KR100959820B1 - Water dispenser for sterilization medicine auto provider - Google Patents

Abstract

PURPOSE: A water spraying device for injecting disinfectant is provided to evenly disperse water pressure, and to make a uniform and minute distribution rate by horizontally maintaining the water surface of water distributed to a water mill distribution hole and a water collecting tank distribution hole. CONSTITUTION: A water spraying device for injecting disinfectant comprises the following: a distribution tank(10) in which an inlet pipe(16) is formed and a water mill distribution hole(14) and a water collecting tank distribution hole(13) are formed on either side of the tank; a plurality of spreading protrusions continuously formed on the bottom surface and is movably arranged according to an inner surface of the distribution tank; a water surface horizontal maintaining plate(20) maintaining the water surface distributed to the water mill distribution hole and the water collecting tank distribution hole; and a separation preventing guide guiding the water surface horizontal maintaining plate.

Description

Water dispenser for sterilization medicine auto provider}

According to the present invention, after dispensing the water obtained into the distribution tank into two parts, most of the water is normally supplied to the intake tank, and the remaining water is used for disinfectant injector to accurately distribute and supply the aberration for the disinfectant injector which is a power source for pumping the disinfectant. It belongs to the technical field regarding water distribution.

In general, islands and dumesan valley where water supply is not spread are operated by the village or regional unit by themselves. Most of these islands have intake tanks located at high places such as mountain slopes, Buried pipes underground to the point, the motor pump is operated to pull up the groundwater to store in the water intake tank, the situation is used to supply the Kaga Lake.

In particular, in order to use the liver abnormality water as drinking water, even if the disinfectant must be put into the water supplied to the intake tank to eradicate various germs, the manager cannot visit the bar periodically and disinfects at regular intervals using a disinfectant injector. The drug is being injected automatically.

As a prior art related to such a disinfectant injector, "Patent Registration No. 877601, Name: Hydraulic Disinfectant Injector Using Hydraulic and Reciprocating Pump", which has been previously filed and patented by the applicant of the present invention, has been proposed.

In the pre-registered invention, the reciprocating pump, which is operated using the rotational power of the aberration without using a separate power supply, automatically quantifies disinfectant into the intake tank uniformly and accurately, as well as the occurrence of a collision during the operation of the aberration. It was to provide a useful effect of reducing the cost of manufacturing by reducing the weight of the whole sterilizer by improving the durability and extending the life of the product by alleviating the shock and vibration of the entire sterilizer.

In the pre-registered invention as described above, a predetermined amount of water supplied to the intake tank is supplied through a branch pipe branched from a water pipe connected to the inside of the intake tank, and the aberration generates rotational power so that the disinfectant is supplied without power.

However, precisely branching a certain amount of water from the water supply pipe to the aberration is not accurate, and in particular, the water supply amount supplied to the aberration varies in various ranges according to the pressure difference of the supplied water supply, so that the aberration flows into the intake tank. It was not possible to operate it correctly at the right time to supply the water supply, so the disinfectant input was inaccurate, and the drinking water inside the intake tank had an improvement in that the concentration of the disinfectant was not constant.

The present invention is to actively solve a number of improvements included in the above-described pre-registered invention, the water level impingement on the bottom surface while smoothly moving up and down the water leveling plate installed in the distribution tank in accordance with the pressure difference between the intake It is to be solved by the present invention to keep the entire water surface of the water distributed to the aberration distribution port and the intake tank distribution port to be constantly and horizontally by dispersing it to spread in all directions.

In addition, the present invention is to prevent the concentration of water pressure and water flow to the center by dispersing the pressure of the water to the entire area while passing through the pressure distribution plate formed with a plurality of dispersion holes in the step before the water received on the water level plate is reached It is the object of the invention to make it possible.

In addition, the present invention can be guided to the distribution tank after the flow rate buffer plate provided inside the flow rate buffer casing connected to the lower end of the distribution tank to move to the left and right in accordance with the irregular amount of water to buffer the flow rate to a constant flow rate at all times It is to be an object of the invention.

The present invention is a means for solving the above problems is provided with a distribution tank formed in the aberration distribution port and the intake tank distribution port on both sides of the top and the water inlet pipe, the inside of the distribution tank to the pressure difference of the water obtained According to the present invention, a horizontal horizontal holding plate which moves up and down is freely disposed, and a separation prevention guide is installed on both sides of the intake tank distribution port to prevent separation of the horizontal holding plate.

In addition, the present invention seeks to provide a technique for installing a hydraulic dispersion plate which is formed by a plurality of dispersion holes which are bent upward and penetrate upward and downward in the lower side of the water level maintaining plate.

In addition, the present invention is coupled to the flow rate buffer casing at the lower end of the water inlet pipe, the tension holder coupled to one end of the flow rate buffer casing is provided with a tension rod to face the water pipe connected to the other end, the tension rod The technology for resiliently installing a flow rate buffer plate in which a plurality of buffer holes are formed at the tip is devised.

According to the present invention, the entire water surface of the water distributed to the aberration distribution port and the intake tank distribution port by the water level maintaining plate is always constantly horizontal, thereby providing an effect of realizing a precise and uniform distribution ratio at all times.

In addition, the water obtained into the distribution tank passes the pressure distribution plate at the stage before reaching the horizontal level plate to evenly distribute the water pressure to the entire area to prevent the concentration of water pressure and water flow to the center, and the lower end of the distribution tank The flow rate buffer plate installed at is provided with the effect of improving the precision of water distribution by preventing the ripple of the water received into the distribution tank by converting the irregular flow rate into a constant flow rate through the buffering action even if the amount of water is irregular.

It will be described a preferred embodiment for implementing the solution of the problem to be solved by the present invention in more detail.

Looking at the overall technical configuration according to the preferred embodiment according to the preferred embodiment of the present invention based on the accompanying drawings, the aberration distribution port 14 and the water intake tank distribution port 13 are respectively installed on both sides of the branch, obtained on the bottom surface 15 A distribution tank 10 in which the tube 16 is formed; It is disposed to be movable up and down along the inner surface of the distribution tank 10, a plurality of spreading projections 21 are formed continuously protruding in all directions on the bottom surface, the spreading projections 21 to the pressure of the colliding water A horizontal water level holding plate 20 which horizontally maintains the entire water surface of the water distributed to the aberration distribution port 14 and the intake tank distribution port 13 so as to be dispersed and spread in all directions; The rear end of the intake tank distribution port 13 is installed on both sides can be seen that the organic coupling configuration of a pair of separation prevention guide 30 for guiding the separation and vertical movement of the water level maintaining plate 20 have.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

Dispensing tank 10 of the present invention is made of a rectangular, but the water intake tank distribution port 13 and the aberration distribution port 14 are respectively installed on the front and rear plates (11, 12) of the upper both sides, the bottom surface 15 In the inlet tube 16 is formed, such a distribution tank 10 is fixedly attached to the frame frame 2 of the disinfectant injector (1).

Therefore, the water that is supplied into the distribution tank 10 through the water inlet pipe 16 is smoothly supplied to most of the water intake tank through the water intake tank distribution port 13, and some of the water is the aberration distribution port 14 The aberration 3 is supplied to the aberration 3 to generate a power source for pumping the disinfectant while the aberration 3 rotates.

Here, the intake tank distribution port 13 has a larger cross-sectional area than the aberration distribution port 14 to supply most of the water to the intake tank, and the aberration distribution port 14 is capable of operating the aberration 3. The water is distributed and supplied, and the guide vane 14a is attached to the front end of the aberration distribution port 14 so that the water can flow into the aberration 3 accurately.

According to the present invention, the water obtained from the lower side of the distribution tank 10 toward the upper side through the water inlet pipe 16 is concentrated in the center by the water pressure, and thus the water surface is not horizontal and forms irregular water waves (waves). The ratio of the water dispensed through the water intake tank distribution port 13 and the aberration distribution port 14 is not uniform and variable, so that the aberration of the aberration 3 is actively taken into consideration, even if the amount of water supply is the same. The technical configuration of the water level holding plate 20 that maintains the entire water surface of the water distributed to the volleyball 14 and the water intake tank distribution port 13 in a horizontal state is grafted.

The horizontal surface holding plate 20 for this purpose is formed in a quadrangular body as shown in Figure 5, is disposed inside the distribution tank 10 to be moved up and down along the inner surface of the distribution tank 10, the bottom surface has a shape of a mountain Spreading projections 21 having protruding portions are continuously formed in all directions.

Therefore, the water leveling plate 20 is moved upward by the pressure of the water received through the water inlet pipe 16, and at the same time the water pressure is dispersed in all four directions while water collides with the spreading protrusion 21 on the bottom surface. As it spreads, the flow rate decreases, and the overall water level of the water is kept horizontal so that the distribution ratio of the water distributed through the intake tank distribution port 13 and the aberration distribution port 14 can be uniform at all times.

In addition, the water level maintaining plate 20 is moved to the upper portion of the distribution tank 10, as shown in Figure 4 after the pair of separation prevention guide to prevent the departure from the outside through the intake tank distribution port 13 by the water flow 30 are provided on both sides of the rear end inner surface of the water intake tank distribution port 13.

The detachment prevention guide 30 may prevent the detachment of the water level maintaining plate 20 as well as guide the vertical movement of the water level maintaining plate 20 to allow a smoother movement.

On the other hand, the present invention is further provided with a pressure distribution plate 40 for dispersing the pressure of the water in the entire area of the distribution tank 10 in the step before the water received on the water level plate 20 is reached.

The hydraulic distribution plate 40 for this purpose is to be disposed on the lower side of the water level maintaining plate 20, both ends are integrally attached to the inner surface of the rear plate 11, 12 of the distribution tank 10, Figure 6 Water obtained by being formed in a streamlined upward shape as formed in the form of a perforated network formed in the entire area of the hydraulic dispersion plate 40 is formed through a plurality of dispersion holes 41 which vertically penetrates up and down to distribute the hydraulic pressure evenly to the entire area. Disperses the pressure of the water while passing through the pressure distribution plate 40 to prevent the water pressure and the water stream to concentrate in the center.

In addition, the lower end of the water inlet pipe 16 is provided with a flow rate buffer device 50 for guiding and supplying to the distribution tank 10 after the flow rate is buffered, even if the amount of water is irregular.

The flow rate buffer device 50 is a screw coupled to the flow rate buffer casing 51 at the lower end of the water inlet pipe 16, the water supply pipe 5 is connected to one end of the flow rate buffer casing 51, At the other end, the tension holder 52 is selectively detachably screwed.

One side of the tension rod 53 is fixedly installed at the center of the inner surface of the tension holder 52, and the other side of the tension rod 53 is disposed inside the flow velocity buffer casing 51 so as to face the water supply pipe 5. .

The flow rate buffer plate 54 is fitted to the outside of the tension rod 53, the flow rate buffer plate 54 is moved horizontally along the water pipe 5 while being pushed by the pressure of the water to be delivered, the amount of water is reduced, the water pressure is reduced When it is restored to its original state, but the movement in one direction is restricted by the stopper nut 55 screwed to the tip of the tension rod 53 to prevent separation from the tension rod 53, and the flow buffer plate 54 Dispersion holes 54a for dispersing hydraulic pressure are formed in the entire region.

In addition, the elastic member 56 is fitted to the outside of the tension bar 53, the elastic member 56 is supported on both sides of the inner surface of the tension holder 52 and the flow rate buffer plate 54, the flow velocity buffer plate 54 Is elastically biased in the direction of the water pipe (5).

At this time, the guide bushing 57 is further integrally attached to the rear surface of the flow rate buffer plate 54, and the guide bushing 57 is fitted to the outside of the tension rod 53 so that the guide bushing 57 and the flow rate buffer plate ( 54) As the guide rod moves along the tension rod 53 at the same time, a smoother and smoother sliding movement is possible.

On the other side of the guide bushing 57, a support washer 58 is fitted to the outside of the tension rod 53, and the support washer 58 is attached to the inner surface of the tension holder 52 in the outer periphery. The elastic member 56 is inserted and supported to prevent the elastic member 56 from flowing up and down to maintain a stable support state.

Therefore, the flow rate of the water to be delivered to the interior of the flow rate buffer casing 51 through the water supply pipe 5 buffers the flow rate buffer plate 54 and simultaneously reduces the water pressure to a constant flow rate, and then into the distribution tank 10. It can be guided and supplied to prevent more water from flowing into the distribution tank 10 so that more accurate water distribution can be achieved.

1 is a partially cut-away plan view of an installation state of a water distribution apparatus to which the present invention is applied

Figure 2 is a side cross-sectional view of the installation state of the water distribution device of the present invention

Figure 3 is a perspective view of the present invention water distribution device

Figure 4 is an enlarged cross-sectional view of the horizontal maintenance state of the water surface by the water level maintaining plate of the present invention

Figure 5 is a perspective view of the water level holding plate of the present invention

Figure 6 is a front sectional view of the installation state of the hydraulic dispersion plate of the present invention

Figure 7 is an enlarged cross-sectional view of the operating state of the flow rate shock absorber of the present invention

[Explanation of symbols on the main parts of the drawings]

1: disinfectant dispenser 3: aberration

5: water pipe 10: distribution tank

13: Intake tank distributor 14: Aberration distributor

16: Water pipe 20: Water level plate

21: Spreading process 30: Departure prevention guide

40: hydraulic dispersion plate 50: flow rate buffer

51: flow rate buffer casing 52: tension holder

53: tension rod 54: flow rate buffer plate

56: elastic member 57: guide bushing

Claims (4)

A distribution tank (10) having aberration distribution ports (14) and intake tank distribution ports (13) branched on both upper sides, and an inlet pipe (16) formed on a bottom surface (15); It is disposed to be movable up and down along the inner surface of the distribution tank 10, a plurality of spreading projections 21 are formed continuously protruding in all directions on the bottom surface, the spreading projections 21 to the pressure of the colliding water A horizontal water level holding plate 20 which horizontally maintains the entire water surface of the water distributed to the aberration distribution port 14 and the intake tank distribution port 13 so as to be dispersed and spread in all directions; It is installed on both sides of the rear end inner surface of the water intake tank distribution port 13 to prevent the water level holding plate 20 is separated from the outside through the water intake tank distribution port 13, the vertical movement of the water level horizontal plate 20 Disinfectant injector water distribution device, characterized in that consisting of a pair of departure prevention guide 30 to guide the. The method of claim 1, Below the water leveling plate 20 is further provided with a pressure distribution plate 40, both ends of which are integrally attached to the inner surface of the front and rear plates 11 and 12 of the distribution tank 10. 40 is formed in an upward curved streamline, water dispensing device for disinfectant injector, characterized in that the plurality of dispersion holes 41 penetrate up and down in the form of a perforated network formed in the entire area. The method of claim 1, The lower end of the water inlet pipe 16 is further provided with a flow rate buffer 50; The flow rate buffer device 50 is screwed to the lower end of the water inlet pipe 16, the flow rate buffer casing 51 is connected to the water supply pipe 5 on one end; A tension holder (52) selectively detachably screwed to the other end of the flow rate buffer casing (51); A tension rod (53) disposed inside the flow velocity buffer casing (51) such that one side is fixedly installed at the tension holder (52) and the other side faces the water supply pipe (5); Flow-through buffer plate is horizontally moved in the state coupled to the outside of the tension bar 53, but limited to movement in one direction by the stopping nut 55, a plurality of dispersion holes 54a penetrating from side to side 54; Disinfectant dispensing water dispenser, characterized in that made of an elastic member 56 is fitted to the outside of the tension rods 53 to elastically bias the flow rate buffer plate 54 in the water pipe (5) direction. The method of claim 3, wherein A guide bushing 57 is attached to the rear surface of the flow rate buffer plate 54, and the guide bushing 57 is fitted to the outside of the tension rod 53 to smoothly guide the sliding movement of the flow rate buffer plate 54. Distributor for disinfectant water dispenser.

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