KR101020095B1 - Traveling real time water purification apparatus - Google Patents

Abstract

PURPOSE: A driving type real-time water purifying apparatus is provided to stir waste water with water purifying powder in real time using one engine power. CONSTITUTION: A driving type real-time water purifying apparatus comprises the following: a transport cart moving the apparatus; a ventury pipe(900) sucking wastewater; a stirring water suction pipe sucking partial stirring water inside a stirring tank; the high-pressure stirring tank(600) stirring the wastewater with water purifying powder; an engine(300) generating power by combusting fuel; a gear box(400) transferring the power for operating a pump(500) for sucking the wastewater, and a stirrer inside the stirring tank; wheels(800) driving the transport cart; and a controller for operating an impeller.

Description

Travel type real-time water purifier {TRAVELING REAL TIME WATER PURIFICATION APPARATUS}

The present invention relates to a real-time water purification device that can be discharged after agitation with the water purification powder by moving to rivers, lakes, beams, etc. that require water purification in real time to agitate wastewater. Run-time real-time water purification system equipped with the function of supplying waste water to the stirring means with the water purification powder in real time using the engine power, discharging the purified water to the river, and the traveling function to move the body of the water purification means. It is about.

With the rapid increase in population and industrial development, in the modern society, various kinds of household wastewater and factory wastewater are continuously discharged as by-products of material civilization activities, and the pollution of river, sea, soil, groundwater, etc. is increased, and thus environmental preservation, public health and even It is a serious problem that threatens human survival. As a result, advanced countries are actively conducting research, legal regulations, and facility investments to prevent pollution of their own waters and to restore the quality of polluted waters. International cooperation is under way for global environmental preservation.

Water pollution prevention measures include a physical method of filtering contaminants from waste water, a method of capturing waste water in large tanks and adding high-molecular chemicals such as flocculants to sink contaminants in water and disinfectants during discharge. Methods, biological methods by which contaminated water is put in a tank containing microorganisms, and microorganisms eat and purify pollutants in water, and other methods of electrolysis or using aquatic plants, and these methods have advantages and disadvantages. I'm using a good mix of them.

By the way, the water purification equipment as described above is made of a fixed type only water purification is possible, there is a problem that it is difficult to use the same equipment moved to another place, as shown in Figure 1 patent application filed by the applicant No. 10-2009-0096425 proposes a technology for a mobile real-time water purification device that can implement a water purification facility mobile. The mobile real-time water purification device, the pump 20 for sucking waste water and transporting it to the high pressure stirring tank 30 and the ejector tube 40, the hopper 50 for loading the water purification powder, the high pressure stirring tank 30 Vacuum pump 60 to be transferred to), the high pressure stirring tank 30, the suctioned waste water and the water purification powder is first stirred by water pressure, the mixed liquid stirred in the high pressure stirring tank 30 to the pump 20 It comprises an ejector tube 40 for ejecting by the Venturi effect according to the waste water being transported by, the static mixer 70 for discharging the mixed liquid ejected from the ejector tube 40 by a second stirring by a screw, waste water In addition to the suction of water, one pump 20 is used to discharge the purified water, and the sludge according to the wastewater treatment can be collected and treated separately. To hereinafter as well as, in particular, is characterized by the movement facilitates the vehicle to package the water purification means in the container box are possible.

However, the mobile water purifying device can be quickly moved to a place necessary for the purification of waste water, but due to the weight of the equipment, it must always be mounted on the vehicle and moved, and it is inconvenient that it is not easy to move when the vehicle is put down.

Figure 2 shows a schematic diagram of the suction and discharge of the conventional water purification device, when the waste water is sucked from the river, river, lake and the like and stirred with the flocculant and discharged to the river, river, lake, etc. to purify the water quality, the waste water is In addition to the need for a pump (2) for suction into the stirring tank (1), a pump (3) different from the pump (2) must be used to discharge the flocculant and the stirred stirring water from the stirring tank (1). Therefore, two pumps were required. If one of the pumps (2) (3) to use only one pump should be sealed in the stirring tank (1), if the sealing tank 91 is closed, there is a problem that the coagulant is not frequently added.

The present invention has been invented in view of the above-described circumstances, and in particular, one pump is used for agitation and discharge of purified water as well as suction of waste water, and in particular, one can be driven by the power of the engine. An object of the present invention is to provide a driving type real-time water purifying device that is capable of driving the pump and the driving means using the engine.

Run-type real-time water purification device of the present invention for achieving the above object, in the water purification device to suck the waste water and stir with the water purification powder to discharge;

In being mounted on a cart

The waste water is sucked from the river, river, lake, etc. through the venturi pipe installed in the middle of the waste water suction pipe and the waste water suction pipe, and at the same time, the suction water in the stirring tank is sucked through the agitated water suction pipe installed at the center of the venturi pipe. A pump for transferring to the stirring tank and discharging the rest through a discharge pipe;

A high pressure stirring tank for stirring the sucked waste water with a powder for water purification using a stirrer;

An engine generating power by combustion of fuel;

A gear box connected to the engine shaft of the engine to transfer the power of the engine to a driving power system, a pump operating power system, and an agitator operating power system;

A wheel connected to the driving power system of the gear box and installed at a bottom of the transport cart to drive the transport cart;

A clutch member that connects or blocks power of the engine with a driving power system;

It characterized in that it comprises a; and a pump and a stirring impeller operation control material for connecting or disconnecting the power of the engine to the power system for operating the pump and the stirrer operation.

The driving power system is connected to the engine shaft by a belt in order to decelerate the first reduction shaft, the second reduction shaft and the driving power connecting shaft, and the driving drive of the driving drive shaft connecting gear and the driving wheel of the driving power connecting shaft. It is characterized in that the gear is engaged.

The pump operating power system is characterized in that the worm gear shaft is connected to the engine shaft by a belt, the pump drive shaft is connected to the worm gear shaft by a belt.

The stirrer operating power system is characterized in that the worm gear shaft is connected to the belt by the engine shaft, the worm gear and worm wheel is installed on the worm gear shaft, the stirring impeller shaft is connected to the worm wheel by a belt.

The clutch member is provided with a driving power control idler adjacent to a belt connecting the engine shaft and the first reduction gear, the driving power control idler is pivotally installed on the bracket by the pivot shaft, and the bracket is connected to the user through a wire. By connecting to the operation lever operable by, the idler is characterized in that made to connect or block the driving power by adjusting the tension of the belt connecting the engine shaft and the first reduction shaft in accordance with the operation of the operating lever.

The pump and stirring impeller operation control member is installed adjacent to the belt connecting the engine shaft and the worm gear shaft, the pump and the impeller operation control idler is installed, the pump and the impeller operation control idler for the operation of the pump and stirring impeller operating lever Installed in the pivotable bracket, the pump and the impeller operation control idler in accordance with the operation of the pump and the stirring impeller operating lever to adjust the tension of the belt connecting the engine shaft and worm gear shaft is transmitted to the pump and stirring impeller Characterized in that made to connect or block.

The present invention as described above can be moved quickly and easily in the case of a short distance by using its own engine power for suction discharge and agitation of waste water without moving the vehicle, and also using a single pump By configuring the waste water to be sucked in, stirred and discharged, the structure of the facility is relatively simplified and manufacturing cost can be reduced accordingly, and the purification ability can be improved by treating wastewater inflow, agitation, and discharge in real time.

1 is a schematic diagram of a conventional mobile water purifying apparatus,
2 is a conceptual diagram of the present invention;
3 is a perspective view of the present invention,
4 is a perspective view for explaining a power transmission system of the present invention;
5 is a side view of FIG.
6 is a side view of the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 shows a conceptual diagram of the present invention and Figure 4 shows a perspective view of the present invention, the running water purifying apparatus 200 according to the present invention is a deceleration or power transmission to the engine shaft 310 of the engine 300 made of one Gear box 400 made of a plurality of gears for the connection is connected, the gear box 400 is a pump driving system for driving the pump 500 and the stirring impeller installed in the stirring tank 600 An impeller driving system 710 for driving the 700 and a wheel driving system 810 for driving the driving wheel 800 are provided, respectively, by using a power generated by one engine 300 to pump ( 500) and the stirring impeller 700 and the driving wheel 800 are configured to drive, respectively.

The inlet of the pump 500 is connected to a wastewater suction pipe 910 for sucking wastewater in rivers, rivers, lakes, and beams through a venturi tube 900, and a narrow center of the diameter of the venturi tube 900. When the waste water is sucked through the venturi tube 900 by the driving of the pump 500 is connected to the stirring water suction pipe 920 for sucking the stirred water in the stirring tank 600 by the Venturi effect. In addition, the discharge port of the pump 500 is connected to the discharge pipe 930 for discharging the agitated water and the waste water sucked through the venturi tube 900 to rivers, rivers, lakes, beams, etc. that were originally sucked, In the middle of the discharge pipe 930, a return pipe 940 is connected to transfer a portion of the agitated water and waste water discharged from the pump 500 to the stirring tank 600 to be used for stirring the water purification agent.

Therefore, when the engine 300 is operated while the wastewater suction pipe 910 is immersed in the water of rivers, rivers, lakes, beams, etc. to purify the water quality, the power of the engine 300 is transmitted through the gearbox 400. The pump 500 is delivered to the pump 500 so that the pump 500 is operated. Accordingly, the waste water is sucked through the waste water suction pipe 910 by the pressure action of the pump 500. When passing through the waste water suction pipe 910 and the stirring water suction pipe 920 due to the pressure difference in the stirring tank 600 is suctioned to the venturi tube 900 side, the pump 500 mixes the waste water and the stirring water The water is sucked at the same time, which is discharged to the outside through the discharge pipe (930).

And a portion of the mixed water discharged through the discharge pipe 930 by the pumping of the pump 500 is supplied to the stirring tank 600 through the return pipe 940 is used to agitate the flocculant introduced into the stirring tank 600 do. The stirring operation of the waste water and the flocculant in the stirring tank 600 is performed by rotating the stirring impeller 700 installed under the stirring tank 600 under the power of the engine 300.

Coagulant or water purification agent supplied to the stirring tank 600 is preferably to continue to supply automatically, for this purpose, an automatic coagulant supply means (not shown) may be additionally installed. The coagulant automatic supply means may include a hopper for accommodating the coagulant and a vacuum inhaler for sucking the coagulant contained in the hopper and supplying the coagulant to the stirring tank.

In the waste water suction, agitation and discharge structure of the above structure, while sucking the waste water using a single pump 500, it is made to suck and discharge the stirred water in the stirring tank 600 by the Venturi effect using the waste water sucked in In addition, while using one pump 500, it is possible to suction and discharge waste water. In addition, since the stirring water in the stirring tank 600 can be sucked out and discharged by the Venturi effect even without closing the stirring tank 600, the coagulant can be continuously added into the stirring tank 600.

On the other hand, when the power of the engine 300 is transmitted to the driving wheel 800 through the gearbox 400, the driving wheel 800 is rotated to run, the driving wheel 800 is a transport cart ( It is installed on the bottom of the 1000 and the water purification equipment described above is mounted on the transport cart 1000, the water purification equipment using the power of the engine 300, which is equipped with itself to suck, stir and discharge the waste water. It can be quickly and easily moved to other places nearby and used for water purification.

Next, according to FIGS. 5 and 6, the power generated by one engine 300 is transferred to the power driving the pump 500 for the intake and discharge of the waste water, and the waste water is stirred in the stirring tank 600. It explains the action of transmitting the stirring impeller 700 to the driving power to agitate with the flocculant, and the action of transmitting the driving wheel 800 to the power to rotate the driving wheels 800 equipped with water purification equipment. do.

Figure 5 is a perspective view of the gearbox inside and the impeller drive system for explaining the power transmission system of the present invention, Figure 6 shows a side view of the present invention, respectively.

As is well known, the engine 300 generates rotational power by a periodic action of sucking, compressing, and exploding a mixture of fuel and air, and the rotational power is transmitted to the engine shaft 310.

The engine shaft 310 is connected to a gear box 400 which is provided with a pump drive system 510, an impeller drive system 710, and a wheel drive system 810, respectively.

As the pump drive system 510, one worm gear shaft 410 is connected to the engine shaft 310 by a belt 405, and the pump drive shaft 420 is connected to the timing pulley 415 installed at the worm gear shaft 410. It consists of a structure connected by the timing belt 425.

The impeller drive system 710 includes a worm gear 430 installed on the worm gear shaft 410, a worm wheel 432 engaged with the worm gear 430, and a belt 435 on the worm wheel 432. By the impeller shaft 720 is connected structure.

In addition, an idler 445 is installed at one side of the belt 405 that transmits the power of the engine shaft 310 to the worm gear shaft 410. The idler 445 is pivoted according to the operation of the pump and stirring impeller operating lever 440 to adjust the tension of the belt 405 so as to transmit power of the engine shaft 310 to the worm gear shaft 410. It serves to block.

On the other hand, the wheel drive system 810, the pulley of the first reduction shaft 452 is connected to the engine shaft 310 by the belt 450, the first reduction shaft 452 and the second reduction shaft 454 ) Is connected by the timing belt 456, the second reduction shaft 454 and the driving power connecting shaft 458 are connected by the timing belt 460, and the driving power connecting shaft 458 is connected to the driving driving shaft. The connecting gear 462 is installed to mesh with the driving drive gear 820 to transmit power to the driving wheel 800.

In addition, the idler 464 is installed at a position adjacent to the belt 450 of the wheel drive system 810, the idler 464 is installed at one end of the bracket 466 and the other end of the bracket 466 It is fixed to the pivot shaft 468, the wire 470 is connected to one side of the bracket 466. When the idler 464 pulls the wire 470, the idler 464 is rotated about the pivot shaft 468 to press the belt 450 so that the power of the engine shaft 310 travels through the first reduction shaft 452. 800 to be transmitted to the engine shaft in which the idler 464 is separated from the belt 450 by the restoring force of the return spring 472 when the force of pulling the wire 470 is released to the first reduction shaft 452. It serves to cut off the power of 310.

The wire 470 may be connected to an operation lever (not shown) installed on the handle 1100 of the transport cart 1000 to facilitate the user's operation.

Hereinafter, the driving and driving operation of the pump driving and the stirring impeller will be described.

In the initial operation of the engine 300, the engine power is not transmitted to the driving wheel 800, the pump 500, and the stirring impeller 700.

When the user operates the operation lever (not shown) after operating the engine 300 and pulls the wire 470, the idler 464 pulled by the return spring 472 is pivoted to press the belt 450. Accordingly, the tension of the belt 450 that is loosely located between the engine shaft 310 and the first reduction shaft 452 is increased, so that the rotational force of the engine shaft 310 is transmitted to the first reduction shaft 452. The belt 456 is transmitted to the second reduction shaft 454, which is transmitted to the driving power connecting shaft 458 through the timing belt 460, and then decelerated to rotate the driving wheel 800. Done. In this way, driving is controlled using the clutch function by the idler 464.

For driving the pump and driving the agitating impeller, when the user operates the pump and the agitating impeller lever 440 to contact the idler 445 to press the belt 405, the engine shaft 310 and the worm gear shaft ( The tension of the belt 405, which is loosely positioned between the 410, is increased, so that the rotational force of the engine shaft 310 is transmitted to the worm gear shaft 410.

This power is transmitted to the pump drive shaft 420 through a timing belt 425 coupled to the timing pulley 415 of the worm gear shaft 410 to operate the pump 500, and the worm gear shaft 410. The power transmitted from the worm gear 430 to the worm wheel 432 is transmitted to the impeller shaft 720 by the belt 435 to perform the stirring operation by rotating the impeller 700.

As described above, the present invention may drive the pump 500, the stirring impeller 700, and the driving wheel 800 by using the power generated by the one engine 300, and also operates one pump 500. Wastewater can be sucked in and used to discharge the flocculant and the stirred stirred water.

200-water purifier, 300-engine,
310-engine shaft, 400-gearbox,
405, 450-belt, 410-worm gear shaft,
420-Pump drive shaft, 430-Worm gear,
432-worm wheel,
440-impeller operating lever for pumps and stirring,
445-Idler for controlling pump and impeller operation,
452-first reduction, 454-second reduction,
456,460-Timing belt, 462-Drive shaft coupling gear,
464-Idler for driving power control, 470-wire,
472-return spring, 500-pump,
510-Pump Drive System, 600-Stirring Tank,
700-Stirring Impeller, 710-Impeller Drive System,
720-impeller shaft, 800-driving wheels,
810-Wheel drive system, 900-Venturi tube,
910-waste water suction line, 920-agitated water suction line,
930-discharge pipe, 940-return pipe,
1000-carriage.

Claims (6)

In the water purification device to suck the waste water and to stir with the powder for water purification to discharge.
In being mounted on a cart
The waste water is sucked from the river, river, lake, etc. through the venturi pipe installed in the middle of the waste water suction pipe and the waste water suction pipe, and at the same time, the suction water in the stirring tank is sucked through the agitated water suction pipe installed at the center of the venturi pipe. A pump for transferring to the stirring tank and discharging the rest through a discharge pipe;
A high pressure stirring tank for stirring the sucked waste water with a powder for water purification using a stirrer;
An engine generating power by combustion of fuel;
A gear box connected to the engine shaft of the engine to transfer the power of the engine to a driving power system, a pump operating power system, and an agitator operating power system;
A wheel connected to the driving power system of the gear box and installed at a bottom of the transport cart to drive the transport cart;
A clutch member that connects or blocks power of the engine with a driving power system;
And a pump and a stirring impeller operating control member for connecting or disconnecting the power of the engine to a pump operating power system and a stirrer operating power system. The driving power system of claim 1, wherein the driving power system is connected to the engine shaft by a belt in order to decelerate the first reduction shaft, the second reduction shaft, and the driving power connecting shaft, and the driving drive shaft connecting gear of the driving power connecting shaft. A driving type real-time water purification device, characterized in that the driving gears of the driving wheels are engaged. The system of claim 1, wherein the power system for operating the pump is characterized in that a worm gear shaft is connected to the engine shaft by a belt, and a pump driving shaft is connected to the worm gear shaft by a belt. According to claim 1, wherein the stirrer operating power system is connected to the worm gear shaft to the engine shaft, the worm gear shaft and worm gear and worm wheel is installed, the stirring impeller shaft to the worm wheel to the belt Run type real-time water purification device, characterized in that connected. According to claim 1, wherein the clutch member is installed adjacent to the belt connecting the engine shaft and the first reduction shaft driving power control idler, the driving power control idler is installed on the bracket to be pivotable by the pivot shaft, The bracket is connected to an operation lever operable by a user through a wire, and the idler adjusts the tension of the belt connecting the engine shaft and the first reduction shaft according to the operation of the operation lever to connect or block the driving power. Run type real-time water purification device. The pump and the impeller operation control member for stirring is installed adjacent to the belt connecting the engine shaft and the worm gear shaft, the pump and the impeller operation control idler is installed, the pump and the impeller operation control idler for the pump and stirring It is installed on the pivotable bracket according to the operation of the impeller operating lever, and the pump and the impeller operation control idler are adjusted by the tension of the belt connecting the engine shaft and the worm gear shaft according to the operation of the pump and the stirring impeller operating lever. Run type real-time water purification device, characterized in that made to connect or cut off the power transmitted to the impeller.

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