KR200374852Y1 - Apparatus for softening and magnetizing a water - Google Patents

Abstract

The present invention is filled with an activation member therein active cylinder assembly to assemble a cap formed with a plurality of holes; A first pipe installed at a rear end of the active cylinder and having a hollow portion in close contact with the active cylinder; Magnetic field generating means installed on an outer circumferential surface of the first pipe to magnetize water flowing in the pipe; A second pipe installed at a rear end of the first pipe and having a hollow part in close contact with the hollow part of the first pipe, the second pipe having a thread on both outer peripheral surfaces thereof; Electrostatic generating means for sequentially arranging cylindrical first charcoal cylinders, aluminum tubes and second charcoal cylinders at predetermined intervals on the outer circumferential surface of the second pipe; Cylindrical cap members each screw-assembled on both sides of the second pipe to prevent the static electricity generating means from being separated from the second pipe; A housing in which the active cylinder, the first pipe, and the second pipe are sequentially arranged and assembled in the inner hollow, and the threads are formed on both outer peripheral surfaces thereof; And inlet and outlet fastening means for screwing the two sides of the housing to prevent the active cylinder, the first pipe, and the second pipe from being separated from the housing, and to fasten the adjacent pipe and the housing to each other. And maximize the efficacy of the water by maximizing the activation, and also by placing the activating member in front of the electrostatic generating means, foreign matter does not stick to the inner pipe of the magnetic field generating means to maximize the performance and life of the device. Provide magnetization water softener of exchange structure.

Description

Magnetization water softener of exchange structure {APPARATUS FOR SOFTENING AND MAGNETIZING A WATER}

The present invention relates to a water softener, in particular, by generating anion, magnetic field and electrostatic voltage in the water flowing in the pipe to promote the activation and ionization of the water, it is possible to further increase the washing power due to the improved water properties during shower, face wash, washing A magnetizing water softener of an exchange structure.

In general, in houses, apartments, hotels, and baths, showers, face washes, and washes are directly performed with water supplied from a water treatment plant without a separate treatment device. However, in general, water does not have a function of washing foreign substances that adhere to the bathtub because molecules flow together, and since it is inactive, it is very difficult to effectively remove foreign substances that penetrate human hair and skin.

In addition, the foreign matter adhering to the laundry can be effectively removed, because the lather does not occur well, water was used inefficiently when washing and showering. Therefore, in order to effectively wash and shower, a softener using an ion exchange resin or a magnetizer using a magnet is used.

However, such a conventional method may temporarily wash and shower effectively, but after a certain period of time, there is a problem that it is difficult to maintain continuous performance due to deterioration of the device performance.

Most ion exchange resins are recommended to be replaced with salt regularly.However, if the ion exchange resins are not replaced regularly, foreign substances adhering to the resins themselves will lower the Na ⁺ (sodium) substitution capacity. It is difficult to maintain the same performance, and even in the case of the magnet method, the magnetic force is weakened due to the adsorption of foreign matters, so there is a problem in that the performance decreases with time.

Accordingly, an object of the present invention is to provide a magnetized water softener having an exchange structure that is easy to disassemble and assemble the water softener to periodically clean and replace parts in order to maintain the performance of the equipment continuously.

Another object of the present invention is to sequentially install the magnetic field generating means using the activation member such as germanium, ceramic ball and magnet and the electrostatic generating means such as the charcoal cylinder, to maximize the efficiency of water by promoting the ionization and activation of water to the maximum It is to provide a magnetizing water softener of exchange structure.

In addition, another object of the present invention is to provide a magnetized water softener of the exchange structure that can maximize the performance and life of the device as the foreign material does not adhere to the inner pipe of the magnetic field generating means by placing the activation member in front of the electrostatic generating means There is.

1 is a cross-sectional view showing a water softener according to an embodiment of the present invention,

2 is an exploded perspective view showing a water softener according to an embodiment of the present invention,

3a and 3b is a cross-sectional view and a separated perspective view showing a detailed structure of the active cylinder according to the present invention,

4a and 4b is a cross-sectional view and a separated perspective view showing a detailed structure of the first pipe and the magnetic field generating means according to the present invention,

5a and 5b is a cross-sectional view and a separated perspective view showing a detailed structure of the second pipe and the electrostatic generating means according to the present invention.

Explanation of symbols on the main parts of the drawings

100: magnetization water softener 110: housing

120: inlet and outlet fastening means 121: inlet connector

125: outlet connector 130: active cylinder

131: activating member 135: cap

134, 136: water passage 150: first pipe

151: outer cylinder 152: inner cylinder

155: magnetic field generating means 156: magnet

157: washer 159: cap

170: second pipe 173: thread

175: cap member 180: electrostatic generating means

181: first charcoal cylinder 183: aluminum tube

185: second charcoal body 182, 184, 186: screw thread

Technical means of the present invention for achieving the above object, after filling the activation member 131, such as ceramic balls 132 and germanium ball 133 therein active to assemble into a cap 135 formed with a plurality of holes Cylindrical body 130; A first pipe 150 installed at a rear end of the active cylinder 130 and having a hollow portion in close contact with the active cylinder 130; Magnetic field generating means (155) installed on an outer circumferential surface of the first pipe (150) to magnetize water flowing in the pipe; A second pipe 170 installed at a rear end of the first pipe 150 to have a hollow part in close contact with the hollow part of the first pipe 150, and having threads formed on both outer peripheral surfaces thereof; Electrostatic generating means (180) sequentially arranged on the outer circumferential surface of the second pipe (170), the cylindrical first char body 181, the aluminum tube (183) and the second char body 185 at predetermined intervals; Cylindrical cap member 175 for screwing on both sides of the second pipe 170 to prevent the electrostatic generating means 180 is separated from the second pipe 170; A housing 110 in which the active cylindrical body 130, the first pipe 150, and the second pipe 170 are sequentially arranged and assembled in an inner hollow, and threads are formed on both outer peripheral surfaces thereof; And screwed to both sides of the housing 110 to prevent the active cylinder 130, the first pipe 150, and the second pipe 170 from being separated from the housing 110, and the adjacent pipe and the housing. It is characterized in that it comprises a; the entrance and exit fastening means 120 for fastening each other (110).

Preferably, the active cylinder 130, the first pipe 150 and the second pipe 170 is formed of a synthetic resin, the water in the four sides of the active cylinder 130, the inside of the active cylinder 130 A plurality of water passage holes 134 are introduced into and out of the furnace.

The first pipe 150, the inner cylinder 152 is installed in the center of the cylindrical outer cylinder 151, the outer cylinder 151 and the inner cylinder 152 are separated from each other by the cylindrical magnetic field generating means ( 155 is inserted into the outer circumferential surface of the inner cylinder 152.

In addition, the magnetic field generating means 155 is a cylindrical magnet 156, it is preferable that the plurality of magnets 156 are separated by the washer 157.

It is preferable to set a screw thread on the outer circumferential surface and the inner circumferential surface of the second pipe 170 to screw the first char body 181, the aluminum tube 183 and the second char body 185 to a predetermined position. Do.

The inlet and outlet fastening means 120 has a screw thread for fastening with water pipes on one inner circumferential surface and a threaded connector for fastening with the housing 110 on the other inner circumferential surface, and a housing 110 on one inner circumferential surface. A screw thread for fastening is formed and the other outer peripheral surface is characterized by consisting of the outlet connector 125 is formed with a screw thread for fastening with the water pipe.

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

1 is a cross-sectional view showing a magnetizing water softener of an exchange structure according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a water softener according to the present invention, the magnetizing water softener 100 is an active cylindrical body 130, The first pipe 150, the magnetic field generating means 155, the second pipe 170, the cap member 175, the static electricity generating means 180, the housing 110 and the entrance and exit fastening means 120.

The active cylinder 130 is assembled with a cap 135 formed with a plurality of water passage holes in one opening after filling an activation member 131 such as a ceramic ball 132 and a germanium ball 133 in the inner hollow. .

The first pipe 150 is disposed at the rear end of the active cylindrical body 130 to be in close contact with the hollow portion of the active cylindrical body 130, and the magnetic field generating means 155 of the first pipe 150 It is provided on the outer circumferential surface and is configured to magnetize the water flowing in the pipe.

The second pipe 170 is disposed at the rear end of the first pipe 150, is installed in close contact with the hollow portion of the first pipe 150, the thread is formed on both outer peripheral surfaces, the electrostatic generating means 180 is It is installed on the outer circumferential surface of the second pipe 170 and the cylindrical first char body 181, the aluminum tube 183 and the second char body 185 are sequentially arranged at predetermined intervals, the cap member 175 is made of Screws are mounted on both sides of the second pipe 170 so as to prevent the electrostatic generator 180 from being separated from the second pipe 170.

In addition, the housing 110 has the active cylindrical body 130, the first pipe 150 and the second pipe 170 are arranged in sequence in the inner hollow, the threads are formed on both outer peripheral surfaces, the entrance and exit fastening means 120 ) Is screwed on both sides of the housing 110 to prevent the active cylinder 130, the first pipe 150 and the second pipe 170 from being separated from the housing 110, and adjacent pipes and housings. It is configured to fasten each other (110).

In addition, the active cylinder 130, the first pipe 150 and the second pipe 170 is made of a synthetic resin, the outer circumferential surface of both sides of the second pipe 170 is formed with a screw thread, the second pipe ( Cap members 176 and 177 fastened to both sides of the 170, respectively, have threaded lines that are matched to the outer circumferential surface of the second pipe 170 on the inner circumferential surface thereof.

In addition, the inlet and outlet fastening means 120, a threaded line for fastening with the water pipe on one side inner peripheral surface is formed, the inlet connector 121 formed with a threaded line for fastening with the housing 110 on the other inner peripheral surface, and the housing 110 on one side inner peripheral surface ) Is formed with a screw thread for fastening and the other outer peripheral surface is composed of an outlet connector 125 formed with a screw thread for fastening with water pipes or products such as faucets, showers, water purifiers.

The magnetic field generating means 155 to be covered by the first pipe 150 is a cylindrical magnet 156 for generating a magnetic field, and a plurality of magnets 156 are separated by the washer 157 and the second pipe ( The cap member 175 fastened to the 170 prevents water flowing out through the first pipe 150 from flowing into the electrostatic generating means 180.

The detailed structure thereof will be described in detail with reference to FIGS. 3 to 5.

First, as shown in FIGS. 3A and 3B, the active cylinder 130 is filled with a plurality of ceramic balls 132 and activating members 131 such as germanium balls 133 in the inner hollow of the cap to prevent leakage ( 135) is combined.

The active cylinder 130 is formed of a synthetic resin, one side is formed with a water passage hole 136 so that water flows, the other side is formed of an opening into which the ceramic ball 132 and the germanium ball 133 can be put. In addition, the wall surface of the active cylinder 130 is formed with a water passage hole 134 so that water flows.

The outer diameter of the active cylinder 130 is formed smaller than the inner diameter of the housing 110, the cap 135 is formed of a synthetic resin molded into an outer diameter matching the opening of the active cylinder 130, the water can flow Passing holes 136 are formed.

At this time, both ends of the cap 135 is formed with a fixing projection 137 for engaging the active cylinder 130 and the inner groove, but may be screwed to the active cylinder 130 and the cap 135. .

The ceramic ball 132 and the germanium ball 133 is formed into a ball having a diameter of 3mm to 10mm is loaded in the inner hollow of the active cylinder 130, the water passage hole formed in the active cylinder 130 and the cap ( Naturally, 134 and 136 are smaller than the diameter of each ball.

In addition, the first pipe 150 and the magnetic field generating means 155 is formed as shown in Figures 4a and 4b, the first pipe 150 is a cylindrical outer cylinder 151 and the center of the outer cylinder 151 The inner cylinder 152 is formed in the hollow portion 153, the outer cylinder 151 and the inner cylinder 152 is separated from each other to insert the cylindrical magnet 156 to the outer peripheral surface of the inner cylinder 152 The space 154 is provided for the other side of the outer cylinder 151 and the inner cylinder 152, the second pipe 170 of the rear end is coupled to the space therebetween.

Of course, the space part 154 inserts the magnet 156 and the washer 157 into the inner cylinder 152, respectively, and covers the magnet 156 with the hollow part (159). 153) so as to be completely sealed.

The cap 159 may be covered by forming a screw line on the inner circumferential surface of the outer cylinder 151, which is the opening 154 of the first pipe 150.

In addition, the magnetic field generating means 155 that is covered on the outer circumferential surface of the inner cylinder 152 of the first pipe 150 is a cylindrical magnet 156 for generating a magnetic field, the plurality of magnets 156 to the washer 157. It is separated and installed.

Accordingly, the outer cylinder 151 and the inner cylinder 152 are separated from each other, and the opening 154 inserts the magnet 156 into the inner cylinder 152 and then uses a cap 159 having a hollow portion in the center thereof. It covers and prevents water from smearing with the magnet 156 inserted into the outer circumferential surface of the inner cylinder 152.

On the other hand, the second pipe 170 is formed of a synthetic resin as shown in Figure 5a and 5b has a hollow portion 171 therein to allow the water to pass through, the outer peripheral surface of the charcoal cylinders (181, 185) and aluminum pipe ( A screw thread 173 is formed to be assembled with the screw 183, and a screw thread 174 is formed on the inner surface of the second pipe 170 so that the fluid flowing through the hollow part 171 rubs against the screw thread 174. It is desirable to allow ionization and static electricity to be generated better by.

The electrostatic generating means 180 assembled on the outer circumferential surface of the second pipe 170 is a first charcoal body 181 disposed at a predetermined interval apart from both sides of the aluminum tube 183 and the aluminum tube 183. ), And the second char cylinder (185).

The aluminum tube 183 is coupled to the central portion of the pipe as shown in the screw thread 184 is formed on the inner circumference, and also screw lines 182 and 186 are formed on the inner circumferential surfaces of the char cylinders 181 and 185, respectively. It is coupled to and disposed at both sides of the pipe 170.

Of course, in order to improve the performance of the electrostatic generating means 180, the length of the second pipe 170 may be extended to further connect the electrostatic generating means 180 can be used. That is, the length of the second pipe 170 to extend the length of the charcoal cylinder 181, aluminum tube 183, the charcoal cylinder 185 arranged in sequence in order of the charcoal cylinder, aluminum tube, charcoal cylinder By arranging in succession, the performance can be improved.

In addition, the cap member 175 (175, 176, 177) is put on both sides of the second pipe 170, the assembly, the cap member 175 is formed of a synthetic resin, the center of the cap member 175 is a hollow through which water passes An additional portion is formed and a screw line is formed on one inner circumferential surface of the cap member 175.

At this time, the conventional 'O-ring' between the cap member 175 and the pipe 170 so that water flows only to the hollow portion 171 of the pipe 170 and is not leaked at the coupling portion of the cap member 175 and the pipe 170. Rubber packing 179, such as' is built in assembled.

The housing 110 is formed of brass, aluminum, or synthetic resin, and the inner diameter of one side is formed into an inner diameter larger than the outer diameter of the active cylinder 130, and the inner diameter of the other side is the cap member 175 of the second pipe 170. It has an inner diameter larger than the outer diameter of.

In addition, male threads for fastening with the inlet and outlet fastening means 120 are formed on the outer circumferential surfaces of both ends of the housing 110, and the inlet and outlet fastening means 120 is formed of brass, aluminum, or synthetic resin as the inlet connector 121 and Outlet connector 125 is divided.

A female thread line for fastening with the water pipe is formed on one inner circumferential surface of the inlet connector 121, and a female thread line for fastening with the housing 110 is formed on the other inner circumferential surface, so that water passes through the center of the inlet connector 121. It has a hollow part.

In addition, a female thread wire for fastening with the housing 110 is formed on one inner circumferential surface of the outlet connector 125, and a male thread wire for fastening with a product or a water pipe such as a faucet, a shower head, and a water purifier is formed on the other outer circumferential surface. A hollow portion through which water passes is also formed in the center of the connector 125.

As shown in the assembly cross-sectional view of Figure 1, the O-ring 119 is installed in order to prevent leakage when assembling the electrostatic generating means 180 and the cap member 175 and the housing 110 and the housing connectors 121 and 125, the cap The O-ring 179 is embedded in the coupling portion of the member 175 and the housing 110 and the coupling portion of the cap member 175 and the outlet connector 125 to prevent leakage.

Referring to the performance of the present invention with reference to Figures 1 and 2, when water flows into the active cylinder 130 installed inside the housing 110 through the water pipe ceramic ball 132 and the active cylinder 130 and It is discharged to the hollow portion of the first pipe 150 while rubbing with the germanium ball 133, at this time, the water is activated by the anion generated in the ceramic ball 132 and the germanium ball 133, the first pipe 150 To be discharged.

The magnet 156 wound on the outer circumferential surface of the hollow part of the first pipe 150 exerts a magnetic force on the water passing through the hollow part to fine ionize the water molecules. That is, the magnetic force of the magnet 156 weakens the coupling structure of the water molecules and ionizes the water molecules to activate them.

Subsequently, water passing through the hollow part of the first pipe 150 is supplied to the hollow part of the second pipe 170.

The second pipe 170 is provided with a static electricity generating means 180, the charge of the static electricity generated by the friction of the water and the second pipe 170 when the water flows in the static electricity generating means 180 The charge is transferred to the aluminum tube 183, which is integrated (+) in the char cylinders 181 and 185 which are in contact with the outer circumferential surface of the pipe 170, and is charged with-, wherein the char cylinders 181 and 185 are An electrostatic field is formed between the aluminum tubes 183 in the direction perpendicular to the water flow, and a minute voltage is generated. Water passing through the electrostatic field is ionized as in Scheme 1.

^{_{H 2 O → H + + OH}} -

When the water is ionized as in the reaction scheme, the activity is strong, so that the dissolving power is so strong that it dissolves and decomposes the foreign matter, which not only dissolves the foreign matter penetrated into the skin during the shower, but also dissolves the foreign matter adhering to the bathtub and tile as well as the laundry. It facilitates the dissolution of foreign matter penetrated into.

The electrostatic generating means 180 to ionize the water to make the active water, by adding the active cylinder 130 and the magnet 156 in front of the water to further activate the water.

In addition, since the foreign matter adheres to the inner wall of the second pipe 170 as the use period elapses, the performance of the electrostatic generating means 180 may be deteriorated. Thus, the active cylindrical body 130 is installed at the inlet side through which the water enters the water. By activating to prevent the adhesion of foreign matter to the inner wall of the pipe 170 to maintain the performance of the electrostatic generating means 180.

In addition, the active cylinder 130 can be replaced periodically, if the performance of the active cylinder 130 is lowered, the active cylinder 130 can be exchanged to maintain the performance.

Table 1 below shows the change value of various ions in water by comparing the treated water that passed through the softener of the present invention and the untreated water that did not pass.

Cl ^- (x500) OH ^- pH ORP Untreated water 149.3 ppb 34.2 ppm 7.3 300 mV Ion-treated water 257.9 ppb 44.4 ppm 8.3 220 mV

As shown in Table 1, the water passing through the softener has a weak alkalinity due to the increase of the hydroxyl group (OH ⁻ ) and the pH, and the redox potential (ORP) is also lowered, thereby changing to more beneficial water for the human body.

Thus, in the present invention, the active cylinder 130, the magnetic field generating means 155, the electrostatic generating means 180 and the cap member 175 and the housing connector inside the housing 110 installed at the front end of the faucet or shower. 121, 125, but the features of the present invention, by installing the active cylinder 130 and the magnetic field generating means 155 on the inlet side of the water inlet, the water is activated as well as the electrostatic generating means The foreign matter is attached to the 180 to prevent the performance of the static electricity is significantly reduced to prevent the performance degradation, and also designed to the structure that can replace the active cylinder 130 periodically, if the performance of the negative ion generator itself is degraded It can be replaced.

Although specific embodiments of the present invention have been described and illustrated above, it will be apparent that various modifications may be made by those skilled in the art, such as adding and subtracting each element as necessary. Such modified embodiments should not be understood individually from the technical spirit or prospect of the present invention, but should fall within the claims appended to the present invention.

Therefore, the present invention maximized the ionization and activation of water by sequentially installing an active cylinder filled with germanium balls and ceramic balls, a magnetic field generating means, and an electrostatic generating means. In order to prevent the performance of the static electricity generating means from degrading, the active cylinder and the magnetic field generating means are installed at the inlet side of the water inlet to activate the water and prevent the foreign matter from adhering to the inner wall of the pipe. There is an advantage of maximizing the performance and life of the means.

In addition, the structure of the active cylinder can be exchanged periodically so that if the performance of the active cylinder is reduced, the active cylinder can be replaced to maintain the best performance, and the periodic cleaning of the first pipe and the second pipe This has the advantage of maximizing lifetime and performance.

In addition, the ionized and activated water dissolves and removes wastes that penetrate the hair and skin when showering, softens the hair, maintains clean skin, absorbs makeup, and dissolves foreign substances attached to laundry. It removes, washes and washes well, and dissolves and removes foreign substances attached to the bath tub and tiles in the bathroom to keep the bathroom always clean.

In addition, the germanium used in the present invention activates the cells of the skin to maintain clean skin, and due to the weak alkaline water obtained through the water softener, it can be absorbed in the body well, digestion, improve blood circulation, etc. can be obtained. .

Claims (5)

An active cylinder which is assembled into a cap having a plurality of holes formed therein after filling an activation member such as germanium ball and ceramic ball; A first pipe installed at a rear end of the active cylinder and having a hollow portion in close contact with the active cylinder; Magnetic field generating means installed on an outer circumferential surface of the first pipe to magnetize water flowing in the pipe; A second pipe installed at a rear end of the first pipe and having a hollow part in close contact with the hollow part of the first pipe, the second pipe having a thread on both outer peripheral surfaces thereof; Electrostatic generating means for sequentially arranging cylindrical first charcoal cylinders, aluminum tubes and second charcoal cylinders at predetermined intervals on the outer circumferential surface of the second pipe; Cylindrical cap members each screw-assembled on both sides of the second pipe to prevent the static electricity generating means from being separated from the second pipe; A housing in which the active cylinder, the first pipe, and the second pipe are sequentially arranged and assembled in the inner hollow, and the threads are formed on both outer peripheral surfaces thereof; And And an inlet and outlet fastening means for screwing each side of the housing to prevent the active cylinder, the first pipe, and the second pipe from being separated from the housing, and fastening the adjacent pipe and the housing to each other. Magnetic water softener of exchange structure. The method according to claim 1, And said active cylinder, said first pipe and said second pipe are formed of synthetic resin. The method according to claim 1, wherein the first pipe, The inner cylinder is installed at the center of the cylindrical outer cylinder, but the outer cylinder and the inner cylinder are separated from each other to insert the cylindrical magnetic field generating means into the outer circumferential surface of the inner cylinder, and the inner cylinder and the outer cylinder are fixedly installed by the second pipe at the rear end. Magnetized water softener of the exchange structure, characterized in that the. The method according to claim 1, A screw thread is formed on the outer circumferential surface and the inner circumferential surface of the second pipe, respectively, and a fastening screw thread is formed on the inner circumferential surfaces of the first charcoal cylinder, the aluminum tube, and the second charcoal cylinder, respectively. The method according to claim 1, A threaded connector formed on one side of the inner circumferential surface for fastening with the water pipe, and another side inner circumferential surface with a threaded wire for fastening with the housing; And The magnetizing water softener of the exchange structure, comprising: a screw thread for fastening with the housing is formed on one side of the inner circumferential surface, and an outlet connector having a thread for fastening with the water pipe on the other outer circumferential surface.