CN114956438B - Magnetization and mineralization water making system, method and application device - Google Patents

Abstract

The utility model relates to a magnetization and mineralization preparation water system, a method and an application device, belong to the treatment field of water or waste water, through setting up magnetization mineralization mechanism, make people insert the screw hole of different positions through adjusting screw, adjust the interval between two magnetization components of bellows front and back both sides, and then adjust the circulation of water in the bellows, and then adjust the magnetization effect of water, and when mineralizing, can install a plurality of magnetic rings on the bracing piece and put into protection cylinder and ore ring, under the effect of adjusting inclination in advance, water can drive the magnetic ring and rotate through the protection cylinder and the ore ring of arranging in first connecting cylinder and second connecting cylinder, slide in the ore ring constantly, and then produce tiny mineral substance, produce mineralized water, magnetization mineralization mechanism can also be used as mineralization mechanism for magnetization, the utilization ratio of structure is high, reduce the waste of resource, the functional of structure is strong.

Description

Magnetization and mineralization water making system, method and application device

Technical Field

The invention relates to a water making system, a water making method and an application device by magnetization and mineralization, belongs to the field of water or wastewater treatment, and particularly belongs to the field of magnetic field or electric field.

Background

The magnetized water is water magnetized by a magnetic field, so that ordinary water can be changed into magnetized water through a magnetic field with certain intensity along the direction perpendicular to magnetic lines at a certain flow rate, the magnetized water is natural magnetized water and artificial magnetized water, the field strength of the natural magnetized water is strong or a large amount of iron ores exist in the production area, the service period is short, the artificial magnetized water is generated by a magnetizer, the magnetized water can eliminate phlegm and clear away lung-heat, has a certain reducing effect on blood pressure and blood fat, can effectively prevent cardiovascular and cerebrovascular diseases, and has a certain regulating effect on the blood circulation of a human body;

mineralized water is groundwater containing mineral salts, is rich in macroelements and microelements necessary for human body, and lithium and bromine in the mineral water can effectively regulate central nervous system activities, so that the mineralized water has the effects of stabilizing emotion and calming, has a lot of benefits, can supplement the deficiency of various nutrients such as calcium, zinc, magnesium, selenium, iodine and the like in diet after long-term drinking, and has good effects of enhancing the immune function of the human body, and preventing hypertension, gout and rheumatic diseases;

the magnetized water retains the original advantages of tap water, common tap water is changed into small molecular group water with medical care, the activity of the water is enhanced, arterial endothelial cells are prevented from being damaged, the rise of serum cholesterol is inhibited, cerebral and cardiac arteriosclerosis can be prevented, the magnetized water has strong conditioning effects on activating the activity of human cells, prolonging the service life and preventing canceration of organisms, the magnetized water can improve the physiological chemical reaction of the human body, enhance the activity of biological enzymes in the body and has good fat decomposition effect, so that the blood fat is normal, the magnetized water can reduce the viscosity of water, white spirit and other liquids, is beneficial to blood flow, prevents the generation of cerebral and cardiac thrombosis, can prevent various cardiovascular and cerebrovascular diseases such as hyperlipidemia, hypertension, atherosclerosis and the like after long-term drinking of the magnetized water, has strong calcium dissolving capability, the saturation degree of calcium salt in a medium can be reduced, so that the medium has the capability of inhibiting calcium crystallization, a large amount of drinking magnetized water can effectively dilute calculus components in urine, crystal precipitation is reduced, the method is a recognized most effective method for preventing calculus from forming and growing, the total effective rate of preventing calculus recurrence by drinking the magnetized water is more than 70%, compared with the common water, the magnetized water has high dissolving capacity and metabolic strength, only 11.7 milligrams of uric acid can be dissolved in each 100 milliliters of common water, but 21.3 milligrams of uric acid can be dissolved in each 100 milliliters of magnetized water, and a patient suffering from gout can quickly relieve gout symptoms in a short period by only drinking a large amount of magnetized water in a treatment period, and struggling for daily urine excretion to be at least 2500ml-3000ml by increasing uric acid excretion;

the total amount of soluble mineral substances reaches more than 2 g, the free carbon dioxide reaches more than 0.5 g, the content of hydrogen sulfide reaches more than 2-10 Mg, the content of carbon reaches more than 5 Mg, the water with the content of silicic acid reaches more than 50 Mg is called mineralized water, the mineralized water contains various microelements such as K+, na+, ca2+, mg2+, CL-, SO42+, HCO 3-and the like and mineral substances, the mineralized water is completely ionized, the mineralized water can be quickly absorbed and utilized after being drunk, and contains abundant dissolved oxygen, the acid-base balance of a human body can be effectively regulated, wherein the microelements of strontium are normal components of bones and teeth of the human body, the generation of hypertension and cardiovascular diseases can be prevented, SO that the strontium element is an indispensable microelement in all tissues of the human body, the strontium element is contained in all tissues of the human body, is also an important constituent of bones and teeth, and is mainly concentrated in places with vigorous ossification, and can strengthen bones; zinc is an important trace element necessary for human body, not only is a 'smart' element, but also is an essential component of various enzyme systems of human body. Selenium, known as "vital element"; it can prevent or slow down the autoxidation process of lipid in vivo, so as to prolong the life of cells; bromine element has the function of regulating nerves; iodine is an essential nutrient element for human body, and iodine deficiency can cause the in vivo thyroxine synthesis to be blocked, so that thyroid tissues are compensatory proliferated; metasilicic acid has softening effect on hard work of human body, and has certain medical care effects on heart disease, hypertension, arteriosclerosis, nerve dysfunction, gastric disease and gastric ulcer; the free binary carbon is gas naturally existing in water, has the functions of strengthening heart, promoting urination, diminishing inflammation, relieving summer heat, promoting digestion, improving metabolism and the like, has better medical effects on diseases of a digestive system, nephropathy, skin diseases and rheumatism, and is very important for the mineralized water to be especially important to the society of health care and health care at present.

The long-term drinking of the magnetized water and the mineralized water not only can effectively prevent cardiovascular and cerebrovascular diseases and other diseases, but also can condition hypertension, hyperlipidemia, hyperglycemia, hyperuricemia and other chronic diseases, and has the functions of anti-falling and slimming.

Because magnetized water and mineralized water have very positive effects on the health of human bodies, more and more people can choose to quote magnetized or mineralized water, and because the magnetization and mineralization principles are different, the existing magnetizer or mineralizer can only achieve the effect of single magnetized or mineralized water, and partial water making devices can realize the function of simultaneously magnetizing or mineralizing water by combining the magnetized water and the mineralized water, but through simple combination, when magnetized or mineralized water is magnetized, the mineralization or magnetization mechanism of the other part is in an idle state, so that not only is the resource wasted, but also the utilization rate of the structure is low.

Therefore, we make improvements to this and propose a magnetizing and mineralizing water making system, method and application device.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the water making device has the functions of magnetizing or mineralizing water by combining the two, but when magnetizing or mineralizing water, the mineralizing or magnetizing mechanism of the other part is in an idle state by simple combination, so that not only is the resource wasted, but also the utilization rate of the structure is low.

(II) technical scheme

In order to achieve the above object, the invention provides a magnetizing and mineralizing water making system, which comprises a water inlet module, wherein the water inlet module is connected with a water making module, the water making module is connected with a water outlet module, the water making module consists of a magnetizing module and a mineralizing module, the water inlet module is a first connecting cylinder, and the water outlet module is a second connecting cylinder.

The magnetizing and mineralizing water producing application device comprises a first connecting cylinder and a second connecting cylinder, a corrugated pipe is arranged between the first connecting cylinder and the second connecting cylinder, a magnetizing and mineralizing mechanism is arranged on the corrugated pipe, a filtering connecting mechanism is arranged between the first connecting cylinder and the second connecting cylinder, the magnetizing and mineralizing mechanism comprises four magnetizing components which are respectively arranged on two sides of the corrugated pipe, the magnetizing components are formed by a plurality of protecting cylinders and a plurality of ore rings in a staggered mode, threads are arranged on the outer parts of the protecting cylinders, the magnetizing components also comprise conducting coil cylinders which are arranged in the protecting cylinders and the ore rings, magnetic rings used for fixing are arranged at the top ends and the bottom ends of the conducting coil cylinders, friction blocks are arranged at the two ends of the magnetic rings, people can insert threaded holes in different positions through adjusting screws, the distance between two magnetizing assemblies at the front side and the rear side of the corrugated pipe is adjusted, the circulation of water in the corrugated pipe is adjusted, the magnetizing effect of the water is adjusted, a plurality of magnetic rings can be installed on the supporting rods and are arranged in the protection cylinder and the ore ring when mineralization is carried out, under the action of adjusting the inclination angle of the friction block in advance, the water can drive the magnetic rings to rotate when passing through the protection cylinder and the ore ring arranged in the first connecting cylinder and the second connecting cylinder, the friction block slides in the ore ring and continuously rubs, fine minerals are generated, mineralized water is produced, the magnetizing and mineralizing mechanism can be used as a magnetizing and mineralizing mechanism, the utilization rate of the structure is high, the waste of resources is reduced, and the structure is strong in functionality.

Wherein, the ring channel has been seted up to the inboard of ore ring, and the notch of ring channel is loudspeaker form.

The electric conduction coil is characterized in that round blocks are fixedly connected to two ends of the electric conduction coil cylinder, slots are formed in two sides of the round blocks, the magnetic rings are sleeved outside the round blocks, inserting rods are connected to two ends of the magnetic rings in a penetrating mode, the ends of the inserting rods are fixedly connected with one ends of the friction blocks, first springs sleeved outside the inserting rods are fixedly connected between the friction blocks and the magnetic rings, the ends are arc-shaped, the friction blocks are made of ore, the friction blocks can move to the protection cylinder or the ore ring under the action of the first springs through the slots, the inserting rods and the first springs, further movement of the electric conduction coil cylinder inside the protection cylinder and the ore ring is limited, fine mineral substances can be generated when the friction blocks are installed inside the ore ring and rub against the ore ring through the friction blocks, the effect of mineralized water is achieved, and the electric conduction coil is high in functionality.

The external part of the inserted link is a smooth part and a tooth part, the smooth part is close to the round block, the inner wall of the end part of the magnetic ring is provided with teeth matched with the tooth part, when people withdraw the tooth part on the inserted link from one end of the magnetic ring through the teeth on the inserted link, the rotation direction of the friction block can be finely adjusted through rotation, the friction block is inclined, the inclination directions of the two ends of the magnetic ring are controlled to be opposite, when the tooth part on the inserted link is inserted into one end of the magnetic ring, the friction block cannot rotate, and when the magnetic ring and the friction block in the state are placed into an ore ring in the first connecting cylinder or the second connecting cylinder, the magnetic ring and the friction block can rotate in the conductive coil cylinder along with the flow of water, and tiny mineral matters are generated by matching with the conductive coil cylinder, so that the friction block can always contact with an annular groove on the conductive coil cylinder under the action of the first spring.

The connecting rod is arranged between two adjacent friction blocks positioned on the front side and the rear side of the corrugated pipe, screw rods are connected with the two ends of the connecting rod in a threaded mode, threaded holes for the screw rods to be inserted are formed in the friction blocks, grooves are formed in the middle of one side, away from the corrugated pipe, of the connecting rod, and threaded blocks matched with the protection barrel are fixedly connected to the two sides of the inner portion of the first connecting barrel and the two sides of the inner portion of the second connecting barrel.

The filtering and connecting mechanism comprises two frames which are respectively inserted into one end of the first connecting cylinder and one end of the second connecting cylinder, four fan-shaped filter screens are uniformly arranged on the frames, and a round hole is formed in the middle of one side of each frame.

The utility model provides a support device for a magnetic storage device, including frame top and bottom, rectangular channel has all been seted up to the both sides of frame top and bottom, the inside in rectangular channel is provided with the spring telescopic link, the one end fixedly connected with movable block of spring telescopic link, the top of movable block is connected with the movable rod through the pivot, one side fixedly connected with stopper on movable rod top, the top and the bottom of bellows all are provided with two bracing pieces that use with the stopper cooperation, the jack has been seted up to the one end of bracing piece, the other end fixedly connected with of bracing piece and jack and round hole cooperation use's round bar, annular draw-in groove has been seted up on the round bar, a plurality of supplies inserted annular draw-in groove of rod to filter through setting up filtering connection mechanism, can not only filter the water in first connecting cylinder, second connecting cylinder and the bellows, can also be used for supporting magnetization mineralization mechanism, and can be difficult break away from the bellows to through installing the magnetic ring at the bracing piece in the round hole again, make the bracing piece can stable in the ring channel slip, the bracing piece not only can play the supporting role, can also connect strongly after the separation effect.

The top and the bottom inside the frame are respectively connected with a spring bolt in a penetrating mode and matched with the annular clamping groove, the end portion of the spring bolt is fixedly connected with a triangular block, and when the two movable rods are close to each other, the two movable rods can slide to one side of the first connecting cylinder or the second connecting cylinder under the guiding of the triangular block, and then the frame is limited, so that the frame cannot be separated from the first connecting cylinder or the second connecting cylinder.

The application method of the water application device manufactured by magnetization and mineralization comprises the following steps:

step one, magnetized water preparation: the method comprises the steps of respectively connecting a first connecting cylinder and a second connecting cylinder with an external water inlet pipe and an external water outlet pipe, pulling a movable rod and a limiting block at the end part of a supporting rod after connection is completed, enabling the supporting rod to be separated from a corrugated pipe, unscrewing a screw rod, adjusting the distance between two conductive coil barrels at the front and rear corresponding positions of the corrugated pipe according to the use condition, screwing the screw rod on the connecting rod into a threaded hole at the corresponding position after adjustment is completed, putting the supporting rod into a groove, loosening the limiting block, enabling the limiting block to clamp one end of the supporting rod, adjusting the flow of the corrugated pipe, electrifying the conductive coil barrels, and further enabling water to be magnetized into small-diameter molecular groups by the magnetic force of the conductive coil barrels when water passes through the corrugated pipe;

step two, converting a magnetizing mechanism into a mineralizing mechanism: the first step is repeated, the supporting rod is taken down, after the screw rod is unscrewed, the conductive coil cylinder and the protection cylinder are taken down, two friction blocks on the magnetic ring are pulled, the end part of the inserted rod is separated from the slot, simultaneously, the tooth part on the inserted rod is separated from one end of the magnetic ring, the separated magnetic ring is mounted on the supporting rod, after the inclination direction of the friction blocks is finely adjusted, the friction blocks are loosened, one end of the inserted rod is inserted into the mounting hole under the action of the first spring, the triangular blocks are pulled up and down, one end of the round rod is inserted into the round hole, the triangular blocks are loosened, one end of the spring bolt is inserted into the annular clamping groove at the end part of the round rod, the protection cylinder and the ore ring are screwed into the space between the two adjacent thread blocks, and the friction blocks are inserted into the annular groove on the ore ring under the action of the first spring along with the extension of the protection cylinder and the ore ring;

step three, mineralized water preparation: after the first connecting cylinder, the second connecting cylinder and the external water pipe are in butt joint, along with the flowing of water, the water can drive the inclined friction block to rotate so as to drive the magnetic ring to rotate, slide in the ore ring and continuously rub, so that fine mineral substances are generated, and mineralized water is produced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a block diagram of a magnetization and mineralization water making system provided herein;

FIG. 2 is a schematic diagram of a water application device for magnetizing and mineralizing provided by the present application;

FIG. 3 is a schematic cross-sectional view of a protective barrel of the magnetization and mineralization manufacturing application device provided by the application;

FIG. 4 is a schematic view of a connecting rod of the magnetizing and mineralizing apparatus;

FIG. 5 is a schematic cross-sectional view of a limiting block of the magnetization and mineralization manufacturing application device provided by the application;

FIG. 6 is a schematic view of a support rod structure of a magnetization and mineralization manufacturing application device provided by the present application;

FIG. 7 is a schematic view of a splicing structure of a support rod and a magnetic ring of the magnetizing and mineralizing manufacturing and application device provided by the application;

FIG. 8 is an enlarged schematic view of the magnetization and mineralization manufacturing application device shown in FIG. 1A;

FIG. 9 is a schematic diagram of a frame structure of a magnetization and mineralization manufacturing application device provided by the present application;

FIG. 10 is a schematic cross-sectional view of a frame of a magnetization and mineralization manufacturing application device provided herein;

FIG. 11 is an enlarged schematic view of the magnetization and mineralization manufacturing application device shown in FIG. 1;

fig. 12 is a schematic view of a connection structure between a heating element and a connecting rod of the magnetizing and mineralizing device provided by the present application.

1. A first connecting cylinder;

2. a second connecting cylinder;

3. a bellows;

4. a magnetizing and mineralizing mechanism; 401. a protective cylinder; 402. a mineral ring; 403. a conductive coil cylinder; 404. round blocks; 405. a slot; 406. a magnetic ring; 407. a rod; 408. a first spring; 409. a friction block; 410. a threaded hole; 411. a connecting rod; 412. a screw; 413. a groove; 414. a screw block; 415. a mounting groove; 416. A limit groove;

5. a filter connection mechanism; 501. a frame; 502. a fan-shaped filter screen; 503. a round hole; 504. rectangular grooves; 505. A spring telescoping rod; 506. a movable block; 507. a movable rod; 508. a limiting block; 509. a support rod; 510. A round bar; 511. an annular clamping groove; 512. a jack; 513. a mounting hole; 514. a spring bolt; 515. triangular blocks;

6. a heating assembly; 601. a rectangular hole; 602. a through hole; 603. and (5) heating the plate.

Detailed Description

The following detailed description of specific embodiments of the invention is provided in connection with the accompanying drawings and examples. The following examples are only illustrative of the present invention and are not intended to limit the scope of the invention.

Example 1:

as shown in fig. 1, the present embodiment proposes a magnetizing and mineralizing water making system, which includes a water inlet module, the water inlet module is connected with a water making module, the water making module is connected with a water outlet module, the water making module is composed of a magnetizing module and a mineralizing module, the water inlet module is specifically a first connecting cylinder 1, and the water outlet module is specifically a second connecting cylinder 2.

Example 2:

the scheme of example 1 is further described in conjunction with the specific operation described below:

as shown in fig. 2, 3 and 4, the present embodiment proposes a magnetization and mineralization water application device, including a first connecting cylinder 1 and a second connecting cylinder 2, a bellows 3 is disposed between the first connecting cylinder 1 and the second connecting cylinder 2, a magnetization and mineralization mechanism 4 is disposed on the bellows 3, a filtering connecting mechanism 5 is disposed between the first connecting cylinder 1 and the second connecting cylinder 2, the magnetization and mineralization mechanism 4 includes four magnetization components disposed on two sides of the bellows 3 respectively, the magnetization components are composed of a plurality of protection cylinders 401 and a plurality of ore rings 402 in a staggered manner, threads are provided on the outside of the protection cylinders 401, the magnetization components further include conductive coil cylinders 403 disposed in the protection cylinders 401 and the ore rings 402, magnetic rings 406 for fixing are disposed on the top and bottom ends of the conductive coil cylinders 403, friction blocks 409 are disposed on two ends of the magnetic rings 406, people can insert the adjusting screw 412 into threaded holes 410 at different positions to adjust the distance between two magnetization components at the front and rear sides of the corrugated tube 3, so as to adjust the circulation of water in the corrugated tube 3, further adjust the magnetization effect of the water, and when mineralizing, a plurality of magnetic rings 406 can be arranged on a supporting rod 509 and are arranged in a protection cylinder 401 and an ore ring 402, under the action of the inclination angle of a friction block 409 which is adjusted in advance, when the water passes through the protection cylinder 401 and the ore ring 402 which are arranged in the first connecting cylinder 1 and the second connecting cylinder 2, the water can drive the magnetic rings 406 to rotate, the friction block 409 slides in the ore ring 402, friction is continuously generated, fine mineral matters are generated, mineralized water is produced, the magnetization mineralizing mechanism 4 can be used as a magnetization-passing mineralizing mechanism, the utilization rate of the structure is high, the waste of resources is reduced, the functionality of the structure is strong.

As shown in fig. 2, 3, 4 and 5, as a preferred embodiment, based on the above manner, further, an annular groove is formed on the inner side of the ore ring 402, and the notch of the annular groove is horn-shaped, by providing a horn-shaped annular groove, the inclined friction block 409 can slide in the annular groove, and when people pull the support rod 509 and the magnetic ring 406 forcefully, the friction block 409 can press the first spring 408 to separate from the annular groove.

As shown in fig. 2, fig. 3, fig. 4 and fig. 5, as a preferred embodiment, further, on the basis of the above manner, both ends of the conductive coil 403 are fixedly connected with the round block 404, both sides of the round block 404 are provided with the slots 405, the magnetic ring 406 is sleeved outside the round block 404, both ends of the magnetic ring 406 are connected with the inserted rods 407 in a penetrating way, the ends of the inserted rods 407 are fixedly connected with one ends of the friction blocks 409, the first springs 408 sleeved outside the inserted rods 407 are fixedly connected between the friction blocks 409 and the magnetic ring 406, the ends of the friction blocks 409 are arc-shaped, the friction blocks 409 are made of ores, by arranging the slots 405, the inserted rods 407 and the first springs 408, the friction blocks 409 can move to the protective cylinder 401 or the ore ring 402 under the action of the first springs 408, the conductive coil 403 is further limited to move inside the protective cylinder 401 and the ore ring 402, and when the friction blocks 409 are installed inside the ore ring 402 and are rubbed with the ore ring 402, minerals can be generated, the friction blocks 409 can be mineralized with the ore ring 402 by the friction blocks, the water can be mineralized by the mineral rings, and the mineral rings can be mineralized by the mineral rings, and the mineral minerals can be mineralized by the mineral rings can be produced by the different from the mineral rings, and the mineral layers, and the mineral minerals can be mineralized by the different from the mineral layers, and the mineral layers can be different from the mineral layers.

As shown in fig. 2, 3, 4 and 5, as a preferred embodiment, on the basis of the above manner, the outer part of the inserted link 407 is further provided with a smooth part and a tooth part, the smooth part is close to the round block 404, the inner wall of the end part of the magnetic link 406 is provided with teeth matched with the tooth part, when people withdraw the tooth part on the inserted link 407 from one end of the magnetic link 406 through the teeth on the inserted link 407, the friction block 409 can be tilted by rotating the friction block 409, the rotating direction of the friction block 409 is finely adjusted, and the tilting directions of the friction blocks 409 at both ends of the magnetic link 406 are controlled to be opposite, when the tooth part on the inserted link 407 is inserted into one end of the magnetic link 406, the friction block 409 and the magnetic link 409 in this state are placed into the ore ring 402 in the first connecting cylinder 1 or the second connecting cylinder 2, the magnetic link 406 and the friction block 409 can rotate inside the conductive coil 403 along with the flow of water, fine minerals are generated by matching the conductive coil 403, and the friction block 409 can always contact with the annular groove of the conductive coil 403 under the action of the first spring 408.

As shown in fig. 2, 3, 4 and 5, as a preferred embodiment, on the basis of the above manner, further, a connecting rod 411 is disposed between two adjacent friction blocks 409 located at the front and rear sides of the bellows 3, two ends of the connecting rod 411 are both in threaded connection with screws 412, a plurality of threaded holes 410 into which the screws 412 are inserted are formed in the friction blocks 409, a groove 413 is formed in the middle of one side of the connecting rod 411 away from the bellows 3, threaded blocks 414 matched with the protection barrel 401 are fixedly connected to two sides of the inside of the first connecting barrel 1 and the second connecting barrel 2, and people can insert into the threaded holes 410 at different positions through the connecting rod 411 and the screws 412 to adjust the positions of the protection barrels 401 at the front and rear sides of the bellows 3, thereby adjusting the flow rate of the bellows 3.

As shown in fig. 2, 6, 7, 8, 9 and 10, as a preferred embodiment, based on the above-mentioned mode, the filtering and connecting mechanism 5 further includes two frames 501 respectively inserted and arranged at one ends of the first connecting cylinder 1 and the second connecting cylinder 2, four fan-shaped filter screens 502 are uniformly arranged on the frames 501, and round holes 503 are formed in the middle of one side of the frames 501, so that impurities and large-particle mineral substances in water can be filtered by arranging the fan-shaped filter screens 502, and the taste of the water is improved.

As shown in fig. 2, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, as a preferred embodiment, further, rectangular grooves 504 are formed on both sides of the top end and the bottom end of the frame 501, a spring expansion rod 505 is disposed in the rectangular grooves 504, one end of the spring expansion rod 505 is fixedly connected with a movable block 506, the top of the movable block 506 is connected with a movable rod 507 through a rotating shaft, one side of the top of the movable rod 507 is fixedly connected with a limiting block 508, the top end and the bottom end of the corrugated pipe 3 are respectively provided with two support rods 509 matched with the limiting block 508, one end of each support rod 509 is provided with an insertion hole 512, the other end of each support rod 509 is fixedly connected with a round rod 510 matched with the insertion hole 512 and the round hole 503, an annular clamping groove 511 is formed in the round rod 510, a plurality of annular clamping grooves 511 for inserting the insertion rods 407 are formed in the support rods 509, by arranging a filter connection mechanism 5, water in the first connection cylinder 1, the second connection cylinder 2 and the corrugated pipe 3 can be filtered, the support magnetization mechanism 4 can be used, the magnetization mechanism 4 can be easily separated from the support rod 509, the support ring 509 can be installed in the annular grooves 509, and the support ring 509 can be stably connected in the round grooves 509, and can be installed in the annular grooves 509, and can not only play a role in the support ring 509, and can be stably connected in the support grooves 509.

As shown in fig. 2, 6, 7, 8, 9 and 10, in addition to the above-mentioned preferred embodiments, further, a spring latch 514 that cooperates with the annular slot 511 is connected to the top and bottom of the frame 501, and a triangle block 515 is fixedly connected to the end of the spring latch 514, so that when two movable rods 507 approach each other, the two movable rods 507 can slide to one side of the first connecting cylinder 1 or the second connecting cylinder 2 under the guide of the triangle block 515, and further limit the frame 501, so that the frame 501 cannot be separated from the first connecting cylinder 1 or the second connecting cylinder 2.

As shown in fig. 2 and 3, in addition to the above-mentioned embodiments, further, mounting grooves 415 are formed on the front and rear sides of the first connecting cylinder 1 and the second connecting cylinder 2, which are used in cooperation with the conductive coil cylinder 403, and by providing the mounting grooves 415, after the protective cylinder 401 and the ore ring 402 are mounted in the first connecting cylinder 1 and the second connecting cylinder 2, the conductive coil cylinder 403 can be mounted in the mounting grooves 415, and after the current is applied, the magnetic force generated by the conductive coil cylinder 403 on both sides of the first connecting cylinder 1 and the second connecting cylinder 2 can make the magnetic ring 406 and the friction block 409 thereon rotate more easily, so that the friction block 409 can rub in the ore ring 402, thereby generating ore particles;

as shown in fig. 2 and fig. 4, further, on the basis of the above-mentioned mode, both ends of one side of the connecting rod 411 are provided with limit grooves 416 used in cooperation with the supporting rod 509, after the two connecting rods 411 are installed in the rectangular hole 601 by arranging the limit grooves 416, the limit grooves 416 on the two connecting rods 411 can clamp one end of the supporting rod 509 installed on the frame 501, so that both ends of the supporting rod 509 can be well supported, and can rotate in the first connecting cylinder 1 or the second connecting cylinder 2 more stably, so that the connecting rod 411 can be used for connecting and adjusting the conductive coil cylinder 403, and can also be used for supporting the supporting rod 509 installed on the frame 501, and the functionality is strong;

as shown in fig. 2, 3, 11 and 12, as a preferred embodiment, further, a heating assembly is disposed between the first connecting cylinder 1 and the second connecting cylinder 2 on the basis of the above manner, the heating assembly 6 includes two rectangular holes 601 respectively formed at the bottoms of the inner cavities of the first connecting cylinder 1 and the second connecting cylinder 2 and far away from one end of the frame 501, through holes 602 for passing through screws 412 are formed at two ends of both sides of the rectangular holes 601, heating plates 603 are connected to front and rear sides of the inside of the rectangular holes 601 through rotating shafts and coil springs, water in the first connecting cylinder 1 and the second connecting cylinder 2 can be heated by arranging the heating assembly 6, and after the two heating plates 603 are turned over, the two connecting rods 411 placed in the rectangular holes 601 can be clamped by the two heating plates 603, so that the connecting rods 411 can be used for supporting the supporting rods 509, and the heating assembly 6 can be used for heating water and also used for clamping and fixing the connecting rods 411, and has strong functionality.

Example 3:

the schemes of examples 1 and 2 are further described below in conjunction with specific modes of operation, as described below:

the application method of the water application device manufactured by magnetization and mineralization comprises the following steps:

step one, magnetized water preparation: the first connecting cylinder 1 and the second connecting cylinder 2 are respectively connected with an external water inlet pipe and an external water outlet pipe, after the connection is completed, a movable rod 507 and a limiting block 508 at the end part of a supporting rod 509 are pulled to enable the supporting rod 509 to be separated from the corrugated pipe 3, a screw 412 is unscrewed, the distance between two conductive coil barrels 403 at the front and rear corresponding positions of the corrugated pipe 3 is adjusted according to the use condition, after the adjustment is completed, the screw 412 on the connecting rod 411 is screwed into a threaded hole 410 at the corresponding position, the supporting rod 509 is placed into a groove 413, the limiting block 508 is loosened to enable the limiting block 508 to clamp one end of the supporting rod 509, the flow of the corrugated pipe 3 is adjusted, the conductive coil barrels 403 are electrified, and then when water passes through the corrugated pipe 3, the water is influenced by the magnetic force of the conductive coil barrels 403, so that large-diameter molecular groups are magnetized into small-diameter molecular groups;

step two, converting a magnetizing mechanism into a mineralizing mechanism: the first step is repeated, the supporting rod 509 is removed, after the screw 412 is unscrewed, the conductive coil cylinder 403 and the protection cylinder 401 are removed, two friction blocks 409 on the magnetic ring 406 are pulled, the end part of the inserting rod 407 is separated from the slot 405, simultaneously, the tooth part on the inserting rod 407 is separated from one end of the magnetic ring 406, the separated magnetic ring 406 is mounted on the supporting rod 509, after the inclination direction of the friction blocks 409 is finely adjusted, the friction blocks 409 are loosened, one end of the inserting rod 407 is inserted into the mounting hole 513 under the action of the first spring 408, the triangular blocks 515 are pulled up and down, one end of the round rod 510 is inserted into the round hole 503, the triangular blocks 515 are loosened, one end of the spring bolt 514 is inserted into the annular clamping groove 511 at the end part of the round rod 510, then the protection cylinder 401 and the ore ring 402 are screwed into the space between the adjacent two thread blocks 414, and the friction blocks 409 are inserted into the annular grooves on the ore ring 402 under the action of the first spring 408 along with the extension of the protecting cylinder 401 and the ore ring 402;

step three, mineralized water preparation: after the first connecting cylinder 1, the second connecting cylinder 2 and the external water pipe are in butt joint, along with the flow of water, the water can drive the inclined friction block 409 to rotate, and then drive the magnetic ring 406 to rotate, the friction block 409 slides in the ore ring 402, friction is continuously generated, and fine mineral substances are generated, so that mineralized water is produced.

The above embodiments are only for illustrating the present invention, and are not limiting of the present invention. While the invention has been described in detail with reference to the embodiments, those skilled in the art will appreciate that various combinations, modifications, and substitutions can be made thereto without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (4)

1. The magnetizing and mineralizing water making application device uses a magnetizing and mineralizing water making system, wherein the magnetizing and mineralizing water making system comprises a water inlet module, the water inlet module is connected with a water making module, the water making module is connected with a water outlet module, the water making module consists of a magnetizing module and a mineralizing module, the water inlet module is a first connecting cylinder (1), and the water outlet module is a second connecting cylinder (2); the device is characterized in that a first connecting cylinder (1) and a second connecting cylinder (2) are arranged between the first connecting cylinder (1) and the second connecting cylinder (2), a corrugated pipe (3) is arranged between the first connecting cylinder (1) and the second connecting cylinder (2), a magnetizing and mineralizing mechanism (4) is arranged on the corrugated pipe (3), a filtering and connecting mechanism (5) is arranged between the first connecting cylinder (1) and the second connecting cylinder (2), the magnetizing and mineralizing mechanism (4) comprises four magnetizing components which are respectively arranged on two sides of the corrugated pipe (3), the magnetizing components are formed by a plurality of protection cylinders (401) and a plurality of ore rings (402) in a staggered mode, threads are formed on the outer portion of the protection cylinders (401), the magnetizing components further comprise conductive coil cylinders (403) arranged in the protection cylinders (401) and the ore rings (402), magnetic rings (406) used for fixing are arranged on the top end and the bottom end of each conductive coil cylinder (403), friction blocks (409) are arranged at two ends of each magnetic ring (406), round coils (404) are respectively arranged on the front sides of the first connecting cylinder (1) and the second connecting cylinder (2) respectively, round coils (404) are respectively provided with round rings (404) which are matched with round rings (404) at two sides, the two ends of the magnetic ring (406) are respectively connected with a inserted link (407) in a penetrating way, the end parts of the inserted links (407) are fixedly connected with one ends of friction blocks (409), a first spring (408) sleeved outside the inserted links (407) is fixedly connected between the friction blocks (409) and the magnetic ring (406), the end parts of the friction blocks (409) are arc-shaped, the friction blocks (409) are made of ores, connecting rods (411) are arranged between two adjacent friction blocks (409) positioned at the front side and the rear side of the corrugated pipe (3), the two ends of each connecting rod (411) are respectively connected with a screw rod (412) in a threaded way, a plurality of threaded holes (410) for inserting the screw rods (412) are formed in the friction blocks (409), the middle part of one side of the connecting rod (411) far away from the corrugated pipe (3) is provided with a groove (413), both sides inside the first connecting cylinder (1) and the second connecting cylinder (2) are fixedly connected with threaded blocks (414) matched with the protection cylinder (401), both ends of one side of the connecting rod (411) are provided with limit grooves (416) matched with the supporting rods (509), the filtering connecting mechanism (5) comprises two frames (501) respectively inserted and arranged at one ends of the first connecting cylinder (1) and the second connecting cylinder (2), four fan-shaped filter screens (502) are uniformly arranged on the frames (501), a round hole (503) is formed in the middle of one side of the frame (501), a heating assembly is arranged between the first connecting cylinder (1) and the second connecting cylinder (2), the heating assembly (6) comprises two rectangular holes (601) which are respectively formed in the bottoms of the inner cavities of the first connecting cylinder (1) and the second connecting cylinder (2) and far away from one end of the frame (501), through holes (602) for a screw rod (412) to pass through are formed in two ends of two sides of the rectangular holes (601), and heating plates (603) are connected to the front side and the rear side of the inside of the rectangular holes (601) through rotating shafts and coil springs;

rectangular grooves (504) are formed in two sides of the top end and the bottom end of the frame (501), a spring telescopic rod (505) is arranged in the rectangular grooves (504), one end of the spring telescopic rod (505) is fixedly connected with a movable block (506), the top of the movable block (506) is connected with a movable rod (507) through a rotating shaft, a limiting block (508) is fixedly connected to one side of the top end of the movable rod (507), two supporting rods (509) matched with the limiting block (508) are arranged at the top end and the bottom end of the corrugated pipe (3), an inserting hole (512) is formed in one end of the supporting rod (509), a round rod (510) matched with the inserting hole (512) and a round hole (503) is fixedly connected to the other end of the supporting rod (509), an annular clamping groove (511) is formed in the round rod (510), and a plurality of annular clamping grooves (511) for inserting the inserting of the inserting rods (407) are formed in the supporting rod (509).

The top and the bottom inside frame (501) are all interluded and are connected with spring bolt (514) that use with annular draw-in groove (511) cooperation, the tip fixedly connected with triangle piece (515) of spring bolt (514), through setting up triangle piece (515), make two movable rods (507) when being close to each other, can slide to one side of first connecting cylinder (1) or second connecting cylinder (2) under the direction of triangle piece (515), and then carry out spacingly to frame (501), make frame (501) can not break away from first connecting cylinder (1) or second connecting cylinder (2).

2. The magnetizing and mineralizing water application device according to claim 1, characterized in that the inner side of the ore ring (402) is provided with an annular groove, and the notch of the annular groove is horn-shaped.

3. The magnetizing and mineralizing water application device according to claim 2, characterized in that the outer part of the inserted bar (407) is divided into a smooth part and a tooth part, the smooth part is close to the round block (404), and the inner wall of the end part of the magnetic ring (406) is provided with teeth matched with the tooth part.

4. A method of using the magnetization and mineralization water-making application device according to claim 3, characterized by comprising the steps of:

step one, magnetized water preparation: the method comprises the steps of connecting a first connecting cylinder (1) and a second connecting cylinder (2) with an external water inlet pipe and an external water outlet pipe respectively, pulling a movable rod (507) and a limiting block (508) at the end part of a supporting rod (509) after connection is completed, enabling the supporting rod (509) to be separated from a corrugated pipe (3), unscrewing a screw rod (412), adjusting the distance between two conductive coil barrels (403) at the corresponding positions of the corrugated pipe (3) according to the use condition, screwing the screw rod (412) on the connecting rod (411) into a threaded hole (410) at the corresponding position after adjustment is completed, putting the supporting rod (509) into a groove (413), loosening the limiting block (508), enabling the limiting block (508) to clamp one end of the supporting rod (509), adjusting the flow of the corrugated pipe (3), electrifying the conductive coil barrels (403), and magnetizing large-diameter molecular groups into small-diameter molecular groups by the influence of magnetic force of the conductive coil barrels (403) when water passes through the corrugated pipe (3);

step two, converting a magnetizing mechanism into a mineralizing mechanism: the first step is repeated, the supporting rod (509) is removed, after the screw rod (412) is unscrewed, the conductive coil cylinder (403) and the protection cylinder (401) are removed, two friction blocks (409) on the magnetic ring (406) are pulled, the end part of the inserting rod (407) is separated from the slot (405), simultaneously, the tooth part on the inserting rod (407) is separated from one end of the magnetic ring (406), the separated magnetic ring (406) is mounted on the supporting rod (509), after the inclination direction of the friction block (409) is finely adjusted, the friction block (409) is loosened, one end of the inserting rod (407) is inserted into the mounting hole (513) under the action of the first spring (408), the triangular block (515) is pulled up and down, one end of the round rod (510) is inserted into the round hole (503), the triangular block (515) is loosened, one end of the spring bolt (514) is inserted into the annular clamping groove (511) at the end part of the round rod (510), the separated magnetic ring (401) and the ore ring (402) are screwed between two adjacent thread blocks (414), and the protection cylinder (401) and the ore ring (402) are inserted into the annular groove (409) under the action of the first spring (408);

step three, mineralized water preparation: after the first connecting cylinder (1), the second connecting cylinder (2) and the external water pipe are connected in a butt joint way, the water flows along with the water.

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