TW201215747A - Toilet cleaning apparatus - Google Patents

Abstract

Provided is a toilet cleaning apparatus which performs excellently in discharging waste material etc., and which can clean a toilet satisfactorily with a small amount of cleaning water. A toilet cleaning apparatus (10) supplies cleaning water to a toilet main body (1) comprising a rim water outlet (4A) and a jet water outlet (7A). The toilet cleaning apparatus (10) is provided with: a water supply passage for supplying the cleaning water to the rim water outlet (4A) and the jet water outlet (7A); a valve unit (20) for changing supply destinations in such a way that, when toilet cleaning is carried out by discharging the cleaning water from the rim water outlet (4A) and the jet water outlet (7A), the cleaning water is first discharged from the rim water outlet (4A) and, in succession, the cleaning water is then discharged from the jet water outlet (7A); and a pressure accumulator (30) for discharging some of the cleaning water stored in a tank (33) from the rim water outlet (4A) and the remainder of the cleaning water from the jet water outlet (7A) in such a way that the amount of the cleaning water discharged from the rim water outlet (4A) and the jet water outlet (7A) is equal to or greater than a set amount.

Description

201215747 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a toilet washing apparatus. [Prior Art] Patent Document 1 discloses that a conventional toilet is washed straight. The toilet washing device supplies washing water to the toilet body. The body of the crying genus includes: a portion of the edge of the water; the edge of the water pipe is disposed at the upper end of the bowl; the edge; the edge of the water spout, along the edge of the water pipe, Jia Jia wash water; # The drain line is continuously disposed under the bowl portion _ nozzle 'to spray the washing water to the downstream side of the toilet drain line. , and the toilet washable farm has a unit. This valve unit has an edge opening and closing valve and an injection opening and closing valve. The edge switch and the upstream side of the injection opening are connected to the water supply source by the water supply line. The downstream side of the edge opening is connected to the edge water spout via the edge side water supply (4). The injection side _1 is connected to the spray (four) nozzle via the injection side water supply f path. The water supply pipeline is connected to the accumulator in the state of accumulating material. If the edge is sprayed with _ gorge, the service water flows into the tank, and the accumulator can store the washing water by accumulating pressure (4) by hydrostatic pressure. Further, if the edge opening/closing port or the mouth (4) is opened __, the accumulator can flow out the washing water stored in the tank under the pressure accumulation state, and add it to the washing water supplied from the water supply source, and from the edge water spout. Or spray water to spray the washing water. In order to wash the water from the edge spout and the jet spout, wash the 100127901 3 201215747 water for washing the toilet. Spray it in the order of the edge spout, the spout nozzle, and the edge spout. water. At this time, in the first discharge of the washing water from the edge water spout and the washing of the washing water from the jet spout, the washing water stored in the tank of the accumulator in the state of the accumulator is stored. It is attached to the wash water supplied from the water supply source. Further, the toilet washing apparatus completely discharges the washing water stored in the tank of the accumulator in a state of being stored by the discharge of the washing water from the edge spout. Therefore, the toilet cleaning device closes the edge opening and closing valve and the injection opening and closing valve before starting the discharge of the washing water from the jetting water outlet, and stores the washing water in the tank of the accumulator again in the state of the pressure accumulation. Inside. Thereafter, the toilet cleaning device opens the injection opening and closing valve and discharges the washing water from the injection nozzle. In this way, the toilet washing device can spray the washing water violently from the edge spout and wash the potty part without fail, and can discharge the washing water from the jet spout violently and discharge from the toilet drain pipe. Dirt and so on. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Patent Laid-Open Publication No. 2005-146602 (Draft of the Invention) However, in the toilet cleaning device disclosed in Patent Document 1, A time lag occurs between the discharge of the first washing water from the edge spout and the discharge of the washing water from the spout. In the toilet washing, it is preferred to start the self-injection water spray by raising the water level of the clean water in the potty portion to the highest water level by the discharge of the washing water from the edge mouth nozzle. The spout of the mouth wash water. In other words, by the water level of the washing water in the potty portion reaching the maximum water level, the maximum amount of the washing water in the potty portion and the water multiplying effect of the washing water sprayed from the jet nozzle can be used. The dirt is drained from the toilet drain line. In the toilet cleaning device, a time lag occurs between the discharge of the washing water from the initial edge water spout and the washing of the washing water from the initial jetting water. At the time when the washing water of the jetting spout is sprayed, the water level of the washing water in the potty portion is lower than the highest water level. Therefore, the toilet washing apparatus cannot utilize the positional energy of the washing water in the bowl portion to the utmost extent, and there is a possibility that the discharge performance of the dirt or the like is poor. In particular, when the amount of washing water is reduced in order to save water, there is a possibility that the discharge performance of dirt or the like is remarkably poor. The present invention has been made in view of the above-described conventional circumstances, and it is intended to provide a toilet cleaning device which is excellent in discharge performance of dirt and the like and which can be satisfactorily cleaned even if the amount of washing water is small. problem. (Means for Solving the Problem) The toilet washing device of the present invention supplies a water purifier to the toilet body, and the toilet body includes a potty portion 'edge water passage pipe, which is disposed at an inner circumference of the upper end portion of the bowl portion The edge nozzle nozzle sprays the washing water along the edge water passage; the toilet drain line is continuously disposed on the downstream side of the bowl portion; and the spray nozzle is used to drain the toilet drain line The jetting spout of the side washing water is characterized in that: 100127901 5 201215747 a water supply pipe that supplies washing water to the edge water spout and the jet spout; a water supply switching mechanism provided at the The water supply pipe sprays the washing water from the edge water spout first when the washing water is sprayed from the edge spout and the jet spout to continuously wash the washing water, and thereafter continuously from the above a jetting port for discharging the washing water to switch the water supply position; and a flow amplifying mechanism having a tank for communicating the washing water in communication with the water supply pipe, and so that the water jet from the edge is The flow rate of the washing water sprayed from the jetting nozzle is equal to or greater than a set value, and a part of the washing water stored in the tank is ejected from the edge spout, and a residual is ejected from the jet spout. section. In the toilet washing apparatus, the washing water stored in the tank is distributed to the edge water spout and the jet spout and discharged so that the flow rate becomes equal to or higher than the set value. Therefore, when the toilet washing device is used for washing the toilet, the flow rate of the washing water sprayed from the water outlet and the spray nozzle can be set to a value higher than the set value, and the washing from the edge water spout can be continuously performed. The squirting of the purified water and the washing of the washing water from the jetting nozzle. Thereby, the discharge of the washing water from the jetting nozzle can be started by discharging the washing water from the edge water spout to bring the water level of the washing water in the bowl portion to the highest water level. In other words, since the washing water can be ejected from the jet spout in a state in which the position of the washing water in the potty portion can be maximized, the maximum energy of the washing water in the potty portion and the self-injection spout can be achieved. The synergistic effect of the water potential of the sprayed washing water, even if the washing water is small, 100127901 6 201215747 can also drain the dirt well from the drain pipe. Furthermore, the term "flow rate" refers to the amount of water that passes through a unit of time. Therefore, the row (four) of the scales placed in the material of the present invention can be excellently washed, and the toilet is washed even if the amount of washing water is small. [Embodiment] A preferred embodiment of the present invention will be described. The flow of Shuming is magnified _ if it is Zhu Jia. Including: a groove that expands the volume by the washing water flowing from the water supply pipe, and an elastic body that imparts an elastic force in a direction in which the groove product is reduced. ^Pipe coffee, the dragon can be washed by the water (4) == the volume of the body's miscellaneous silk, and the _ money will be downstream of the water supply pipeline _, then the storage (four) can be within 7 Wash water added - water pipe (four) flow washing water. , ΙΓ The accumulator can be used in the makeup of the power source, and the face is smashed like this. The squirting washing material (4) New:: money, mouth faucet and the 'day's daily flow rate domain structure (4) contains trough hiding. At that time, the money is reduced to the same as the shaft pump, II can make: The washing water in the tank will spray water from the edge σ to enlarge the flow rate of the stored washing water to above the set value. The nozzle is sprayed in the present invention, so that the flow rate from the nozzle of the mouth nozzle can be more than that of the washing nozzle of the light nozzle, and the washing material of (4) can be appropriately distributed to Edge 100127901 201215747 Spray spout to eject. That is, the washing water sprayed from the jet nozzle is used to discharge dirt or the like from the toilet drain pipe by causing a siphon action or the like in the toilet drain pipe by the water potential. Therefore, it is preferred that the washing water sprayed from the jet nozzle is ejected as violently as possible at the beginning of the start of the water spray. On the other hand, the washing water sprayed from the edge spout is intended to clean the surface of the potty portion without any omission, even if the initial water potential of the washing water ejected from the jet spout is weaker, Wash the surface of the potty section missing. Further, the amount of water of the washing water stored in the remaining portion of the tank which is ejected from the jetting nozzle is increased and is larger than the washing water which is ejected from the edge spout and stored in a portion of the tank. The amount of water, and the amount of water sprayed from the jet nozzle is greater than the amount of water sprayed from the edge spout. In this case, the washing water stored in the tank can be appropriately knifed to the edge water spout and the spray water σ and ejected. That is, the washing water sprayed from the jet water spout is used to cause the siphon to act on the toilet drain pipe to generate, continue, etc., and discharge the dirt from the toilet drain pipe. Therefore, it is preferable that the self-jet spray = sprayed washing water is as much water as possible. On the other hand, the washing water from the edge spray is intended to clean the surface of the potty portion without any omission, even if the father washes the surface of the potty portion from the jet nozzle. There is less water, and there is no need to leak and #/(, the water s road contains the upstream side of the water supply line connecting the water supply source, the downstream side of the water supply line of the water line iitr side, and the injection side water supply road and Edge side water supply line, 100127901 8 201215747 The above flow amplification mechanism can be connected to the injection side water supply line. In this case, the flow path from the flow amplification mechanism to the injection nozzle is shorter, so it can be reduced to both. The pressure loss of the washing water flowing between them. Therefore, the washing device can make the washing water flowing out from the flow discharge into the city structure violently (4) out of the jet spout. #这, It can be easily transferred to the water f road. The water supply switching mechanism includes: an injection opening and closing valve for opening and closing the upper side injection side supply road 'edge switch' for opening and closing the edge side K & and a control device. And controlling the opening and closing of the injection opening and closing valve and the edge opening/closing valve, and providing the in-vibration valve 'the injection side i on the upstream side of the injection injection valve, and the water official road communicating with the flow amplification mechanism And set The injection-side water supply line 'on the upstream side of the communication portion of the machine-wide amplification mechanism allows the flow of the large flow toward the downstream side of the nozzle-side water supply line' and allows a small flow toward the upstream side. Flow. When the mt shape is used, the flow rate adjustment valve can make the self-flow amplifying mechanism flow out + the first water purification machine sprays the washing water from the edge water spout when it is less than the spray = water water. Therefore, The initial flow rate of the washing water from the mouth of the nozzle can be easily realized by a simple structure, and the flow rate of the washing water sprayed from the edge spout can be made larger, or the self-injection spout can be ejected first. Jc 7]c is larger than the amount of water sprayed from the edge nozzle. The following is a description of an embodiment of the toilet cleaning device 100127901 9 201215747 of the present invention. <Embodiment> The toilet washing device 10 of the embodiment supplies washing water to the toilet body 1 as shown in Fig. 2 and Fig. 2. The toilet body 1 includes a bowl portion 2, an edge water passage 3, and an edge water spout 4A. , toilet drainage line 6, and spray In the toilet body 1, the edge water passage 3 is provided in a shed shape on the inner periphery of the upper end opening portion of the bowl portion 2. The edge nozzle nozzle 4 is attached to the front end of the edge nozzle 4 to open π As seen from the front end f side of the bowl portion 2, the edge mouthpiece 4 is disposed at the corner (4) of the left rear side of the bowl portion 2. The side (4) mouth 4 and the edge side water supply pipe forming part of the edge side water supply line are recognized. The downstream end portion is connected. The edge water spray pipe 3 is sprayed from the edge water spray π4Α, and the edge of the upper end of the bowl portion 2 is rotated in the direction of the upper end of the bowl portion 2, and flows downward into the bowl portion 2. Therefore, if When the edge mouth nozzle 4A discharges the washing water, the center portion of the bowl portion 2 is turned into a knob and the water level of the washing water in the bowl portion 2 rises. In the toilet body 1, a toilet drain line 6 is provided in connection with the lower side of the bowl portion 2. The toilet drain pipe 6 includes: an ascending flow path in which the lower portion of the crotch portion 2 extends rearward and obliquely upward, and a descending flow path that is bent downward from the upper end portion of the work axis and extends vertically downward. The jet spout 7A is attached to the rising surface opening of the toilet drain line 6 by the spray nozzle 7^7. The spray nozzle nozzle 7 forms a cut-off water supply tubular "; injection

Knife spray side water supply pipe 8A 100127901 201215747 under / cup crotch connection. The washing water sprayed from the jet water spout 7A fills the ascending flow path of the drain pipe 6 and flows to the downstream side of the toilet drain pipe 6. As shown in Fig. 3 and Fig. 4, the toilet washing device 1A includes a valve unit 20 as a water supply switching mechanism and an accumulator 30 as a flow rate amplifying mechanism. The valve unit 20 and the accumulator 3, which are the toilet washing device 10, are attached to the rear portion of the toilet body 1, and are covered by the upper cover 11C and a lower cover (not shown) to cover the upper side and the side. The upper cover 11C is attached to the upper side of the toilet body ,, and is rotatably supported by the toilet seat 11A and the toilet cover UB. The lower cover is attached to the rear side of the toilet body 1. As shown in Fig. 3 and Fig. 4, the valve unit 2 includes an upstream side flow path and an injection side flow path 8b and an edge side flow path 5B which are formed by branching the downstream end of the upstream side flow path 9B. The upstream side flow path 9B extends in the vertical direction. The injection-side flow path 8B extends in the horizontal direction from the upper end portion of the downstream end of the upstream side flow path 9B, and is bent upward, and extends in the vertical direction via the injection opening and closing valve 21. The edge side flow path 5B extends from the upper end portion of the downstream end of the upstream side flow path 9B in the opposite direction to the portion extending in the horizontal direction of the injection side flow path 8B, and is bent upward toward the upper side, and the edge is opened _22. Extends in the up and down direction. The upstream side muscle path 9B has an upstream side connecting portion 9C formed as a lower portion of the upstream end. The upstream side connecting portion 9C is a water supply pipe 9A that connects the material supply water source. The upstream water supply line is constituted by the upstream side flow path 9b, the upstream side connection portion 9C, and the water supply pipe 9A. The upstream side flow path 9B houses a filter 100127901 201215747 25. The shouting n25 can be set from the lower end of the _9B side of the flow path 9B to the top of the mountain. 26 ώ The upper end is configured with a stop %. Check valve Taniguchi. The water flows from the upstream side to the downstream side and can be prevented from flowing backward. The injection side grip 8 has an injection side joint 48 which is formed as an upper side of the downstream end, and a sloping scale portion 8 (the squirting side water supply pipe is connected. Thus, the injection side water supply line is ejected by the injection side flow path 8B' The side joint portion % is formed by the injection side i' water s 8A. Further, the upstream side water supply line and the nozzle side water supply line (4) are supplied to the water supply line of the washing water toward the cutting material σ 7 . 8B is extended from the upper end portion of the upstream side flow path 9B in the horizontal direction k. |5 minutes' and the flow rate adjustment valve 23 is accommodated on the upstream side of the stomach curved portion c which is curved upward. The flow rate adjustment valve 23 includes: The valve body 23A is abutted against a valve seat portion provided to expand the diameter of the injection side flow path 8B from the downstream side, and a coil spring 23C that imparts an elastic force to the direction in which the adjustment valve body L _ the seat portion 8D abuts The flow regulating valve 23 is configured such that the regulating valve body 23A is separated from the valve seat portion 8 when the washing water flows from the upstream side to the downstream side. Therefore, the flow regulating valve 23 is allowed to face the downstream side of the injection side water supply line On the other hand, in the flow rate adjusting valve 23, when the washing water flows from the downstream side to the upstream side, the regulating valve body 23a is positioned in the valve seat portion 8D, and the washing water is only in the small hole 23B. Therefore, the flow rate adjustment valve 23 allows a small flow rate toward the upstream side of the injection side water supply line. 100127901 201215747 The injection side flow path 8B is formed at the lower end of the bend (four) c to communicate with the accumulator via the water supply and drain pipe 31. In addition, the nozzle-side flow path 8B is formed with a partial washing water supply line S for supplying washing water to a partial washing device (not shown) on the side surface portion of the curved portion c. The flow path 8B is provided on the downstream side of the curved portion C, and the lower portion of the portion extending in the vertical direction is provided with an injection opening/closing port for opening and closing the injection-side water supply line. The injection opening and closing valve 21 includes a diaphragm type Main 阙 21 八, for the first main valve 21A to leave. The fixed i-th valve seat 21β, the third back pressure chamber 21C formed behind the first main room 21A, and the third main valve and the main valve The second drain of the 21A is connected to the second drain line 2id, so that the third drain official road 21D is opened. The first pilot valve 21E opens and closes the first solenoid 21F that is driven by the i-th guide. The i-th main valve 21A is provided with the i-th back pressure chamber 21C and the primary side of the first main valve 21A. The first hole solenoid 21F is driven by the opening and closing signal transmitted from the control device 24. The injection opening and closing valve 21 configured as described above opens and closes the injection side water supply line as described below. When the solenoid 21F receives the valve opening signal from the control device 24, the first solenoid 21F is driven to open the first drain line 21D. Thus, the first back pressure chamber 21c is cleaned. The water is drained from the first drain line 21D to the secondary side of the first main valve 21A. Thereby, the pressure of the washing water applied to the surface on the opposite side of the first main valve 21A is higher than that of the surface on the opposite side of the first main valve 21A, and the second main valve 21A is from the first 100127901 13 201215747 valve seat. 21B leaves and the injection opening and closing valve 21 is opened. On the other hand, if the first solenoid 21F receives the closing signal from the control unit 24, the first solenoid is driven to close the first pilot valve 2HD. Then, the washing water flows from the second sub-main room 2U to the first through the i-th hole 2K5! Inside the back pressure chamber 21c. Thereby, the pressure applied to the i-th chamber 21 of the i-th main valve 21A is higher than the surface on the opposite side, and the first main valve 21A is fixed to the first valve seat, and The injection opening and closing valve 21 is closed. The injection side air opening 28A is provided at the upper end of the injection side other side 8B, and the injection side air opening valve 28A is formed by the injection water supply σ 7A fmjc without passing through the injection side water supply line. The atmosphere is in an open state, and the downstream side of the spray side atmosphere opening valve 28A is opened to the atmosphere. Thereby, the sewage on the secondary side of the atmospheric open valve 28A is prevented from flowing backward toward the injection opening _21_second side. The rim side flow path 5B has Formed on the edge side of the upper end of the downstream end" 50 edge side joint portion redundant and edge side water supply pipe edge side water supply line is from the edge side flow path 5β, the edge edge side water supply pipe 5AM 忐. - reverse, mouth丨 丨 及 边 边 边 边 边 边 边 边 边 边 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 The _ piece 29 is stored in the extended part. On the right side of the horizontal side 3) is enclosed 29 series - The end portion (of FIG〗 Yang shape, and so that the washing water 100 127 901 14 201 215 747 flow to the side of the embodiment is provided with a plurality of openings 51). from

The washing water flowing out of the opening portion 5D is produced by the edge side flow SB which extends in the vertical direction. The cover member 29 is detachable with respect to the edge side flow path. Therefore, the cover member 29 can be removed from the edge side flow path 5B, and the flow rate can be adjusted to be closed, and the flow rate can be adjusted to be contained in the injection side flow path 8B, or the cover member 29 can be unloaded and the edge side flow path 5B can be removed for maintenance. An edge opening/closing valve 22 that opens and closes the edge side water supply line is provided in a portion that extends in the vertical direction. The edge opening/closing valve includes a diaphragm-type second main valve 22A, a second main valve 22a, a second valve seat 22B that is fixed, and a second back pressure chamber 22C that is formed behind the second main valve 22A. The second drain line 22C that communicates with the secondary side of the second main valve 22A in the second back pressure chamber 22C, the second pilot valve 22E that opens and closes the second drain line 22D, and the second guide valve 22E that opens and closes the second guide valve 22E Solenoid 22F. A second small hole 22G that allows the second back pressure chamber 22C to communicate with the primary side of the second main valve 22A is formed in the second main valve 22A. The second solenoid 22F is driven in accordance with an opening and closing signal transmitted from the self-control device 24. The edge opening/closing valve 22 configured as described above opens and closes the edge side water supply line as described below. When the second solenoid 22F receives the valve opening signal from the control device 24, the second solenoid 22F is driven to open the second pilot line 22D to the second pilot valve 22E. Then, the washing water in the second back pressure chamber 22C is drained from the second drain line 22D toward the secondary side of the second main valve 22A. Thereby, the pressure of the washing water applied to the surface on the opposite side of the second main valve 22A is higher than that of the surface on the opposite side of the second main valve 22A, and the second main valve 22A is from 100127901 15 201215747. 22B leaves and opens the injection opening and closing valve 22. On the other hand, when the second solenoid 22F receives the closing signal from the control device 24, the (four) 2 solenoid 22F is driven to close the second drain pipe 22D. Then, the washing water flows into the second back pressure chamber 22C from the primary side of the second main valve 22A via the second small hole 22G. Thereby, the pressure of the washing water applied to the surface on the second back pressure chamber 22C side of the second main valve 22A is higher than the surface on the opposite side, and the second main valve 22A is fixed to the second wide seat 22b, and The injection opening and closing valve 22 is closed. The edge-side atmosphere opening is provided at the upper end portion of the edge side flow path 5B. The edge side atmosphere is opened and the water is sprayed from the edge without passing through the edge side water supply line. When the washing water is sprayed out, the surface is large and placed, and the air opening valve is opened to the atmosphere on the downstream side. Thereby, the atmosphere on the margin side is open to the secondary side, and the sewage on the secondary side is countercurrent to the edge. As shown in Figs. 5 to 9, the accumulator 3 accommodates the detachable wall 32 and has an isolating accumulator 3 which is moved by the partition wall 32. The coil spring 34 has a capacity for imparting an elastic force to the groove 33. Therefore, when the accumulating pressure is applied to the wall-washing water through the water supply and drain pipe 31, the tank 33 stores the washing water under pressure. (3) The storage of the toilets of the New H washing device 1G will be described. A total of the water is supplied to the water. 100127901 201215747 [Water storage step for the accumulator] As shown in Fig. 5, the toilet cleaning device 10 closes the injection opening and closing valve 21 and the edge opening and closing valve 22. In this state, the water supplied from the water supply pipe 9A that communicates with the water supply source to the valve unit 20 flows through the upstream side connecting portion 9C, the upstream side flow path 9B, and the injection side flow path 8B in the horizontal direction. The flow rate adjusting valve 23, the communication portion 27 formed in the curved portion C, and the water supply and drain pipe 31 flow into the groove 33 of the accumulator 30. The partition wall 32 moves in the direction in which the volume of the groove 33 increases in response to the elastic force of the coil spring 34 by the washing water flowing into the groove 33. [Bridge Washing Standby State] When the washing water starts to flow into the tank 33 and has passed the predetermined time, the toilet washing device 10 causes the washing water to be in the pressure storage state of the same pressure as the hydrostatic pressure as shown in FIG. Stored in the slot 33. This state becomes a standby state in which the toilet is washed. [Potted washing step] When the toilet washing switch (not shown) is operated, the control device 24 transmits a valve opening signal to the second solenoid 22F of the edge opening and closing valve 22, and the edge opening and closing valve 22 is as shown in FIG. turn on. At this time, the injection opening and closing valve 21 is kept closed. When the edge opening/closing valve 22 is opened, the water flowing into the valve unit 20 from the water supply pipe 9A that communicates with the water supply source flows into the edge side flow path 5B via the upstream side connecting portion 9C and the upstream side flow path 9B. Further, the washing water stored in the tank 33 of the accumulator 30 in the state of the accumulator is stored at a pressure of 100127901 17 201215747 by the hydrostatic pressure, so that it flows into the room _ higher than the water supply source. Therefore, in the state of the pressure accumulation_the flow of the washing water stored in the ^2G, the flow rate of the washing water in the tank 33 of the water supply and drainage pipe 3 is adjusted to 1%. The small hole 23B and the injection side are inserted. In other words, the washing water in the groove 33 of the flow device 30 in the edge side flow path 5B is turned to the edge side flow path 5B, and is stored in the pressure accumulation state and stored in the wash water supplied from the water supply source. Clean water. In this way, the flow rate 咕i is enlarged, and the “dead cold water is placed on the edge of the edge of the edge of the mouth 4 through the edge side flow path 5B, the edge side joint portion 5C, and the Wei (4). The edge water supply pipe 3 is sprayed out. The washing water sprayed from the edge water spray port 4 is shown in Fig. 1A, and is stored in the water storage IU supplied from the water supply source and stored in the pressure accumulation state in the pressure accumulation_ In the case of the washing water P1 in the tank 33, the flow rate of the washing water sprayed from the edge water spout 4a can be set to be equal to or higher than the set value even if the flow rate of washing and water supply from the water supply source is small. Thereby, the washing water can be violently ejected from the edge spout, and the washing water can be flown to the end of the edge water-passing pipe 3. Therefore, the entire potty portion 2 can be cleaned without fail. The water level of the washing water in the bowl portion 2 is increased. Further, the washing water stored in the tank 3 3 of the accumulator 30 in the state of the pressure accumulation flows into the edge side via the small hole 23B of the flow rate adjusting valve 23. The flow path is dip, so that the flow rate of the washing water flowing out from the tank 33 is prevented, and the washing water is prevented from flowing out of the tank 33. Therefore, only a part of the washing water stored in the tank 33 of the accumulator 3〇 in the pressure accumulation state can be ejected from the edge spout. Thus, by: 100127901 18 201215747 The flow regulating valve 23 can be simplified π The flow rate or the amount of water from the edge water spout is adjusted in the W material. The control device 24 is used to open the second valve of the second solenoid 22F to open and close the valve closing _ close, the basin washing step End ^ So, the edge is closed 阙Μ [Spray cleaning (dirt and other discharge) step j to operate the toilet wash switch and is about to be set

The device 24 opens and closes the injection opening and closing valve kfJ, and as shown in Fig. 8, the solenoid transmission transmission opening and closing signal opening/closing valve 21 is opened. When the injection opening/closing valve 2 is hooked to the H mesh, the water supply pipe that has flowed into the valve unit 2Q flows from the swimming side flow path 9Β toward the nozzle side flow path 8B to 9C and the upper side flow path 8B. , w enter. Wrong "Into the injection valve seat portion 8D is separated. If the valve body 23A is adjusted to flow from a large flow rate", the flow rate adjustment valve 23 is allowed to be connected to the downstream side injection side flow path 8B, first/connected to the water supply source. The water supply pipe 9A flows into the spray core, and the clean water can not be halogenated on the downstream side of the smelting dan 8 。. In the machine, the flow into the injection side flow path is stored in the storage state in the storage state, and the 〇 The washing water in the tank % is stored in the washing water of the valve unit 20 in the state of the flow pressure, and is stored in the tank in the state of the tank. 31, the inflow portion 27 flows into the injection side flow path 279〇1 201215747 8B. That is, the 'injection side flow path' on the downstream side of the stalking room 23 is stored in the pressure state of the f pressure device 3G. The washing water in the tank 33 is added to the washing water t supplied from the water supply source. Thus, the washing of the enlarged flow rate is set by the injection side flow passage 8B, the injection side coupling portion 8 and the injection side supply t. The jet water spouting port 7 of the jet nozzle 7 is ejected along the ascending flow path of the toilet draining official road 6. Since the trough 33 of the animal farmer 30 is supplied and discharged The water (4) is in communication with the injection side flow path 8B on the downstream side of the flow rate adjustment interval 23, so that the resistance to the flow of the washing water is less, and the flow path until the injection water σ7Α is shorter. The pressure loss of the washing water flowing to the jet water σ7Α. The washing water to which the washing water stored in the tank 33 in the pressure accumulating state is added can be violently sprayed from the jet nozzle 7 As shown in FIG. 1A, the washing water sprayed from the jetting nozzle 7 is stored in the accumulator such as the tank 33 in the state of being stored in the accumulating water j supplied from the water supply source. Therefore, even if the flow rate of the washing water J supplied from the water supply source is small, the flow rate of the washing water sprayed from the water spouting port 7Α can be set to a value of not less than the set value. The washing water is ejected violently from the nozzle spouting port 7 。. The opening/closing valve 22 is closed immediately before the opening/closing valve 22 is closed (the pot washing step is completed), so the washing is performed from the edge spout 4A. The spray of purified water is connected to the discharge of the wash water from the spray nozzle 7A. Therefore, "4 When the water level of the 100127901 20 201215747 washing water in the bowl portion 2 is at the highest water level by the discharge of the washing water from the edge water spout 4A, the washing of the washing water from the jetting spout 7A is started. In other words, since the washing water can be ejected from the jetting water spout 7A in a state in which the position of the washing water in the potty portion 2 can be maximized, the maximum energy and self-injection of the washing water in the potty portion 2 can be achieved. The synergistic effect of the water potential of the washing water sprayed from the water spout 7A causes a siphon action in the toilet drain pipe 6, and even if the washing water is small, the dirt can be discharged from the toilet drain pipe well. In the toilet washing device 10 of the embodiment, the discharge performance of the dirt or the like is excellent, and even if the washing water is small, the toilet can be satisfactorily washed. Further, the washing water P2 stored in the tank 33 in the pressure storage state is pressure-depleted when it is ejected from the jet water spouting port 7A as compared with the case where it is ejected from the edge water spouting port 4A in the tub washing step. Less, and more traffic. Therefore, the initial flow rate at which the injection opening/closing chamber 21 is opened, that is, the initial flow rate of the washing water from the jet water spray A nozzle is larger than the flow rate of the washing water sprayed from the edge water spray port ^ during the pot washing step. many. Thereafter, since the washing water stored in the tank 33 in the pressure storage state is reduced over time, the flow rate of the washing water sprayed from the jet nozzle ^ is reduced. Thus, the toilet washing apparatus 1 can appropriately discharge the washing water stored in the tank 33 in the pressure accumulation state to the edge nozzle nozzle 4A and the nozzle water jet port 7A to be ejected. That is, the washing water sprayed from the jet water spout 7A is used to cause the siphon effect of the toilet drain pipe 6 by the water potential to discharge the dirt and the like. Therefore, it is preferable that the washing water sprayed from the jet water spout 7A is sprayed as vigorously as possible at the beginning of the water spray at 100127901 201215747. On the other hand, the washing water sprayed from the edge water spouting port 4A in the pot washing step is for the purpose of cleaning the surface of the bowl portion 2 without fail, even if the washing water is ejected from the jet spout 7A. The initial water potential is weaker, and the surface of the potty 2 can be cleaned without any omission. The control device 24 transmits a valve closing signal to the first solenoid 21F of the injection opening and closing valve 21 so as to close the injection opening/closing valve 21 after the toilet cleaning switch is operated and the set time (T2) has elapsed. In this manner, the injection opening and closing valve 21 is closed, and the basin washing step is completed. In the jet washing step, all the washing water stored in the tank 33 in the pressure accumulation state is discharged from the jet water spouting port 7A. The amount of water sprayed from the spray nozzle 7A in the jet washing step is larger than the amount of water sprayed from the edge spray port 4A in the pot washing step. In this manner, the toilet washing device 10 can appropriately discharge the washing water stored in the tank 33 in the pressure accumulation state to the edge water spout 4A and the jet water spout 7A to be ejected. That is, the washing water sprayed from the jet water spouting port 7A is used to cause the siphon to act in the toilet drain pipe 6, to continuously discharge the dirt from the toilet drain pipe, and the like. Therefore, it is preferable that the amount of washing water sprayed from the jet water spout 7A is as much as possible. On the other hand, the washing water sprayed from the edge water spout 4A at the step of the basin washing is for the purpose of cleaning the surface of the bowl portion 2 without any omission, even if it is washed from the jet spout 7A. The amount of water in the water is less, and the surface of the potty 2 can be cleaned without any omission. [Overwatering step] Before the toilet washing switch is operated and the set time (T2) is elapsed, the control unit 100127901 22 201215747 device 24 sends a valve opening signal to the second solenoid 22F of the edge opening and closing valve .22, as shown in FIG. The edge is opened by the opening and closing valve 22. At the time when the edge opening/closing valve 22 is opened, the washing water is not stored in the groove 33 of the accumulator 30. Therefore, when the edge opening/closing valve 22 is opened, only the washing water flowing into the valve unit 20 from the water supply pipe 9A that communicates with the water supply source passes through the upstream side connecting portion 9C, the upstream side flow path 9B, the edge side flow path 5B, The edge side connecting portion 5C and the edge side water supply pipe 5A are ejected from the edge water passing pipe 3 from the edge water spouting port 4A provided in the edge nozzle 4. As shown in Fig. 10, the washing water sprayed from the edge water spout 4A is only the washing water R2 supplied from the water supply source, and is stored in the bowl portion 2 to form a water seal. The control device 24 transmits a valve closing signal to the second solenoid 22F of the edge opening and closing valve 22 so that the edge cleaning valve 22 is opened after the toilet cleaning switch is operated and the set time (T3) is elapsed. Thus, the edge opening and closing valve 22 is closed, and the water covering step is completed. When the water rinsing step is completed, the toilet cleaning device 10 is in a state in which the injection opening and closing valve 21 and the edge opening and closing valve 22 are closed as shown in Fig. 5 . Therefore, the toilet washing device 10 is restored to the toilet washing standby state via the water storing step for the accumulator 30. The present invention is not limited to the embodiments described by the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention. (1) In the embodiment, the flow rate adjustment valve 23 is provided in the injection side water supply line, but the flow rate adjustment valve 23 may not be provided. 100127901 23 201215747 In this case, as shown in Fig. 11(A), the accumulator 30 can be connected to the upstream side water supply lines 9A, 9B, and 9C via the opening and closing valve 40. In the toilet washing apparatus 100, the opening and closing valve is opened and closed at the time of the pot washing step, and the time point at which the injection opening/closing valve 21 is opened and closed at the time of the jet washing step is matched. 40 open and close. Thereby, the flow rate of the washing water sprayed from the edge water spout 4A and the jet water spouting port 7A can be set to be larger than the set value', and the washing of the washing water from the edge spout 4A and the self-injection spout can be continuously performed. The spray of 7A washing water. Further, as shown in Fig. 11(B), the accumulator 30 can be connected to the upstream side water supply pipe shoes 9A, 9B, and 9C via the flow path switching valve 5A and the water supply and drainage pipes 50A and 50B having a pipe diameter of not. In the toilet cleaning device 11, by switching the sluice switching valve 5 〇, the washing water stored in the accumulator 30 in the accumulator state is smaller in the tub washing step. The drain pipe 5〇A flows out. On the other hand, in the ejector washing step, the washing water stored in the state of the accumulating state and discharged from the i state 30 flows out from the water supply and drainage pipe 5〇B having a large pipe diameter. Therefore, it is possible to eject the most of the washing water sprayed from the jet spout 7A at the time of the washing step, and to eject it from the edge spout 4 a when the washing step is performed, * L ^ more. The flow rate of the dead water is further increased, and as shown in Fig. 11(C), the flow path switching unit can be connected to the injection side flow path 8B. When the toilet is cleaned, the time between the opening and closing of the opening and closing valve 22 and the opening and closing of the opening and closing valve 21 for the spraying are performed in the cleaning step of the etch basin. And switching, and switching the 100127901 24 201215747 flow path switching valve 51, and storing the water stored in the accumulator π in an accumulating state to the self-edge sprinkler 4A or the jet spout 7a. ^ in. Thereby, the flow rate of the washing water from the edge spout 4A and the jet spout 7A can be set to a value equal to or higher than the set value, and the washing of the washing water from the edge water 4A can be continuously performed. In the embodiment, the accumulator 3G is used as the flow amplifying mechanism, and the cardiac amplifying mechanism may also include a tank and a pump. < In this case, as shown in Fig. 12 (4), the groove % and the pump % may be provided in series from the upstream side of the injection side water supply lines ^, 8B, 8C. In the sputum washing apparatus 200, the upstream side water supply line 9A and the upper part 1 have the opening and closing valve 41, and the upstream side water supply lines 9A, 9B, and 9c branch the side edge side water supply lines 5A, 5B, and 5C. A flow path cut (four) 52 is provided in a portion of the side of the injection side water supply line 8a. Further, the bypass flow path which is connected to the edge side water supply lines 5A, 5B, 5C of the injection side water supply lines 8A, 8B, 8c on the downstream side of the pump 36 is placed in the money wash cloth set 2〇〇叱5. . The opening/closing valve 42 and the check valve 6 are placed on the side/claw path 70 δ. The check valve (9) allows the washing water to flow from the injection side water supply lines 8Α, 8Β, 8C to the edge side water supply lines 5, 5, 5C and prevent it from flowing backward. When the washing water is sprayed from the edge water spout 4 in the pot washing step, the flow path switching valve 52 is switched to supply the washing water supplied from the water supply source to the edge water spout. 4Α, the opening and closing valve 42 is opened, and the pump 36 is driven to supply a part of the water stored in the tank to the edge water spout 4A via the bypass 100127901 25 201215747 flow path 70. Further, when the washing water is sprayed from the jet water spouting port 7A in the jet washing step, the opening and closing valve 42 is closed, and the washing pump 36 is driven to supply the remaining portion of the washing water in the tank 35 to the jetting spray. Nozzle 7A. At this time, the flow rate is increased from the edge water spouting port and the nozzle spray port to the set value or more. Further, as shown in Fig. 12 (8), the amplification flow path 37 arranged in the order of the groove % and the pump 36 from the upstream side may be provided in parallel with the injection side water supply lines 8 and 8C. In the toilet cleaning device 21A, the upstream side water supply lines 9A, 9B, and 9C are also provided with an opening and closing valve 41, and the upstream side water supply line is detached, and the 9C branch is the edge side water supply line SA, dip, sc A flow path switching chamber is also provided in a portion of the injection side water supply official roads 8A, 8B, and 8C. Further, in the toilet cleaning device 21A, a downstream end plate injection side water supply line 8A is provided which is provided with a larger amplification flow path 37. The portion where the 8B and 8C are merged is further downstream, and the blood injection side water supply pipes 8A, 8B, and 8C and the side water supply pipes 5a and 5b and the bypass bypass flow path 70 are connected. The opening and closing chamber 42 and the check valve 60 are provided in the bypass flow path 70. The check valve 6 〇 allows the washing water to flow from the injection side water supply line to the edge side water supply lines 5A, 5B, 5C, and prevents the pot from being reversed. In the toilet washing apparatus 210, when the washing water is ejected from the miscellaneous spout in the pot washing step, the flow path switching valve 52 is switched to supply the washing water supplied from the water supply source to the edge spout. 4A, the opening and closing compartment 42 is opened, and the pumping water is stored in the tank 35, and the part of the washing water is supplied to the edge water spouting port 4A via the bypass flow path. In the nozzle cleaning step, when the washing water is sprayed from the water jet port 7A, the flow path switching valve 52 is switched, and the washing water supplied from the water supply source is supplied to the jetting nozzle. The nozzle 7A opens the opening and closing valve 42, and drives the pump 36 to supply the remaining portion of the washing water stored in the tank 35 to the jetting nozzle 7A. At this time, the pump 36 is driven such that the flow rate of the washing water sprayed from the edge water spout 4A and the jet spout 7A becomes a set value or more. (Industrial Applicability) The present invention can be applied to a flush toilet. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a toilet body to which a toilet washing apparatus of an embodiment is attached. Fig. 2 is a cross-sectional view showing the toilet body to which the toilet washing device of the embodiment is attached. Figure 3 is a cross-sectional view showing the valve unit of the embodiment. Fig. 4 is a block diagram showing the toilet washing apparatus of the embodiment. Fig. 5 is a schematic view showing a water storage step of the accumulator of the toilet washing device of the embodiment. Fig. 6 is a schematic view showing a toilet washing standby state of the toilet washing device of the embodiment. Fig. 7 is a schematic view showing a washing step of the bowl of the toilet washing apparatus of the embodiment. Fig. 8 is a schematic view showing the ejector washing step of the toilet washing device of the embodiment 100127901 27 201215747. Fig. 9 is a schematic view showing a water-covering step of the toilet washing device of the embodiment. Fig. 10 is a graph showing changes in flow rate during toilet washing of the toilet washing device of the embodiment. Fig. 11 (A), (B) and (C) are block diagrams showing the toilet cleaning device of the other embodiment. Fig. 12 (A) and (B) are block diagrams showing a toilet washing apparatus of another embodiment. [Main component symbol description]

2 3 4 4A

5A, 5B, 5C

6 7 7A 8A, 8B, 8C Toilet body potty edge water supply pipe edge nozzle edge water spout edge side water supply pipe (5 A edge side water supply pipe, 5B edge side flow path, 5C edge side connection part) Toilet drain pipe Road injection nozzle injection nozzle injection side water supply line (8A injection side water supply pipe, 8B injection side flow path, 8C injection side connection 100127901 28 201215747)

9A, 9B, 9C upstream water supply line (9A water supply pipe, 9B upstream side, flow path, 9C upstream side connection part)

5A, 5B, 5C, 8A, 8B, 8C, 9A, 9B, 9C 5D Openings 10, 100, 110, 120, 200, 210 Toilet 11A Toilet 11B Cover 11C Upper cover 20 Valve unit (water supply switching mechanism) 21 For injection Opening and closing valve 21A First main valve 21B First valve seat 21C First back pressure chamber 21D First drain line 21E First pilot valve 21F First solenoid 21G First small hole 22 Edge opening and closing valve 22A Second main valve 22B 2nd valve seat 22C 2nd back pressure chamber 100127901 29 201215747 22D 2nd drain line 22E 2nd pilot valve 22F 2nd solenoid 22G 2nd orifice 23 Flow regulating valve 23A Adjusting valve body 23B Small hole 24 Control device 25 Filters 26, 60 Check valve 27 Connecting portion 28A Injection air opening valve 28B Edge air opening valve 29 Cover member 30 Accumulator (flow amplifying mechanism) 31, 50A, 50B Water supply and drainage pipe 32 Partition wall 33 Groove 34 Coil spring 35 ' 36 Flow amplification mechanism (35 slots 37 Amplification flow path 40, 41 Open and close valve 100127901 30 36 201215747 50 ' 51 ' 52 Flow path switching valve 70 Bypass flow path PI > P2 ' R1 ' R2 ' J Wash When otter, T2, T3 are set S Water supply line C Bend F Front end 100127901 31

Claims (1)

201215747 VII. Patent application scope: 1. A toilet cleaning device, which supplies the water to the toilet body, and the body includes: a potty portion; an edge water passage pipe, which is disposed at the t end of the toilet The edge of the opening (four); the edge is sprayed, and the washing water is sprayed along the edge of the water pipe; the crying drainage management # drainage & road is the downstream side of the continuous; and the jet water inlet, with va The top of the body is configured to discharge the washing water to the downstream side of the toilet drain pipe, and is characterized in that: the water supply pipe supplies the washing water to the edge water spout and the jet spout; the water supply switching mechanism, Provided in the water supply line, when the washing water is sprayed from the edge water spout and the jet spout to wash the toilet, the washing water is first ejected from the edge spout, and then continuously Switching the water supply position by spraying the washing water from the jetting nozzle; and a flow amplifying mechanism having a tank for communicating the washing water in communication with the water supply line, and so that the water jet from the edge and the jetting The clean water discharge nozzle washing flow become a set value or more by 'from the discharge spout of the edge portion of the flush water stored in the tank described above' and the spray from the spray Koupen stub. 2. 2. The toilet flushing device of claim 1, wherein the initial flow rate of the washing water sprayed from the jetting nozzle is greater than the flow rate of the washing water sprayed from the edge water jet. 3. The toilet cleaning device of claim 1 or 2, wherein the amount of residual water that is stored in the tank from the jet nozzle is increased by 100127901 32 201215747 and is greater than the edge The amount of water of the washing water that is ejected from the spout and stored in one of the samples is 'the amount of water that is ejected from the jet spout is greater than the amount of water that is ejected from the edge. 4. The toilet washing apparatus of claim 1 or 2, wherein the water supply line includes a field side water supply line that communicates with the water supply source, and branches the downstream end of the upstream side water supply line The injection side water supply pipe is like an edge side water supply pipe, and the above flow amplifying mechanism is in communication with the injection side water supply pipe. 5. The toilet washing device according to item 4 of the patent application scope, wherein the upper handle changing mechanism comprises: an injection jet valve for opening and closing the above-mentioned injection side = e road 'side 4 The edge-side water supply line; and the control farmer' is configured to control the opening and closing of the injection and the opening and closing of the edge, and the flow rate adjustment valve is provided on the upstream side of the injection opening_ The water g path is in communication with the flow rate field, and is disposed at a flow direction of the downstream side of the injection side water supply line that is more upstream of the communication portion of the volume amplification mechanism. It flows and allows the flow of small flows toward the upstream side. L 10012790] 33