KR19990057396A - Non-powered Drug Autoinjection System - Google Patents

Abstract

The present invention is an internal storage tank for storing the drug, the chamber is installed in the interior of the internal storage chamber, the lower portion of the inside of the chamber is open and the inner side openings formed with a plurality of balls on its side, and extends through the chamber to the outside An air inlet and outlet pipe connected to an air supply pipe having an air supply valve on one side and an air discharge pipe for discharging air having a pressure control valve on the other side, and a drug injection pipe connected to a chemical dilution tank at the bottom of the chamber; A chemical injection tube installed with a chemical injection valve for injecting chemicals into a reservoir, and a pressure signal of the storage tank is received from a pressure detection sensor installed in the air inlet and output pipe, and an injection chemical flow signal is received from a pressure gauge installed in the chemical injection tube. Reservoir from infusion drug level measurement sensor that detects the level of drug in the reservoir It includes a flow detection signal for receiving the level signal of the medicine and set the chemical injection amount, the detection signal of the incoming flow properties, the shut-off valve installed in the air supply valve and the chemical injection pipe and the operation device for controlling the chemical refill valve To provide an automatic drug injection system.

Description

Non-powered Drug Autoinjection System

The present invention relates, in particular to the field of water treatment, to a drug injection device for injecting a liquid medicine, and more particularly to a device for injecting a medicine by a non-powerless.

In the conventional method of injecting liquid chemicals in water treatment or other technical fields, the chemical injection amount is injected into a standard form pump by a reciprocating motion of a piston, and the injection amount is controlled by a control valve and the pressure is controlled by a natural drop. There is a way of controlling.

Figure 4 shows an example of a liquid injection method of the conventional by a conventional diaphragm pump. Reference numeral 101 denotes a motor, wherein the power of the motor 101 passes through the reducer 100 and its rotational movement is converted into a reciprocating motion so that the plunger 103 reciprocates in the pump body 102. To achieve. As a result of the reciprocating motion of the plunger, the chemical is introduced through the suction pipe 104 and the chemical is injected through the discharge pipe 106. Reference numerals 105 and 107 here denote check valves. In such a conventional chemical pumping structure, the adjustment of the chemical injection amount is dependent on the chemical flow control valve 110. When the chemical | medical agent more than a control amount is discharged, chemical | medical agent is returned through the return valve 108 light return pipe 109 provided in the discharge piping 106 side.

However, in this conventional method, since the discharge flow rate of the pump is constantly supplied, chemicals other than the required amount not set in the flow regulating valve are returned to the chemical tank through the return valve 108 and the pipe 109 and are continuously Periodic inspection, repair, and parts replacement are necessary due to wear and deterioration of moving equipment and corrosion damage of equipment by strong chemicals, resulting in short life of equipment and heavy waste of power due to use of power. There is a problem. In addition, precise injection of medicine may not be controlled.

The present invention has been made to solve the above problems, and its purpose is to eliminate the necessity of inspection and repair parts without using a mechanical movable mechanism, and to accurately inject chemicals without mechanical damage even in the use of highly corrosive chemicals. And to provide a device for injecting a liquid medicine that is easy to control.

An object of the present invention is an internal reservoir for storing the drug, the chamber is installed in the interior of the internal reservoir, the lower portion of the inside of the chamber is open and the inner side openings formed with a plurality of balls on the side, and through the chamber outside An air inlet and outlet connected to an air supply pipe having an air supply valve on one side thereof and an air discharge pipe for discharging air having a pressure control valve on the other side thereof, and a chemical injection pipe connected to a chemical dilution tank at the bottom of the chamber; And a chemical injection tube provided with a chemical injection valve for injecting the chemical into the reservoir, and a pressure signal of the storage tank from a pressure detection sensor installed in the air inlet and output pipe, and a chemical flow signal from the pressure gauge installed in the chemical injection tube. Injection level sensor to detect the level of drug in the reservoir A control unit that receives the level signal of the chemical in the reservoir and receives the flow rate detection signal for setting the dose of the medicine and the phase detection signal of the incoming flow rate, and controls the shutoff valve installed in the air supply valve and the chemical injection pipe and the medicine replenishment valve. It is achieved by providing an automatic drug injection system made, including.

1 is a schematic diagram of an automatic drug injection system according to the present invention;

FIG. 2 is a detail of the air chamber and internal control port of FIG. 1; FIG.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a structural diagram of a conventional drug injection system.

The present invention will now be described with reference to the accompanying drawings.

1 is a schematic diagram of an automatic drug injection system according to the present invention. As shown, the automatic drug injection system according to the present invention includes an injection medicine reservoir 1 in which a cylindrical upper and lower portions are blocked, an air chamber 2 installed therein, and an internal medicine opening 7 installed therein. The internal gas chamber 2 is connected to the air inlet and outlet pipe 3, which extends outward through the injection medicine reservoir 1 and is divided into a T-shape to supply air. The air supply pipe 5 is connected and the other side is connected to the air discharge pipe (6a) for discharging the air. An air supply valve 4 is provided in the air supply pipe 5, and a pressure regulating valve 6 is provided in the supply discharge pipe 6a. The injection medicine reservoir (1) is provided with a medicine supply pipe (11) to receive the injection of the medicine and a medicine refill valve (12) for adjusting the injection amount of the medicine injection pipe is installed in the medicine supply pipe (11). The chamber 2 is open as shown in the lower side (8a) through which the drug introduced into the medicine reservoir 1 can be introduced into the internal medicine mouth (7). The internal medicine sphere 7 has a structure in which the lower side is closed and the upper part is open, and a plurality of drug injection holes are formed in a diagonal direction on the side. This may be well confirmed with reference to FIGS. 2 and 3. In the lower part of the chamber 2, a chemical injection pipe 9 is installed, which extends to the chemical dilution tank 20, and in the middle thereof, a flow meter 19 for detecting the amount of chemical injected through the main pipe 9 is provided. Is installed. The chemical injection pipe (9) is connected to the chemical dilution tank (20), the chemical dilution tank (20) is provided with a vortex wall (20a) to facilitate the dilution of the chemical input. An air intake and discharge tube 13 is installed above the reservoir 1.

In the air suction and intake pipe 3 connected to the air chamber 2 and the upper portion thereof, a sensor 22 for detecting air pressure in the air chamber is installed, and an injection chemical level measuring sensor for measuring the level of the injected chemical in the reservoir 1 ( 10 is also installed in the reservoir 1.

Reference numeral 25 denotes a computing device, and a microprocessor may be used. The computing device receives the pressure signal of the reservoir from the pressure measuring sensor 22 of the air intake pipe, and receives the flow signal of the injection medicine from the flow gauge 19 of the medicine injection pipe 9. Furthermore, the flow rate detection signal 23 which sets the chemical injection amount and the property detection signal 24 of the flow volume which flow in are received. The computing device 25 receives the signals and controls the shutoff valve 9a and the chemical refill valve 12 installed in the air supply valve 4 and the chemical injection pipe 9 as described below. .

First, the computing device 25 closes the shutoff valve 9a and opens the air supply pipe 4. As a result, a certain amount of air is sent to the air inlet and outlet pipe 3, so that the pressure inside the chamber 2 and the internal communication port 7 inside the chamber rises and the opening 8a below the chamber 2 is opened. Drugs do not flow through it. In this state, the chemical refill valve 12 is opened to introduce the chemical into the reservoir 1. The medicine is filled in the reservoir 1 and closes the medicine refilling valve when the injection chemical level measuring sensor 10 reaches a high level. At this time, the chamber 2 in the reservoir 1 is in a state of being immersed in a chemical.

Here, the pressure regulating valve 6 of the air exhaust pipe 6a is opened. Then, the pressure of the chamber 2 and the internal medicine sphere 7 is lowered so that the medicine flows into the medicine sphere 7 through the opening 8a of the lower part of the chamber. As the medicine is true to the medicine sphere 7, the medicine leaks from the medicine sphere 7 to the chamber 2 through the medicine injection hole formed at the side of the medicine sphere, which flows to the lower portion of the chamber 2. The chemical flowing to the lower part of the chamber flows into the chemical dilution tank 20 through the chemical injection pipe 9. At this time, the arithmetic unit 25 that detects the injection of the medicine by the signal of the flow meter 19 opens the shut-off valve (9a). As the chemical is gradually injected from the reservoir to the chemical dilution tank 20 through the injection pipe through the inner tube, the chemical level inside the reservoir 1 drops and the signal of the injection chemical level measurement sensor 10 is low. level), the arithmetic unit 25 opens the chemical refilling valve 12 to replenish the chemicals in the reservoir 1 again.

When the pressure regulating valve 6 is closed again, the pressure in the gas chamber 2 rises and the chemical level of the internal communication port 97 decreases. The injection of the medicine into the medicine injection tube 9 is stopped when the medicine level in the internal medicine mouth 7 falls below the injection hole 8 on its side.

When the air pressure regulating valve 6 is opened again, the chemicals are injected into the chemical inlet tube 9 while the pressure in the air chamber and the internal medicine passage drops.

The injected medicine is diluted while flowing up and down by the vortex wall 20a in the vessel 20.

By the present invention it is possible to control the good drug input and to reduce the maintenance by wear and damage of mechanical parts by excluding the gimmick device using the force. In addition, the device is simple in structure, can withstand highly corrosive chemicals, and power is unnecessary, thereby reducing the associated costs such as power costs. Further, the problem of returning a constant flow rate in the conventional metering pump can be prevented.

Claims (1)

Internal reservoir (1) for storing the drug, the chamber (2) is installed in the interior of the interior reservoir, and the lower portion of the inside of the chamber is opened (8a) and the internal communication port formed with a plurality of balls (8) on the side (7) and an air discharge pipe (6a) extending through the air chamber to the outside, one side of which is connected to an air supply pipe (5) having an air supply valve (4) and the other side to discharge air having a pressure regulating valve (6). ), A chemical injection tube (9) having an air inlet and outlet pipe (3) connected to the bottom, a shutoff valve (9a) connected to the chemical dilution tank at the lower part of the chamber, and a chemical injection valve (12) for injecting chemicals into the reservoir. ) Receives the pressure signal of the reservoir from the pressure injection sensor (11) and the pressure detection sensor (10) installed in the air inlet and output pipe, and receives the injection chemical flow signal from the pressure gauge (19) installed in the medicine injection tube. Level of drug in the reservoir Receives the level signal of the chemical in the reservoir from the injection chemical level measuring sensor 10 to detect the flow rate detection signal 23 for setting the chemical injection amount and the property detection signal 24 of the incoming flow rate to receive the air supply valve 4 And a shut-off valve (9a) installed in the chemical injection pipe and an arithmetic unit (25) for controlling the chemical refill valve (12).