RU149547U1 - AUTOMATIC VACUUM FILLING SYSTEM FOR CENTRIFUGAL FIRE PUMPS - Google Patents

Abstract

1. An automatic vacuum water filling system for centrifugal fire pumps, including a vacuum pump, a locking device with a remote drive installed in the line connecting the vacuum pump to the suction port of the centrifugal pump, a pressure sensor installed in the pressure chamber of the centrifugal pump, and an electronic control unit for turning on the vacuum pump and the operation of the locking device according to a signal from a pressure sensor, characterized in that the vacuum pump is made with an independent electric drive. 2. The automatic vacuum water filling system for centrifugal fire pumps according to claim 1, characterized in that the vacuum pump is connected to the suction port of the centrifugal pump through a foam mixer, while the shut-off device with a remote drive is made in the form of a three-way ball valve, the central fitting of which is connected to the foam mixer, one side the nozzle is connected to the vacuum pump, the second side nozzle is connected to the supply line of the foaming agent to the pump, and the ball of the crane has an L-shaped channel. 3. The automatic vacuum water filling system of centrifugal fire pumps according to claim 1, characterized in that the shut-off device is pneumatic.

Description

The utility model relates to the field of engineering, namely, to fire fighting equipment.

In accordance with the current regulatory documentation (GOST 52283-2004, Centrifugal Fire Pumps. General Technical Requirements), an automatic type vacuum water filling system should automatically turn on when the overpressure in the pressure chamber of the centrifugal pump disappears and automatically turn off when the pump develops pressure, eliminating the pressure drop during feeding water.

Automatic centrifugal pump water filling systems (fire pumps RV120 and R480 from Rosenbauer, Austria; fire pump VFPN 600 from Volkan, Turkey), consisting of a vacuum pump with a mechanical drive from a centrifugal pump shaft, an on / off control mechanism, are known from the existing level of foreign fire equipment a vacuum pump and a shut-off valve blocking the air line connecting the vacuum pump to a centrifugal pump. All known systems are united by the fact that water is filled with a rotating shaft of a centrifugal pump, and also that air is extracted from a centrifugal pump from the upper point of its suction pipe. Moreover, the known implementation options for such systems differ:

- type of vacuum pump: piston or diaphragm;

- driven by a vacuum pump: using an eccentric or crank mechanism;

- a method of shutting down a vacuum pump: using an electromagnetic coupling or using additional hydraulic piston or membrane type devices operating from the hydraulic pressure developed by a centrifugal pump;

- a way to control the shut-off device: a valve controlled by the pressure of a centrifugal pump, or a ball valve controlled by an electric or pneumatic actuator by a signal from a pressure sensor at the outlet of the centrifugal pump.

The disadvantage of the described systems is the mechanical connection of the vacuum pump with the shaft of the centrifugal pump, which excludes the possibility of using a vacuum pump to check the tightness of the connections of the pump unit (dry vacuum test) without turning on the drive motor and starting the centrifugal pump. In addition, the performance of the vacuum pump directly depends on the rotational speed of the centrifugal pump shaft, and to accelerate the filling of the pump with water, it is necessary to rotate the dry pump at a high frequency, which adversely affects the operation of the sliding pump shaft seals.

The existing domestic vacuum water filling system type ABC-01E (manufactured by USPTK-Pozhgidravlika CJSC, operating manual KShIN.063711.012 RE) is devoid of the above disadvantages, since the vacuum pump has an independent drive from the electric motor and does not require a centrifugal pump to rotate when filling. However, this system has its drawbacks:

- water filling is performed with the shaft of the centrifugal pump stationary, as a result of which the centrifugal pump must be stopped when the head is disrupted;

- the system is not fully automatic - the stop of the vacuum pump at the end of the water filling is carried out automatically, and the restart when the pressure is cut off is performed manually.

These shortcomings lead to an increase in the time the pump reaches stable operation. In addition, during the operation of the vacuum system, it is necessary to exclude the possibility of suction of the foaming agent from the foam tank.

As a prototype, the applicant selected the pump R480 company Rosenbauer (Austria).

The technical problem to which the claimed utility model is directed is to create an automatic vacuum fire-extinguishing system for a fire pump with improved characteristics.

The technical result is to increase the reliability of the automatic vacuum water filling system of centrifugal fire pumps.

The claimed technical result is achieved in that in an automatic vacuum water-filling system for centrifugal fire pumps, including a vacuum pump, a locking device with a remote drive installed in the line connecting the vacuum pump to the suction port of the centrifugal pump, a pressure sensor installed in the pressure cavity of the centrifugal pump, and electronic control unit for turning on the vacuum pump and the operation of the locking device according to the signal from the pressure sensor, according to the utility model, vacuum The smart pump is self-powered.

Also, to achieve the claimed technical result, the vacuum pump is connected to the suction nozzle of the centrifugal pump through a foam mixer, while the shut-off device with a remote drive is made in the form of a three-way ball valve, the central fitting of which is connected to the foam mixer, one side fitting is connected to a vacuum pump, and the second side fitting is connected with a line for supplying a foaming agent to the pump, and the ball of the crane has an L-shaped channel.

In addition, the drive locking device is made pneumatic.

Execution of a vacuum pump with an autonomous electric drive reduces the water filling time of the fire pump due to the operation of the vacuum pump immediately at maximum performance, regardless of the speed of the fire pump shaft, it becomes possible to check the vacuum density of the fire pump without starting the drive motor of the fire truck and without turning on the fire pump. The operating life of the sliding seals of the fire pump shaft also increases due to the possibility of water filling at a lower rotational speed of the fire pump shaft without increasing the water filling time. These advantages ensure the reliability of the fire pump water filling system.

The implementation of the locking device with a remote drive in the form of a three-way ball valve, the central fitting of which is connected to the foam mixer, one side fitting is connected to a vacuum pump, the second side fitting is connected to the supply line of the foaming agent to the pump, and the ball of the crane has an L-shaped channel, eliminates the possibility of suction a foaming agent during the operation of the vacuum water filling system, which ensures its reliable operation.

The execution of the actuator of the locking device pneumatic provides the maximum speed of the locking device, which increases the reliability of the system.

The inventive device has differences from the prototype and does not follow explicitly from the prior art, i.e. meets the criterion of "novelty." In addition, the proposed device can be manufactured on an industrial scale and will find application in the field of fire fighting equipment, i.e. characterized by the criterion of "industrial applicability".

The essence of the claimed technical solution is illustrated by drawings, where in FIG. 1 shows a diagram of an automatic vacuum water filling system; FIG. 2 is an example of a fire pump with an automatic vacuum water filling system, front view, in FIG. 3 is an example of a fire pump with an automatic vacuum water filling system, rear view.

The automatic vacuum water filling system of centrifugal fire pumps (Fig. 1) includes a vacuum pump 1, a shut-off device with a remote actuator 2, made in the form of a three-way ball valve, the central fitting of which is connected to the foam mixer 3, one side fitting is connected to the vacuum pump 1, the second side the nozzle is connected to the supply line of the foaming agent 4 to the centrifugal pump 5, and the ball of the crane has an L-shaped channel.

The locking device 2 is installed in the line 6 connecting the vacuum pump 1 with the suction nozzle of the centrifugal pump 5. The system also includes a pressure sensor 7 installed in the pressure cavity of the centrifugal pump 5, and an electronic unit 8 for controlling the activation of the vacuum pump and the operation of the locking device according to the signal from the sensor pressure 7. The vacuum pump 1 is made with an autonomous electric drive 9. The drive of the locking device 2 is pneumatic.

Automatic vacuum system for filling centrifugal fire pumps works as follows.

Initially, the water filling system is started by the operator of the pump installation manually by pressing the "Start" button on the control unit 8 (Fig. 1, 2), after which the vacuum unit is started, consisting of a slide (plate) vacuum pump 1 and an electric motor 9. At the same time, a three-way ball a crane with a remote actuator 2, on command from the control unit, automatically opens the suction line 6 connecting the vacuum pump 1 with the suction pipe of the centrifugal pump 5 through the foam mixer 3 and closes the supply line 4 noobrazovatelya foam mixer 3 via a metering valve 10.

During operation of the vacuum pump, a vacuum is created in the suction line of the centrifugal pump 5 and in its internal cavity, due to which the water is lifted. Having reached the level of the suction nozzle of the centrifugal pump 5, water enters the rotating impeller, which throws water to the periphery, as a result of which the water in the cavity of the centrifugal pump 5 collects in the form of a ring (entering the pressure collector) under the action of centrifugal forces.

As the impeller is filled with water, the mass of rotating water increases and, consequently, the pressure developed by the pump in the pressure cavity increases. The pressure in the pressure cavity is controlled by a pressure sensor 7, which converts the water pressure into a current signal proportional to the pressure value. The current signal from the pressure sensor 7 enters the control unit 8, where it is compared with a predetermined “threshold” value corresponding to the water pressure at which the centrifugal pump enters self-priming mode. The value of the specified pressure is selected empirically for each type of centrifugal pump and is entered into the non-volatile memory of the control unit. If necessary, the control unit can be reprogrammed to a different pressure value.

When the current signal from the pressure sensor 7 reaches a threshold value, the control unit 8 gives a command to switch the three-way ball valve 2, as a result of which the suction line 6 connecting the vacuum pump 1 to the suction pipe of the centrifugal pump 5 is blocked through the foam mixer 3 and the foaming agent supply line 4 opens to the foam mixer 3 through the metering valve 10. After a certain period of time after switching the three-way ball valve 2, the control unit 8 issues a command to turn off the electric drive smart pump 1. The specified time delay is necessary to remove residual water from the vacuum pump. The value of the time delay is selected empirically, stored in non-volatile memory of the control unit 8 and can be changed if necessary by reprogramming the control unit.

During operation of the centrifugal pump 5, the control unit 8 constantly monitors the current water pressure at the pump outlet by the magnitude of the current signal from the pressure sensor 7, and if it drops below a threshold value (for example, due to the air bubble entering the centrifugal pump from the pump suction line if there is a reverse bias in it) gives a command to restart the water filling process according to the algorithm described above. In this case, the inclusion of the vacuum pump 1 is performed automatically, without operator intervention.

The shutdown of the vacuum system at the end of the pump installation is carried out manually by the operator by pressing the “Stop” button on the control unit 8.

The technical solution presented in the claimed utility model can be implemented in any fire centrifugal pump in which the pressure chamber of the centrifugal pump is separated from the centrifugal part by a non-return valve that opens with overpressure under the valve from the centrifugal part and closes in the absence of the specified overpressure (private case - check valves in each of the pressure valves). The drive of the shut-off valve installed in the line connecting the vacuum pump to the suction nozzle of the centrifugal pump may be electric or pneumatic. The highest performance is achieved with a pneumatic drive.

An example of the implementation of a technical solution according to the claimed utility model is a fire-fighting centrifugal pump NTsPN-40 / 100M-V3T, which is being prepared for production starting from the 4th quarter. 2014 (manufacturer of USPTK-Pozhhydraulika CJSC). The specified pump is equipped with the claimed automatic vacuum water filling system and is shown in FIG. 2 and 3, where: 1 - a vacuum pump with an autonomous electric drive, 2 - a three-way ball valve with a pneumatic drive, 3 - a foam mixer, 4 - a blowing agent supply line to a fire pump, 5 - a centrifugal pump; 6 - suction line of the vacuum pump; 7 - pressure sensor; 8 - electronic control unit for turning on the vacuum pump and three-way ball valve; 9 - electric drive of a vacuum pump (not shown in Fig. 3, made in the form of a single unit with a vacuum pump 1); 10 - dispenser dispenser foaming agent; 11 - pressure valve with a spring-loaded check valve; 12 - pressure manifold.

The inventive design of a water filling system for fire pumps ensures reliable operation of the system and has several advantages compared to analogues:

- water is filled with a rotating shaft of a centrifugal pump, which eliminates the need to turn off its drive before re-filling when the head is disrupted;

- a vacuum pump with an autonomous electric drive is used as a vacuum pump (for example, according to RF patent No. 56,500), as a result of which the performance of the vacuum pump does not depend on the speed of the centrifugal pump and it becomes possible to vacuum the internal cavity of the centrifugal pump without starting the drive motor of the pump installation during testing centrifugal pump for vacuum tightness;

- the suction line of the vacuum pump is connected to the centrifugal pump through a foam mixer and a three-way ball valve installed at its inlet with a remote actuator, which provides automatic shut-off of the foaming agent into the centrifugal pump when the vacuum pump is started;

- control of the inclusion of the vacuum pump and the drive of the three-way ball valve is provided by the electronic control unit by the signal of an electric pressure sensor installed in the pressure cavity of the centrifugal pump. In this case, the control unit software allows you to change the threshold value of the overpressure at which the vacuum pump is turned off, and to set various values of the time delay between issuing control commands to switch the three-way ball valve and turn off the vacuum pump.

Claims (3)

1. An automatic vacuum water filling system for centrifugal fire pumps, including a vacuum pump, a locking device with a remote drive installed in the line connecting the vacuum pump to the suction port of the centrifugal pump, a pressure sensor installed in the pressure chamber of the centrifugal pump, and an electronic control unit for turning on the vacuum pump and the operation of the locking device according to a signal from a pressure sensor, characterized in that the vacuum pump is made with autonomous electric drive. 2. The automatic vacuum water filling system of centrifugal fire pumps according to claim 1, characterized in that the vacuum pump is connected to the suction port of the centrifugal pump through a foam mixer, while the shut-off device with a remote drive is made in the form of a three-way ball valve, the central fitting of which is connected to the foam mixer, one side fitting is connected to the vacuum pump, the second side fitting is connected to the line for supplying the foaming agent to the pump, and the ball of the crane has an L-shaped channel. 3. The automatic vacuum water filling system of centrifugal fire pumps according to claim 1, characterized in that the locking device is pneumatic.

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