KR20180131735A - Nozzle for family use having buffer zone - Google Patents

Abstract

The present invention provides a nozzle for a household having a buffer zone, enabling water introduced from a tap to a storage space of a housing to continuously pass a plurality of first water compression holes, a buffer zone, an eddy generation zone generating an eddy current and turbulence, and a plurality of second water compression holes having a smaller inner diameter than the first water compression hole to prevent agglomeration of microcells and repeat compression, expansion, and explosion to miniature bubbles contained in the water at μm units and reduce a loss of internal pressure to minimize a loss of water pressure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a domestic nozzle having a buffer zone,

The present invention relates to a household nozzle having a buffer zone, and more particularly, to a household nozzle having a buffer zone, and more particularly, to a household nozzle having a plurality of first water compressors, a buffer zone, Through a second vortex generating zone having an inner diameter to generate vortex and turbulence and a second plurality of water vents having a smaller inner diameter than the first water vortex to prevent compacting of the minute bubbles, The present invention relates to a domestic nozzle having a buffer zone capable of repeating an explosion so as to refine bubbles contained in water in the order of micrometers and to reduce internal pressure loss to minimize water pressure loss of discharged water.

Recently, as the amount of fine dust increases, there is a need for a method that can more efficiently remove waste materials and foreign substances when washing the surface of a toilet, shower, or food.

For this purpose, some techniques have been disclosed to more effectively remove waste products and foreign substances by using fine bubbles generated by installing a micro bubble generator in a faucet.

Conventional micro-bubble generating devices include a method using an impact type or a swirl type nozzle or a method using a micro-pore filter.

The micro-bubble generating device using the impact type nozzle simply causes the gas-liquid mixture to collide with the impact plate, and breaks the gaseous gas particles by this action to refine.

However, the method using the impact type nozzle requires not only a high pressure of 5 to 20 bar but also a large flow loss, a large number of nozzles and a bulky mixing tank, so that the structure and equipment of the apparatus become very complicated There are disadvantages.

The micro bubble generator using the swing type nozzle can not generate micro bubbles with a single nozzle like the impact type nozzle system and requires a high pressure and a bulky mixing tank. The structure and facilities of the apparatus are very complicated.

As described above, the impact type nozzle system and the tilting nozzle type micro-bubble generator are complicated in structure and equipment, and thus are difficult to be applied to general household faucets, and the manufacturing cost is increased.

In addition, the conventional micro-bubble generating apparatus using the micro-pore filter has a disadvantage that the problem of filter clogging occurs and maintenance is troublesome, and the efficiency of bubble generation of the apparatus is lowered when the use time is accumulated.

Meanwhile, a technique for generating minute bubbles by providing a miniaturized micro-bubble generating nozzle between a shower and a faucet has been disclosed. However, since the conventional micro-bubble generating nozzle generates pressure loss in the course of generating minute bubbles, There is a problem that the water stem finally discharged through the hose or the like is weakened, which is inconvenient when used in a bathtub, a water tank, or a kitchen in the home.

In addition, since the microbubbles generally have a property of aggregating with each other, there may arise a problem that the size of the generated microbubbles increases unexpectedly.

Also, in the process of generating minute bubbles, some of the minute bubble generating nozzles may be shaken by the water pressure, causing noise.

Korean Utility Model Registration No. 20-0432582

It is an object of the present invention to simplify the structure and facilities of a device because a bulky mixing tank is not required, so that it can be easily applied to a household faucet, as well as to reduce manufacturing cost and prevent accumulation of fine bubbles And it is an object of the present invention to provide a domestic nozzle having a buffer zone capable of increasing the efficiency of generation of minute bubbles contained in water by reducing microbubbles and reducing the internal pressure loss of the apparatus and reducing the water pressure loss of water.

A household nozzle having a buffer zone according to an embodiment of the present invention is a nozzle for finely bubbling bubbles contained in water introduced from a faucet and discharging the bubbles, the nozzle having an upper and lower accommodation space, A housing having a faucet connection portion and a water discharge portion communicating with the accommodation space, respectively; And a first bubble generating member, an inner diameter adjusting spacer, and a second bubble generating member inserted into the accommodating space in this order from the inflow direction of water; Wherein the first bubbling member includes: a first body having a diameter corresponding to an inner diameter of the accommodation space; A plurality of first water compressing holes formed in the first body in a vertical direction; And a first groove formed inside the lower portion of the first body; Wherein the inner diameter adjusting spacer comprises: a support body having an upper and lower sleeve zones in communication with the first water compression unit and having an outer circumferential surface closely inserted into the first groove unit; And the second bubbling member has a diameter corresponding to an inner diameter of the accommodating space, and the upper end of the second bubbling member is in close contact with the lower surface of the nozzle gasket And a plurality of second water compression openings formed in the second body in a vertical direction and having a smaller inner diameter than the first water compression openings, A second groove portion having a larger inner diameter than that of the buffer zone and communicating with the buffer zone is formed so that a zone is formed in the buffer zone, And the second water condensing unit and the water discharging unit are repeatedly compressed, expanded and exploded while being repeatedly passed through the first compression unit, the buffer zone, the vortex formation zone, the plurality of second water compression units and the water discharge unit, And preventing the minute bubbles from being clumped by turbulence. The present invention also provides a household nozzle having a buffer zone.

According to a preferred aspect of the present invention, the apparatus may further include a spacer provided between the upper end of the receiving space of the housing and the upper end of the first bubble generating member so as to secure a water pressure holding space.

According to a preferred aspect of the present invention, the plurality of first water compression ports may be formed parallel to each other in the first body.

According to a preferred aspect of the present invention, the plurality of first water compression openings may be formed in a shape inclining obliquely toward the center in the first body.

According to a preferred aspect of the present invention, the maximum diameter of the region where the first water compressors are formed in the first body is smaller than the maximum diameter of the region where the second water compressors are formed in the second body, The compression wells may be disposed at a wider spacing than the second water compression wells.

According to a preferred aspect of the present invention, the upper and lower thicknesses of the first body excluding the first groove and the upper and lower thickness of the second body excluding the second groove are equal to each other, The upper and lower depths of the buffer zone and the vortex generation zone are equal to each other, and the upper and lower depths of the buffer zone and the vortex generation zone are different from each other in the vertical thickness of the portion excluding the first groove portion in the first body, / 2. ≪ / RTI >

According to a preferred aspect of the present invention, the housing comprises: a first body having a lower end opened and having a receiving space and a faucet connection; A second body having an upper opening and a water discharging portion and coupled to a lower end of the first body; . ≪ / RTI >

The domestic nozzle having the buffer zone according to the embodiment of the present invention can simplify the structure and the facilities of the apparatus because a bulky mixing tank is not needed, so that it can be easily applied to a faucet of a domestic bathroom or a kitchen, Expansion, and explosion are performed twice while preventing the minute bubbles from being clumped by the vortex generation zone, thereby greatly improving the efficiency of fine bubble generation. In addition, a buffer zone is formed inside the housing,

In addition, since the housing has the coupling structure of the first and second bodies, the nozzle inserts the first bubble generating member, the inner diameter adjusting spacer, and the second bubble generating member in order into the first body, Since the housing is completed by closing the housing space of the housing, the structure is simple and easy to produce, and the consumer can purchase the components inside the housing separately and use the housing by directly mounting it inside the housing.

In addition, it is possible to prevent the shaking and noise generated in the process of micro-bubbles to improve the stability, and by reducing the internal pressure loss by the buffer zone, the water pressure loss of the water is minimized so that the discharged water stem can be prevented from weakening.

Therefore, when the household nozzle having the buffer zone of the present embodiment is applied, it is effective for improving skin beauty in a shower or cleansing, and even when fruits or dishes are washed in the kitchen, the water can be cleaned more cleanly by the action of micro- .

1 is a perspective view schematically showing a shower apparatus to which a household nozzle having a buffer zone is applied according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view schematically showing an embodiment of the domestic nozzle in FIG. 1;
FIG. 3 is an exploded perspective view schematically showing the first bubble generating member, the inner diameter adjusting spacer, and the second bubble generating member in FIG. 2. FIG.
4 is a cross-sectional view schematically showing another embodiment in which a spacer is added to Fig.
5 is a cross-sectional view schematically showing a modified example of the first bubble generating member in FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the following embodiments.

The embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings may be exaggerated for clarity of description, and the elements denoted by the same reference numerals in the drawings are the same elements. In the drawings, like reference numerals are used throughout the drawings.

In addition, to include an element throughout the specification does not exclude other elements unless specifically stated otherwise, but may include other elements.

In this embodiment, for convenience of description, the direction in which water is supplied from the water supply is set to the upper side and the direction in which the water is discharged to the hose is set to the lower side will be described.

1 is a perspective view schematically showing a shower apparatus to which a household nozzle having a buffer zone is applied according to an embodiment of the present invention.

Referring to FIG. 1, a shower apparatus to which a household nozzle having a buffer zone according to the present embodiment is applied includes a household nozzle 100 for finishing bubbles contained in water introduced from the faucet 200, And a showerhead 11 provided at one end of the hose 12. The shower head 11 is provided with a hose 12 having a predetermined length for discharging water containing fine bubbles generated by the hose 12,

Fig. 2 is a cross-sectional view schematically showing one embodiment of the household nozzle in Fig. 1, and Fig. 3 is an exploded perspective view schematically showing a first bubble generating member, an inner diameter adjusting spacer and a second bubble generating member in Fig. 2 .

2 and 3, the domestic nozzle 100 according to the present embodiment finely forms bubbles contained in water introduced from the faucet 200 and discharges the bubbles toward the hose 12, A housing having an opened accommodation space, and a first bubble generating member 120, an inner diameter adjusting spacer 140, and a second bubble generating member 130 in this order from the inflow direction of water into the accommodation space.

The housing includes first and second bodies (111, 113) which are respectively provided at the upper and lower ends thereof with a faucet connecting portion (112) and a water discharging portion to communicate with the receiving space, .

The first body 111 has a first hollow portion having a lower end opened and an upper and a lower opened portion serving as a receiving space, and a thread (not shown) may be formed on the lower end outer surface.

The first body 111 includes a faucet connection part 112. The faucet connection part 112 is a part that protrudes upward from the upper end of the first body 111 and is inserted into the faucet. The faucet connection portion 112 has a second hollow portion 114 communicating with the first hollow portion 114 and an inner diameter of the second hollow portion 114 is formed to correspond to a diameter of the household faucet applied to the present embodiment . In addition, a thread may be formed on the inner circumferential surface of the second hollow portion 114 when necessary.

Meanwhile, the faucet 200 applied to the present embodiment may have threads formed on the outer circumferential surface of one end thereof so as to be screwed with the threads formed on the inner circumferential surface of the faucet connection portion 112. Further, a watertight packing (not shown) may be further interposed between the second hollow portion 114 and the inserted faucet 200 in order to further secure water tightness, if necessary. According to this structure, if the water is blown after connecting the faucet 200 to the second hollow part 114, the water flows into the housing through the second hollow part 114 and the first hollow part of the first body 111 do.

The second body 113 has a third hollow portion 115 which is opened at an upper end and communicates with the first hollow portion of the first body 111. The second hollow portion 115 is coupled to the rear end of the first body 111, . The second body 113 may be formed with threads (not shown) such that the second body 113 is screwed to the upper inner circumferential surface of the first body 111 with threads formed on the outer circumferential surface of the rear end of the first body 111. At this time, the water-tight packing may be further provided in the threaded portion of the second body 113 to further secure the water-tightness.

A hose coupling portion (not shown) for coupling the hose may be provided at a rear end of the second body 113, if necessary. At this time, the hose coupling part may be formed with threads such that a member such as a coupling nut provided at one end of the hose 12 is inserted into and screwed to the outer peripheral surface of the hose coupling part.

According to this structure, after the first and second bodies 111 and 113 are separated from each other, the first bubble generating member 120, the inner diameter adjusting spacer 140, The bubble generating member 130 is inserted in order and then the second body 113 is coupled to the lower end of the first body 111 by screwing or the like so as to seal the inner housing space to complete the housing .

At this time, the first and second bodies 111 and 113 may be made of stainless steel, synthetic resin, or the like, which is preferably excellent in corrosion resistance. In addition, the first hollow portion may have a smaller inner diameter than the second hollow portion 114 and the third hollow portion 115. Hereinafter, the housing will be described together with the state where the first and second bodies 111 and 113 are coupled to each other.

The first bubble generating member 120 of the present embodiment includes a first body 121, a plurality of first water compression openings 123, and a first groove portion 122, which are installed on the upper side in the housing space of the housing, As shown in FIG. 3, the first and second grooves 122 and 124 are cylindrical in shape and have a flat top surface, but a first groove 122 corresponding to a hollow portion is formed on the bottom surface. The first body 121 has a diameter corresponding to the inner diameter of the receiving space (corresponding to the first space portion) of the first body 111 so that the outer circumferential surface thereof is closely attached to the upper inner wall of the first body 111. The plurality of first water compressing openings 123 are formed in the first body 121 at a predetermined interval D11 and are formed to be long along the vertical direction which is the moving direction of water so as to pass through the upper and lower surfaces of the first body 121 . The first groove portion 122 is a hollow portion formed inside the lower portion of the first body 121 and communicates with the plurality of first water compresses 123.

Accordingly, when the water introduced from the faucet passes through the housing space of the housing, the first bubble generating member 120 collides with the upper surface of the first body 121 and is divided into a plurality of first water compressing holes 123, and the inflow water is compressed while passing through the plurality of first water compressing openings 123. Thereafter, the water discharged into the large area (buffer zone to be described later) through the lower end of the first water condenser 123 rapidly expands instantaneously. At this time, the bubbles contained in the water explode, It is refined as a tea micro-organ.

The inner diameter adjusting spacer 140 of this embodiment includes a support 142 and a nozzle gasket 141. The support body 142 is provided with a buffer zone 116 having a diameter smaller than the inner diameter D of the accommodation space and communicating with the first water compression 123 in the vertical direction as a hollow portion.

At this time, the support 142 is inserted into the first groove 122 of the first bubble generating member 120, and the outer peripheral surface of the support 142 is tightly coupled to the inner wall of the first groove 122. At this time, the buffer zone 116 also communicates with a vortex generation zone of the second bubble generating member 130, which will be described later.

The nozzle gasket 141 is vertically protruded from the bottom edge of the support body 142 toward the inner wall of the first body 111 and the tip of the nozzle gasket 141 is in close contact with the inner wall of the first body 111. The lower end of the first body 121 is brought into close contact with the upper surface of the nozzle gasket 141 so that the second body of the second bubble generating member 130 and the first body 121 of the first bubble generating member 120 ) Of the nozzles are prevented from coming into contact with each other and absorbing the tolerance in the longitudinal direction of the nozzle to ensure the integrity of the product.

When the lower end of the first body 121 is tightly coupled between the inner wall of the first body 111 and the support 142 of the inner diameter adjusting spacer 140 and the water passes through the first water compression hole 123 The phenomenon of the first bubble generating member 120 being vibrated by the water pressure can be suppressed, and noise generation can be prevented.

The inner diameter adjusting spacer 140 configured as described above is configured such that the buffer zone 116 passes through the first water compression port 123 and expands when the compressed water is introduced so that the inner bubble is exploded, So that it can be generated.

Further, the water that has passed through the buffer zone 116 of the inner diameter adjusting spacer 140 moves into the vortex generation zone described later, and vortices and turbulence are formed. The vortex and turbulence formation will be described in more detail in the description of the second bubble generating member 130 below.

The second bubble generating member 130 is symmetrical with the first bubble generating member and includes a second body 131 and a plurality of second water compressing holes 133 And a second trench 132.

The second body 131 has a diameter corresponding to the inner diameter D of the receiving space of the first body 111 so that the outer circumferential surface thereof is closely attached to the lower inner wall of the first body 111, As shown in FIG. The plurality of second water compressing openings 133 are formed at a predetermined interval D12 in the second body 131 and are elongated along the vertical direction of the water moving direction so as to pass through the upper and lower surfaces of the second body 131 . At this time, the inner diameter of the second water compression hole 133 is formed to be relatively smaller than the inner diameter of the first water compression hole 123.

The second groove portion 132 is formed inside the upper portion of the second body 131, and the space provided inside is the vortex generation zone 118. At this time, the vortex generation zone 118 communicates with the buffer zone 116, and the inner diameter D2 of the vortex generation zone 118 is made relatively large as compared with the inner diameter D1 of the buffer zone 116.

The minute bubbles contained in the water collide with each other during the movement, and the bubbles are large in size. In this embodiment, when the water in which the primary micro bubbles are generated flows into the vortex generation zone 118 through the buffer zone 116 of the inner diameter adjustment spacer 140, due to the difference in inner diameter with the buffer zone 116 Vortex and turbulence are formed in the vortex generation zone 118 and the water is mixed with the primary microbubbles so that the primary microbubbles do not adhere to each other so that the size of the bubbles is prevented from being increased. In addition, Further, the amount of microbubbles generated in the water can be further increased.

The second bubble generating member 130 divides the water passing through the vortex generation zone 118 into the upper surface of the second body 131 and then flows through the plurality of second water compression openings 133, The water is further compressed while passing through the plurality of second water compression ports 133 to have a high water pressure

Thereafter, the water is discharged into the third space part 115 through the lower end of the second water condenser 133 and expanded again. At this time, the primary microbubbles contained in the water explode, It is refined. Since the inner diameter of the second water condenser 133 is smaller than the inner diameter of the first water condenser 123, the primary microbubbles included in the previously introduced water are divided into smaller secondary microcapsules, It is possible to improve the effect of miniaturization in units.

Meanwhile, an O-ring (not shown) may be inserted into the receiving space of the first body 111 before the second bubble generating member 130 is inserted into the first body 111. The O-ring basically improves the watertightness and can reduce errors in the total length of the first and second bubble generating members 120 and 130 and the internal length of the housing space of the housing. In addition, the O-ring is formed so that the first and second bubble generating members (120, 130) and the inner diameter adjusting spacer (140) are completely in close contact with each other in the housing space of the housing so that the first and second bubble generating members 120, and 130 can be minimally moved or shaken in the accommodation space and noise can be additionally prevented.

Meanwhile, the first and second bubble generating members 120 and 130 may be made of a brass material whose main material is copper. In this case, copper ions (Cu ^{2 +} ) generated by ionization in the water are generated, It is possible to further improve the effect of sterilizing pathogenic microorganisms. Particularly, since the buffer zone 116 and the vortex generation zone 118 are surrounded by brass, the sterilizing effect is increased in the process of passing through the zone.

When the first and second bubble generating members 120 and 130 are made of a metal such as brass, the first bubble generating member 120 and the second bubble generating member 130 may be formed of the same material as that of the first body 111 The first bubble generating member 120 or the second bubble generating member 130 may collide with each other with trembling as the flow of water and the pressure increase.

The nozzle gasket 141 of the inner diameter adjusting spacer 140 is formed in the first body 121 in the structure in which the first bubble generating member 120 and the second bubble generating member 130 are disposed to face each other, The first bubble generating member 120 and the second bubble generating member 120 can be separated from each other by the flow of water and the pressure described above to prevent direct friction between the first bubble generating member 120 and the second body 131, It is possible to prevent a reduction in stability and a rubbing noise that may occur due to collision with each other while shaking.

On the other hand, assuming that there is no inner diameter adjusting spacer inside the housing, since the first and second bubble generating members are directly opposed to each other with the middle portion opened, the vortex and turbulence Can not be expected to prevent the fine bubble aggregation.

Further, in the present embodiment, when the first and second bubbling members are preferably made of brass, the time for the water passing through the housing to stay inside the accommodation space by the vortex formation zone is increased, It is expected that the cleaning and disinfecting action by the brass component of the generating member becomes more active.

The maximum diameter of the first bubble generating member 120 in the right and left direction of the region where the first water compacts 123 are formed is smaller than the inner diameter of the buffer zone 116 of the inner diameter adjusting spacer 140 As shown in FIG. The maximum diameter in the left-right direction of the region where the second water compacts 133 are formed in the second body 131 of the second bubble generating member 130 can be substantially matched with the inner diameter of the vortex generation zone 118.

That is, the maximum diameter of the region in which the first water compression openings 123 are formed in the first body 121 of the first bubble generating member 120 is larger than the maximum diameter of the second bubble generating member 130 in the second body 131 2 water compression openings 133 are formed. The distance D11 between the first water compressing ports 123 may be larger than the distance D12 between the second water compressing ports 133. [

Therefore, one of the first water compressing ports 123 has a smaller total number of inner diameters than the one second water compressing port 133 than the total number of the second water compressing ports 133, The inner diameter of the water compression port 133 is relatively smaller than that of one of the first water compression ports 123 but the total number of the water compression ports 133 is larger than the total number of the first water compression ports 123 so that the pressure loss is substantially the same Therefore, it is possible to reduce the overall pressure loss and solve problems such as occurrence of vibration due to imbalance of pressure loss and vibration. In other words, since the one second water compression port 133 has a relatively smaller inner diameter than the one first water compression port 123, the pressure loss is larger, but the number of the larger pressure losses is larger, Do.

Hereinafter, with reference to Fig. 2, the numerical relationship of each component will be further described in this embodiment.

The thickness of the first body 121 excluding the first groove 122 may be 1/10 of D, with respect to the inner diameter D of the first body 111, have. Further, the thickness of the support 142 of the inner diameter adjusting spacer 140 may be 1/5 of D. The thickness D3 of the second body 131 of the second bubble generating member 130 excluding the thickness of the second trench 132 may be 1/10 of D. The thickness D3 of the portion of the first body 121 other than the first groove 122 and the thickness of the second groove 131 of the second body 131 may be substantially the same . In this case, since the thicknesses of the first and second bodies which are in close contact with the upper and lower surfaces of the nozzle gasket are the same, it is effective in preventing the vibration and suppressing the noise and also the effect of offsetting the pressure loss of the first bubble generating member and the second bubble generating member. .

The thickness L1 of the portion of the first body 121 excluding the first groove portion 122 and the portion of the second body 131 excluding the second groove portion 132 in the vertical direction are different from each other Can be the same. With this thickness L1 as a reference, the depth in the vertical direction of the buffer zone 116 and the vortex generation zone 118 are equal to each other and can be 1/2 of L1.

The household nozzle 100 of the present embodiment having the above-described structure is small in size and simple in installation, so that it can be easily applied to a household faucet. The second bubble generating member 130 having the first bubble generating member 120 having the plurality of first water compressing ports 123, the inner diameter adjusting spacer 140 and the plurality of second water compressing ports 133, The inner diameter of the second water compression port 133 is formed smaller than the inner diameter of the first water compression port 123 and the inner diameter of the buffer zone 116 provided in the inner diameter adjustment spacer 140 is formed in the vortex generation zone 118, the compression, expansion, and explosion actions are performed two times while preventing the fine bubbles from being clumped, so that the efficiency of generating fine bubbles can be greatly improved. It also reduces the internal pressure loss and prevents the water stem from weakening when the incoming water from the faucet is discharged.

The micro-bubbles generate energy and free radicals from the internal pressure of the bubbles through the self-pressurizing effect, thereby sterilizing various microorganisms such as Escherichia coli or pathogenic bacteria such as food poisoning bacteria , The increase of the specific surface area increases the electrification effect and the organic matter can be adsorbed electrostatically.

The household nozzle of this embodiment can be applied to bathroom faucets, tap water faucets, sink tap faucets, and the like. When the household micro-bubble generating nozzle of the present embodiment is applied to bathroom faucets, it is possible to use a nut between the shower head and the hose of the shower, or use a nut between the faucet of the bathroom faucet and the hose of the shower to use it have. In this case, the massage effect of micro-bubbles and the effect of forming a skin moisturizing film can help improve skin beauty and blood circulation.

Further, the household nozzle of this embodiment can be applied to a faucet of a washstand. Therefore, skin beauty improvement and blood circulation effect can be expected by the microbubbles at the time of cleansing.

Further, the household nozzle of this embodiment can be applied to a faucet of a sink. Therefore, when the fruit or the dishwashing operation is performed in the kitchen, the frictional action of the fine bubbles can provide a cleaner effect of washing or washing dishes.

4, the household nozzle 100 'according to another embodiment of the present invention is formed in a ring shape between the upper end of the receiving space of the housing and the upper end of the first bubble generating member 120 The spacer 150 may be additionally provided.

The spacer 150 is installed in close contact with the inner wall of the first body 111 in the space 117 between the upper end of the first body 111 and the first bubble generating member 120, An additional buffer zone (water pressure holding space) having a predetermined thickness is formed to increase the water pressure of the water introduced from the faucet.

Therefore, it is possible to relatively minimize the pressure loss due to the first water compressors 123, and thus it is possible to more effectively prevent the water pressure of the water finally discharged through the water discharge portion from becoming weak.

At this time, the thickness of the spacer 150 may be 1/10 of D, based on the inner diameter D of the first body 111. The vertical length L3 of the space 117 formed by the spacer 150 can be 3/10 of L1 with reference to L1. The space 117 may have a stepped shape with the second space 114.

5 is a cross-sectional view schematically showing a modified example of the first bubble generating member in FIG.

The first water compressors 123 of the embodiment shown in Figs. 2 and 4 are formed parallel to each other in the left-right direction within the first body 121. Fig. 5, the household nozzle 100 '' of another embodiment of the present invention is configured such that the first water compression port 123 'of the first bubble generating member 120' As shown in FIG. When the first water compression port 123 'is formed in the form of a tapered corrugate as a whole, water is discharged through the lower end of the first water compression port 123', and vortices and turbulent flows are also generated in the buffer zone 116 It is possible to more effectively prevent the phenomenon that the primary fine bubbles are bundled together while further increasing the amount of the primary fine bubbles.

The present invention is not limited to the above-described embodiments and the accompanying drawings, but is intended to be limited only by the appended claims. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. something to do.

11: Shower head
12: Hose
100, 100 ', 100 ": Household nozzle
111: first body
112: faucet connection
113: second body
114: second hollow portion
115: third hollow portion
116: buffer zone
117: Space
118: vortex generation zone
120, 120 ': a first bubble generating member
121: 1st body
122: first groove
123, 123 ': the first water compactor
130: Second bubble generating member
131: Second body
132: second groove
133: Second water compactor
140: inner diameter adjusting spacer
141: Nozzle gasket
142:
150: Spacer
200: Faucet

Claims (7)

A nozzle for making fine bubbles contained in water introduced from a faucet and discharging the bubbles,
Wherein the nozzle includes: a housing having upper and lower receiving spaces; upper and lower end portions each having a faucet connecting portion and a water discharging portion communicating with the receiving space; And a first bubble generating member, an inner diameter adjusting spacer, and a second bubble generating member inserted into the accommodating space in this order from the inflow direction of water; / RTI >
The first bubbling member includes: a first body having a diameter corresponding to an inner diameter of the accommodation space; A plurality of first water compressing holes formed in the first body in a vertical direction; And a first groove formed inside the lower portion of the first body; Lt; / RTI >
Wherein the inner diameter adjusting spacer includes: a support having an upper and lower sleeve portion and a buffer zone communicating with the first water pressure portion, the outer periphery of the support portion being inserted into the first groove portion in close contact therewith; And a nozzle gasket protruding from the inner wall of the housing,
The second bubbling member having a diameter corresponding to an inner diameter of the accommodating space and having an upper end closely attached to a lower surface of the nozzle gasket; And a plurality of second water compressing holes formed in the second body in a vertical direction, and having a smaller inner diameter than the first water compressing holes; Lt; / RTI >
A second groove portion having an inner diameter larger than that of the buffer zone and communicating with the buffer zone is formed in the upper portion of the second body so as to have a vortex generation zone,
Wherein the bubbles of water introduced through the faucet connection portion are compressed, expanded and exploded while continuously passing through the plurality of first compression compartments, the buffer zone, the vortex formation zone, the plurality of second water compression compartments and the water discharge portion And the fine bubbles are refined repeatedly in the order of micrometers so as to prevent the fine bubbles from being clustered by vortices and turbulence when passing through the vortex formation zone. The bubble generating apparatus according to claim 1, further comprising a spacer provided so as to secure a water pressure holding space between an upper end of the receiving space of the housing and an upper end of the first bubble generating member Nozzle. The household nozzle according to claim 1, wherein the plurality of first water compression ports are formed parallel to each other in the first body. The household nozzle according to claim 1, wherein the plurality of first water compression ports are formed in a shape inclined obliquely toward the center in the first body. The method of claim 1, wherein the maximum diameter of the region in which the first water compressors are formed in the first body is smaller than the maximum diameter of the region in which the second water compressors are formed in the second body,
Wherein the first water compressors are arranged at a wider interval than the second water compressors. The method of claim 1, wherein the thickness of the first body excluding the first groove is equal to the thickness of the second body excluding the second groove,
The depths of the buffer zone and the vortex generation zone are equal to each other,
Wherein the upper and lower depths of the buffer zone and the vortex generation zone are 1/2 of the upper and lower thickness of the portion of the first body excluding the first groove portion or the upper and lower thickness of the portion of the second body excluding the second groove portion. Household nozzle with zone. [2] The apparatus of claim 1, wherein the housing comprises: a first body having a lower end opened and having a receiving space and a faucet connection; A second body having an upper opening and a water discharging portion and coupled to a lower end of the first body; Wherein the buffer zone comprises a plurality of nozzles.

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