KR102487744B1 - water crusher - Google Patents

Abstract

The present invention relates to a water crushing device, in which an installation hole is formed in a central portion, and a plurality of water crushing plates in which two rows of water grinding holes are formed are installed in a radial direction on one side of the installation hole so as to overlap in a water crushing housing, and thus, by passing the water supplied at high pressure from a water supply unit into the water crushing housing, not only can the water be crushed by the plurality of water crushing plates, but also can time and cost be saved according to follow-up management.

Description

Water crusher {water crusher}

The present invention relates to a water crushing device, and more particularly, by installing a plurality of overlapping water crushing plates having two rows of water crushing holes in a radial direction therein, so that water supplied at high pressure from a water supply unit is passed through the water crushing plate. It relates to a water pulverizer capable of pulverizing water by passing it through.

As is well known, ozone is an allotrope of oxygen and is derived from the Greek word ozein, which means smell.

It is slightly blue at room temperature, black-blue when it becomes a gas or liquid, and dark purple when it becomes a solid. Since ozone is created when oxygen is irradiated with strong ultraviolet rays, it is widely distributed in beaches and high mountain areas where ultraviolet rays are relatively strong.

Methods for artificially generating ozone include a discharge method using oxygen or air as a raw material, an ultraviolet irradiation method, a radiation irradiation method, and the like, and there is also an electrolysis method using water as a raw material.

In addition, ozone not only has strong sterilizing power and the ability to decompose harmful substances, but also removes metal ions and odors, inactivates pathogens, and reduces organic substances because it is immediately reduced to oxygen without leaving harmful secondary by-products after reacting with harmful substances. It is widely used in various industries because it has the advantages of increasing biodegradability, removing the cause of contamination, and facilitating control of the amount and concentration.

However, since ozone is easily reduced to oxygen, it is impossible to store and use it, and if the concentration of ozone in the air or water exceeds the standard value, it adversely affects the respiratory system and cannot continuously produce ozone with a uniform concentration. It is difficult for a sterilization device using ozone to be widely distributed due to problems such as lack of available technology and costs required to solve the harmfulness of ozone.

Due to the above problems, research and development on a sterilization device using hydroxyl groups (OH-Radical or Hydroxyl Radical), which has more powerful oxidizing power than ozone but is harmless to the human body, is underway.

A general sterilization and disinfection device using hydroxyl groups dissolves ozone generated in a gaseous state in water, and sterilizes and disinfects with hydroxyl groups generated from the reaction between ozone and water.

However, since it is difficult to produce high-concentration ozone-dissolved water in conventional general devices, there is a disadvantage in that the hydroxyl generation efficiency is low.

In view of this, a hydroxyl generator and a method for producing hydroxyl-dissolved water using the same have been registered in Patent Registration No. 10-1269866. It is provided to bring in and take out water.

This results in an increase in the size of the hydroxyl group and the operating cost.

In view of this point, a fluid type water grinding device used in a hydroxyl generator has been proposed in Patent Application No. 10-2016-0005105.

Looking at it, the fluid type water grinding device used in the conventional general hydroxyl generator is a pump that transfers water using pressure, an inlet connected to the pump and formed for the inflow of water, an outlet for discharging the pulverized water, A detachable point that enables, a pipe-shaped crushing case portion including projections configured in the form of embossing at regular intervals on the inside, and a screw thread taking a polygonal cross-sectional shape including a triangle inside the crushing case portion is formed in a spiral shape, water flows in and rotates along the flow path between the screw threads, and the water molecule crushing part in which water is pulverized into water molecules by the frictional force that hits the screw thread and the vortex due to rotation, and the screw thread formed in the water molecule crushing part forms a triangle Taking a cross-sectional shape of a polygonal shape including a first threaded portion formed in a spiral shape, a second threaded portion formed to be symmetrical with respect to a virtual plane at the center of the first threaded portion so that the phase is opposite, and a polygonal cross-sectional shape including a triangle , The spiral is formed in the form of at least one of the two-line screw parts formed in two lines, and the inside of the water molecule crushing part and the crushing case emits far-infrared rays and negative ions by the oxidation of hydrogen generated by electrolyzing water around the screw thread. A surface layer containing tourmaline to be released is formed to assist in pulverization of water molecules according to the transfer of water, thereby obtaining high-concentration dissolved water.

However, the fluid type water mill used in the conventional general hydroxyl generator constructed as described above has a surface layer containing tourmaline that emits and emits far-infrared rays and negative ions by the oxidation of hydrogen generated by electrolyzing water around the screw thread is formed inside the water molecule crushing unit and the crushing casing unit, but there is a disadvantage in that the water crushing function may be lost due to the surface layer peeling off over time.

Patent Application No. 10-2016-0005105, filing date; January 15, 2016

Accordingly, the present invention has been made to solve the above-mentioned problems, and an installation hole is formed in the central portion, and a plurality of water grinding plates having two rows of water grinding holes formed in a radial direction on one side of the installation hole are placed inside the housing for water grinding. By installing and configuring each overlapping structure, water supplied at high pressure from the water supply unit can be pulverized by a plurality of water crushing plates by passing water supplied from the water supply unit into the water crushing housing, and time and It relates to a water crushing device that can reduce costs.

Other objects of the present invention will become apparent as the technology progresses.

As a water crushing device of the present invention for achieving the above object, a water crushing housing 110 formed of a hollow tube having an inlet portion 110a and an outlet portion 110b at one end and the other end, and the water The water crushing means 120 installed inside the crushing housing 110 and capable of crushing the water introduced through the inlet part 110a, and once in the inlet part 110a of the water crushing housing 110 One end of the water crushing means 120 is supported by being fixedly connected to prevent leakage through the clamp, and the other end is connected to the supply pipe of the water supply unit for supplying water at high pressure to facilitate the flow of the water. It is characterized in that it includes a water guide member 130 provided to quickly guide the crushing means 120 side.

In addition, one end and the other end are fixedly connected to the outlet part 110b and the discharge pipe of the housing 110 for water grinding to prevent leakage through a clamp, thereby supporting the other end of the water grinding means 120 in one direction. It is characterized in that a pushing prevention means 140 is further provided to smoothly and quickly discharge the pulverized water while preventing it from being pushed.

In addition, the water crushing means 120 is overlapped with each other and formed in a circular plate shape so that it can be installed in the water crushing housing 110, and a water crushing hole is radiated on the plate so that it can be crushed while water flows. Provided to fix the water grinding plate 121 by installing a plurality of water grinding plates 121 formed and provided in two stages in the direction and passing through the center of the water grinding plate 121, respectively It is characterized by consisting of a fixing member 122 for the water grinding plate.

In addition, the water guiding member 130 is formed as a hollow tube, and the water crushing housing in which a water crushing means 120 including a plurality of water crushing plates 121 is installed inside one end and the other end outer circumferential surface A water guide pipe 131 having first and second connection flange parts 131a and 131b formed and provided so that they can be fixedly connected to the inlet part 110a of the 110 and the supply pipe via a clamp to prevent leakage, and A plurality of spiral water guide blades 132 formed on the inner surface of the water guide pipe 131 at regular intervals in a radial direction and provided to smoothly and quickly guide the supplied water to the water crushing means 120 side. ) characterized in that it consists of.

As described above, according to the water crushing device according to the present invention, an installation hole is formed in the central portion, and a plurality of water crushing plates having two rows of water crushing holes formed in a radial direction on one side of the installation hole are overlapped inside the water crushing housing. By installing the water supplied at high pressure from the water supply unit into the housing for crushing water, it is possible to easily obtain water crushed by a plurality of water crushing plates, and to save time and money for post-management. There is a potential for savings.

1 is an exploded perspective view showing a water grinding device according to the present invention.
Figure 2 is a perspective view showing a water grinding plate of the water grinding device according to the present invention.
Figure 3 is a combined cross-sectional view showing a water grinding device according to the present invention.
4 is a view showing a water guide member for another embodiment of a water crushing device according to the present invention.

Hereinafter, an embodiment of the water grinding device according to the present invention will be described in detail.

First of all, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals as much as possible. In describing the present invention, detailed descriptions of related known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

As shown, the water crushing device 100 according to the present invention includes a water crushing housing 110 formed of a hollow tube having an inlet portion 110a and an outlet portion 110b at one end and the other end, A water crushing means 120 installed inside the housing 110 for crushing water and capable of crushing water flowing in through the inlet part 110a, and an inlet part 110a of the housing 110 for crushing water One end of the water supply unit (not shown) supporting one end of the water crushing means 120 by being fixedly connected to prevent leakage via a clamp (not shown), and the other end supplying water at high pressure. It is connected to a supply pipe (not shown) and includes a water guide member 130 provided to guide the water crushing means 120 quickly and to generate a vortex.

In addition, one end and the other end of the water crushing housing 110 are fixedly connected to the outlet 110b and the discharge pipe (not shown) via a clamp to prevent leakage of the water crushing means 120. A pushing prevention means 140 is further provided to support the other end and prevent it from being pushed in one direction, and to quickly discharge the pulverized water.

Hereinafter, the water grinding device according to the present invention described above will be described in more detail with reference to the accompanying drawings 1 to 3.

First, the water crushing housing 110 of the water crushing device according to the present invention described above has a circular cross section so that the water crushing means can be installed therein, and one end and the other end have an inlet for inflow and discharge of water ( 110a) and the discharge portion 110b are formed and provided.

In addition, an inlet flange portion 111 and an outlet flange portion 112 are formed and provided at the inlet portion 110a and the discharge portion 110b of the housing 110 for water grinding.

In addition, the housing 110 for water grinding is made of stainless steel to prevent corrosion.

The water crushing means 120 is installed inside the housing 110 for crushing water and is provided to crush water introduced through the inlet part 110a.

That is, the water crushing means 120 are overlapped with each other and formed in a circular plate shape so that they can be installed in the water crushing housing 110, and the plate has holes for crushing water in a radial direction so that water can be crushed while water flows. A plurality of water grinding plates 121 formed and provided in two stages, respectively, and provided to fix the water grinding plate 121 by being installed through the central portion of the water grinding plate 121, respectively It consists of a fixing member 122 for the water crushing plate.

Here, the water crushing plate 121 has a polygonal fixing hole 121a formed in the center thereof, and cutting three directions of the first concentric circle having a larger diameter than the fixing hole 121a by a predetermined length to obtain the first A cutting portion 121b is formed, and the six directions of the second concentric circles, which are larger than the first concentric circle and smaller than the total diameter, are cut by a predetermined length, and three of the six directions are cut so as to partially overlap the first cutting portion 121b. After forming the second cutting portion 121c, between each of the first cutting portion 121b and the second cutting portion 121c, the second transmission portion 121c cut so that a portion overlaps the first cutting portion 121b. By protruding in one direction so that the first protrusion is formed, a first water crushing hole 121d is formed, and the remaining three-way second cutout 121c of the second cutout 121c is directed in the same direction as the first protrusion. A second water crushing hole 121e is formed and provided by protruding the second protrusion to be formed.

In addition, the water crushing plate 121 is composed of 20 to 28 pieces, preferably 24 pieces, so that water can be crushed as much as possible while the water is flowing.

In addition, the water grinding plate 121 is made of brass so that water grinding can be performed better by generating a potential difference.

The fixing member 122 for the water grinding plate has a polygonal cross section to prevent the water grinding plate 121 from rotating through the fixing hole 121a formed in the central portion of the water grinding plate 121, One end and the other end outer circumferential surface are provided with a threaded portion formed on the fixing bar 122a for the water grinding plate, and one end and the other end of the fixing bar 122a for the water grinding plate are coupled in a screw manner to the fixing bar 122a for the grinding plate. It consists of a separation prevention nut 122b provided to prevent the plurality of water grinding plates 121 from being separated from the water grinding plate fixing bar 122a.

The water guide member 130 supports one end of the water crushing means 120 by being fixedly connected to the inlet of the water crushing housing 110 so that one end is leak-proof via a clamp, and the other end is connected to a water supply unit for supplying water at high pressure and a supply hose so as to quickly guide water toward the water crushing means 120.

That is, the water guide member 130 is formed as a hollow tube, and one end and the other end outer circumferential surface are fixedly connected to the inlet 110a of the water crushing housing 110 and the supply pipe to prevent leakage through a clamp. water guide pipe 131 formed and provided with first and second connection flange portions 131a and 131b to provide a plurality of water guide pipes formed at regular intervals in the radial direction on the inner surface of the water guide pipe 131 and supplied with water It consists of a spiral water guide wing portion 132 provided to quickly guide the water crushing means 120 side.

At this time, one end of the water guide vane 132 is flush with the other end surface of the water guide pipe 131, and the other end is the water guide member 130 is the inlet of the water crushing housing 110. By being fixedly connected to (110a), it protrudes more than one end surface of the water guide pipe 131 so as to support the surface of the water crushing plate 121 provided on the first side of the water crushing means 120.

The pushing prevention means 140 has one end and the other end fixedly connected to the outlet 110b of the water grinding housing 110 and the discharge pipe via a clamp so as to prevent leakage, thereby reducing the water grinding means 120. Supporting one end of the water crushing means 120 is provided to quickly discharge the crushed water while preventing it from being pushed in one direction.

That is, the above-described slip prevention means 140 is formed as a hollow tube, and one end and the other end outer circumferential surface are fixedly connected to the outlet 110b of the water crushing housing 110 and the discharge pipe to prevent leakage through a clamp. The first and second flange parts 141a and 141b are formed and provided, and a plurality of anti-skid pipes 141 are formed at regular intervals in the radial direction on the inner circumferential surface of the anti-skip pipe 141 to supply water. It consists of a spiral anti-rolling wing 142 provided to quickly guide the discharge tube to generate a vortex.

At this time, one end of the anti-skip wing 142 forms the same surface as the other end surface of the anti-skip pipe 141, and the other end has the anti-skip unit 140 at the outlet of the water crushing housing 110. By being fixedly connected to the part 110b, it protrudes more than one end surface of the anti-skid pipe 141 so as to support one surface of the water crushing plate 121 provided on the outermost side of the water crushing means 120.

On the other hand, the water guide member 130 supports one end of the water crushing means 120 by being fixedly connected to one end of the water crushing housing 110 via a clamp to prevent leakage, and the other end supports the high pressure A water guide tube having a plurality of spiral water guide blades 132 radially formed on the inner circumferential surface so as to be connected to the water supply unit for supplying water and the supply hose to quickly guide the water toward the water crushing means 120 ( 131), but is not limited thereto, and as shown in FIG. 4, one end of the water grinding housing is fixed to the inside while supporting one surface of the water grinding plate provided on the first side of the water grinding means. It may also be configured to guide the water to the side of the water crushing plate quickly and so that a vortex is generated.

That is, the water guide member 1300 includes a water guide ring member 1310 formed in a ring shape so that one end of the water crushing housing 110 is inserted into the inside and fixed by welding, and the water guide ring member 1310 is provided. One end is fixed to the inner circumferential surface of the member 1310, and the other end protrudes in one direction and is formed in plurality in a radial direction, spirally to quickly guide the water supplied through the supply pipe to the water crushing means 120 side. It is composed of a spiral member 1320 for water guide formed and provided.

Here, the water guide spiral member 1320 is inclined at an angle of 40 ° to 50 ° toward the center of the water guide ring member 1310 so as to quickly guide the water to the water crushing means 120 side. As such, it is preferably provided inclined at an angle of 45 °.

And, the above-described slip prevention means 140 may also be configured in the same way as the water guide member 1300 composed of the water guide ring member 1310 and the water guide spiral member 1320.

In the case of pulverizing the water supplied at high pressure through the supply pipe from the water supply unit through the water crushing device according to the present invention made as described above, as shown in FIGS. 1 to 3 in the accompanying drawings, the water guide member 130 When water is supplied through the water guide pipe 131, the supplied water quickly and vortex is generated by the spiral water guide blades 132 formed on the inner circumferential surface of the water guide pipe 131. Housing for crushing water Water is introduced into the housing 110 for crushing water through the inlet portion 110a of 110.

The water introduced into the water crushing housing 110 is pulverized through the water crushing means 120 and discharged through the anti-skimming means 140 connected to the outlet 110b of the water crushing housing 110 and pulverized. water can be obtained.

That is, the water introduced into the water crushing housing 110 overlaps the first water crushing holes 121d and the second water crushing holes 121e formed in the 24 water crushing plates 121, respectively. While passing through, the water is pulverized in the process of repeated refraction and rotation while colliding with the inner and outer walls of the first and second protrusions.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100; Water crusher 110; Housing for water grinding
120; water crushing means 130; water guide member
140; jungle prevention means

Claims (9)

As a water crusher,
a water crushing housing 110 formed of a hollow tube having an inlet portion 110a and an outlet portion 110b at one end and the other end;
a water crushing means 120 installed inside the water crushing housing 110 and capable of crushing water introduced through the inlet part 110a;
One end of the water crushing means 120 is supported by being fixedly connected to the inlet 110a of the water crushing housing 110 via a clamp to prevent leakage, and the other end supplies water at high pressure. It is connected to the supply pipe of the water supply unit to include a water guide member 130 provided to quickly guide the water toward the water crushing means 120,
The water crushing means 120 is formed in a circular plate shape so that it can be installed in the water crushing housing 110 while being overlapped with each other. A plurality of water grinding plates 121 each formed in stages and installed through the central portion of the water grinding plates 121, respectively, so that the water grinding plates 121 can be fixed. Consisting of a plate fixing member 122,
The water crushing plate 121 has a polygonal fixing hole 121a formed in the center thereof, and a first cutting portion 121b by cutting three directions of a first concentric circle having a larger diameter than the fixing hole 121a by a predetermined length. ) is formed, and the six directions of the second concentric circles, which are larger than the first concentric circles and smaller than the total diameter, are cut by a predetermined length, and three directions of the six directions are cut so as to partially overlap the first cut portion 121b, thereby forming a second concentric circle. After forming the cutting portion 121c, the first protruding portion between the second transmission portion 121c cut so as to partially overlap the first cutting portion 121b among the first and second cutting portions 121b and 121c By protruding in one direction to form a first water crushing hole 121d, the remaining three-way second cutout 121c of the second cutout 121c is moved in the same direction as the first protrusion. A second water crushing hole 121e is formed and provided by protruding to form,
The water crushing plate 121 is composed of 20 to 28 pieces so that water can be crushed as much as possible while the water is flowing, and the water crushing plate 121 is made of brass so that water can be better crushed by generating a potential difference. Water crusher, characterized in that configured.
According to claim 1,
One end and the other end are fixedly connected to the outlet part 110b of the water grinding housing 110 and the discharge pipe via a clamp to prevent leaks, thereby supporting the other end of the water grinding means 120 and pushing it in one direction. Water crushing device, characterized in that the rolling prevention means 140 is further provided so that the crushed water can be quickly discharged while preventing.
delete According to claim 1,
The water guide member 130 is formed of a hollow tube, and the water crushing housing 110 in which a water crushing means 120 including a plurality of water crushing plates 121 is installed on one end and the other end outer circumferential surface A water guide pipe 131 provided with first and second connecting flange parts 131a and 131b formed and provided so that they can be fixedly connected to the inlet part 110a and the supply pipe through a clamp to prevent leakage of the water, and the water guide pipe It is characterized in that it consists of a spiral water guide wing portion 132 provided to quickly guide the water supplied to the inner surface of the inner surface of the 131 at regular intervals in the radial direction to quickly guide the supplied water to the side of the water crushing means 120 water crusher.
According to claim 2,
The slip prevention means 140 is formed as a hollow tube, and one end and the other end outer circumferential surface can be fixedly connected to the outlet 110b of the water crushing housing 110 and the discharge pipe via a clamp to prevent leakage. The first and second flange portions 141a and 141b are formed and provided, and a plurality of anti-skid pipes 141 are formed at regular intervals in the radial direction on the inner surface of the anti-skip pipes 141, and the supplied water is discharged. Water crushing device, characterized in that consisting of a spiral anti-slip wing 142 provided to quickly guide to observation.
delete According to claim 4,
One end of the water guide wing part 132 forms the same plane as the other end surface of the water guide pipe 131, and the other end has the water guide member 130 formed on the inlet part 110a of the housing 110 for water grinding. Characterized in that it protrudes more than one end surface of the water guide pipe 131 so as to be able to support the surface of the water crushing plate 121 provided on the first side of the water crushing means 120 by being fixedly connected to water crusher.
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