KR100828082B1 - Pressure compensation type non-pulsation demonstration suppressive vehicle - Google Patents

Abstract

A pressure compensation type non-pulsation demonstration suppressive vehicle is provided to compensate pressure of water jet to suppress demonstration by installing a Venturi pipe, a pressure sensor, and a ball valve to a water supply pipe. A pressure compensation type non-pulsation demonstration suppressive vehicle comprises a water tank(10), a water monitor(20), a water supply pipe(30), a pump(40), a Venturi pipe(70), a pressure sensor(80), a control unit(90), and a ball valve(100). The water monitor is mounted on the water tank. The water supply pipe is installed to supply the water in the water tank to the water monitor. The pump is installed on the water supply pipe to discharge the water in the water tank. The Venturi pipe and the pressure sensor are installed to the water supply pipe sequentially to compensate water pressure automatically. The pressure sensor detects the pressure of the water passing through the Venturi pipe and transmits a signal of the detected water pressure to the control unit. The ball valve is installed to the end of the water supply pipe to control water pressure and water flow finally. The ball valve is opened and closed by receiving a control command from the control unit.

Description

PRESSURE COMPENSATION TYPE NON-PULSATION DEMONSTRATION SUPPRESSIVE VEHICLE}

The present invention relates to a demonstration suppression difference used for suppressing or dissolving protesters, and more particularly, to automatically compensate the discharge pressure, to automatically adjust the discharge flow rate without pressure loss, and to increase the efficiency of protest suppression such as long distance injection. It relates to a pressure-compensated pulsation-free demonstrator.

In general, demonstrators are maneuvered by vehicles, and are used to suppress and dissolve demonstrators or to extract main hats by firing tear gas to protesters at the scene of the demonstration site or spraying water, tear liquid, colorant or a mixture thereof. It is a vehicle.

By the way, the conventional liquid injection-type demonstration pressure difference is designed to be discharged at a substantially constant pressure during the injection of water, tear liquid or color tone liquid, there is a problem that active injection is difficult to control the injection distance, it is difficult to adjust the discharge pressure and flow rate There is a disadvantage that cannot be easily performed.

In addition, the conventional liquid-jet demonstration suppression vehicle is mainly used for short-range use, so that the vehicle can be easily struck or burned by a flame bottle that the demonstrators throw, so that the expensive special vehicle is damaged and causes a national waste. Of course, there are also disadvantages that exist.

The present invention has been made in view of the above problems, the purpose of which is to use the venturi tube, pressure sensor and ball valve to perform the electronic control to automatically compensate for the pressure discharged from the demonstration riot liquid In addition, the present invention provides a pressure-compensated pulsation-free demonstration pressure difference that can automatically adjust the discharge flow rate without pressure loss.

In addition, the present invention is to provide a pressure-compensation-free pulsating demonstration suppression difference that can not only increase the demonstration suppression efficiency, such as long-distance injection, but also reduce the risk from the molotov cocktail during the demonstration.

The present invention for achieving the above object,

A storage tank is provided in the vehicle, and a waterproof cloth is installed on the upper side of the vehicle, and a supply pipe for supplying the demonstration suppression liquid in the storage tank is connected to the waterproof cloth and the demonstration pressure filled in the storage tank on the supply path of the supply pipe. A pump for discharging liquid is connected and installed, the pump being connected to an engine and driven by a PTO to control the pressure difference;

The venturi pipe for automatically compensating the discharge pressure of the demonstration pressure suppressor and the pressure sensor for detecting the discharge pressure are sequentially installed on the supply path of the supply pipe, and the demonstration suppression liquid passed through the venturi tube through the pressure sensor. Sensing the discharge pressure of the configured to send the pressure detection signal to the control unit is the basic feature of the technical configuration.

The present invention installs a venturi tube and a pressure sensor on the supply path of the demonstration suppression liquid, and installs a ball valve at the end of the supply path and automatically compensates the pressure discharged from the demonstration suppression liquid by performing electronic control The main system will be able to control the injection at a constant pressure and flow rate as well as long distance injection, which can greatly increase the efficiency of the protest.

In addition, the present invention can be controlled by controlling the discharge flow rate without pressure loss, there is a safety that can greatly reduce the risk from the molotov cocktail during the protest.

Referring to the drawings a preferred embodiment of the pressure-compensated pulsation-free stimulation pressure difference according to the present invention will be described.

1 is a system diagram of a pressure-compensated pulsation-free stimulating pressure difference according to an embodiment of the present invention.

Pressure compensation type pulsating demonstration pressure difference according to an embodiment of the present invention is a storage tank 10 is mounted on the vehicle as shown in Figure 1 and the storage tank 10 for the demonstration pressure water or tear liquid, color fluid or their An optional mixed liquid (hereinafter referred to as "protesting liquid") is filled.

At least one tarpaulin 20 is installed on the upper side of the vehicle for spraying the demonstration suppression liquid in a desired place in the demonstrator, and the supply pipe 30 for supplying the demonstration suppression liquid of the storage tank 10 to the tarpaulin 20. This connection is made up.

At this time, the tarpaulin 20 is configured to rotate 360 degrees.

A pump 40 is connected to the supply path of the supply pipe 30 so as to discharge the demonstration squeeze liquid filled in the storage tank 10 and to spray the demonstration body, and the pump 40 is powered by the engine 50. It is connected to the PTO (Power Take Off; 60), which is a power take-off device which delivers the pump 40 to the pump 40, and is controlled to operate and stop by driving control.

At this time, the pump 40 is preferably configured to be supplied to be discharged by a predetermined amount using a pulsation-free pump, it is to supply the demonstration pressure in the storage tank 10 to the tarpaulin (20) side.

The supply path of the supply pipe 30 is connected to the venturi tube 70 for automatically compensating the discharge pressure of the demonstration pressure liquid and the pressure sensor 80 for sensing the discharge pressure in order, and the pressure sensor 80 It is configured to detect the discharge pressure of the demonstration pressure liquid passed through the venturi tube (70) to send the pressure detection signal to the control unit (90).

In addition, the end of the supply path of the supply pipe 30 is connected to the ball valve 100 for the final adjustment of the discharge pressure and flow rate of the demonstration stimulation liquid, the ball valve 100 from the control unit 90 The opening and closing is controlled by receiving a control command.

The controller 90 is configured to perform electronic control such as PLC (Program Logic Control) control.

Referring to the operation of the pressure-compensated pulsation-free stimulation pressure difference according to an embodiment of the present invention having such a configuration as follows.

As the controller 90 controls the driving of the PTO 60, the power of the engine 50 is transmitted to the pump 40, and the pump 40 is operated.

By the operation of the pump 40, the protest-increasing liquid filled in the storage tank 10 starts to be discharged and is led to the tarpaulin 20 through the supply pipe 30, and the discharge pressure and flow rate are constant by automatic pressure compensation and electronic control. Demonstrators are sprayed towards the protesters.

Specifically, the demonstration suppression liquid which starts to be discharged from the storage tank 10 by the pump 40 is extruded while passing through the venturi tube 70 installed in the supply path of the supply pipe 30, so that the automatic pressure compensation increases in output. The pressure sensor 80 checks the state of the discharge pressure at which the automatic compensation is performed, and sends a pressure detection signal to the control unit 90.

The controller 90 controls the opening and closing of the ball valve 100 and the degree of opening and closing of the ball valve 100 according to the pressure change state based on the current discharge pressure information received from the pressure sensor 80, and simultaneously drives the PTO 60. By controlling the number of revolutions of the pump 40 by the control to spray the demonstration pressure fluid through the tarpaulin 20 at a predetermined pressure and flow rate.

At this time, by adjusting upward with respect to the discharge pressure through the PLC control in the control unit 90 it is possible to easily adjust and increase the injection distance of the demonstration pressure-up liquid, it is possible to discharge a certain flow rate.

In addition, by applying the ball valve 100, there is no pressure loss in the demonstration suppression liquid injection step, so that the pressure and flow rate of the demonstration suppression liquid can be uniformly sprayed according to the control of the controller 90, and the accuracy is improved. I can add it.

Therefore, the long-range injection of the demonstration suppression liquid, as well as the injection at a constant pressure and flow rate can increase the efficiency for protest suppression, dissolution, or the extraction of the main hat, while having a safety that can reduce the risk from the molotov cocktail.

In addition, it is possible to increase the control efficiency of the injection against the demonstration suppression liquid, so that the degradation of the demonstration suppression effect that can be generated by the discharge pressure and the flow rate is small, and of the demonstration personnel that can be generated by the excessive discharge pressure and the flow rate It is useful to prevent injury or death.

On the other hand, the pressure-compensated pulsation-free protest pressure difference according to the present invention has been described with reference to the specific embodiments and the accompanying drawings as described above, but can not be limited to this specifically, within a similar category of the technical idea for the present invention It will be apparent that various modifications, substitutions, and alterations can be made.

Figure 1 is a system diagram of the pressure compensation type pulsation-free demonstration pressure difference according to an embodiment of the present invention.

       Explanation of symbols on the main parts of the drawings

10: storage tank 20: tarpaulin

30: supply piping 40: pump

50: engine 60: PTO

70: Venturi tube 80: pressure sensor

90 control unit 100 ball valve

Claims (2)

The storage tank 10 is provided in the vehicle and the waterproof cloth 20 is installed on the upper side of the vehicle, and the supply pipe 30 for supplying the demonstration suppression liquid in the storage tank 10 is connected to the waterproof cloth 20. A pump 40 for discharging the demonstration suppression liquid filled in the storage tank 10 is connected to the supply path of the supply pipe 30, and the pump 40 is connected to the engine 50 and the PTO 60 is connected. Drive control by), sequentially connecting the venturi tube 70 for automatically compensating the discharge pressure of the demonstration pressure on the supply path of the supply pipe 30 and the pressure sensor 80 for sensing the discharge pressure Installed in the pressure compensation type pulsation-free demonstration pressure differential configured to detect the discharge pressure of the demonstration pressure liquid passed through the venturi tube 70 through the pressure sensor 80 and send the pressure detection signal to the controller 90. In At the end of the supply path of the supply pipe 30 is connected to the ball valve 100 for the final adjustment of the discharge pressure and flow rate of the demonstration riot liquid, The ball valve 100 is pressure compensation type pulsating demonstration pressure difference characterized in that the opening and closing is controlled by receiving a control command from the control unit 90. delete

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