WO2015194818A1 - Dispositif d'introduction de bulles - Google Patents

Dispositif d'introduction de bulles Download PDF

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Publication number
WO2015194818A1
WO2015194818A1 PCT/KR2015/006047 KR2015006047W WO2015194818A1 WO 2015194818 A1 WO2015194818 A1 WO 2015194818A1 KR 2015006047 W KR2015006047 W KR 2015006047W WO 2015194818 A1 WO2015194818 A1 WO 2015194818A1
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WIPO (PCT)
Prior art keywords
cylinder
foam
cleaning liquid
air
water
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PCT/KR2015/006047
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English (en)
Korean (ko)
Inventor
강현덕
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강현덕
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Application filed by 강현덕 filed Critical 강현덕
Publication of WO2015194818A1 publication Critical patent/WO2015194818A1/fr

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    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03DWATER-CLOSETS OR URINALS WITH FLUSHING DEVICES; FLUSHING VALVES THEREFOR
    • E03D9/00Sanitary or other accessories for lavatories ; Devices for cleaning or disinfecting the toilet room or the toilet bowl; Devices for eliminating smells
    • E03D9/02Devices adding a disinfecting, deodorising, or cleaning agent to the water while flushing

Definitions

  • the present invention relates to a foam supply device which is provided with a second cylinder for generating a first passage foam in which a cleaning liquid is stored, and is easily detachable to a left side equipped with a water tank.
  • a foam supply device installed in a conventional toilet seat is disclosed in Korean Patent Laid-Open No. 10-2006-0039421.
  • Korean Patent Laid-Open Publication No. 10-2006-0039421 discloses a toilet comprising a container filled with a foamed liquid of a solid or liquid foam on one side of a water tank, and then, whenever water is replenished The foaming agent is fused and discharged into a predetermined amount of washing water, and foam is generated when the washing water is replenished to the inside of the toilet due to the discharge flow rate of the washing water.
  • the foam generating device for replenishing the foamed wash water in the inside of the toilet is fixed to one side of the inside of the water tank and an outlet for discharging the foaming agent is provided on the upper side,
  • a foaming agent filling container provided with a pressurizing portion operated by external pressurization so that the foaming agent filling container can be opened;
  • a pressing lever which is positioned above the pressing portion and whose other side is connected and fixed to the connecting lever; .
  • the pressure lever presses the pressing portion to discharge a small amount of the foam generating agent.
  • the pressure lever can be operated by being connected and fixed to the connecting lever integrated with the water lowering lever .
  • the bubbles are generated by the discharge flow rate of the washing water when the water is dropped, the bubbles can not be generated without falling down the water, the bubbles are not generated well, and the amount of bubbles can not be controlled.
  • Korean Patent Registration No. 10-0755747 discloses a toilet seat type toilet seat.
  • the foam supply device 1 of the fork-type toilet seat is a foam generation device for a toilet-type toilet seat provided with an outer cylinder 10;
  • a hole 22 is formed in the outer surface of the outer tube 10 and connected to the foam supply lines 24a and 24b on the outer surface of the portion where the foam is floated and the inner tube 20 having an open shape at the bottom is provided;
  • One end of the water supply line 32 is connected to the water supply part 30 and the other end is provided with a water quantity control valve 34 for supplying water to the inside of the outer cylinder 10, Controlled by an associated buoy 36;
  • One end of the air supply line 42 is connected to the air supply unit 40 and the other end is placed in the inner space of the inner cylinder 20.
  • the air supply line 42 is provided with an air volume control valve 44 , And a check valve (46) for preventing back flow from the inner cylinder (20) when the air supply part (40) is stopped;
  • the drug supply line 52 connects the inside of the outer tube 10 and the drug supply line 52 is manually passed through the adjusting pin 52a to adjust the opening cross sectional area of the drug supply line 52
  • a medicine amount regulating valve 54 having a transparent outer case for regulating the amount of the medicine to be supplied is provided.
  • the inner tube 20 is located inside the outer tube 10 and a pore 22 is formed on the outer surface of the portion where the foam is flocculated and connected to the foam supply lines 24a and 24b.
  • a pore 22 may be formed on the closed top surface of the inner tube 20.
  • the lower portion of the inner tube 20 is in an open shape. The opened lower portion of the inner tube 20 protrudes from the lower surface of the outer tube 10 so that the water is allowed to enter and exit without being resisted.
  • One end of the water supply line 32 is connected to the water supply part 30 and the other end is provided with a water quantity control valve 34 for supplying water to the inside of the outer cylinder 10, And is controlled by an associated buoy 36.
  • the drug supply line 52 connects the inside of the outer tube 10 and the drug supply line 52 is manually passed through the adjusting pin 52a to adjust the opening cross sectional area of the drug supply line 52
  • a medicine amount regulating valve 54 having a transparent outer case for regulating the amount of the medicine to be supplied is provided.
  • the user can manually control the air amount control valve 44 and the medicine amount control valve 54 while directly observing the foam generation state inside the inner cylinder 20 and the state where the foam flows into the left side machine, 10 and the inner tube 20 are made of a transparent material.
  • the air supply unit 40 is provided outside the toilet 10 in order to reduce the noise level recognized by the user as the noise generated by the air supply unit 40 reaches.
  • the outer tube 10 is provided at a rear portion of the toilet body and an opening 12 for the foam supply line 24 is provided at an upper portion of the side surface of the outer tube 10 facing the toilet body.
  • a perfume liquid tank (60) is provided on the upper part of the chemical tank.
  • the perfume liquid tank (60) is provided with a perfume liquid amount regulating valve (60) having a transparent outer case for regulating the flow amount of the perfume emitting liquid Is connected to the inside of the outer cylinder (10) by a perfume liquid supply line (62) provided with a perfume liquid supply line (64).
  • a cap (81) for injecting the medicine into the upper part of the chemical tank and the chemical agent may be one selected from the group consisting of an alcohol surfactant or a necanol which is an alcohol surfactant.
  • the conventional foam supplying device is a foam supplying device of a fork-type toilet seat, and has a separate outer tube for storing water, and a chemical tank for storing a passing-through drug that generates bubbles is disposed intricately inside and outside of the outer tube . Therefore, there is a problem in that it is difficult to install the water storage tank at a left side equipped with a conventional water storage tank.
  • the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a foam supply device capable of generating and supplying foam without water- have.
  • the present invention provides a foam supply device for supplying foam to a left side of a toilet, comprising: a first cylinder in which a cleaning liquid is stored; And a second cylinder for generating bubbles, wherein the first cylinder and the second cylinder are detachably coupled to the inside of the left-hand side water tank.
  • first passage and the second passage are integrally formed.
  • the bubble generation unit is disposed in parallel with the first passage, and the discharge unit is formed on the foam generation unit and is coupled to the overflow pipe of the left-hand side. .
  • the second cylinder is detachably coupled to the overflow pipe at the left side, and the bubble is discharged to the overflow tube.
  • the controller may further include a controller for controlling supply of the foam to the toilet bowl at the left side, wherein the controller controls air supplied to the second cylinder.
  • the air is supplied to the first cylinder, and the cleaning liquid moves to the second cylinder.
  • control member capable of adjusting the amount of the cleaning liquid supplied to the second cylinder.
  • a bubble generating member for generating bubbles is formed in the second cylinder, and the air is supplied to the bubble generating member to generate the bubbles.
  • the present invention has the following effects.
  • the bubbles are generated in the second tank and can be used by being detachably connected to the inside of the water tank of the left side lid.
  • the bubble of the second bin is supplied to the toilet bowl of the left-hand side through the overflow pipe, and the control unit can control the supply of the bubbles by controlling the air supplied to the second bin so that the user can easily supply bubbles have. Therefore, the bubbles applied inside the toilet bowl serve as a cushion, so that when the toilet is used (stool / urine) and the bidet, dirt is splashed and the contamination inside and around the toilet can be reduced. In addition, odor can be reduced by minimizing exposure to air in the feces and urine, and it is possible to promote the sanitary environment of the toilet by reducing the scattering of air in the stool and urine molecules by discharging the bubbles around the feces and urine even when flushing have. When the toilet bowl is not used, the cleaning liquid is excellent because the cleaning liquid in the form of foam is applied to almost every place in the toilet bowl for a long time to dissolve dirt.
  • the bubble generating member is formed in the second cylinder to generate bubbles through the supply of air, so that the bubbles can be easily supplied.
  • FIG. 1 is a perspective view showing a conventional foam supply device.
  • FIG. 2 is a perspective view of a foam supply device according to a preferred embodiment of the present invention.
  • FIG. 3 is a perspective view showing an internal structure of the first and second cylinders
  • Fig. 4 is an exploded perspective view of Fig. 2; Fig.
  • FIG. 5 is a sectional view taken along the line A-A in Fig.
  • FIG. 6 is a sectional view taken along the line B-B in Fig. 2;
  • FIG. 7 is a front view showing a state in which the foam supply device is installed in the water tank of the left-hand side.
  • Fig. 8 is an operational state diagram of the foam supply device installed at the left side.
  • Fig. 9 is an operational state view showing an enlarged view of the water tank in Fig. 8; Fig.
  • FIG. 2 is a perspective view of a foam supply device according to a preferred embodiment of the present invention
  • FIG. 3 is a perspective view showing the internal structure of the first and second containers
  • FIG. 4 is an exploded perspective view of FIG. 2
  • Fig. 6 is a sectional view taken along the line BB of Fig. 2
  • Fig. 7 is a front view showing a state where the foam supply device is installed in a water tank at the left side
  • Fig. 8 is an operational state diagram of the foam supply device installed at the left side
  • Fig. 9 is an operational state view showing the water tank enlarged in Fig.
  • the foam supply device 100 includes a first cylinder 200 in which a cleaning liquid is stored, and a second cylinder 300 in which foam is generated. .
  • the first cylinder 200 and the second cylinder 300 are detachably coupled to the inside of the water tank 650 of the left side machine 600.
  • control unit 500 further includes a control unit 500 for controlling the supply of bubbles to the toilet bowl 601 of the toilet seat 600.
  • the first cylinder 200 and the second cylinder 300 are detachably coupled to the inside of the water tank 650 to have a compact construction effect that does not damage the external appearance of the left cylinder 600.
  • Fig. 2 if it is integrally formed, it is more compact and easier to attach and detach.
  • the first cylinder 200 is formed in a rectangular shape, and a cleaning liquid is stored therein.
  • a second cylinder (300) is coupled to one side of the first cylinder (200) to form an integral body.
  • the lower portion of the first cylinder 200 is narrower than the upper portion of the first cylinder 200.
  • a cylindrical cleaning liquid input portion 210 is formed on the upper portion of the first cylinder 200. So the cleaning liquid is injected.
  • the cleaning liquid input portion 210 is opened / closed by the lid 211.
  • a storage space 250 is formed in the first cylinder 200 so that the cleaning liquid can be stored therein.
  • a first air supply pipe 230 and a cleaning liquid supply pipe 220 are formed on one side of the storage space 250 adjacent to the second cylinder 300.
  • the first air supply pipe 230 is formed in the upper part of the interior of the first cylinder 200, and the cleaning liquid supply pipe 220 is formed in the lower part.
  • the first air supply pipe (230) communicates with the second air supply pipe (311) formed in the second cylinder (300). More specifically, the first air supply pipe 230 branches off from the upper portion of the second air supply pipe 311, passes through the side of the second cylinder 300 and the side of the first cylinder 200, As shown in FIG.
  • An outlet through which the air is discharged from the first air supply pipe 230 is arranged to face upward.
  • the upper end of the first air supply pipe 230 is spaced apart from the upper inner surface of the first cylinder 200.
  • a cleaning liquid supply pipe 220 is formed below the storage space 250.
  • the cleaning liquid supply pipe 220 is vertically formed from the lower part to the upper part of the first cylinder 200. And extends to the upper portion of the second cylinder 300 after passing through the adjacent side surfaces of the first cylinder 200 and the second cylinder 300.
  • the lower surface of the cleaning liquid supply pipe 220 disposed in the first chamber 200 is spaced apart from the inner bottom surface of the first chamber 200 and a first inlet 222 through which the cleaning liquid flows is formed.
  • a check valve is formed on the upper portion of the cleaning liquid supply pipe 220 disposed in the first cylinder 200. So that the cleaning liquid is moved from the first cylinder 200 to the second cylinder 300, that is, only in one direction.
  • the cleaning liquid supply pipe 220 disposed in the first cylinder 200 protrudes to the inside of the second cylinder 300 through the side surfaces of the first cylinder 200 and the second cylinder 300. And the control member formed on the upper portion of the second cylinder (300).
  • the washer fluid stored in the first cylinder 200 is pressurized in the lower direction of the first cylinder 200.
  • the cleaning liquid flows through the first inlet 222 of the cleaning liquid supply pipe 220 and moves upward along the cleaning liquid supply pipe 220 to pass through the first check valve 221, And is introduced into the regulating member.
  • the first check valve 221 is configured so that the rinse solution flows only in one direction, preventing the rinse solution from flowing back to the first cylinder 200 from the regulating member.
  • the second cylinder 300 is formed in a rectangular shape at one side of the first cylinder 200 and integrally formed with the first cylinder 200.
  • the second cylinder 300 includes a foam generator 301 for receiving the rinse liquid from the first cylinder 200 to generate foam and a discharge unit 380 for discharging the foam to the overflow pipe 651 .
  • the outer shape of the foam generator 301 is formed in a rectangular shape.
  • An air inlet pipe 310 bent in a shape is protruded from the upper surface of the foam generator 301. Thus, air flows from the control unit 500.
  • the air inlet pipe 310 is connected to the second air supply pipe 311 formed inside the foam generation unit 301 through the upper surface of the foam generation unit 301.
  • the second air supply pipe 311 is formed to extend from the upper portion to the lower portion of the foam generating portion 301.
  • the upper portion of the second air supply pipe 311 is connected to the first air supply pipe 230 And the air introduced into the second air supply pipe 311 is also branched into the first air supply pipe 230.
  • the lower portion of the second air supply pipe 311 is connected to the lower portion of the bubble generating member 350, as shown in Figs.
  • air is supplied to the lower portion of the bubble generating member 350.
  • the control member is formed on the upper portion of the second cylinder 300, that is, the foam generating unit 301 to adjust the amount of the cleaning liquid supplied to the lower portion of the bubble generating member 350.
  • control member will be described in detail below.
  • the adjustment member includes a cylindrical adjustment member cylinder 321 disposed to pass through the upper surface of the foam generation section 301, and a control member cylinder 322 disposed above the adjustment member cylinder 321 A control valve 322 for controlling the amount of the cleaning liquid, a discharge pipe 323 horizontally formed on the front side of the adjustment member case 321 to discharge the cleaning liquid, and a funnel- And a hopper 324.
  • the adjustment member cylinder 321 is formed in a cylindrical shape on the upper portion of the second cylinder 300, that is, the foam generating portion 301.
  • the adjustment member cylinder 321 is a hollow cylinder whose center is vertically penetrated.
  • the upper part of the adjusting member cylinder 321 protrudes upward through the upper surface of the foam generating part 301 and the lower part protrudes to the upper inside of the foam generating part 301.
  • the lower portion of the adjustment member cylinder 321 is connected to the upper portion of the cleaning liquid supply pipe 220 so that the cleaning liquid flows from the cleaning liquid supply pipe 220.
  • a regulating valve 322 is disposed above the regulating member cylinder 321 so that the regulating valve 322 is inserted into the regulating member cylinder 321.
  • the upper portion of the regulating valve 322 is formed into a cylindrical shape, and the lower portion is formed into a fin shape having a diameter narrower than that of the upper portion. So that the lower portion of the regulating valve 322 is inserted into the regulating member cylinder 321.
  • the degree to which the control valve 322 is inserted into the adjustment member cylinder 321 while rotating is adjusted.
  • a discharge pipe 323 is formed at a lower front side of the adjustment member case 321.
  • the user can adjust the degree to which the control valve 322 is inserted so that the amount of the cleaning liquid discharged from the adjustment member cylinder 321 to the discharge pipe 323 can be adjusted.
  • a circular through hole 326 is formed in the lower portion of the discharge pipe 323. [ Thus, the cleaning liquid discharged from the discharge pipe 323 flows into the hopper 324 through the through hole 326.
  • the hopper 324 is formed into a funnel shape whose width becomes narrower from the upper part to the lower part.
  • the hopper 324 includes an upper hopper 324a formed below the discharge pipe 323 and a lower hopper 324b formed in a triangular shape at a lower side of the upper hopper 324a.
  • the upper hopper 324a is formed in a funnel shape. That is, the upper periphery of the upper hopper 324a is formed to be larger than the diameter of the through hole 326, and the width of the periphery thereof becomes narrower toward the lower side, and is inclined rearwardly.
  • the lower hopper 324b is formed in a triangular shape at a lower side of one side of the upper hopper 324a.
  • the lower surface of the lower hopper 324b is formed as a hypotenuse inclined toward the lower rear side to guide the cleaning liquid into the upper portion of the liquid transfer path 340.
  • the cleaning liquid flowing into the hopper 324 passes through the lower hopper 324b via the upper hopper 324a and drops the cleaning liquid to the upper portion of the liquid transfer path 340 located below the lower hopper 324b.
  • control member can adjust the cleaning liquid supplied to the liquid transfer path 340 in droplet units. That is, the user can adjust the amount of the cleaning liquid supplied to the lower portion of the second cylinder 300 using the control valve 322 of the control member.
  • a liquid transfer path 340 through which the cleaning liquid moves is vertically and vertically formed.
  • the liquid transfer path 340 has a rectangular bar shape and is formed as a hollow through which the center passes vertically. The cleaning liquid thus flows into the upper portion of the liquid transfer path 340 and moves to the lower portion of the liquid transfer path 340.
  • the upper portion of the liquid transfer path 340 is preferably formed so as to have a larger circumference than the lower portion in order to facilitate the inflow of the cleaning liquid.
  • a discharge port 341 through which the cleaning liquid is discharged is formed under the liquid transfer path 340.
  • the discharge port 341 is formed in a rectangular shape below the side surface of the liquid transfer path 340.
  • the discharge port 341 is formed on the side surface of the liquid transfer path 340 and is formed on the side surface adjacent to the bubble generating member 350.
  • the discharge port 341 is disposed below the bubble generating member 350 so that the cleaning liquid is supplied to the lower side of the bubble generating member 350 through the discharge port 341.
  • the bubble generating member 350 is formed in a cylindrical shape and disposed at the lower end of the second air supply pipe 311.
  • the bubble generating member 350 is formed of a porous material and generates air bubbles when air is supplied to the lower portion of the bubble generating member 350 from the second air supply pipe 311.
  • the bubble generating member 350 generates bubbles, and bubbles are generated in the bubbles generating unit 301.
  • a vertical plate 351 is formed in front of the bubble generating member 350.
  • the vertical plate 351 is formed in a rectangular shape and is disposed spaced forward from the bubble generating member 350.
  • the vertical plate 351 narrows the passage through which the fluid around the bubble generating member 350 passes and increases the speed of the fluid. This promotes the mixing of water and cleaning liquid.
  • the fluid in the foam generator 301 rotates around the vertical plate 351, and foam is more easily generated.
  • a circular second check valve 303 is formed at a lower portion of the rear surface of the second cylinder 300, that is, at a lower portion of the rear surface of the foam generating portion 301.
  • the second check valve 303 is preferably formed of a swing type check valve.
  • the second check valve 303 flows only from the water tank 650 to the bubble generating unit 301 so that the fluid flows only in one direction and the fluid flows from the bubble generating unit 301 to the water tank 650 Thereby blocking the discharge.
  • a circular hole 305 is formed in an upper portion of the rear surface of the second cylinder 300, that is, on the rear surface of the foam generating portion 301.
  • the hole 305 is formed through the rear surface of the foam generating portion 301.
  • the hole 305 is located below the through hole 326 and above the lower portion of the hopper 324 as shown in Fig.
  • the water inside the second tub 300 rises up to the through hole 326 when the toilet 600 flushes Lt; / RTI >
  • the average water level in the water tank 650 is set excessively high.
  • the hole 305 is a preliminary hole for preventing water overflow into the through hole 326, which may possibly occur when flushing the toilet paper 600.
  • a circular third check valve 304 is formed on the side of the second cylinder 300, that is, the side of the bubble generator 301.
  • the third check valve 304 is also formed of a swing type check valve so that the fluid flows in only one direction. Air is introduced into the foam generator 301 through the third check valve 304.
  • the average water level in the foam generator 301 is defined as the water level at which water is stored in the water tank 650 when the toilet seat 600 is used. That is, the level of the float 654 stops rising.
  • the third check valve 304 is located above the average water level of the water filled in the foam generating section 301.
  • a first space 360 is formed in the interior of the foam generator 301, that is, above the bubble generating member 350.
  • the bubbles generated in the bubble generation unit 301 are transferred to the second space 385 of the discharge unit 380 through the first space 360, And is discharged to the toilet bowl 601 through the overflow pipe 651 of the left side machine 600 connected to the coupling adapter 382.
  • the discharge portion 380 is formed on the front left side of the bubble generating portion 301. Fig. That is, the discharge portion 380 is disposed between the first cylinder 200 and the second cylinder 300.
  • the discharge part 380 is formed to protrude from the upper part of the foam generating part 301 in the direction of the first cylinder 200, and is communicated with the first space 360 A second space 385 is formed.
  • a cylindrical replenishment water supply part 383 is formed on the discharge part 380.
  • the replenishment water supply unit 383 is disposed on the upper side of the second space 385 and protrudes from the upper surface of the discharge unit 380.
  • a replenishing water hose 652 is coupled to the upper part of the replenishing water supplying section 383 to supply replenishment water. Replenishment water is supplied to the second space 385 through the replenishment water supply unit 383 and moves to the overflow pipe 651.
  • a cylindrical coupling cylinder 381 is formed below the second space 385.
  • a cylindrical coupling adapter 382 is inserted into the coupling cylinder 381 at the lower portion of the coupling cylinder 381 and coupled thereto.
  • An overflow pipe 651 is inserted and coupled to a lower portion of the coupling adapter 382.
  • the foam and the makeup water introduced into the second space 385 are supplied to the overflow pipe 651 through the coupling barrel 381 and the coupling adapter 382.
  • the coupling adapter 382 serves as an intermediate connection portion for coupling the overflow pipe 651 of the left side machine 600 to the lower portion of the coupling cylinder 381.
  • a third space 384 is formed in a lower portion of the coupling adapter 382, and an overflow pipe 651 is disposed. That is, the overflow pipe 651 is coupled to the lower portion of the coupling adapter 382 and is located in the third space 384.
  • the first bent part 240 and the second bent part 241 are formed in the lower part of the first cylinder 200 and the second cylinder 300, respectively.
  • the first bent portion 240 and the second bent portion 241 are located below the third space 384.
  • the first bent portion 240 and the second bent portion 241 are formed by being bent perpendicularly in the inner direction of the first cylinder 200 and the second cylinder 300. Therefore, when the length of the overflow pipe 651 is short, it is possible to prevent the flushing stopper 653 formed on the bottom of the overflow pipe 651 from colliding.
  • the foam generator 301 is disposed in parallel with the first cylinder 200, and the discharge portion 380 is formed on the upper portion of the foam generator 301 and is coupled to the overflow pipe 651 . Therefore, the first cylinder 200 and the second cylinder 300 can be integrally formed compactly.
  • the first cylinder 200 and the second cylinder 300 are arranged side by side.
  • the second cylinder comprises a foam generator 301 disposed on the right side and a discharge portion 380 disposed in the center of the front.
  • the first cylinder 200 is disposed on the left side, and the foam generator 301 is disposed on the right side.
  • a discharge portion 380 is disposed at an upper portion between the first container 200 and the foam generating portion 301.
  • a third space 384 through which the overflow pipe 651 is inserted is formed in the lower part of the discharge part 380. Thus, when viewed from the front, it has a generally portal-shaped lower opening.
  • the center of gravity of the first and second cylinders 200 and 300 is efficiently distributed, and the first cylinder 200 and the second cylinder 300 can be easily and integrally formed compactly . Therefore, it is convenient to use and detach from the overflow pipe (651) inside the water tank (650).
  • control unit 500 is installed on the outside or adjacent wall surface of the water tank 650.
  • the control unit 500 includes an air pump 502, a fourth check valve 501, A timer and an infrared sensor.
  • control unit 500 includes a power cord 503 for receiving power for operation on one side.
  • the control unit 500 controls the air flowing into the air inflow pipe 310 from the air pump 502.
  • a fourth check valve 501 is formed between the air pump 502 and the air inlet pipe 310 so that air flows in only one direction.
  • air is prevented from flowing backward from the air inflow pipe 310 to the air pump 502.
  • the control unit 500 senses the operation of the user through an infrared sensor or the like and supplies air to the air inflow pipe 310, and air is supplied through the timer By controlling the amount of air supplied by adjusting the time, the foam supply of the foam supply device 100 is controlled.
  • left side lid 600 and the left side lid 600 is well known in the art including the above-described conventional techniques, and therefore, a detailed description thereof will be omitted in the present embodiment.
  • the toilet seat 600 supplies water in the water tank 650 to the toilet bowl 601 by opening the flushing stopper 653 under the water tank 650 by pressing the button 655 .
  • the replenishment water supply through the replenishing water hose 652 is regulated by the float 654 operating according to the water level inside the water tank 650.
  • the foam supply device 100 is installed inside a water tank 650 installed at the rear of the toilet bowl 601. More specifically, the foam supply device 100 is coupled to the upper portion of the overflow pipe 651. And the replenishing water hose 652 is coupled to the replenishing water supply portion 383 of the foam supply device 100.
  • the control unit 500 is installed outside the water tank 650.
  • the infrared sensor senses the movement and supplies air to the air inlet pipe 310.
  • the amount of air supplied to the air inlet pipe 310 is adjusted by adjusting the time for supplying the air through the timer of the controller 500.
  • the air supplied from the air pump 502 of the control unit 500 flows into the air inflow pipe 310.
  • the air supplied to the upper part of the first cylinder 200 pressurizes the cleaning liquid in the first cylinder 200 to allow the cleaning liquid to flow into the first inlet 222 under the cleaning liquid supply pipe 220. So that the cleaning liquid passes through the cleaning liquid supply pipe 220 and passes through the first check valve 221 and then reaches the regulating member including the regulating valve 322. [
  • the amount of the cleaning liquid supplied to the lower portion of the second cylinder 300, that is, the foam generating portion 301, can be controlled by operating the control valve 322 of the control member.
  • the cleaning liquid in the regulating member is dropped to the liquid transfer path 340 through the regulating member 321, the discharge pipe 323 and the hopper 324 in order.
  • the cleaning liquid that has passed through the liquid transfer path 340 is supplied to the lower portion of the bubble generating member 350.
  • the lower part of the second cylinder 300 that is, the lower part of the foam generating part 301 where the bubble generating member 350 is disposed, is supplied with water from the water tank 650 through the second check valve 303, 3 check valve 304 to the water level near the bottom. More specifically, the first space 360 under the third check valve 304 is filled with the water introduced into the second check valve 303, and the second space 385 on the third check valve 304 Is filled with the air that has flowed into the third check valve 304.
  • the generated foam moves to the second space 385 through the first space 360. And then supplied to the toilet bowl 601 through the overflow pipe 651 connected to the coupling adapter 382.
  • the design of the toilet seat 600 generally used in the water tank 650 can be easily installed and used in the water tank 650 without changing the design. That is, it can be easily mounted on the left side machine 600 equipped with the general type overflow pipe 651. And is disposed inside the water tank 650 so as not to damage the appearance of the toilet seat 600 and the beauty of the toilet.
  • the foam of the second cylinder 300 is supplied to the toilet bowl 601 of the toilet 600 through the overflow pipe 651 and the control unit 500 controls the air supplied to the second cylinder 300
  • the supply of bubbles can be controlled, and the user can easily supply the bubbles at any time without watering down. Therefore, the bubbles applied inside the toilet bowl 601 serve as a cushion, so that contamination of the inside and the periphery of the toilet can be reduced when the faeces (stool / urine) and the bidet are spouted.
  • odor can be reduced by minimizing exposure to air in the feces and urine, and it is possible to promote the sanitary environment of the toilet by reducing the scattering of air in the stool and urine molecules by discharging the bubbles around the feces and urine even when flushing have.
  • the cleaning liquid is excellent because the cleaning liquid in the form of foam is applied to almost every place in the toilet bowl (601) for a long time to dissolve dirt.
  • the bubbles are automatically applied to the discharge port of the toilet water which is difficult to apply the cleaning liquid during the manual cleaning using the toilet bowl or the like and to the portion where the acute angle is formed in the toilet bowl 601, it is possible to reduce the labor required to bend and apply a separate cleaning agent And can be kept clean by constantly rubbing through the foam. In addition, it is possible to maintain a more comfortable toilet air by adding a fragrance agent in consideration of a user's taste in a cleaning liquid to generate foam.
  • foam supply device 200 first tank
  • cleaning liquid supply pipe 221 first check valve
  • first inlet 230 first air supply pipe
  • first bent portion 241 second bent portion
  • 324a Upper hopper 324b: Lower hopper
  • exhaust port 350 bubble generating member
  • control unit 501 fourth check valve

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  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Water Supply & Treatment (AREA)
  • Sanitary Device For Flush Toilet (AREA)

Abstract

La présente invention concerne un dispositif d'introduction de bulles comportant un premier récipient dans lequel est stocké un liquide de nettoyage et un second récipient destiné à générer des bulles, de telle sorte que le dispositif peut être utilisé en étant facilement fixé à ou détaché d'une toilette pourvue d'un réservoir d'eau.
PCT/KR2015/006047 2014-06-17 2015-06-16 Dispositif d'introduction de bulles WO2015194818A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR10-2014-0073228 2014-06-17
KR1020140073228A KR101577681B1 (ko) 2014-06-17 2014-06-17 거품공급장치

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CN108661141A (zh) * 2018-07-11 2018-10-16 范良清 一种活氧泡沫洁厕节水消毒机

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KR101657438B1 (ko) * 2016-05-30 2016-09-19 박정길 악취제거 변기
KR101960730B1 (ko) 2017-12-20 2019-07-17 대림비앤코주식회사 비데용 버블 도포 장치

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KR100755747B1 (ko) * 2006-11-28 2007-09-05 뉴월드인텍(주) 포세식 좌변기
KR101025040B1 (ko) * 2010-10-06 2011-03-25 이엔후레쉬 주식회사 포세식 양변기
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JPH06169857A (ja) * 1992-10-28 1994-06-21 Nepon Kk 太陽電池を備えた泡洗式トイレ装置
JPH094025A (ja) * 1995-06-20 1997-01-07 Inax Corp 泡便器及び泡便器の制御方法
KR100755747B1 (ko) * 2006-11-28 2007-09-05 뉴월드인텍(주) 포세식 좌변기
KR101025040B1 (ko) * 2010-10-06 2011-03-25 이엔후레쉬 주식회사 포세식 양변기
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Publication number Priority date Publication date Assignee Title
CN108661141A (zh) * 2018-07-11 2018-10-16 范良清 一种活氧泡沫洁厕节水消毒机

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