KR101209434B1 - Chemicals Feeder in Proportion to Water Flow that Adhere Directly - Google Patents

Abstract

The present invention relates to a direct-attached flow rate proportional chemical input device,
Inflow and outflow of the fluid by operating a pair of rotors with gears using the fluid flow energy of raw water that flows through the pump box casing of a constant volume at the end of the inlet pipe through which the raw water is introduced into the reservoir tank. To repeat the operation, and integrating the mechanical reducer, integrating the ratio of the volume of inflow, outflow and volume per unit real time to ensure an accurate flow rate as a ratio of the mechanical principle, to the flow rate of the raw water flowing into the water storage tank The present invention relates to a direct-attached flow rate chemical input device that can control the high and low on the basis of water in proportion to the desired amount of chemicals and the amount of chemicals consumed.

Description

Chemical Feeder in Proportion to Water Flow that Adhere Directly}

The present invention relates to a direct-attached flow rate proportional chemical input device,

More specifically, a pair of rotors with gears are operated to rotate by using a flow fluid energy of raw water that flows through a constant volume of pump box casing at an end of an inlet pipe through which a raw water is introduced into a reservoir tank. The inflow and outflow of the gas is repeated and connected to the mechanical reducer, and the ratio of inflow, outflow and volume of volume per unit real time is integrated to ensure an accurate flow rate as a ratio of the mechanical principle. The present invention relates to a direct-attach type flow rate chemical input device that can control a high and low amount of chemicals in a desired amount in proportion to the flow rate of raw water and consume the chemicals.

      In rural and rural areas where it is difficult to supply purified tap water from sterilized water treatment plant, small liver abnormal water supply is used to receive sterilized drinking water.The liver abnormal water is disinfected by the representative managers of local residents. The local authorities regularly check the condition of drinking water by water quality inspection, prevent pollution and supply it to local residents.

As a method of disinfecting water introduced into the reservoir tank in the liver abnormal water, a method of disinfecting the disinfectant into a storage tank at a predetermined time by setting a predetermined time and using a pump to disinfect the liquid or solid liquid, and According to the level of raw water flowing into the tank, the mouth is moved up and down, and a liquid or solid disinfectant is injected into the reservoir tank.
In the former case, because the chemical is injected regardless of the amount of raw water stored in the water storage tank during the process of inputting the medicine at a predetermined time interval, the amount of chemical input is unilaterally input. It operates with a separate power source, such as electricity, where the reservoir tank is installed at a high location remote from the site of use, which requires additional facility investment.
In the latter case, if the level of raw water flowing into the water tank is small, the disinfectant cannot be quantitatively added.In the case of liquefying solid chemicals, the concentration of chemicals may not be constant when new water is filled, and continuous chemicals may be added. There is a problem that can not expect a certain disinfection effect due to the lack of problems, such as the quantitative input of the drug is not made.

        Recently, based on the prior art (Utility Model Registration No. 20-0293090, No. 20-0300269, No. 10-0556994), such as the Republic of Korea Patent No. 10-0770150, quantitative injection device for non-powered chemicals And a method of using a rotor that interlocks while the impeller rotates, such as Korean Patent No. 10-0639983, a chemical injector, and Korean Patent No. 10-0666464, a differential pressure air injecting chemical injection device. Based on Utility Model Registration No. 0386759, Patent Application No. 10-2005-66518), the method using the venturi tube mounted on the branch pipe is a prior art similar to the present invention. By using the air pressure of the impeller, the impeller and the rotor, the venturi tube of the main drive chain of the invention by using a non-powered method to inject the chemicals in proportion to the flow rate in the reservoir tank.

      This prior art is because the power transmission device such as a speed reducer or pump and a metering pump are installed in the upper part of the water storage tank, and the complex piping equipment constituting the inlet pipe for directly transmitting the rotational force of the impeller to the speed reducer is installed in the upper part of the water storage tank. As a result, it is not possible to use the existing water supply pipe facility of the abnormal water supply system, the piping cost of the water supply pipe must be newly established, and the time required for the additional input of construction materials due to the enormous amount of additional equipment and the significant improvement work can be delayed. There is a problem that is overestimated.

In order to solve the above problems and to advance the advantages of the prior art,

An object of the present invention is to install directly attached to the inlet pipe without modifying the existing equipment, and the size and weight of the direct-attach direct proportional chemicals that can be injected into the correct amount of the drug according to the amount of water supplied through the inlet pipe It is to provide an input device.

The present invention for achieving the above object,
A pump box (300) having a pair of rotors (310, 320) geared to rotate in proportion to the flow rate of the raw water introduced and directly attached to the inlet pipe (112) in the storage tank (150); A reducer 400 connected to the rotors 310 and 320 to obtain a driving force having a predetermined reduction ratio; A tubing pump 500 that receives the driving force from the reducer 400 and pumps the medicine from the chemical storage tank 700; It includes a tube 600 for connecting the chemical storage tank 700 and the reservoir tank 150.
In addition, in the present invention, the pump box 300, the reducer 400, and the tubing pump 500 are preferably integrally formed.

And, the tubing pump 500 is provided with a pair, the tube 600 is composed of a pair of tubes (610, 620) having a different thickness of the channel is connected to the pair of tubing pump 500, respectively, The chemical liquid storage tank 700 is provided with a three-way concentration control valve 800 connected to the pair of tubes 610 and 620, respectively, so that the amount of chemical liquid input to the water storage tank 150 can be adjusted to high and low.

By using the direct-attachment chemical injection device having the characteristics as described above,

Chemicals can be accurately metered in proportion to the flow rate of the raw water flowing into the reservoir tank 150.

It can be applied as a small, lightweight, direct-attachment facility that directly connects to an existing facility without modifying or modifying the existing water supply facility. Therefore, existing water supply can be used as it is, and piping facilities are not complicated. ) It is good to be able to keep beautiful appearance of appearance.

Due to the above effects, the input of construction materials can be minimized, and the working time can be shortened, thereby reducing construction costs.

It is harmless to human body and uses non-combustible materials such as Fiber Reinforced Plastics (FRP: Fiber Reinforced Plastics), Teflon (PTFE), PEEK (Polyetheretherketone), which are harmless to human body, and have no corrosion. Good and hygienic

In the chemical storage tank 700, the administrator can simply adjust the three-way concentration control selection valve 800, and select the low, thereby adjusting the high or low concentration within the drinking water range.

Figure 1a is a representative view of a non-powered drug dosage device (Korean Patent No. 10-0770150) according to the prior art
Figure 1b is a representative view of the drug injector (Korean Patent No. 10-0639983) according to the prior art
Figure 1c is a representative view of the differential pressure-type air injection chemical injection device (Korean Patent No. 10-0666464) according to the prior art
Figure 2 is a representative view of the valley receiving drug injection device (Korean Patent No. 10-0600645) according to the prior art
Figure 3 is an overall view of the direct-attachment type flow rate chemical injector of the present invention applied
4 is an assembly structure of the direct flow rate proportioner chemical input machine of the present invention
Figure 4a is a cut internal view of the direct flow rate proportioner injector of the present invention
Figure 5 is a perspective view of the internal structure of the pump box structure cut-out of the direct-flow flow rate chemical injector of the present invention
Figure 5a is a front sectional view and a flow diagram showing the flow rate proportional drug injector of the present invention
Figure 6 is a structural diagram of the internal structure of the reducer of the direct flow rate proportioner injector of the present invention
7 is a working view inside the tubing pump of the present invention
8 is a shape of the rotor having a gear in the pump box that can be applied to the present invention

Typically, the reservoir tank 150 of the valley water or groundwater is a concrete structure as shown in FIG. 3, which is a ground or underground structure, or an integral, panel or welded type made of FRP or stainless steel depending on the material. It can be installed on the ground and divided into round and square depending on its shape. At this time, an inlet pipe 112 through which the raw water is introduced is installed, an overpipe 142 is installed to discharge the inflow water when the water is full, and an outlet pipe 121 is discharged to discharge the drinking water source treated chemically to the bottom, the storage tank 150 At the same height as the bottom surface of the storage tank 150, a cleaning pipe 131 is installed to drain the cleaning water tank 150, and the chemical feeder from the inside and outside of the storage tank 150, which receives valley water or ground water. Raw water sterilized by the water is supplied to the drinking water source through the outlet pipe 121. The present invention is a direct-attachment type flow rate drug dispenser that can be used directly attached to the inlet pipe 112 of such a simple water supply facility.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1a is a representative view of a non-powered drug dosage device (Korean Patent No. 10-0770150) according to the prior art.

Figure 1b is a representative view of the drug injector (Korean Patent No. 10-0639983) according to the prior art.

Figure 1c is a representative view of the differential pressure-type air injection chemical injection device (Korean Patent No. 10-0666464) according to the prior art.

Figure 2 is a representative view of the valley receiving drug injection device (Korean Patent No. 10-0600645) according to the prior art.

3 is an overall view to which the direct-attached flow rate proportioner injector of the present invention is applied,

Attached directly attached flow rate proportional chemical injector 200 to the end of the inlet pipe 112 through which the raw water is supplied to the reservoir tank 150 through the inlet pipe 112, and the chemical storage tank (outside) By installing 700, the tube 600 is connected to the chemical liquid storage tank 700 and the directly attached flow rate proportional injector 200 to inject the chemical in proportion to the flow rate.

4 is an assembly structure diagram of a direct flow rate proportioner injector of the present invention,

Direct-attach flow rate proportional chemical injector is composed of a pump box 300, a reducer 400 and a tubing pump 500, is connected to the chemical storage tank 700 by a tube (600). At this time, the reducer 400 is to obtain an accurate reduction ratio, the drug storage tank 700 is stored a drug such as calcium hypochlorite (Ca (OCl) ₂ ) containing a chlorine component. The tubing pump 600 receives the driving force having the reduction ratio and pumps the medicine from the chemical storage tank 700 to inject the chemical into the storage tank along the pipeline of the tube 600.

Figure 4a is a cut internal view of the direct flow rate proportioner injector of the present invention.

Figure 5 is a perspective view of the internal structure of the pump box cutaway of the present invention,

According to a preferred embodiment of the present invention, the pump box 300 is provided with a pump box casing 350 to the outside to protect the mechanism, and has a pair of egg-shaped rotors 310 and 320 with gears inside. The pair of rotors 310 and 320 rotate while being interlocked with each other about a central axis 311 and 321 and have rotational force at the speed of the influent.
In addition, an inflow water pipe 330 is provided on the left side of the rotors 310 and 320, and an outflow water pipe 340 is provided on the right side of the rotors 310 and 320. Therefore, the raw water flowing through the water inlet pipe 112 of FIG. 3 flows out through the outflow water pipe 340 through the inflow water pipe 330 and the rotors 310 and 320 and is stored in the water storage tank 150 of FIG.

Figure 5a is a front cross-sectional view and a flow diagram of the flow rate proportional chemical injector of the present invention.

6 is a diagram showing the internal structure of the reducer 400.

The reducer 400 transmits the rotational force of the rotors 310 and 320 to the tubing pump 500 in proportion to the flow rate of the inflow water. The reduction gear 400 obtains an appropriate flow rate reduction ratio through a plurality of internal reduction gears 410, and transmits a driving force having the reduction ratio thus obtained to the tubing pump 500.

7 is a diagram illustrating an internal operation of the tubing pump 500.
The tubing pump 500 is a pressure roller 510 of the tubing pump 500 by mounting a pair of tubes 610 and 620 having different thicknesses in a structure in which the pressure roller 510 is installed in the tubing pump 500 as a known prior art. Rotating the drug in one side by rotating the input tube (610, 620) of different thicknesses in succession to rotate the drug to one side, which is a chemical storage tank 700 by the driving force according to the speed with the reduced reduction ratio received from the reducer 400 Pump from the metering to the chemicals into the reservoir tank 150 through the tube (600).

According to the present invention, the pair of tubes 610 and 620 may be adjusted so as to adjust the dosage of the chemical liquid according to the selection of the tubes 610 and 620 having different thicknesses in the chemical storage tank 700 by adopting the channels of the double tubes 610 and 620 having different thicknesses. The three-way concentration control valves 800 connected to the chemical solution storage tanks 700 are connected to each other so that the chemical input amount can be adjusted to high and low, thereby widening the range of chemical input options.

8 is a shape of the rotor (310 ', 320') having a gear in the pump box 300 that can be applied to the present invention
Another embodiment is an egg-shaped two rotors 310 and 320 with gears in the pump box 300 having the shape of the volumetric flow gear described above. The rotors 310 'and 320' of FIG. 8 have a peanut-shaped cross-section or a smooth triangular cam shape to which the principle of the booster pump (Lobe Flex Pump) and the principle of the sine pump are applied. It can be produced in the form having a cross section of. Such rotors 310 'and 320' are examples of shapes that can be applied depending on the amount of raw water inflow and the degree of soil and turbid oil.

Another embodiment is an egg-shaped two rotors 310 and 320 with gears in the pump box 300 having the shape of the volumetric flow gear described above. The rotors 310 'and 320' of FIG. 8 have a peanut-shaped cross-section or a smooth triangular cam shape to which the principle of the booster pump (Lobe Flex Pump) and the principle of the sine pump are applied. It can be produced in the form having a cross section of. Such rotors 310 'and 320' are examples of shapes that can be applied depending on the amount of raw water inflow and the degree of soil and turbid oil.

In addition, as a flow management technology that can be used in combination as convenient as the present invention, as shown in Fig. 2 is a device for managing the input of raw water by adjusting the water height of the reservoir tank of the prior art Korean Patent No. 10-0600645 Since there is a prior art of the valley injector drug injection device, the present invention will not discuss the technology that the raw water is managed.

By using inert materials such as fiber reinforced plastics (FRP: Fiber Reinforced Plastics), Teflon (PTFE), PEEK (Polyetheretherketone), etc. It should not be corroded and have good durability by precision processing. In principle, it should be hygienic.

As described above, in the detailed description of the present invention, a specific embodiment has been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

111 water pipe
112 water pipe
121 outlet
131 cleaning tube
142 Over Tube
150 water tank
200 Direct-attached flow rate proportioning agent
300 pump box
310 rotor (upper)
311 Rotor Shaft (Top)
320 rotor (lower)
321 Rotor Shaft (Lower)
330 Influent Pipe
340 Runoff Pipe
350 Pump Box Casing
400 reducer
410 reduction gear
500 tubing pump
510 pressure roller
600 tubes
610 large tubes
620 tubes (small)
700 Chemical Storage Tank
800 3-way Concentration Control Valve

Claims (4)

A pump box (300) having a pair of rotors (310, 320) geared to rotate in proportion to the flow rate of the raw water introduced and directly attached to the inlet pipe (112) in the storage tank (150);
A reducer 400 connected to the rotors 310 and 320 to obtain a driving force having a predetermined reduction ratio;
A tubing pump 500 that receives the driving force from the reducer 400 and pumps the medicine from the chemical storage tank 700;
Direct-attached flow rate chemical injection device comprising a tube (600) connecting the chemical storage tank (700) and the reservoir tank (150).
The method of claim 1;
The pump box 300, the speed reducer 400 and the tubing pump 500 is directly attached to the flow rate proportional chemical input device, characterized in that the unit is configured.
The method according to claim 1 or 2,
The rotor (310,320) is attached to the flow rate proportional drug injection device, characterized in that it has any one cross-section of the egg shape, peanut shape and triangular cam shape.
The method of claim 3,
The tubing pump 500 is provided with a pair,
The tube 600 is composed of a pair of tubes (610, 620) having a different thickness of the channel is connected to the pair of tubing pump 500, respectively,
The chemical liquid storage tank 700 is provided with a three-way concentration control valve (800) connected to the pair of tubes (610, 620), respectively, characterized in that it is possible to adjust the amount of chemical liquid into the reservoir tank 150, high and low Direct-attach flow proportional chemical input device.

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