JP3137398U - Micro-injection device for water supply equipment - Google Patents

Abstract

An object of the present invention is to provide a health effect to drinking water by injecting a small amount of nutrient solution, which can be easily assembled in a water supply facility.
At least two injection cylinders containing a nutrient solution therein, a pressure pump connected to one side of a base of the injection cylinder, a pressure pump, a water supply facility, and a joint connected to a flow meter, respectively. A flow meter main body having two through holes is provided, one of the two through holes is connected to the third path of the joint, the remaining through hole is connected to the water supply faucet, and a measurement unit is provided therein. A flow meter and an arithmetic unit that can be assembled to the flow meter and connected to the pressurizing pump and the measurement unit of the flow meter.
[Selection] Figure 1

Description

  The present invention relates to a microinjection device for a water supply facility, and in particular, can be easily assembled in the water supply facility, and when the water supply facility is supplying water, a small amount of nutrient solution is injected into the water supply facility to The present invention relates to a microinjection device for water supply equipment that has a health effect.

At present, in order to ensure the cleanliness of drinking water quality, users can filter water waste, bacteria, chemical toxic substances, etc. by using purification methods such as reverse osmosis, electrolysis, distillation and activated carbon filter filtration. Purifies water and water from water sources.
By purifying the water, it is possible to avoid the occurrence of illness due to drinking unsafe water.
However, by using methods such as reverse osmosis, electrolysis, distillation and activated carbon filter filtration, water waste, bacteria and chemical toxic substances are removed, but trace elements (eg selenium, zinc, etc.) required by the human body are removed. , Nickel, copper, calcium, minerals such as magnesium and iron) are also completely removed. Therefore, if water from which trace elements required by the human body are removed is drunk over a long period of time, for example, vascular diseases and osteoporosis are likely to occur.

  The main purpose of the present invention is a water supply facility that can be easily assembled into a water supply facility, and has a health effect on drinking water by injecting a small amount of nutrient solution into the water supply facility when the water supply facility is supplying water. It is to provide a microinjection device for use.

  The invention of the present application made to achieve the above object is a hollow body, a pedestal is provided on the bottom side, a nutrient solution is accommodated therein, and a coupling hole is opened in the pedestal. An injection cylinder, a pressure pump connected to one side of the pedestal of the injection cylinder, and a tube having at least three openings, a first path is connected to the pressure pump, and a second path is a water supply facility A joint in which the third path is connected to the flow meter, and a flowmeter main body having at least two through holes are provided, and one of the two through holes is connected to the third path of the joint; The remaining through-hole is connected to the water supply faucet, and a flow meter having a measurement unit provided therein, and can be assembled to the flow meter, and connected to the pressurizing pump and the measurement unit of the flow meter. A water supply facility characterized by comprising an arithmetic unit It is summarized in that an amount implanter.

  In the invention of the present application, a pressure sensor is provided between the pressurizing pump and the first path of the joint, wherein the microinjection device for water supply equipment according to claim 1 is characterized. It is said.

  In the device of the present application, the measurement unit assembled in the flow meter includes a pressure measurement unit and a water quality measurement unit, and the microinjection device for water supply equipment according to claim 1, Is the gist.

  According to the microinjection device for water supply equipment of the present invention, it can be easily assembled in the water supply equipment, and when the water supply equipment is supplying water, a small amount of nutrient solution is injected into the water supply equipment, so that There is an effect to give an effect.

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

  First, refer to FIG. The microinjection apparatus for water supply equipment of the present invention is mainly provided with an injection cylinder 1, and a pedestal 11 of the injection cylinder 1 is connected to a pressure sensor 2 on one side and is pressurized on the other side. A pump 3, a joint 4, a flow meter 5 and an arithmetic unit 9 (see FIG. 4) are provided in sequence.

The injection tube 1 is a hollow body, and contains a nutrient solution (for example, minerals, selenium, zinc, nickel, copper, calcium, magnesium and iron, trace elements such as magnesium and iron, vitamins and deep ocean water). It is.
A pedestal 11 is provided on the bottom side of the injection tube 1. A coupling hole 12 is formed in the pedestal 11, and the pedestal 11 can be coupled to the injection tube 1 through the coupling hole 12. Further, a chip 16 and a chip detection unit 17 are provided at corresponding portions between the injection tube 1 and the pedestal 11. When the chip 16 and the chip detection unit 17 respond, elements such as the pressure sensor 2, the pressurizing pump 3, the flow meter 5, and the arithmetic unit 9 are activated.
Further, through holes 13 and 14 for assembling the pressure sensor 2 and the pressure pump 3 are opened on both sides of the base 11. A vent hole 15 is formed at the upper end of the injection tube 1.

The pressure sensor 2 is assembled in a through-hole 13 opened on one side of the base 11 of the injection cylinder 1 and measures the pressure of the nutrient solution stored in the injection cylinder 1.
The pressure sensor 2 is provided with a display for displaying the pressure of the nutrient solution.

  The pressurizing pump 3 is assembled in a through hole 14 opened on the other side of the base 11 of the injection cylinder 1. The pressurizing pump 3 may be an electromagnetic switch or a motor pump.

Please refer to FIG. The joint 4 is a tubular body having at least three openings. The first path 41 is connected to the pressurizing pump 3, and the first path 41 is provided with a nozzle 411 for increasing the pressure of the nutrient solution injected into the joint 4.
Between the pressurizing pump 3 and the first path 41, a pressure sensor 6 is provided for measuring whether or not the pressure at which the nutrient solution of the pressurizing pump 3 is released is normal.
The pressure at which the nutrient solution of the pressurizing pump 3 is released is displayed on the display provided in the pressure sensor 6.
Further, the second path 42 is connected to a water supply facility (for example, a reverse osmosis machine, a water electrolyzer, an ice making machine, a shower device, etc.), and the third path 43 is connected to the flow meter 5.

The flow meter 5 is mainly provided with a flow meter main body 51 having at least two through holes 511 and 512. The through hole 511 is connected to the third path 43 of the joint 4, and the through hole 512 is connected to the water supply faucet 8.
Moreover, the pressure measurement unit 52 is provided in the inside, and the pressure of the water from the said water supply equipment 7, the injection | pouring pressure of nutrient solution, the water and nutrient solution from the said water supply facility 7 are provided by the said pressure measurement unit 52. The pressure after mixing can be measured.
Further, a water quality measurement unit 53 is provided inside the flow meter 5, and the water quality measurement unit 53 can measure the concentration after mixing the water from the water supply equipment 7 and the nutrient solution.

Please refer to FIG. The arithmetic unit 9 is connected to the pressure measurement unit 52, the water quality measurement unit 53, and the pressurizing pump 3 to receive data measured by the pressure measurement unit 52 and the water quality measurement unit 53. Then, the flow rate of the nutrient solution discharge is adjusted by adjusting the pressurizing pump 3.
The arithmetic unit 9 may be assembled in a flow meter or may be installed alone.

  Next, the assembly method and use state of the present invention will be described in detail with reference to FIGS.

  First, the through hole 13 opened on one side of the base 11 of the injection cylinder 1 is coupled to the pressure sensor 2, and the through hole 14 opened on the other side of the base 11 is coupled to the pressure pump 3.

  Further, a pressure sensor 6 is provided in the middle of a pipe line connecting the first path 41 of the joint 4 to the pressurizing pump 3 and connecting the pressurizing pump 3 and the first path 41 of the joint 4. Further, the second path 42 is connected to the water supply equipment 7 (for example, a reverse osmosis machine, a water electrolyzer, an ice making machine, a shower device, etc.), and the third path 43 is formed in a through hole 511 opened on one side of the flow meter 5. And a through hole 512 opened on the other side of the flow meter 5 is connected to the water supply faucet 8.

  Thereafter, as shown in FIG. 1, the injection cylinder 1 containing a nutrient solution (for example, minerals, selenium, zinc, nickel, copper, calcium, trace elements such as magnesium and iron, vitamins, deep sea water, etc.) Attach to the coupling hole 12 opened in the base 11. At this time, when the tip 16 provided in the injection cylinder 1 and the tip detection unit 17 provided in the pedestal 11 come into contact with each other and are sensed, the pressure sensor 2, the pressure pump 3, the flow meter 5 and elements such as the arithmetic unit 9 are activated.

  Next, the operating pressure pump 3 pulls out the nutrient solution in the injection cylinder 1, and the nutrient solution is injected into the joint 4 through the nozzle 411 provided in the first path 41 of the joint 4. . Thus, the injected nutrient solution is sufficiently mixed with the water in the second passage 42 of the joint 4.

  Please refer to FIG. A sufficiently mixed liquid of nutrient solution and water flows into the flow meter 5 via the third path 43 of the joint 4. At this time, after the pressure measurement unit 52 provided in the flow meter 5 mixes the pressure of the water from the water supply facility 7, the injection pressure of the nutrient solution, and the water and the nutrient solution from the water supply facility 7. Can be measured. The water quality measurement unit 53 provided in the flow meter 5 can measure the concentration after mixing the water from the water supply facility 7 and the nutrient solution. In addition, the data measured by the pressure measurement unit 52 and the water quality measurement unit 53 are received and judged by the arithmetic unit 9, and the pressurization pump 3 is adjusted to adjust the flow rate of the nutrient solution discharge.

Further, when the concentration after the arithmetic unit 9 mixes the water from the water supply equipment 7 and the nutrient solution is higher than a predetermined value, the arithmetic unit 9 controls the pressurizing pump 3 to draw out the nutrient solution. Conversely, when the concentration after the arithmetic unit 9 mixes the water from the water supply equipment 7 and the nutrient solution is lower than a predetermined value, the arithmetic unit 9 turns the pressurizing pump 3 on. Increase the amount of nutrient solution with control. As a result, the nutrient solution can be maintained at an appropriate concentration at any time, and as a result, health can be maintained by drinking drinking water according to the present invention.
And if you take a shower with the water according to the present invention, you can replenish the skin with the necessary moisture and nutrients.

In addition, the remaining amount of nutrient solution in the injection cylinder 1 can be measured by a pressure sensor 2 connected to a pedestal 11 provided on the bottom side of the injection cylinder 1.
The remaining amount of the nutrient solution is displayed on the display, and the user can grasp the remaining amount of the nutrient solution by looking at the display. The injection tube 1 can be updated in a timely manner.
If the injection cylinder 1 connected to the pedestal 11 is removed from the pedestal 11, the chip detection unit 17 provided on the pedestal 11 cannot detect the chip 16 provided on the injection cylinder 1. At this time, the power supplied to the elements such as the pressure sensor 2, the pressurizing pump 3, the flow meter 5, and the arithmetic unit 9 is cut off.
When the new injection cylinder 1 is coupled to the base 11 again, the chip detection unit 17 detects the chip 16 again, and the pressure sensor 2, the pressure pump 3, the flow meter 5, and the arithmetic unit 9 are detected. The element is activated again.
Therefore, the injection cylinder 1 can be updated quickly by the design of the chip 16 provided in the injection cylinder 1 and the chip detection unit 17 provided in the base 11.

  As is clear from the above description, drinking the drinking water according to the present invention can maintain health, and taking a shower with the water according to the present invention can replenish the skin with the necessary moisture and nutrition. .

It is an exploded perspective view of the present invention. It is the schematic which shows the union state and usage method of this invention. It is the schematic which shows the use condition of this invention. It is a one part enlarged perspective view of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Injection cylinder 2 Pressure sensor 3 Pressure pump 4 Joint 5 Flowmeter 6 Pressure sensor 7 Water supply equipment 8 Water supply faucet 9 Arithmetic unit 11 Base 12 Connection hole 13 Through-hole 14 Through-hole 15 Ventilation hole 16 Tip 17 Tip detection unit 41 1st Path 42 Second path 43 Third path 51 Flow meter main body 52 Pressure measurement unit 53 Water quality measurement unit 411 Nozzle 511 Through hole 512 Through hole

Claims (3)

A hollow body, a pedestal is provided on the bottom side, a nutrient solution is contained therein, and an injection tube having a coupling hole opened in the pedestal;
A pressure pump connected to one side of the base of the injection tube;
A pipe having at least three openings, a first path connected to the pressurizing pump, a second path connected to a water supply facility, and a third path connected to a flow meter;
A flow meter main body having at least two through holes is provided, one of the two through holes is connected to the third path of the joint, and the remaining through hole is connected to the water supply faucet, A flow meter with a measuring unit;
The flow meter can be assembled, and includes the pressure pump and a calculation unit connected to the measurement unit of the flow meter.
Micro-injection device for water supply equipment.   The microinjection device for water supply equipment according to claim 1, wherein a pressure sensor is provided between the pressure pump and the first path of the joint.   The microinjection device for water supply equipment according to claim 1, wherein the measurement unit assembled in the flow meter includes a pressure measurement unit and a water quality measurement unit.

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