KR101347398B1 - Apparatus for reducing reaching time for normality operation of sterilization medicine provider - Google Patents

Abstract

The present invention relates to an apparatus for reducing time to reach the normal operation of a disinfectant injector, and, in particular, to an apparatus which remarkably reduces time to reach the point capable of inputting disinfectant normally, and performs recharge and periodical check of disinfectant by counting and displaying the rotation number of a water wheel to make sure the maintenance. The present invention is characterized in that disinfectant in a disinfectant tank is forced to suction by using a pipette installed in a disinfection hose for suctioning so as to immediately reach an assembly of a reciprocating pump, and that the rotation number of a water wheel is accurately counted and displayed. [Reference numerals] (6) Disinfectant tank

Description

Apparatus for reducing reaching time for normality operation of sterilization medicine provider}

The present invention significantly shortens the time to reach the time when the disinfectant can be normally injected, and by counting the number of revolutions of the aberration, and the time to perform the replenishment and regular inspection of the disinfectant in a timely manner to the technology that is perfect for maintenance It is about.

In general, in order to use the self-operated drinking water in the book area or the Dumese mountain, drinking water must be used to sterilize various germs by putting water into the water supplied to the water intake tank. However, Normally, disinfectant is automatically injected at a constant rate using a disinfectant dispenser.

Such a conventional disinfectant dispenser uses a water turbine as a power source for operating a reciprocating pump that normally pumps the disinfectant.

When the water level is sequentially increased, the water turbine rotates and generates rotational power. When the water turbine is rotated, water is supplied again to another low-water chamber The rotation operation of the aberration can be intermittently performed with a time lag only if the stop state is maintained until the water level increases.

As a representative prior art related to such a disinfectant injector has been proposed "patent registration No. 877601, name / hydraulic and reciprocating pump using a reciprocating pump" of the applicant of the present invention.

In the above prior art, the rotational power of the aberration is switched to the reciprocating motion through the crank mechanism 1 as shown in FIG. 6 to operate the reciprocating pump 2 so that the reciprocating pump 2 automatically pumps the disinfectant to the intake tank. Quantitatively, it will provide a useful effect of uniformly and precisely injecting.

However, the above-described prior art disinfectant connected between the disinfectant container installed outside the intake tank and the reciprocating pump when the disinfectant is pumped by using the rotational power of the aberration after the disinfectant injector is first installed or the disinfectant is exhausted and replenished. Since the length of the hose is very long, the aberration must be operated several tens to hundreds of times before the disinfectant reaches the reciprocating pump and it takes a very long time to reach the point where the disinfectant can be normally input.

In particular, when bubbles are generated inside the disinfectant hose, since the bubbles are completely discharged to the outside, the disinfectant is smoothly introduced, thereby causing a problem that requires more time for normal disinfection of the disinfectant.

In addition, even in the process until the disinfectant reaches the reciprocating pump, even though water is supplied to the intake tank normally, the disinfectant is not introduced at all, which causes a problem that the concentration of the disinfectant cannot be accurately and uniformly adjusted.

On the other hand, all other disinfectant injector including the prior art is not provided with a device for measuring the uptime of the aberration can not predict the refill cycle of the disinfectant consumed in proportion to the uptime of the aberration, as well as regular inspection and It causes huge obstacles that cannot be maintained in a timely manner.

The present invention is to solve the problem that it is possible to forcibly suck the disinfectant of the disinfectant container to reach the reciprocating pump assembly in an instant by using the suction dropper installed in the disinfectant hose.

In addition, the present invention is to solve the problem that can be displayed by accurately counting the number of revolutions of the aberration.

The present invention is a means for solving the above problems by connecting the disinfection medicine hose and the disinfection medicine hose connected to the intake tank and the intake tank, respectively, on one side of the reciprocating pump assembly attached to one side of the frame frame, In the pipeline, the technology to install the suction dropper.

According to the present invention, the suction eye dropper installed in the disinfectant hose can be pushed and operated by a simple method several times, so that the disinfectant can be quickly and simply added, and the time required for the normal input of the disinfectant can be shortened. It provides the effect of keeping the concentration of disinfectant uniform at all times.

In addition, by counting and displaying the number of revolutions of the aberration, it is possible to easily predict the replenishment cycle of the disinfectant in a timely manner as well as timely inspection and maintenance management provides an effect of increasing the operability of the disinfectant injector.

1 is a front view of the disinfectant injector to which the present invention is applied
Figure 2 is a front view of the installation state of the suction dropper of the present invention
Figure 3 is a plan view of the installation state of the aberration and aberration meter of the present invention
4 is a front view of a state in which the sensing tool of the present invention passes through the counting lever
5 is a front view of a state in which the counting lever of the present invention is restored to its original state;
Figure 6 is a longitudinal cross-sectional view of the crank mechanism, reciprocating pump and disinfectant hose of the conventional disinfectant injector

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

Looking at the overall configuration according to the preferred embodiment according to the preferred embodiment of the present invention based on the accompanying drawings, the disinfectant injector (5) to automatically pump the disinfectant to the intake tank by the rotational power of the aberration (4) installed in the frame frame (3) To

A reciprocating pump assembly (10) attached to one side of the frame frame (3); A first disinfecting medicine hose (20) connected to the inside of the disinfecting medicine container (6) while being connected to the upper portion of one side of the reciprocating pump assembly (10); A second disinfectant hose 30 exposed to the inside of the intake tank while being connected to one lower side of the reciprocating pump assembly 10; It can be seen that the organic coupling configuration of the suction dropper 40 installed in the pipeline of the first disinfectant hose 20.

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

First of all, the invention is a dominant feature that the initial installation of the disinfectant injector 5 or the replenishment of the disinfectant significantly shortens the time to reach the point where the disinfectant can be normally injected, and keeps the concentration of the disinfectant smoothly and smoothly. do.

The reciprocating pump assembly 10 is fixedly installed on one side of the frame frame 3, and the first and the first side toward the disinfection medicine container 6 and the water intake tank, respectively, on one side of the reciprocating pump assembly 10, respectively. A second disinfecting drug hose (20) 30 is installed, the suction pipette (40) of the core technology of the present invention is connected to the conduit of the upper first disinfecting medicine hose (20) toward the disinfection medicine container (6).

At this time, the suction dropper 40 is formed in the center of the suction tube 41 for forcibly sucking the disinfectant stored in the disinfecting medicine box 6 in accordance with the repeated pressing operation, the both sides of the suction tube 41 1 has a structure in which the hose connection portions 42 and 42a to which the disinfectant hose 20 is fitted are formed.

And the outer circumferential surface of the distal end portion of the hose connecting portions 42 and 42a prevents the smoothness of the distal end portion of the hose connecting portions 42 and 42a, thereby preventing the distal end portion of the hose connecting portions 42 and 42a from being opened. This effectively prevents the disinfectant from leaking.

In addition, the diameter of the suction tube 41 is formed in a larger size than the diameter of the hose connection portion 42, 42a, as well as formed in a thicker standard, the tension range is wide and smooth according to the pressing operation to exhibit a stronger suction You can suck the disinfectant powerfully.

Accordingly, the first disinfectant hose 20 connected to the upper portion of the reciprocating pump assembly 10 is connected to one side hose connection portion 42a of the suction dropper 40, and the disinfecting medicine container is connected to the other hose connection portion 42. By connecting the first disinfectant hose 20 connected to the inside of 6) it is possible to maintain the suction eyedropper 40 is installed on the pipeline of the first disinfectant hose 20.

In addition, the second disinfectant hose 30 exposed to the inside of the intake tank can be connected to the lower portion of the reciprocating pump assembly 10.

On the other hand, the present invention is further grafted with a technical configuration for accurately counting and displaying the rotational speed of the aberration (4).

To this end, a meter bracket 51 is integrally attached to the upper end of the frame frame 3, and an aberration meter 50 is installed on the meter bracket 51, and a counting lever 52 of the aberration meter 50 is provided. Sensing port 53 for detecting the protruding integrally formed on one side of the circular side plate (4a) of the aberration (4).

Therefore, the detection port 53 counts and displays the number of revolutions each time the counting lever 52 is pushed while the aberration 4 rotates in the initial state as shown in FIG. 4 and rotates along the circumferential direction. When the detection port 53 pushes out the counting lever 52, the counting lever 52 is restored to its original state by the restoring force, so that the refilling period can be easily predicted and replenished in a timely manner, as well as regular inspection and maintenance management. I can do it.

1: crank mechanism 2: reciprocating pump
3: frame frame 4: aberration
5: Disinfectant Dispenser 6: Disinfectant Bottle
10: reciprocating pump assembly 20: first disinfectant hose
30: second disinfectant hose 40: suction dropper
41: Suction tube 42, 42a: hose connection
45: diaphragm 50: aberration meter
52: counting lever 53: detection port

Claims (5)

In the disinfectant injector (5) for automatically pumping disinfectant into the intake tank by the rotational power of the aberration (4) installed in the frame frame (3),
A reciprocating pump assembly (10) attached to one side of the frame frame (3);
A first disinfecting medicine hose (20) connected to the inside of the disinfecting medicine container (6) while being connected to the upper portion of one side of the reciprocating pump assembly (10);
A second disinfectant hose 30 exposed to the inside of the intake tank while being connected to one lower side of the reciprocating pump assembly 10;
A device for shortening normal operation time of a disinfectant injector, comprising: a suction dropper 40 connected to a pipe of the first disinfectant hose 20.
The method of claim 1,
The suction dropper 40 is formed with a suction tube 41 for forcibly sucking the disinfectant of the disinfecting medicine box 6 in response to the repeated pressing operation, and the first disinfecting medicine hose at both sides of the suction tube 41. Hose connecting portion (42) (42a) is inserted into the normal operation reaching time reduction device of the disinfectant injector, characterized in that formed (20).
3. The method of claim 2,
Reducing the normal operation time of the disinfectant injector, characterized in that the joint rim 45 is further protruded on the outer peripheral surface of the distal end of the hose connecting portion (42) (42a) to prevent the distal end of the hose connecting portion (42) (42a) Device.
3. The method of claim 2,
The suction tube 41 has a diameter larger than the diameter of the hose connecting portion (42) (42a) is characterized in that the normal operation reaching time reduction device of the disinfectant injector, characterized in that formed.
The method of claim 1,
The aberration meter 50 is installed at the upper end of the frame frame 3, and the aberration meter 50 has a detection port 53 protruding from one side of the circular side plate 4a of the aberration 4. Reducing the normal operation time of reaching the disinfectant injector, characterized in that by counting the number of revolutions each time pushing the counting lever 52 of the display.

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