KR20230163631A - Fire-fighting Motor Pump using Battery Pack - Google Patents

Abstract

A fire-fighting motor pump using a battery pack according to an aspect of the present invention is removable from a motor pump that supplies fire-fighting water and a frame that secures the motor pump, and accommodates at least one battery to supply power to the motor pump. It is formed on a battery pack and a frame, and has a battery enclosure to which the battery pack is connected. The motor pump is formed separately from the discharge pump and the discharge pump for inflowing and discharging fire water, and a discharge motor that rotates by power to discharge fire water. The frame is formed at the bottom of the motor pump, and may include a fixed frame that fixes the discharge pump and the discharge motor, and a spaced frame that is formed at the bottom of the fixed frame and separates the motor pump from the ground.

Description

Fire-fighting Motor Pump using Battery Pack}

The present invention relates to a fire-fighting motor pump using a battery pack. More specifically, the battery pack containing a plurality of batteries in the motor pump is formed to be removable, so that the motor pump can be driven using the battery pack in the event of a fire. This is about a firefighting motor pump using a pack.

In general, fire trucks used for fire suppression, lifesaving, and drainage work in flooded areas are equipped with a fire pump device to draw water from a water source and store the water in a water tank or directly discharge it.

This fire pump device includes a priming means to depressurize the internal air for initial pumping, a water tank to store the pumped water, a check valve to prevent backflow, and a fire pump to emit water. It is composed.

Usually, a fire pump consists of a motor pump (main pump) driven by electric current and an engine pump (auxiliary pump) driven by power generated by the engine when power is cut off during a fire.

At this time. Engine pumps are widely used for firefighting purposes to supply firefighting water necessary for fire extinguishing because they have a simpler device configuration than ordinary motor pumps and can achieve high lift and large capacity.

Since these firefighting engine pumps are usually installed in the basement of a multi-story building and have to pump firefighting water to each floor, it is essential to be equipped with a high-output engine pump.

And because it must operate accurately in the event of a fire to minimize damage, reliability of operation is very important.

However, in the conventional engine pump, the main pump and the engine that drives it are integrated so that the main pump operates at 100% in the event of a fire, so a pump with a large capacity and an engine with a corresponding capacity are required, and the main pump In case of failure, it will not function as a fire pump.

In addition, the conventional engine pump is a casting method, so the surface of the rotary car is rough, so the efficiency is low by 20 to 30%, so a high-output engine is required, and due to the characteristics of the engine, it can only be installed horizontally, which requires a large installation area in the underground machine room. There are restrictions on space utilization, such as taking up space.

Also, in the case of conventional engine pumps, they are made of gray cast iron or bronze and are operated only in case of fire, so there is a problem of rust occurring if not used for a long period of time. As a result, it is not practical to start due to sticking of the rotating car, etc., so it does not play a role in extinguishing fire. Failure to do so may result in significant property damage.

Republic of Korea registered patent 10-0955704 B1 (April 23, 2010)

The present invention was created to solve the above problems, and the purpose of the present invention is to extinguish the fire by utilizing the power of the battery pack as emergency power in the event of a fire by forming a battery pack containing a plurality of batteries in the motor pump to be removable. This is about a firefighting motor pump using a battery pack that can operate.

A firefighting motor pump using a battery pack according to an aspect of the present invention to achieve the above object includes a motor pump (100) that supplies firefighting water; A frame 200 for fixing the motor pump 100; A battery pack 300 that is detachable from the frame 200 and accommodates at least one battery 310 to supply power to the motor pump 100; It is formed on the frame 200 and has a battery housing 230 to which the battery pack 300 is coupled, and the motor pump 100 includes a discharge pump 120 for injecting and discharging firefighting water; It is formed to be spaced apart from the discharge pump 120, and has a discharge motor 110 that rotates by power to discharge firefighting water, and the frame 200 is formed at the lower end of the motor pump 100. A fixed frame 210 that secures the discharge pump 120 and the discharge motor 110; A spacing frame 220 is formed below the fixed frame 210 and separates the motor pump 100 from the ground.

The motor pump 100 may be provided with power from the power supply device in the event of a power outage or current interruption.

The discharge motor 110 includes a cylindrical motor housing 111; A rotation shaft 112 formed through the inside of the motor housing 111 and rotated by power; An impeller 113 is coupled to one surface of the rotation shaft 112 and changes the position of the firefighter as it rotates.

The discharge pump 120 includes an inlet 121 through which fire-fighting water flows; A discharge portion 122 formed to be perpendicular to the inlet and discharging firefighting water; It may be provided with a variable portion 123 formed between the inlet and the outlet, where the impeller 113 is located.

The battery pack 300 includes a case 320 fastened to the battery housing 230; It is formed inside the case 320 and may include a receiving space 321 in which at least one battery 310 is accommodated.

The case 320 includes a measurement sensor 323 that measures internal temperature and humidity; A control device 324 is formed in the case 320 and controls internal temperature and humidity.

The case 320 includes a suction device 328 for sucking the air inside; The suction device 328 is coupled, and a vacuum valve 329 through which air inside the case 320 passes may be provided.

A separation member 322 is formed in the accommodation space 321 and separates and stores the plurality of batteries 310.

An insulating member 325 formed in the case 320 and blocking heat conduction; A sealing member 326 formed on the insulation member 325 to prevent water leakage; A buffer member 327 is formed in the accommodation space 321 and absorbs the impact of the battery 310.

The battery housing 230 includes a combined housing 231 coupled to the frame 200; A cover 232 formed on the upper part of the coupling housing 231 and protecting the battery pack 300 as it is opened and closed; A grounding member 233 is formed inside the coupling housing 231 and is grounded to the battery pack 300.

According to the fire-fighting motor pump using the battery pack according to the present invention, the motor pump, which is the main pump, can be driven using the battery pack, so it can replace the engine pump in the event of a fire.

In addition, since the battery pack can be easily replaced, the efficiency of the motor pump can be increased even in the event of a fire that is difficult to predict by simply charging power in the event of a fire.

1 is an exemplary diagram showing a fire-fighting motor pump using a battery pack according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a fire-fighting motor pump using the battery pack shown in Figure 1.
Figure 3 is a cross-sectional view showing a battery enclosure according to an embodiment of the present invention.
Figure 4 is a perspective view showing a battery pack according to an embodiment of the present invention.
5 to 6 are cross-sectional views showing a battery pack according to an embodiment of the present invention.

Hereinafter, a firefighting motor pump using a battery pack according to an embodiment of the present invention will be described in detail with reference to the attached drawings.

Figure 1 is an exemplary diagram showing a fire-fighting motor pump using a battery pack according to an embodiment of the present invention, and Figure 2 is a cross-sectional view showing a fire-fighting motor pump using the battery pack shown in Figure 1.

As shown in Figures 1 and 2, a fire-fighting motor pump using a battery pack according to an embodiment of the present invention is installed in a space sealed with underground or above-ground concrete, and can supply fire-fighting water in the event of a fire by electric current. Even if the driven motor pump is cut off due to a power outage, etc., it can supply firefighting water by receiving current from the battery pack 300.

In general, fire pumps consist of a main pump that supplies firefighting water by a motor whose power source is formed by electric current, and an auxiliary pump that supplies firefighting water by an engine that uses the power source of an internal combustion engine when the motor does not run during a power outage, such as a power outage. is formed At this time, the auxiliary pump is formed as an engine pump and supplies fire water by an engine applied to an emergency generator, but since the main pump and the auxiliary pump are installed at the same time, there is a problem of restrictions on installation cost and installation space.

The fire-fighting motor pump using the battery pack of the present invention is removable from the motor pump 100 that supplies fire-fighting water and the frame 200 that secures the motor pump 100, and includes at least one battery 310. ) is accommodated in the battery pack 300 and the frame 200 that supply power to the motor pump 100, and may be provided with a battery enclosure 230 to which the battery pack 300 is coupled.

A fire-fighting motor pump using such a battery pack receives emergency power in the event of a power outage, such as a power outage, by inserting the battery pack 300. The battery pack 300 is removable from the motor pump 100, so it buffers the current at all times. It can be maintained as is.

The motor pump 100 is driven using commercial power when commercial power is maintained due to a disaster such as a fire, and includes a discharge motor 110 and a discharge pump 120 that rotate by power to discharge firefighting water. It is formed to be spaced apart from and is equipped with a discharge pump 120 that introduces and discharges firefighting water.

At this time, the discharge motor 110 is formed by penetrating the cylindrical motor housing 111 and the inside of the motor housing 111, and is coupled to the rotating shaft 112 and one surface of the rotating shaft 112, which rotate by power. As a result, an impeller 113 that changes the position of the firefighter is formed.

The motor housing 111 can be formed in various shapes, and as a coil is formed inside, the rotation shaft 112 is rotated by current. And a cooling device is formed on the rear of the motor housing 111 to cool the internal coil when it generates heat by current.

And the rotation shaft 112 formed inside the motor housing 111 extends through one end of the motor housing 111 to the discharge pump 120, and the impeller 113 is coupled to the end of the rotation shaft 112. It is formed in various shapes, and after suctioning fire-fighting water from one end, it is discharged by pressure by changing the position of the fire-fighting water.

This impeller 113 is accommodated in the discharge pump 120, and the discharge pump 120 is formed to be perpendicular to the inlet 121 and the inlet 121 through which fire-fighting water flows, and the discharge portion 122 through which fire-fighting water is discharged. ) and between the inlet portion 121 and the discharge portion 122, and a variable portion 123 where the impeller 113 is located is formed.

In this way, the motor pump 100 supplies firefighting water by accurately controlling the flow rate and flow rate of the firefighting water as the rotation shaft 112 rotates due to current, and commercial power is not supplied when power is cut off such as a power outage due to a fire or various disasters. Otherwise, it is driven by receiving current from a power supply device.

And the frame 200 formed at the bottom of the motor pump 100 to separate the motor pump 100 from the ground includes a fixed frame 210 and a fixed frame 210 that fix the discharge pump 120 and the discharge motor 110. ), and a spacing frame 220 is formed to separate the motor pump 100 from the ground.

The fixing frame 210 is formed at the lower part of the discharge pump 120 and the discharge motor 110, and fixes the discharge pump 120 and the discharge motor 110 with fixing hardware such as bolts. In addition, a spacing frame 220 is formed at the bottom of the fixed frame 210, so that the motor pump 100 and the battery pack 300 are spaced apart from the ground, so that in the event of an external shock or fire, the motor pump 100 or This is to prevent the battery pack 300 from being damaged.

And referring to FIG. 3, a battery enclosure 230 into which the battery pack 300 is inserted is formed on the upper part of the fixed frame 210, and the battery enclosure 230 is a combination housing 231 coupled to the frame 200. It is formed on the upper part of the coupling housing 231, and is formed inside the cover 232 and the coupling housing 231 to protect the battery pack 300 as it is opened and closed, and a grounding member ( 233) is formed.

The coupling housing 231 has an insertion space inside which the battery pack 300 is inserted, and a grounding member 233 is formed inside the insertion space, so that when the battery pack 300 is inserted, it is formed in the battery pack 300. It receives current by contacting a grounding device. In addition, the cover 232 on the upper part of the coupling housing 231 protects the inserted battery pack 300 as it rotates or slides, which blocks water or fire from entering the battery pack 300 in the event of a fire. . And the coupling housing 231 is formed with a current supply member connected to the discharge motor 110, and the current supply member is formed with an adapter to supply only appropriate current to the discharge motor 110.

In addition, a fixing device is formed in the insertion space of the coupling housing 231 to prevent the battery pack 300 from moving or coming off after it is inserted, and the fixing device is formed of a clamp, leaf spring, etc. to secure the battery pack 300. Fix it.

Figure 4 is a perspective view showing a battery pack according to an embodiment of the present invention, and Figures 5 and 6 are cross-sectional views showing a battery pack according to an embodiment of the present invention.

As shown in Figures 4 to 6, the battery pack 300 according to an embodiment of the present invention is formed in a case 320 fastened to the battery housing 230 and the inside of the case 320, and includes at least one It is provided with an accommodation space 321 in which the battery 310 is accommodated.

At this time, the battery 310 is formed as a rechargeable battery 310 that is charged by a charging device, and the type of battery 310 is not limited. In addition, the battery 310 is accommodated in the receiving space 321 so as not to move or be separated from the inside of the case 320, and the battery 310 is connected in series or parallel as a plurality of batteries 310 are connected to each other, so that the motor pump 100 to provide effective power.

In addition, the case 320 is formed to be accommodated in the battery enclosure 230, and after being accommodated in the battery enclosure 230, a grounding device is formed to enable effective grounding with the battery enclosure 230. In the case 320, as the separation member 322 is formed in the receiving space 321 for accommodating the battery 310, the plurality of batteries 310 are separated without contacting each other, and one battery 310 expands. Even if the battery 310 is damaged, the other batteries 310 can be protected from damage.

Additionally, the case 320 may be made of synthetic resin such as reinforced plastic. This is to prevent a short circuit from occurring when it is grounded with the battery case 230 when it is made of metal. In addition, the case 320 is formed with a reinforcing plate that protrudes outward in a grid or pattern, and the reinforcing plate prevents damage to the case 320 due to impact and cools the battery housing 230 by circulating air within it. The effect can be increased.

In addition, the case 320 is formed in a vacuum state to improve the performance of the battery 310, and a suction device such as a compressor that sucks the internal air to form the inside of the case 320 in a vacuum state. 328 and the suction device 328 are combined to form a vacuum valve 329 that discharges the air inside the case 320. The vacuum valve 329 is formed in plural to effectively discharge the air inside the case 320, and the vacuum valve 329 is a check to prevent the inflow of air when the suction device 328 is separated after the air is discharged. It is preferably formed as a valve. In this way, as the inside of the case 320 is formed into a vacuum, even if the battery 310 is short-circuited or left for a long time and explodes, the fire is prevented from spreading due to lack of oxygen and the temperature and humidity of the battery 310 are effectively maintained at all times. It is possible.

In addition, a measurement sensor 323 is formed inside the case 320 to measure temperature and humidity, and the measurement sensor 323 is formed of a thermometer and a hygrometer to prevent the battery 310 from being damaged by charging and external temperature. It can be prevented. Specifically, the battery 310 has a risk of explosion or failure due to increased temperature or moisture, and the performance of the battery 310 may deteriorate depending on temperature and humidity, so the battery 310 may be damaged depending on the temperature and humidity inside the case 320. The state of (310) can be expressed externally. Also, if it is determined that there is a problem with the battery pack 300, it can be removed from the battery housing 230 and replaced with a new battery pack 300, and the defective battery pack 300 can be repaired or replaced externally.

And when the case 320 is not formed in a vacuum, a control device 324 is formed inside or outside the case 320 to control the temperature and humidity inside the case 320, and the control device 324 is a fan. It can induce air to circulate inside the case 320. In addition, when the battery 310 is accommodated in the case 320, an insulating member 325 is formed to block heat from being conducted to the battery 310, and the outside of the insulating member 325 leaks into the case 320. A sealing member 326 is formed to prevent the occurrence of , and unlike the heat insulating member 325, the sealing member 326 is preferably formed of a silicon material. Additionally, a cushioning member 327 such as a sponge is formed outside the receiving space 321 to prevent the battery 310 from being damaged by impact.

In this way, the case 320 formed by being inserted into the battery enclosure 230 can be charged from the outside when the battery 310 is discharged. The battery 310 is charged by a charging device, and the charging device is the case ( A wired charging device that supplies current as it passes through 320 and is connected to the battery 310 or a wireless charging device that is separately connected to the bottom of the case 320 and supplies current wirelessly is formed.

The fire-fighting motor pump of the present invention has a removable battery pack 300, so that when the battery 310 is discharged in the event of a fire, a new battery pack 300 can be replaced, and the battery 310 is discharged when left for a long time. Even if the battery 310 is effectively replaced periodically, it has the feature of being able to smoothly supply firefighting water by utilizing the power of the battery 310 as an emergency power source in the event of a fire or power outage, etc.

In the above, a firefighting motor pump using a battery pack according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiments presented herein. Additionally, a person skilled in the art who understands the spirit of the present invention will be able to easily suggest other embodiments by adding, changing, deleting, or adding components within the scope of the same spirit, but this is also within the scope of the present invention. They will say it costs money.

100: motor pump 110: discharge motor
111: motor housing 112: rotation shaft
113: Impeller 120: Discharge pump
121: inlet 122: discharge part
123: variable part 200: frame
210: fixed frame 220: spaced frame
230: Battery enclosure 231: Combined housing
232: Cover 233: Ground member
300: battery pack 310: battery
320: Case 321: Accommodating space
322: Separating member 323: Measuring sensor
324: Control device 325: Insulating member
326: sealing member 327: buffering member
328: suction device 329: vacuum valve

Claims (10)

A motor pump (100) that supplies firefighting water;
A frame 200 for fixing the motor pump 100;
A battery pack 300 that is detachable from the frame 200 and accommodates at least one battery 310 to supply power to the motor pump 100;
A battery enclosure 230 formed on the frame 200 and to which the battery pack 300 is coupled,
The motor pump 100 includes a discharge pump 120 that introduces and discharges firefighting water;
A discharge motor 110 is formed to be spaced apart from the discharge pump 120 and rotates by power to discharge firefighting water,
The frame 200 is formed at the lower end of the motor pump 100 and includes a fixed frame 210 that fixes the discharge pump 120 and the discharge motor 110;
A firefighting motor pump using a battery pack including a spacing frame 220 that is formed at the lower part of the fixed frame 210 and separates the motor pump 100 from the ground.
According to clause 1,
The motor pump 100 receives power from the power supply device in the event of a power outage or current interruption. A fire-fighting motor pump using a battery pack including a.
According to clause 1,
The discharge motor 110 includes a cylindrical motor housing 111;
A rotation shaft 112 formed through the inside of the motor housing 111 and rotated by power;
A fire-fighting motor pump using a battery pack including an impeller 113 that is coupled to one surface of the rotation shaft 112 and changes the position of the firefighter as it rotates.
According to clause 3,
The discharge pump 120 includes an inlet 121 through which fire-fighting water flows;
A discharge portion 122 formed to be perpendicular to the inlet and discharging firefighting water;
A fire-fighting motor pump using a battery pack including a variable part 123 formed between the inlet and the outlet, where the impeller 113 is located.
According to clause 1,
The battery pack 300 includes a case 320 fastened to the battery housing 230;
A fire-fighting motor pump using a battery pack including a receiving space 321 formed inside the case 320 and accommodating at least one battery 310.
According to clause 5,
The case 320 includes a measurement sensor 323 that measures internal temperature and humidity;
A fire-fighting motor pump using a battery pack including a control device 324 formed in the case 320 and controlling internal temperature and humidity.
According to clause 5,
The case 320 includes a suction device 328 for sucking the air inside;
A fire-fighting motor pump using a battery pack including a vacuum valve 329 through which the suction device 328 is coupled and the air inside the case 320 passes through.
According to clause 5,
A fire-fighting motor pump utilizing a battery pack including a separation member 322 formed in the receiving space 321 and separating and storing the plurality of batteries 310.
According to clause 5,
An insulating member 325 formed in the case 320 and blocking heat conduction;
A sealing member 326 formed on the insulation member 325 to prevent water leakage;
A fire-fighting motor pump using a battery pack including a buffer member 327 formed in the accommodation space 321 and absorbing the impact of the battery 310.
According to clause 1,
The battery housing 230 includes a combined housing 231 coupled to the frame 200;
A cover 232 formed on the upper part of the coupling housing 231 and protecting the battery pack 300 as it is opened and closed;
A fire-fighting motor pump using a battery pack including a grounding member 233 formed inside the coupling housing 231 and grounded with the battery pack 300.