TWM560342U - Multifunctional ultra-micro sparkling water production device - Google Patents

Abstract

The present invention refers to a multifunctional ultra-fine bubble water manufacturing device in which oxygen-containing air is first poured into water, and then the oxygen-containing air is oscillated into a micro-bubble having a diameter of less than 1 mm by magnetic wave oscillation. The bubbles are fused into the water to become oxygenated ultrafine bubble water, and the aerobic ultrafine bubble water is fed into the pressure vessel, and the aerobic ultrafine bubble water is excellently used by the pressure vessel for output.

Description

Multifunctional ultra-micro bubble water manufacturing device

The present invention relates to a multifunctional ultra-fine bubble water manufacturing device, wherein a multifunctional ultra-fine bubble water implementation method and a manufacturing device thereof, wherein ozone, oxygen, hydrogen and carbon dioxide are stored first, and then injected into water to be supercharged The technical field of microbubble water.

First press, in the closed cultivation environment of hydroponic cultivation and greenhouse cultivation, the air circulation is not as smooth as the outdoor, causing pathogens or molds to grow in the environment and the air, so that the plants planted inside are often polluted and festered. As a result, many producers are forced to use pharmaceutical control, and they have to increase the circulation equipment for supplying a large amount of air. However, the benefits of agricultural planting are generally limited, and the increased cost of air circulation equipment often becomes a heavy burden on producers and even becomes production. The person cannot maintain the main culprit in the operation.

However, the outdoor environment is generally polluted, and the hydroponic cultivation and greenhouse closed cultivation that can isolate outdoor pollution are imperative. Therefore, how to reduce and reduce the use of pharmaceuticals, and how to simplify the cost of air circulation equipment, is currently closed. Planting agriculture has yet to be solved.

In view of the above, it is known that there is still a problem in the use of the medicament in the closed planting environment, and therefore the inventor is urged to develop in the direction of using the drug, and the inventor of the present invention thinks about it and uses the ozone. The comprehensive supply of oxygen, hydrogen and carbon dioxide is the best.

The multifunctional ultra-fine bubble water manufacturing device of the present invention comprises at least: a control component for controlling the multifunctional ultra-fine bubble water manufacturing device; a pumping component for supplying water; and an air inlet component for providing respectively Independently preset exclusive air, the exclusive air includes at least: an ozone, an oxygen, a hydrogen and a carbon dioxide; a high voltage component, The utility model is provided for providing the exclusive air fusion person to the water to become an ultra-micro bubble water; and a solenoid valve for opening or closing the high voltage component. Then, the control element at least sets and controls: the pumping element, the air inlet element and the electromagnetic valve. The pumping component is connected to an external water source, and the pumping component extracts the water from the external water source, and the pumping component is connected to at least one first outlet pipe that cooperates with each of the exclusive air settings and pressurizes the water. And each of the first outlet pipes is connected to the high-pressure component; and the air-intake component is provided with a gas storage container disposed in cooperation with the exclusive air quantity, and each of the gas storage containers is provided with an air outlet pipe for outputting the exclusive air. The high-voltage component is provided with a venturi hole, and the high-pressure component is provided with an air inlet hole connecting the air outlet pipe and the venturi hole, and the venturi hole is recessed toward the left side of the venturi hole. a diameter-reducing inlet chamber, the right side of the inlet chamber is connected to the first outlet pipe, and the left side of the inlet chamber has a small diameter pressurized narrow hole for pressurizing the water, and the left side of the pressurized narrow hole is provided with a slope The tapered expansion diameter and the instantaneous jetting of the exclusive air in the water are subjected to pressure and turbulence to become a spoiler chamber of the ultrafine bubble, and the spoiler chamber can evenly fuse the water with the ultrafine bubble into a uniform The ultra-fine bubble water, and then a second outlet pipe is connected to the left side of the spoiler chamber, and the second outlet pipe is connected with a solenoid valve for controlling the opening and closing of the second outlet pipe, and the left side of the solenoid valve is connected to the first The third outlet pipe is connected to a pressure vessel for temporarily storing the ultrafine bubble water, and the pressure vessel is connected with a fourth outlet pipe extending to the left and outputting the ultrafine bubble water.

A magnetic wave oscillating component is connected to the left side of the third water outlet pipe of the present invention. The magnetic wave oscillating component is further provided with an oscillating pipe joint, and the oscillating pipe joint traverses a oscillating hole, and the third hole of the oscillating hole is connected to the right side. a water pipe, and a shock body is connected to the left side of the oscillating hole, and the oscillating body is provided with at least one oscillating hole that communicates with the oscillating hole and the pressure vessel; and then the outer edge of the magnetic wave oscillating member is provided with a surrounding of the oscillating pipe joint. The magnetic wave oscillating ring is connected to the magnetic wave oscillating ring. Further, the pressure vessel is coupled to an air pump, and the air pump is further connected to the control component.

The pressure vessel of the present invention is further distributed with a leftward extension: a fourth outlet pipe and a fifth outlet pipe. The fourth outlet pipe is connected to a first push pump connected to the control component, and the first push pump is further connected with a first check valve connected to the control component, and the first check valve is coupled to the first check valve. The sixth outlet pipe has at least one use container for arranging the ultra-fine bubble water on the left side of the sixth outlet pipe. And the fifth end of the fifth outlet pipe is connected with a second push Pumping a pump, the second push pump is coupled to a second check valve connected to the control element, and the second check valve is coupled to a seventh outlet pipe, and the seventh outlet pipe is coupled to at least one spray Spray head for ultra-fine bubble water. In addition, at least one part of the bubble sensor for detecting the ultrafine bubble contained in the ultrafine bubble water is added to the use container, and the bubble sensor is further connected with the control element.

The use container of the present invention is further connected with a water recovery tank, and at least a recovery pump connected with the control element is arranged above the water recovery tank, and the recovery pump is connected with a first recovery pipe extending into the water recovery tank, and The recovery pump is further provided with a second recovery tube that conducts to the pumping element. In addition, the recovery pump is connected to the control component; and then the multifunctional ultra-fine bubble water manufacturing device is provided with at least one chiller connected to the control component, and the chiller is additionally provided with the pressure vessel and the Condensate tube for water recovery tank.

A‧‧‧ exclusive air

A0‧‧‧Supermicro Bubbles

A1‧‧‧Ozone

A2‧‧‧Oxygen

A3‧‧‧ Hydrogen

A4‧‧‧ Carbon dioxide

B‧‧‧Water

B1‧‧‧Superfine bubble water

B2‧‧‧ external water source

C‧‧‧pressure vessel

C1‧‧‧fourth outlet pipe

C2‧‧‧Air pump

C3‧‧‧ fifth outlet pipe

C4‧‧‧first push pump

C5‧‧‧First check valve

C51‧‧‧ sixth outlet pipe

C6‧‧‧second push pump

C7‧‧‧Second check valve

C71‧‧‧ seventh outlet pipe

C72‧‧‧ spray head

D‧‧‧Closed room

E‧‧‧planting

E1‧‧‧ root

E2‧‧‧Foliage

F‧‧‧Use container

G‧‧‧ bubble sensor

H‧‧‧Water recovery tank

H1‧‧‧Recycled pump

H2‧‧‧First recovery tube

H11‧‧‧Second recovery pipe

1‧‧‧Multifunctional ultra-micro bubble water manufacturing device

2‧‧‧Control elements

3‧‧‧ pump components

31‧‧‧First outlet pipe

4‧‧‧Intake components

41‧‧‧ gas storage container

42‧‧‧Exhaust pipe

5‧‧‧High-voltage components

51‧‧‧ Venturi tube hole

511‧‧‧Into the pressure chamber

512‧‧‧ Pressurized narrow hole

513‧‧‧ spoiler chamber

52‧‧‧Inlet holes

53‧‧‧Second outlet

6‧‧‧ solenoid valve

61‧‧‧ Third outlet pipe

8‧‧‧Magnetic wave oscillating components

81‧‧‧ Shocking pipe joints

82‧‧‧ Shock hole

83‧‧‧ Shocking body

84‧‧‧ shock micropores

85‧‧‧Magnetic shock ring

9‧‧‧ice water machine

91‧‧‧Condensing tube

Fig. 1 is a partial enlarged view of the multifunctional ultra-fine bubble water manufacturing device of the present invention.

Figure 2 is a schematic diagram of the magnetic wave oscillating component of the creation.

Fig. 3 is a schematic diagram of a water recovery tank for a multifunctional ultra-fine bubble water manufacturing device.

In order to make your reviewer have a better understanding of this creation, Zize will explain it in the following examples.

The present invention provides a multifunctional ultra-fine bubble water manufacturing device 1 comprising at least a control element 2 configured to control the overall closing and operation of the multifunctional ultra-micro bubble water producing device 1. A pumping element 3 for providing water B. An air inlet component 4 is provided to provide separately preset exclusive air A. The exclusive air A includes at least one ozone A1, one oxygen gas A2, one hydrogen gas A3 and one carbon dioxide A4. A high-voltage element 5 is provided for separately supplying the exclusive air A into the water B to become the ultra-fine bubble water B1. A solenoid valve 6 is provided for controlling the high voltage element 5 to be turned on or off. Then, the control element 2 is at least set and controlled by the pump element 3, the air inlet element 4 and the electromagnetic valve 6. The pumping element 3 is connected to an external water source B2, and the pumping element 3 is extracted by the external water source B2, and the pump The pump element 3 is connected at least with a first outlet pipe 31 for each dedicated air A setting and for pressurizing the water B, and each of the first outlet pipes 31 is connected to the high-voltage element 5. The gas inlet member 4 is provided with a gas storage container 41 provided in cooperation with the amount of the exclusive air A, and each of the gas storage containers 41 is provided with an outlet pipe 42 for outputting the exclusive air A. The high-voltage component 5 is provided with a venturi hole 51, and the high-pressure component 4 is provided with an air inlet hole 52 connecting the air outlet pipe 42 and the venturi hole 51, and the venturi hole 51 is turned to the left. An inlet hole chamber 511 having a tapered tapered shape is recessed, and the first outlet pipe 31 is coupled to the right side of the inlet hole chamber 511. The inlet port 511 has a small diameter to pressurize the water. a hole 512 having a tapered tapered extension diameter on the left side of the pressurized narrow hole 512 and a spoiler chamber 513 for allowing the exclusive air A to instantaneously flow in the water B and pulsing into the ultrafine bubble A0. The water chamber B is fused with the ultra-fine bubble A0 into the ultra-fine bubble water B1, and then the second outlet pipe 53 is connected to the left side of the spoiler chamber 513. a solenoid valve 6 for controlling the high pressure component 5 and the second outlet pipe 53 to be opened or closed, the third valve 16 is connected to the left side of the solenoid valve 6, and the third outlet pipe 61 is connected to temporarily store the ultrafine bubble water. a pressure vessel C of B1, the pressure vessel C is connected with a fourth outlet pipe C1 extending to the left and outputting the ultrafine bubble water B1 (eg Shown in FIG. 1).

The ozone A1, the oxygen A2, the hydrogen A3 and the carbon dioxide A4 are used in the closed chamber D of the hydroponic and greenhouse cultivation, and the closed chamber D is grown in a closed environment, and the plant is grown exclusively. The ozone A1 in the air A can perform the initial sterilization of the surface of the plant E in a closed environment, and the oxygen A2 is used to increase the nighttime breathing use value of the planting E, and the oxygen A2 provides the plant E. The root E1 has a stable and safe breathing capacity. In addition, the hydrogen A3 can perform micro-explosion-clearing and filtering virus on the surface of the plant E, and can completely eliminate chemical pollutants, bacteria, filter virus, fine dust and heavy metals, and then the carbon dioxide A4 happens to be The main gas of the leaf surface E2 of the planting E during photosynthesis. However, the present invention is based on the fact that ozone A1, oxygen A2, hydrogen A3 and carbon dioxide A4 are supplied to the sealed chamber D, so that the closed chamber D can have the best living conditions for the planting E cultivation environment. Furthermore, the multifunctional ultra-fine bubble water manufacturing device 1 can be used for at least the home comprehensive cleaning and disinfection, industrial sterilizing cleaning, medical supplies and the like, in addition to the supply of the sealed chamber D as the planting basis of the planting E. Use of premises, rapid consumption of fresh food Poisoning, as well as the use of animal husbandry, etc., as shown in Figure 1.

In the present invention, a magnetic wave oscillating member 8 is coupled to the left side of the third water outlet pipe 61. The oscillating pipe member 81 is further provided with an oscillating pipe joint 81. The oscillating pipe joint member 81 is further traversed by an oscillating hole 82, and the oscillating hole 82 is right. The oscillating body 83 is connected to the left side of the oscillating hole 82. The oscillating body 83 is provided with at least one oscillating hole 84 communicating with the oscillating hole 82 and the pressure vessel C. A magnetic wave oscillating ring 85 surrounding the oscillating pipe joint 81 is added to the outer edge of the magnetic wave oscillating member 8, and the magnetic wave oscillating ring 85 is further connected to the control element 2. Therefore, the magnetic wave oscillating ring 85 is set by the control element 2 to generate magnetic waves and shock waves. The magnetic wave and the oscillating wave can assist the shock wave to enhance the wavelength in the oscillating body 83 made of titanium alloy. However, the oscillating wave can justify the exclusive air. A is totally oscillated into the ultrafine bubble A0 having a diameter of less than 1 mm, and is uniformly fused into the water B by the ultrafine bubble A0 to become an ultrafine bubble water B1 (as shown in Fig. 2; in addition, the control element 2 Please refer to Figure 1 for the exclusive air A.

Then, the pressure vessel C is coupled to an air pump C2 for inputting the temporarily stored oxygen-enriched ultra-fine bubble water B1, and the air pump C2 is further connected to the control element 2. However, in order to control the proportion of the ultrafine bubble A0 in the ultrafine bubble water B1, the pressure vessel C needs to be emptied frequently, and then the ultrafine bubble water B1 is input into the pressure vessel C for storage, and the air pump C2 can enter the air to empty the pressure vessel C (as shown in Figure 1).

The creation of the pressure vessel C is further distributed to the left: a fourth outlet pipe C1, and an additional fifth outlet pipe C3. The fourth outlet pipe C1 is connected to a first push pump C4 connected to the control element 2, and the first push pump C4 is coupled to a first check valve C5 connected to the control element 5, the first check valve The valve C5 is connected to a sixth outlet pipe C51. The sixth outlet pipe C51 is connected at least to a container F for holding the ultrafine bubble water B1. The container F is planted with the plant E, and then the super The micro-bubble water B1 can supply the root E1 protection and absorption of the plant E. Then, a second push pump C6 is connected to the left end of the fifth water outlet pipe C3, and the second push pump C6 is connected to the left side to connect the control element 2 The second check valve C7 is connected to a seventh outlet pipe C71. The seventh outlet pipe C71 is connected to at least one spray head C72 for spraying the ultra-fine bubble water B1 on the left side of the seventh outlet pipe C71. The ultrafine bubble water B1 can be sprayed on the leaf surface E2 of the plant E, so that the ultrafine bubble water B1 is combined with the cleaning leaf surface E2 according to the ultrafine bubble A0, or is absorbed by the ultrafine bubble water B1. The ultra-fine bubble A0 is used to match the root E1 condition to promote the growth of plant E and to ensure the rapid growth of planting E. In addition, at least one of the bubble sensors G for detecting the ultrafine bubble A0 contained in the ultrafine bubble water B1 is added to the use container F, and the bubble sensor G is further connected to the control element 2. The control element 2 is preliminarily provided with a value of the ultra-fine bubble A0 parts per million. If the value of the ultra-micro bubble A0 contained in the ultra-fine bubble water B1 in the container F is insufficient, the control element 2 is based on the bubble induction. The value detected by the device G drives the pumping element 3 to perform the supply of the ultrafine bubble water B1 (as shown in Fig. 3; in addition, the control element 2 and the pumping element 3 are referred to as shown in Fig. 1).

The present invention is reduced to the normal water B after the use of the ultrafine bubble water B1, and then the use container F is connected to a water recovery tank H for recovering the used reduced water B, and at least one connection is added above the water recovery tank H. There is a recovery pump H1 of the control element 2, the recovery pump H1 is provided with a first recovery pipe H2 extending into the water recovery tank H, and the recovery pump H is further provided with a conduction to the pump element 3 The recovery pipe H11; in addition, the recovery pump H is connected to the control element 2. And the control element 2 sets the operation to recover the driving and closing of the pump H1, and when the recovery pump H1 is operated by the control element 2, the recovery pump H1 can be pumped back to the pumping element by the water recovery tank H 3 Recycling (for example, as shown in Fig. 3; in addition, please refer to Fig. 1 for the control element 2 and the pumping element 3).

In the present invention, at least one chiller 9 connected to the control element 2 is added to the multifunctional ultra-fine water-making device 1, and the chiller 9 is provided with a condenser 91 which is placed in the pressure vessel 7 and the water recovery tank H. The condensing pipe 9 performs the temperature of the absorption of the ultrafine bubble water B1 in the pressure vessel C and the water B in the water recovery tank H, and then the temperature absorbed by the condensing pipe 91 operated by the chiller 9 is released into the air. Therefore, the temperature of the water B used in the multifunctional ultrafine bubble water producing apparatus 1 is maintained at a suitable shape. The ultra-fine bubble A0 and the low temperature state suitable for the ultra-fine bubble A0 maintenance type (as shown in Fig. 4).

It can be seen from the above that the creation of the exclusive air A ozone A1, oxygen A2, hydrogen A3 and carbon dioxide A4 is provided as the ultra-micro bubble A0 of the injection water B which is pressed into a diameter of less than 1 mm, and the ultra-micro bubble A0 is used. The bubble A0 is fused into the water B to become an ultrafine bubble water B1, and the plant E can clean up chemical pollutants, bacteria, filter virus, and fine dust according to the ultrafine bubble water B1 containing ozone A1 and hydrogen A3. Heavy metal. Alternatively, the ultrafine bubble water B1 containing oxygen A2 and carbon dioxide A4 is used to satisfy the primary superiority of the growth requirements of the plant E respiration and light and action.

The present invention uses the control element 2 to pre-set the value of the ultra-fine bubble A0 parts per million, and the control element 2 is used for detecting the ultra-micro bubble A0 contained in the ultra-bubble water B1 in the container F by the bubble sensor G. The parts per million use values. If the value of the ultra-fine bubble A0 is insufficient, the control element 2 drives the pumping element 3 according to the value detected by the bubble sensor G, and the ultra-bubble water B1 is executed by the pumping element 3. Another excellent feature of the supply, according to this, this creation does have new patent requirements that meet the novelty, advancement and industrial applicability.

The technical content and technical features of the present invention have been disclosed above, but those skilled in the art may still make various substitutions and modifications based on the disclosure of the present invention without departing from the spirit of the present invention. Therefore, the scope of the present invention is not limited to the embodiments disclosed, but includes various alternatives and modifications without departing from the invention, and is covered by the scope of the novel application.

Claims (6)

A multifunctional ultra-micro bubble water manufacturing device comprises at least: a control element for controlling the multifunctional ultra-fine bubble water manufacturing device; a pumping component for supplying water; and an air inlet component for providing independent pre-preparation The exclusive air, the exclusive air includes at least: an ozone, an oxygen, a hydrogen and a carbon dioxide; a high-voltage component for providing the exclusive air into the water to become a super-micro bubble water; a solenoid valve, The high-voltage component is turned on or off; and then the control component is at least set and controlled: the pumping component, the air-injecting component and the electromagnetic valve; and the pumping component is connected to an external water source, and the pumping component is connected by the external component The water source extracts the water, and the pumping element is connected to at least one first outlet pipe that cooperates with each of the exclusive air settings and pressurizes the water, and each of the first outlet pipes is connected with the high-voltage component; and the inlet The gas element is provided with a gas storage container arranged in cooperation with the exclusive air quantity, each of the gas storage containers is provided with an outlet pipe for outputting the exclusive air; and the high voltage component is provided with a gas a tube hole, and a gas inlet hole connecting the gas outlet tube and the venturi hole is arranged above the high pressure element, and a slanted tapered tapered inlet chamber is recessed to the left of the venturi hole The first outlet pipe is connected to the right side of the pressure inlet chamber, and the left side of the pressure inlet chamber has a small diameter pressurized narrow hole for pressurizing the water, and the left side of the pressure narrow hole is provided with a tapered tapered diameter and allows the The instantaneous air in the water is instantaneously sprayed to withstand the pressure and the turbulence becomes the spoiler chamber of the ultra-micro bubble, and the spoiler chamber can evenly fuse the water with the ultra-micro bubble into a super-bubble water, and then a second outlet pipe is connected to the left side of the spoiler chamber, and the second outlet pipe is connected to a solenoid valve for controlling the opening and closing of the high-voltage component and the second outlet pipe, and a third outlet pipe is connected to the left side of the solenoid valve. The third outlet pipe is connected to a pressure vessel for temporarily storing the ultrafine bubble water, and the pressure vessel is connected to a fourth outlet pipe extending to the left and outputting the ultrafine bubble water. The multi-functional ultra-micro bubble water manufacturing device of claim 1, wherein a magnetic wave oscillating member is coupled to the left side of the third water outlet pipe, and the magnetic wave oscillating member is provided with an oscillating pipe joint, and the oscillating pipe joint is traversed. There is a oscillating hole, and the third outlet pipe is connected to the right side of the oscillating hole, and the oscillating body is connected to the left side of the oscillating hole, and the oscillating body is provided with at least one intercommunication. The oscillating hole and the oscillating micropore of the pressure vessel, and then the outer edge of the magnetic oscillating member is provided with a magnetic wave oscillating ring surrounding the oscillating pipe joint, and the magnetic wave oscillating ring is further connected with the control element. The multifunctional ultra-fine bubble water manufacturing device according to claim 1, wherein the pressure vessel is further connected with an air pump for separately venting the ultra-fine bubble water, and the air pump is further connected with the control element. The multi-functional ultra-micro bubble water manufacturing device according to claim 1, wherein the pressure vessel is further distributed with a leftward extension: a fourth outlet pipe, and an additional fifth outlet pipe; and the fourth outlet The water pipe is further connected with a first push pump connected to the control component, and the first push pump is coupled to a first check valve connected to the control component, and the first check valve is coupled to at least a sixth outlet pipe. The left side of the sixth water outlet pipe is connected at least to a container for receiving the ultra-fine bubble water; and then, the left end of the fifth water outlet pipe is connected with a second push pump, and the second push pump is connected to the left side and has a connection. a second check valve of the control element, the second check valve further has at least a seventh outlet pipe, and the seventh outlet pipe is provided with at least one spray head for spraying the ultra-fine bubble water; and, in the use container At least one bubble sensor for detecting the ultrafine bubble contained in the ultrafine bubble water is added, and the bubble sensor is further connected with the control element. The multi-functional ultra-fine bubble water manufacturing device according to claim 1, wherein the use container is further connected with a water recovery tank, and at least a recovery pump connected with the control element is disposed above the water recovery tank, the recovery pump A first recovery pipe extending into the water recovery tank is additionally provided, and the recovery pump is further provided with a second recovery pipe that is electrically connected to the pumping element; in addition, the recovery pump is connected to the control element. The multi-functional ultra-micro bubble water manufacturing device according to claim 5, wherein the multifunctional ultra-fine bubble water producing device is provided with at least one chiller connected to the control element, and the chiller is additionally provided with the pressure vessel. The condenser with the water recovery tank.