KR20050046649A - Apparatus for mixing foam and method thereof - Google Patents

Abstract

The present invention relates to a drug mixing device and a method for constructing a drug mixing system in a flow rate proportional fashion, enabling accurate drug mixing regardless of flow rate and pressure fluctuation.

To this end, a drug to be mixed with the fluid is discharged according to a predetermined mixing ratio by using the aberration to rotate as the fluid introduced through the inlet formed on one side passes, and the rotational energy obtained through the rotational movement of the aberration. It provides a pharmaceutical mixing device comprising a pharmaceutical pump.

Description

Pharmaceutical mixing device and its method {APPARATUS FOR MIXING FOAM AND METHOD THEREOF}

The present invention relates to a drug mixing device and a method thereof, and to a drug mixing device and a method for configuring a drug mixing method in a flow rate proportional fashion, enabling accurate drug mixing regardless of flow rate and pressure fluctuation.

Generally, when a fire breaks out, water is used to extinguish the fire.

However, as a fire extinguishing method using water, fire extinguishing a large-scale fire such as a flammable liquid which is less effective or a fire may be expanded, or a fire extinguishing facility is used.

In such a saturation facility, a collection of fine bubbles formed by mixing water and a foaming agent in a constant ratio is suffocated by blocking the surface of the combustion product, or cooled and digested by moisture contained in the fabric.

In particular, in order to improve the digestive effect, it is important to mix the saturating agent in an aqueous solution suitable for the concentration (eg, 3%, 6% aqueous solution), and conventionally, the drugs were mixed using a separate metering pump.

In this case, the pipe size was determined by the average flow rate of the pipe flowing water in the design, the amount of chemicals to be injected according to the pipe size was determined to determine the capacity of the metering pump.

Therefore, the drug to be mixed can be precisely mixed at a predetermined flow rate, but the mixing ratio is different when the flow rate changes (for example, due to the change in the flow rate due to the pressure difference).

In addition, since the pharmaceutical pump uses a motor to obtain a driving force, and requires a separate power source, it is difficult to be used for mobile fire extinguishing equipment, and the use of an explosion-proof area is very expensive, and the cost of installation is high. there was.

The present invention has been made in order to solve the problems described above, by configuring a drug pump to return a 1: 1 ratio with the aberration, so that the drug mixing method is made of the flow rate proportional formula, regardless of the flow rate and pressure fluctuations It is an object of the present invention to provide a pharmaceutical mixing device and a method for mixing the same.

It is also an object of the present invention to provide a drug mixing device and a method for varying the number of cylinders in accordance with the required mixing ratio to enable a wide supply capacity range and various concentrations of mixing ratios.

In order to achieve the above object, according to an aspect of the present invention,

A chemical pump for discharging the medicament to be mixed with the fluid according to a predetermined mixing ratio by using the aberration to rotate as the fluid flowing through the inlet formed on one side and the rotational energy obtained through the rotational movement of the aberration It provides a pharmaceutical mixing device comprising a.

In addition, the pharmaceutical pump,

A gear box for converting the rotational energy of the aberration transmitted to the linear reciprocating kinetic energy transmitted through the gear connecting shaft connected to the rotational axis of the aberration;

And a drug pump cylinder configured to perform piston reciprocation with the linear reciprocating kinetic energy converted through the gear box to discharge the medicament to be mixed with the fluid at a predetermined mixing ratio to the medicament mixing line connected to the fluid outlet side of the aberration. It is done.

In addition, the drug pump discharges the medicine once when the aberration is rotated once.

In addition, the aberration and the drug pump is characterized in that coupled by a coupling coupling.

In addition, the reduction gear device is installed on the gear connecting shaft to which the aberration and the drug pump is connected.

In addition, it has a mixing ratio of the same percentage as the number of cylinders of the drug pump.

In addition, the connection portion between the fluid inlet and the fluid supply pipe formed on one side of the aberration, and the fluid outlet formed on the other side of the aberration and the chemical mixing line, is configured by the coupling form of any one of a flange and a pipe screw. do.

In addition, if the amount of water flowing in one revolution of the aberration is a predetermined quantity, the size of one cylinder of the drug pump is characterized in that the production is reduced to one-third of the predetermined quantity.

In addition, it characterized in that it comprises a check valve for preventing the backflow of the aqueous solution mixed in the drug mixing line connected to the fluid outlet formed on the other side of the aberration.

In addition, it characterized in that it comprises an air vent valve for extracting air that may be present in the drug mixing device piping prior to drug mixing.

According to another aspect of the present invention, in the apparatus for mixing the fluid supplied through the fluid supply pipe and the drug supplied through the drug supply pipe,

(a) obtaining rotational energy as the fluid passes through aberrations,

(b) converting the rotational energy obtained in step (a) into a linear piston reciprocating motion of the medicine pump connected with the aberration,

(c) when the aberration is rounded in step (b), the drug pump also provides a drug mixing method comprising the step of discharging a drug once.

In addition, (d) matching the required mixing ratio and the number of cylinders of the drug pump, characterized in that it comprises the step of discharging the drug as many times as the number of cylinders of the drug pump when the aberration rotates once.

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

1 is a view showing the configuration of the drug mixing device 100 according to the present invention.

As shown in FIG. 1, the drug mixing device 100 according to the present invention includes an aberration 10 that rotates as a fluid (hereinafter, fluid) 30 such as water and oil passes. It includes a drug pump 20 for discharging the medicine 70 to be mixed with the fluid 30 in accordance with a predetermined mixing ratio by using the rotation energy obtained through the rotational movement of the aberration.

Here, one side of the aberration 10 is provided with a fluid inlet 60, which is connected to a fluid supply pipe (not shown) as an inflow passage of the fluid 30.

In addition, the other side of the aberration 10 is provided with a fluid outlet 61 which is connected to the drug mixing line 63 as a discharge passage of the fluid 30.

In addition, the chemical pump 20 is a gear box (not shown) for converting rotational energy of the aberration 10 transmitted through the gear connecting shaft 12 connected to the rotational shaft 11 of the aberration 10 into linear reciprocating kinetic energy. And the reciprocating motion of the piston with the linear reciprocating kinetic energy converted through the gear box to discharge the medicament to be mixed with the fluid to a predetermined mixing ratio to the medicament mixing line 63 connected to the fluid outlet 61 side of the aberration. Chemical pump cylinders 21, 22 and 23.

In this way, the medicine pump 20 is composed of a plunger (piston) pump for discharging the medicine in the reciprocating motion of the piston in the medicine pump cylinder, it may be configured in various forms other than the plunger pump.

In addition, assuming that the fluid 30 passes while turning the water wheel 10 in the shape of a watermill, and the amount of the fluid 30 that is left while turning the water wheel 10 is 100, the chemical pump 20 One cylinder 21, 22, 23 of the size is reduced to 100: 1 is produced.

In addition, the drug pump 20 has a quantity of 3 drug pump cylinders if a desired mixing ratio of 3% of the drug mixture is desired, and a quantity of 6 drug pump cylinders is required if a mixing ratio of 6% is required. It can be configured as a pure mechanical mixing device in a manner that matches the number of the mixing ratio and the number of cylinders.

This is because the medicine pump 20 also has a structure that releases the medicine once when the aberration 10 turns.

Typically, in the case of fire extinguishing equipment, i.e., the fluid is water and the drug is saturated agent, the mixing ratio is 3% (97% water, 3% saturated agent), 6% as the rated concentration of the mixing ratio. In the case of appropriate mixing ratio can be configured in various ways as needed.

Therefore, since the method of matching the required mixing ratio and the number of cylinders in the drug mixing device 100 according to the present invention, it is necessary to change only the number of cylinders in accordance with the required mixing ratio, it will always ensure a suitable mixing ratio according to the type of drug Can be.

In addition, a reduction gear device (not shown) may be installed on the gear connecting shaft 12 for precise mixing. For example, with a 10: 1 reduction gear unit, an accurate mixing ratio of 0.3% or 0.6% can be expected.

As described above, in the pharmaceutical mixing device 100 according to the present invention, when an accurate mixing ratio is required, a high concentration of mixing is required, such as a proper mixing concentration according to various uses can be implemented, and it is possible to flexibly cope with changing circumstances. have.

In addition, in the drug mixing device 100 according to the present invention, when the amount of fluid used increases, the flow rate of the aberration 10 is also increased proportionally as the fluid flows faster.

In addition, the drug pump 20 returning at a 1: 1 ratio with the aberration 10 also becomes faster in proportion to the rotational speed of the aberration 10, so that the drugs are accurately mixed regardless of the change in the flow rate.

On the contrary, when the amount of the fluid is reduced and the flow of the fluid in the aberration 10 is slowed, the rotational speed of the drug pump 20 is also lowered, thereby accurately mixing the drug.

That is, the drug mixing device 100 according to the present invention, since the drug mixing method is a flow rate proportional expression, accurate drug mixing can be made regardless of the flow rate and pressure fluctuation.

In the drug mixing device 100 according to the present invention, the connection portion between the fluid inlet 60 and the fluid supply pipe, and the fluid outlet 61 and the drug mixing line 63 is configured in the form of a flange or pipe screw.

In addition, the aberration 10 and the medicine pump 20 are mechanically connected to the coupling coupling 50 on the gear connecting shaft 12, thereby connecting the aberration 10 and the medicine pump 20 to the coupling coupling 50 ) Can be combined and separated.

Through this, the drug mixing device 100 can be easily connected to the connection portion with the pipe, and also it is easy to check and replace the main body and its parts of the drug mixing device 100.

In addition, when the drug mixing device 100 is connected to a pipe to which the fluid is supplied, or a pipe to which the drug is supplied, or a pipe to which an aqueous solution mixed with a fluid or a drug is supplied, the deformation, damage, or distortion that affects its function may not occur. can do.

Thus, the application and adaptation to the existing system is facilitated.

In addition, since the drug mixing device 100 should have strength, oil resistance, and corrosion resistance so as to be suitable for a fluid, a mixed drug, and the like, bronze, aluminum-bronze, and stainless steel may be used.

2 is a view showing a drug mixing process in the drug mixing device 100 according to the present invention.

Hereinafter, the pharmaceutical mixing process according to the present invention will be described with reference to FIG. 2.

In the pharmaceutical mixing process according to the present invention, the fluid supplied through the fluid supply pipe largely passes through the aberration to obtain a rotational energy, and the rotational energy obtained in the process is converted into a linear linear reciprocating motion of the piston of the pharmaceutical pump connected to the aberration When the aberration is turned around in the process, the drug pump also comprises a process of discharging the drug once.

In addition, in order to implement a mixing ratio of various concentrations, by matching the required mixing ratio and the number of cylinders of the drug pump, when the aberration is one revolution further comprises the step of discharging the drug as many times as the number of cylinders of the drug pump .

Looking at the above-described process in more detail, as shown in Figure 2, the fluid 30 is introduced into the fluid inlet 60 of the aberration 10 through the fluid supply pipe 31, the drug storage tank 71 The stored medicine 70 is introduced into the medicine pump 20 through the medicine supply pipe 72.

Here, a three-way valve 75 is installed on the passage through which the medicine 70 flows, and the three-way valve 75 has three connection passages.

That is, when the medicine 70 is introduced, the three-way valve 75 opens the side of the medicine intake direction valve so that the medicine 70 flows from the medicine storage tank 71, and opens a passage to inject the medicine 70 into the medicine pump. The valve on the side of the fluid flushing line 32, into which the fluid 30 is sucked, is closed to prevent the fluid from flowing toward the drug pump 20.

In addition, since the chemical | medical agent, such as a saturation chemical | medical agent, is corrosive after use of the chemical | medical agent 70, the 3-way valve 75 closes the chemical | medical agent suction direction side valve, and the valve of the side of the fluid flushing line 32 opens, and the chemical | medical agent pump ( A fluid 30 such as water flows toward the side 20 to clean the pipe into which the medicine 70 is sucked.

Thereafter, the fluid 30 flowing through the fluid inlet 60 turns the water wheel 10 in the shape of a watermill, and the fluid 30 passes, and when the water wheel 10 turns around, the coupling coupling 50 The drug pump 20 coupled to the aberration 10 through () also releases the drug once through the piston reciprocating motion of the drug pump cylinder.

Subsequently, the drug 70 discharged through the drug discharge line 82 and the fluid 30 discharged through the fluid outlet 61 are mixed into the aqueous solution having a predetermined mixing ratio in the drug mixing line 63 to extinguish the device or the intermediate material. By supplying to the storage tank 90 for storing the, the drug mixing process is terminated.

In addition, the aqueous solution mixed in the drug mixing line 63 should not be flowed back to the drug discharge line 82 or the like. For this purpose, a check valve 81 may be installed on the drug discharge line 82 to prevent backflow. have.

In addition, the air vent valve 80 to extract the air that may be present in the drug mixing device piping before mixing the drug is included, the air vent valve 80 is opened during operation of the mixing device to remove all the air in the device, When all are missing, fluids and drugs are released.

As such, the drug pump 20 returning at a 1: 1 ratio with the aberration 10 is proportional to the flow rate, so that the amount of fluid used increases so that the flow rate of the aberration 10 increases in proportion to the speed of the aberration 10.

Therefore, the drug is accurately mixed regardless of the change in flow rate and pressure.

The above is a specific embodiment according to the present invention, and can be applied to various drug mixing devices and mixing methods of agricultural and industrial as well as saturating drug mixing device.

Therefore, the present invention is not limited to the above-described embodiments, and a person having ordinary skill in the art may change the design or avoid the design without departing from the scope of the technical idea of the present invention. Will be in range.

As described above, the drug mixing device and the method according to the present invention is a mechanical mixing device and by using the flow of water as a power source, smooth operation even at low pressure and does not require a separate power supply device.

In addition, the drug mixing device can easily connect the connection with the pipe by a flange or a set screw, so that it is easy to apply and modify the existing system.

In addition, since the required mixing ratio matches the number of cylinders, only the number of cylinders needs to be changed in accordance with the required mixing ratio, so that a wide supply capacity range and mixing ratio can be used.

In addition, it can be used not only for saturating drugs but also for all kinds of foam stocks and various types of pharmaceutical mixing devices such as agricultural and industrial applications.

In addition, since the drug mixing method is a flow rate proportional expression, accurate drug mixing is possible regardless of the flow rate and pressure fluctuation.

1 is a view showing the configuration of a drug mixing device according to the present invention.

2 is a view showing a drug mixing process in the drug mixing device according to the present invention.

<Description of Major Symbols in Drawing>

10: aberration 20: pharmaceutical pump

21, 22, 23: pharmaceutical pump cylinder

30: fluid 50: coupling coupling

60: fluid inlet 61: fluid outlet

70: pharmaceutical 71: pharmaceutical storage tank

80: air vent valve 81: check valve

Claims (12)

An aberration that rotates as the fluid flowing through the inlet formed on one side passes; And a drug pump for discharging a drug to be mixed with the fluid at a predetermined mixing ratio by using the rotational energy obtained through the rotational motion of the aberration. The method of claim 1, The pharmaceutical pump, A gear box for converting the rotational energy of the aberration transmitted to the linear reciprocating kinetic energy transmitted through the gear connecting shaft connected to the rotational axis of the aberration; And a drug pump cylinder configured to perform piston reciprocation with the linear reciprocating kinetic energy converted through the gear box to discharge the medicament to be mixed with the fluid at a predetermined mixing ratio to the medicament mixing line connected to the fluid outlet side of the aberration. Pharmaceutical mixing device. The method of claim 1, The drug mixing device, characterized in that the drug pump discharges the drug once when the aberration is rotated once. The method of claim 1, And the drug pump is coupled by a coupling coupling. The method of claim 1, Pharmaceutical mixing device, characterized in that the reduction gear device is installed on the gear connecting shaft that the aberration and the drug pump is connected. The method of claim 1, And a mixing ratio of the same percentage as the number of cylinders of the pharmaceutical pump. The method of claim 1, The fluid inlet and the fluid supply pipe formed on one side of the aberration, and the connection portion between the fluid outlet and the drug mixing line formed on the other side of the aberration, the drug characterized in that it is configured by any one of a flange or pipe screw Mixing device. The method of claim 1, If the amount of water flowing in one revolution of the aberration is a predetermined amount, the size of one cylinder of the drug pump is reduced to one of the predetermined amount of the drug mixing device, characterized in that the production. The method of claim 1, And a check valve for preventing backflow of the aqueous solution mixed in the drug mixing line connected to the fluid outlet formed at the other side of the aberration. The method of claim 1, And an air vent valve for extracting air that may be present in the drug mixing device pipe prior to drug mixing. An apparatus for mixing a fluid supplied through a fluid supply pipe and a drug supplied through a drug supply pipe, (a) obtaining rotational energy as the fluid passes through aberrations, (b) converting the rotational energy obtained in step (a) into a linear piston reciprocating motion of the medicine pump connected with the aberration, (C) the drug mixing method comprising the step of discharging the drug once the drug pump is turned once the aberration in step (b). The method of claim 11, (d) matching the required mixing ratio with the number of cylinders of the medicine pump, and discharging the medicine with the number of cylinders of the medicine pump also when the aberration is one revolution.