct-current self-control mode, a starting winding is not additionally arranged on a rotor like a synchronous motor which is started under heavy load under variable frequency speed regulation, oscillation and step-out can not be generated when the load suddenly changes, and the safety and the stability of rotation are improved, so that the omnibearing and accurate operation of the fire extinguishing mechanism is ensured; the relay further ensures the safety of the control circuit.

As a further improvement of the utility model, the on-off valve of the fire extinguishing bottle is connected with a relay, and the relay is controlled by a terminal control system; a pressure sensor is also arranged in the fire extinguishing bottle.

The relay ensures the safety of the control circuit and ensures that the fire extinguishing bottle can stably spray fire extinguishing substances; the pressure sensor is arranged inside the fire extinguishing bottle, once the material residue is lower than the pressure setting standard after the fire extinguishing bottle acts, the next fire extinguishing bottle starts to act, the fire extinguishing bottle is closed and sends an alarm to a maintenance person for material supplement, the normal state of the fire extinguishing mechanism is further guaranteed, and the condition that the fire extinguishing bottle cannot be used is avoided.

As a further improvement of the utility model, the track is arranged in the machine room in a 'return' shape or a 'field' shape.

The rail arranged in the shape of the Chinese character 'hui' or the shape of the Chinese character 'tian' can cover all areas in the machine room, improve the operation range of the fire-fighting mechanism and realize accurate operation.

As a further improvement of the utility model, a hydrometer is also arranged in the fire extinguishing mechanism; the hydrometer is arranged between every two fire extinguishing bottles on four sides in the fire extinguishing mechanism.

The hydrometer is used for measuring the quality of carbon dioxide or dry powder in the fire bottle, and when carbon dioxide or dry powder in the fire bottle are running out soon, the hydrometer feeds back data to terminal control system and sends out the warning, reminds to change the fire bottle.

The utility model has the advantages that:

1. the utility model discloses under not changing the original structure of computer lab, set up track and fire control mechanism in the computer lab, saved the computer lab space, realize accurate location through RFID technique and sensor signal and report an emergency and ask for help or increased vigilance the position, realize full-automatic accurate fire-fighting operation, do not influence and do not have the region of reporting an emergency and asking for help or increased vigilance, improved the accuracy of fire control.

2. The utility model discloses a scalable rotation of fire control mechanism can a plurality of mouths put out a fire simultaneously, and a fire control bottle uses up convertible another fire control bottle promptly, has guaranteed the continuous operation of fire control, has improved the fire extinguishing ability.

3. The utility model discloses a VR technique carries out long-range visual inspection function, can just carry out the fire control operation at the condition of a fire initial stage, controls the dangerous situation in the bud stage, has further improved the accuracy of fire control operation.

Drawings

Fig. 1 is the schematic diagram of the machine room and the track layout of the present invention.

Fig. 2 is a schematic structural view of the fire fighting mechanism of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2 according to the present invention.

Fig. 4 is a top view of the driving mechanism of the present invention.

Fig. 5 is a top view of the fire extinguishing mechanism of the present invention.

Fig. 6 is a schematic structural diagram of the rail of the present invention.

Reference numerals: 1-machine room, 2-small area, 3-track, 4-VR camera, 5-sensor, 6-driving mechanism, 7-telescoping device, 8-fire-extinguishing mechanism, 9-rotating mechanism, 10-RFID device, 11-moving wheel, 12-sliding line, 13-sliding head, 14-toothed belt, 15-driving gear, 16-lithium battery, 17-connecting rod, 18-placing groove, 19-hydrometer, 20-fire-extinguishing bottle, 21-opening.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1

An intelligent fire fighting system is controlled by a terminal control system and is arranged in a machine room 1, the machine room 1 is divided into a plurality of small areas 2, and a sensor 5 is arranged in each small area 2; a track 3 is laid in the machine room 1, the track 3 is arranged in a shape like a Chinese character 'hui', and the track 3 passes through each small area 2, as shown in fig. 1; the sensor 5 is a temperature sensor and a smoke sensor, and the terminal control system is a PLC and is provided with a display.

The track 3 is formed by symmetrically arranging two I-shaped tracks, a single track 3 is shown in figure 6, a fire-fighting mechanism is arranged on the single track, and if the machine room 1 is large in area, a fire-fighting mechanism can be arranged on each small area 2 or the track 3 of each adjacent 2-3 small areas 2; if the area of the machine room 1 is smaller, 3-5 fire-fighting mechanisms can be arranged on the whole track 3, and each side of the machine room 1 is ensured to be provided with one fire-fighting mechanism; the fire-fighting mechanism comprises a driving mechanism 6 and a fire-fighting mechanism 8, a touch slide wire 12 is further arranged at the bottom of the track 3, and the touch slide wire 12 is connected with a power supply box to enable the power supply box to be electrified.

An RFID device 10 is arranged on the top of the driving mechanism 6; extension arms are respectively arranged at two sides of the bottom of the driving mechanism 6, moving wheels 11 are arranged at the end parts of the extension arms, and the moving wheels 11 are sleeved in grooves on the outer sides of the I-shaped tracks; a sliding contact head 13 is further arranged on the extension arm of the driving mechanism 6, and the sliding contact head 13 is in contact with a sliding contact line 12 of the track 3, as shown in fig. 3; a driving gear 15 is also arranged on one side of the driving mechanism 6, and the driving gear 15 is meshed with a toothed belt 14 arranged in a groove on the inner side of the I-shaped track; the bottom of the driving mechanism 6 is also provided with a telescopic device 7, the telescopic device 7 is a hydraulic telescopic rod, and is provided with three sections, one end of the telescopic device 7 is fixed on the driving mechanism 6, and the other end of the telescopic device 7 is fixedly connected with a connecting rod 17 of a fire extinguishing mechanism 8 through a rotating mechanism 9; as shown in particular in fig. 2 and 3. A motor and a lithium battery 16 are also arranged in the driving mechanism 6; the rotating shaft of the motor is connected with a driving gear 15 (the motor is not shown in the figure); the lithium battery 16 provides electrical power to the motor.

Rotary mechanism 9 embolia in connecting rod 17 and telescoping device 7 through an axis of rotation to make actuating mechanism 6 and the mechanism 8 connection of putting out a fire, the pivot is swing joint, the axis of rotation is located telescoping device 7 one end and brushless motor's pivot fixed connection, drives through brushless motor, brushless motor supplies power through lithium cell 16 in actuating mechanism 6, brushless motor passes through the relay and is connected with lithium cell 16, the relay passes through PLC and controls.

As shown in fig. 4, the fire extinguishing mechanism 8 is internally provided with a placing groove 18 for placing a fire extinguishing bottle 20, and the end surface of the fire extinguishing mechanism 8 is provided with an opening 21; the included angle of every two bottle mouths or bottle tails of the fire extinguishing bottles 20 is 90 degrees, the nozzles of the fire extinguishing bottles 20 are arranged in the openings 21, the opening and closing valves of the fire extinguishing bottles 20 are connected with a relay, and the relay is controlled by a terminal control system; a pressure sensor is also arranged in the fire extinguishing bottle 20.

The sensor 5, the telescopic device 7, the rotating mechanism 9, the RFID device 10 and the opening and closing valve and the pressure sensor of the fire extinguishing bottle 20 are controlled or data are collected through a PLC; the rotating mechanism 9 can rotate 360 degrees, the VR camera 4 is further arranged on the rotating mechanism 9, and the VR camera 4 can perform 360-degree inspection through the rotating mechanism 9.

The working principle of the fire fighting system of the embodiment is as follows:

1. when a disaster (over-high temperature, smoke or fire) occurs in a small area 2 in the machine room 1, the temperature sensor or the smoke sensor is triggered to send a signal to the PLC, the PLC controls the RFID device to sense the position of the alarm sensor, and then the small area 2 or a fire-fighting mechanism close to the small area 2 moves to the alarm position through the driving mechanism 6. In order to guarantee the action accuracy, the signal of the first sensor which sends out the smoke alarm is taken as the standard.

2. If the smoke sensor senses the alarm sent by the smoke, the PLC directly controls a relay connected with the fire extinguishing mechanism 8 to open the opening and closing valve, and the fire extinguishing bottle 20 starts to perform spraying operation; if the temperature sensor gives an alarm and the smoke sensor does not give an alarm, the fire fighting mechanism 8 can immediately operate once the smoke sensor gives an alarm after moving to a specified position.

3. After finishing putting out a fire, sensor signal eliminates, and fire control mechanism stops the operation, and VR camera 4 lasts the condition in the work monitoring computer lab 1 to convey the display that is connected with PLC with the control picture.

4. The workman regularly inspects the state of fire-extinguishing bottle, confirms the surplus of the interior fire extinguishing substance of bottle through the data of the pressure sensor feedback in the fire-extinguishing bottle 20, avoids appearing the condition that the fire-extinguishing bottle is empty bottle, also need to inspect the in service behavior of fire-extinguishing bottle after the fire-fighting operation at every turn simultaneously.

Example 2

The present embodiment differs from embodiment 1 in that:

the whole fire fighting system is controlled by a singlechip;

the machine room 1 is internally provided with a track shaped like a Chinese character tian;

be equipped with hydrometer 19 in the fire extinguishing mechanism 8, hydrometer 19 sets up in the fire extinguishing mechanism 8 between four two liang of fire bottle 20 of face, and hydrometer 19 connects the singlechip, measures the quality of the carbon dioxide or dry powder in the fire bottle 20 through hydrometer 19, and when the carbon dioxide or dry powder in the fire bottle 20 is running out soon, hydrometer 19 feeds back data to the singlechip and shows and send out the warning on the display, reminds to change fire bottle 20.

Example 3

The difference between the examples and example 2 is that:

the whole fire fighting system is controlled by an ARM;

be equipped with hydrometer 19 in the mechanism of putting out a fire 8, still be equipped with pressure sensor in the fire bottle 20 simultaneously, hydrometer 19 and pressure sensor connect the ARM and carry out data acquisition, detect the state of fire bottle 20 jointly through hydrometer 19 and pressure sensor, can more accurate definite the position of the fire bottle 20 that needs to be changed. The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the protection scope of the present invention is defined by the claims. Various modifications and equivalents of the invention may be made by those skilled in the art within the spirit and scope of the invention, and such modifications and equivalents should also be considered as falling within the scope of the invention.

Claims (7)

1. The utility model provides an intelligence fire extinguishing system, sets up in computer lab (1) and controls its characterized in that through terminal control system: the machine room (1) is divided into a plurality of small areas (2), and a sensor (5) is arranged in each small area (2); a track (3) is laid in the machine room (1), and the track (3) passes through each small area (2); the sensor (5) is a temperature sensor and a smoke sensor;

the track (3) is formed by symmetrically arranging two I-shaped tracks, and a fire-fighting mechanism is arranged on the track; the fire fighting mechanism comprises a driving mechanism (6) and a fire fighting mechanism (8), and a sliding contact line (12) is also arranged at the bottom of the track (3);

an RFID device (10) is arranged on the top of the driving mechanism (6); extension arms are respectively arranged on two sides of the bottom of the driving mechanism (6), a moving wheel (11) is arranged at the end part of each extension arm, and the moving wheels (11) are sleeved in grooves on the outer sides of the I-shaped rails; a sliding contact head (13) is also arranged on the extension arm of the driving mechanism (6), and the sliding contact head (13) is contacted with a sliding contact line (12) of the track (3); a driving gear (15) is also arranged on one side of the driving mechanism (6), and the driving gear (15) is meshed with a toothed belt (14) arranged in a groove on the inner side of the I-shaped track; a motor and a lithium battery (16) are also arranged in the driving mechanism (6); the rotating shaft of the motor is connected with a driving gear (15); the lithium battery (16) provides electric energy for the motor;

the bottom of the driving mechanism (6) is also provided with a telescopic device (7), one end of the telescopic device (7) is fixed on the driving mechanism (6), and the other end of the telescopic device is fixedly connected with a connecting rod (17) of a fire extinguishing mechanism (8) through a rotating mechanism (9);

a placing groove (18) for placing a fire extinguishing bottle (20) is arranged in the fire extinguishing mechanism (8), and an opening (21) is arranged on the end face of the fire extinguishing mechanism (8); the included angles of every two bottle openings or bottle tails of the fire extinguishing bottles (20) are arranged at 90 degrees, and the nozzles of the fire extinguishing bottles (20) are arranged in the openings (21);

the sensor (5), the telescopic device (7), the rotating mechanism (9), the RFID device (10) and the fire extinguishing bottle (20) are controlled by a terminal control system; the rotating mechanism (9) can rotate for 360 degrees, and a VR camera (4) is arranged on the rotating mechanism.

2. The intelligent fire fighting system of claim 1, wherein: the telescopic device (7) is a hydraulic telescopic rod.

3. The intelligent fire fighting system of claim 1, wherein: the rotating mechanism (9) rotates through an internally arranged brushless motor, the brushless motor is connected with the lithium battery (16) through a relay, and the relay is controlled through a terminal control system.

4. The intelligent fire fighting system of claim 1, wherein: the on-off valve of the fire extinguishing bottle (20) is connected with a relay, and the relay is controlled by a terminal control system; a pressure sensor is also arranged in the fire extinguishing bottle (20).

5. The intelligent fire fighting system of claim 1, wherein: the rails (3) are arranged in the machine room (1) in a shape like a Chinese character 'hui' or a Chinese character 'tian'.

6. The intelligent fire fighting system of claim 1, wherein: a hydrometer (19) is also arranged in the fire extinguishing mechanism (8); the hydrometer (19) is arranged between every two fire extinguishing bottles (20) on four surfaces in the fire extinguishing mechanism (8).

7. The intelligent fire fighting system of claim 1, wherein: the terminal control system is one of a single chip microcomputer, a PLC or an ARM, and further comprises a display connected with the terminal control system.

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