TWM615019U - Antibacterial descaling device - Google Patents

Abstract

This creation is a descaling and antibacterial device, which is set in a liquid storage device filled with liquid to descale the liquid storage device. The descaling and antibacterial device includes a shell, a low-frequency resonance fluid and a plurality of oscillation aids. The accommodating space of the shell accommodates the low-frequency resonance fluid and the multiple oscillation aids. The low-frequency resonance fluid can change the water molecules of the liquid and make the water molecules smaller, so as to reduce the fouling in the liquid storage device. The oscillating aid assists the low-frequency resonance fluid to generate resonance. Through the setting of low-frequency resonance fluid, this creation can remove scale and prevent scale generation, thereby inhibiting bacterial growth, improving the cleanliness of the liquid, and reducing downtime for maintenance and repeated water changes, effectively saving water and electricity.

Description

Descaling antibacterial device

This creation is related to a descaling and anti-scaling technology, especially a descaling and anti-scaling device that uses low-frequency resonance to change the structure of water molecules for descaling and anti-scaling.

Generally, untreated purified water contains various mineral ions, such as calcium ions and magnesium ions. The purified water stored in the water supply system will cause part of the water to evaporate when flowing, but because the mineral ions in the purified water cannot evaporate with the water, the mineral ions will remain in the purified water, resulting in the concentration of mineral ions in the purified water constant increase.

When the mineral ions of the purified water reach saturation, the mineral ions may precipitate and agglomerate in the water supply system to form calcium bicarbonate and magnesium bicarbonate, which are commonly known as scale. Over time, these calcium bicarbonate and magnesium bicarbonate will block the entire water supply system, causing problems with the water supply system. In addition to affecting the water supply situation, the scale production is also easy to breed bacteria and affect the cleanliness of the water.

However, the most common way to remove scale in the past was to clean the water supply system with an acid chemical descaling agent to remove the scale deposited in the water supply system. However, the use of chemicals is likely to corrode the water supply system and reduce the service life of the water supply system. Chemical agents There are still some hazards to the human body and the environment.

In addition to cleaning with acid-based chemical descaling agents, far infrared rays, strong magnetic or electric pulses are used to reduce the generation of scale, but whether it is far infrared, strong magnetic or electric pulses, the service life will vary. The time is decreasing, and the service life is shorter, and the effectiveness of removing scale is not high.

In view of this, this author proposes a descaling and antibacterial device to effectively overcome the above-mentioned problems in response to the lack of the above-mentioned conventional technology.

The main purpose of this creation is to provide a descaler and antibacterial device, which can remove scale while preventing scale production, to inhibit bacterial growth, improve the cleanliness of water, and can reduce downtime for maintenance, repeated water changes, and effectively save water and use Power.

Another purpose of this creation is to provide a descaling and antibacterial device, which can reduce the use of chemicals to eliminate scale, reduce the corrosion of the liquid storage device by chemicals, and reduce the environmental pollution of chemicals.

Another purpose of this creation is to provide a descaling and antibacterial device, which provides a protective film with opposite charges formed on the metal surface of the liquid storage device to reduce the problems of chemical and potential corrosion.

In order to achieve the above-mentioned purpose, the present invention provides a descaling and antibacterial device, which is provided in a liquid storage device filled with liquid for descaling the liquid storage device. The descaling and antibacterial device includes a shell, and the inside of the shell It has a accommodating space. A low-frequency resonance liquid is contained in the containing space of the shell, and the low-frequency resonance liquid can make the water molecules of the liquid smaller, so as to reduce fouling in the liquid storage device. A plurality of oscillating aids are provided in the accommodating space to assist the low-frequency resonance fluid to generate resonance.

In this embodiment, the volume of the low-frequency resonance fluid accounts for 90-94% of the volume of the inner space of the housing.

In this embodiment, the casing is a round casing, a square casing or a radial casing.

In this embodiment, the diameter of the housing is at least 6.3 centimeters (cm).

In this embodiment, a fixing element is further provided on the surface of the casing to fix the casing to the liquid inlet of the liquid storage device.

In this embodiment, the casing is a stainless steel casing.

In order to have a better understanding and understanding of the structural features of this creation and the effects achieved, I would like to provide a better embodiment diagram and detailed descriptions. The description is as follows.

This creation provides a descaling and antibacterial device, which can be installed in the liquid storage device to remove the scale in the liquid storage device, while preventing the generation of scale, inhibiting the growth of bacteria, improving the cleanliness of the water, and reducing downtime and maintenance. The use of chemicals, while reducing the time of repeated water changes, can effectively save water and electricity.

Explain how the descaling and antibacterial device of this creation can achieve the above-mentioned effects. First, please refer to the first figure to illustrate the environment where the descaling and antibacterial device 1 is installed. The descaling and antibacterial device 1 is provided in a liquid storage device 2, and the liquid storage device 2 can provide a containing liquid 20. In this embodiment, the liquid storage device 2 is a cooling water tower of 6 to 7 tons, and the liquid 20 is purified water such as tap water. For a cooling water tower of 6 to 7 tons, one or two descaling and antibacterial devices can be provided 1 In the liquid storage device 2, in order to achieve the effect of removing and anti-scaling the middle fins, pipes and condensers in the liquid storage device 2, of course, the liquid storage device 2 can also be other water storage devices, not only Restricted to cooling water tower.

The descaling and antibacterial device 1 can be provided at any position in the liquid storage device 2. The best embodiment is to be installed at the liquid inlet 22 of the liquid storage device 2, so that all the liquid 20 entering through the liquid inlet 22 is It can contact the descaling and antibacterial device 1 to refine the liquid 20 that comes into contact with the descaling and antibacterial device 1.

After introducing the environment where the descaling and antibacterial device 1 is installed, the structure of the descaling and antibacterial device 1 and its achievable effects will be described in detail. Please refer to FIG. 2 and FIG. 3 together. The descaling and antibacterial device 1 includes a housing 10, a low-frequency resonance fluid 12 and a plurality of oscillation aids 14. The housing 10 has an accommodating space 102, and the accommodating space 102 is provided for accommodating the low-frequency resonance fluid 12 and the multiple oscillation auxiliary 14. A fixing element 104 is provided on the surface of the housing 10 and at the top, and the fixing element 104 can provide for fixing the housing 10 to the liquid inlet 22 of the liquid storage device 2.

In this embodiment, the case 10 is a stainless steel case, but it can still be made of different materials according to design or actual needs. The shape of the shell 10 is a circular shell with a diameter of 6.3 cm (cm) or 9.5 cm (cm), but the diameter of the shell can be changed according to actual needs. The size of the shell diameter is directly related to the amount of water that can be treated. Although this embodiment uses a circular casing as an embodiment, the shape of the casing 10 can also be a square casing or a radial casing, etc., so that the surface of the casing 10 is in contact with the liquid 20 in the liquid storage device 2 Just raise it.

Next, the low-frequency resonance fluid 14 and the multiple oscillation auxiliary device 14 contained in the accommodating space 102 of the housing 10 will be described. As shown in the third figure, the complex oscillation aid 14 may be spherical granular to assist the low-frequency resonance fluid 12 to generate resonance.

The low-frequency resonance fluid 12 occupies 90-94% of the capacity of the accommodating space 102. The low-frequency resonance liquid 12 is produced by general purified water after receiving MRET (Molecular Resonance Effect Technology). MRET can change the molecular structure of the liquid 20, so that the water molecular clusters of the low-frequency resonance liquid 12 are composed of fewer water molecules, rearrange the water molecular structure of the water, and change the normal bond angle of the water molecules from 104.5 degrees to 103 Degree, become a chain linear structure.

Through the above-mentioned changes, the low-frequency resonance liquid 12 can emit the same low frequency as the earth's electromagnetic field, and can refine the liquid 20 flowing around the descaling and antibacterial device 1, so that the water molecular structure of the liquid 20 is rearranged, so that the larger ones in the liquid 20 The water molecules become small water molecules, which increases the penetration of water molecules to the scale formed on the heat sink, pipeline and condenser in the liquid storage device 2, so as to soften and remove the scale, while preventing the generation of scale and inhibiting the growth of bacteria. , Improve the cleanliness of water and liquid, and can reduce downtime for maintenance, repeated water change time, and effectively save water and electricity.

The low-frequency resonance liquid 12 of the descaler and antibacterial device 1 can make the calcium and magnesium ions in the water become longer and amorphous precipitated crystals. Due to the change of the physical properties of the scale crystals, the scale particles lose their adhesion and no longer interact with each other. Adhesive and becomes scum. And these water slag will be deposited in the cold water pan of the liquid storage device 2, and the water slag can be removed by cleaning the cold water pan in the future. And because the descaling and antibacterial device 1 can make the structure of water molecules smaller, increase the speed of water molecules, and thus strengthen the penetration force of the liquid 20, through the rapid movement of the fine water molecules, the continuous erosion has produced attachment to the liquid storage. The scale on the device 2 softens the original scale, becomes loose and easily falls off.

Since the descaling and antibacterial device 1 can effectively control the problems of scale and corrosion, the self-cleaning ability is improved, so that the mother bacteria in the water will gradually split into daughter bacteria that will not multiply, which greatly reduces the ability of bacteria to grow. According to the data measured by long-term use, the number of colonies per milliliter is greatly reduced to less than 5, which can effectively inhibit the growth of bacteria. At the same time, due to the large reduction in the number of colonies, only a small amount of maintenance is required, and there is no need for the costly cleaning work as in the past, which reduces the downtime for maintenance.

In addition, when the liquid storage device 2 has a metal surface, the descaling and antibacterial device 1 can also form a protective film with opposite charges on the metal surface of the liquid storage device 2 to avoid chemical and potential corrosion of the liquid storage device 2 The problem can prevent the formation of rust.

Only the above are only the preferred embodiments of this creation, and they are not used to limit the scope of implementation of this creation. Therefore, all equivalent changes or modifications made in accordance with the characteristics and spirit of the application scope of this creation shall be included in the scope of patent application of this creation.

1: Descaler and antibacterial device 10: Shell 102: accommodating space 104: fixed element 12: Low frequency resonance fluid 14: Oscillation aid 2: Liquid storage device 20: Liquid 22: Liquid inlet

The first picture is a schematic diagram of the created descaling and antibacterial device installed in the liquid storage device. The second picture is a three-dimensional schematic diagram of the created anti-scaling antibacterial device. The third picture is a cross-sectional schematic diagram of the created descaler and antibacterial device.

1: Descaler and antibacterial device

10: Shell

102: accommodating space

104: fixed element

12: Low frequency resonance fluid

14: Oscillation aid

Claims (6)

A descaling and antibacterial device is arranged in a liquid storage device filled with liquid to descaling the liquid storage device. The descaling and antibacterial device includes: A housing with an accommodating space in the housing; A low-frequency resonance liquid contained in the accommodating space of the casing, the low-frequency resonance liquid can make the water molecules of the liquid smaller, so as to reduce fouling in the liquid storage device; and A plurality of oscillating aids are arranged in the accommodating space to assist the low-frequency resonance fluid to generate resonance. The descaling and antibacterial device according to claim 1, wherein the low-frequency resonance liquid occupies 90 to 94% of the capacity of the containing space of the housing. The descaling and antibacterial device according to claim 1, wherein the shell is a round shell, a square shell or a radial shell. The descaling and antibacterial device according to claim 1, wherein the diameter of the shell is at least 6.3 centimeters (cm). The descaling and antibacterial device according to claim 1, wherein a fixing element is further provided on the surface of the casing to fix the casing at the liquid inlet of the liquid storage device. The descaling and antibacterial device according to claim 1, wherein the shell is a stainless steel shell.

Images