JP2004321399A - Excrement treatment system and apparatus, and diaper - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To sufficiently dry the anus and the genital area of a user after washing them. <P>SOLUTION: Blowers 205a and 205b are provided in an excrement treatment apparatus 14. In the suction process of the excrement discharged into a dirt collection cup 120, the blower 205a is operated to make inside of a discharge tank 200 into the state of negative pressure, and air containing washing water is blown into the cup 120 from an air pipe 134. In a washing process, with air circulation into the cup 120 by the blower 205a, a water pump 215 is operated to jet the washing water to the anus and the genital area of the user. In a drying process, both of the blowers 205a and 205b are operated to make the blower 205a blow outside air into the cup 120 and to make the blower 205b suck air in the cup 120. Since the amount of air circulating in the cup 120 can be increased, sufficient drying can be performed. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

TECHNICAL FIELD OF THE INVENTION
The present invention relates to an excrement disposal suitable for a sick or immobilized elderly person who cannot walk in a hospital or the like.
[Prior art]
2. Description of the Related Art Conventionally, sick people who cannot excrete in their normal postures, bedridden elderly people, and other persons who cannot process their own excretions themselves, have used excrement to process excrement. However, when using Oshime, human labor such as an attendant is required, and furthermore, when exchanging Oshime, it emits a odor and disturbs the surroundings, and the user feels shame. Things. Therefore, recently, a special excrement receiver (hereinafter, referred to as an “attachment”) having a shallow container shape is attached to a crotch, and after excretion, a genital area and the like are washed, and excreted stool and sewage are suctioned. Various types of excrement disposal devices have been proposed (for example, see Patent Document 1).
[Patent Document 1]
JP-A-2002-153498 (FIG. 1)
[Problems to be solved by the invention]
However, in the above-mentioned prior art, the suction operation of the excrement and the drying operation after cleaning the user's anus and genital area are performed by circulating air with an air compressor. For this reason, when the excrement is sucked into the excretion tank, the inside of the excretion tank can be set at a negative pressure, and sufficient suction can be performed. When the pubic region is dried, there is a problem that sufficient drying cannot be performed because a sufficient amount of dry air cannot be circulated in the diaper waste collection cup surrounding the hips of the user.
The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an excrement disposal device and an excrement disposal system that can sufficiently dry the user's anus, pubic region, and the like after washing. I do.
[Means for Solving the Problems]
In order to achieve the above-mentioned goal, the invention according to claim 1 includes a mat on which a user lies, a waste collection cup applied to a crotch of the user, and a waste material discharged in the waste collection cup. An excrement disposal system comprising: an excrement disposal device that aspirates and circulates dry air into the waste collection cup to dry the crotch of the user. A first blower that blows air; and a second blower that sucks air circulated in the waste collection cup. When drying the crotch of the user, the first blower blows the waste. The air is blown into the cup, and the air circulated in the waste collection cup is sucked by a second blower blower.
According to a second aspect of the present invention, in the first aspect, the air blowing capacity of the first air blower is made larger than the air blowing capacity of the second air blower, and the first air blower and the first air blower are connected to each other. (2) The difference in the blowing capacity between the blower and the blower is defined as a difference in the blowing capacity capable of maintaining the inside of the waste collection cup at a weak negative pressure.
According to a third aspect of the present invention, in the first or second aspect, the bottom of the waste collection cup has a tray shape, a moisture detection sensor is provided in the waste collection cup, and the waste is excreted. Is detected.
According to a fourth aspect of the present invention, in the one of the first to third aspects, the back surface of the waste collection cup is accommodated in the mat at a position corresponding to the hips of the user. A concave portion is formed.
According to a fifth aspect of the present invention, in the apparatus according to any one of the first to fourth aspects, during the drying, the blowing capacity of the first blower is made larger than the blowing capacity of the second blower. The difference in the blowing capacity between the first blowing blower and the second blowing blower is a blowing capacity difference capable of maintaining the inside of the waste collection cup at a weak negative pressure.
The invention according to claim 6 is connected to a waste collection cup applied to a user's crotch, sucks waste discharged in the waste collection cup, and circulates dry air into the waste collection cup. An excrement disposal device for drying the crotch of the user, comprising a first blower blower for blowing air into the waste collection cup and a second blower blower for sucking air circulated in the waste collection cup, When drying the crotch of the user, air is blown into the waste collection cup by the first blower, and air circulated in the waste collection cup is sucked by the second blower. It is a feature.
The invention according to claim 7 is the vehicle according to claim 6, wherein the blowing capacity of the first blowing blower is larger than the blowing capacity of the second blowing blower, and the first blowing blower and the second blowing blower are connected to each other. (2) The difference in the blowing capacity between the blower and the blower is defined as a difference in the blowing capacity capable of maintaining the inside of the waste collection cup at a weak negative pressure.
The invention according to claim 8 is the invention according to claim 6 or 7, wherein, during the drying, the blowing capacity of the first blower is larger than the blowing capacity of the second blower, and The difference in the blowing ability between the first blower and the second blower is a difference in the blowing ability that can maintain the inside of the waste collection cup at a weak negative pressure.
The invention according to claim 9 provides a cup portion applied to the crotch of the user, a belly pad extending from the cup portion and covering the vicinity of the umbilicus of the user, and extending from the cup portion to be used. In a diaper having a backrest covering the buttocks of a person, the bottom of the waste collection cup is shaped like a tray, and a moisture detection sensor is provided in the waste collection cup to detect that the waste is excreted. It is characterized by doing.
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a configuration of an excrement disposal system 1 according to an embodiment of the present invention. As shown in this figure, the excrement disposal system 1 includes a diaper 12 worn by a user 3, an excrement disposal device 14 that sucks and accumulates excrement or wastewater inside the diaper 12, and a user 3 lying down. And a mat 10.
As shown in FIG. 2, when the diaper 12 is worn by the user 3, the diaper 12 has a short crotch length and a knee-length height, so-called shorts (short pants), and is located at the crotch. Is provided with a waste collection cup 120 and a waste collection pipe 122. As shown in FIG. 1, a waste suction hose 16 that connects the excrement disposal device 14 and the diaper 12 is attached to the waste collection pipe 122. That is, the excrement and sewage in the diaper 12 are sucked from the filth collection pipe 122 to the excrement processing apparatus 14 through the filth suction hose 16 by the suction mechanism (described later) of the excrement processing apparatus 14, and the excrement processing apparatus 14 Is accumulated in The excrement processing apparatus 14 will be described in detail later, and the diaper 12 and the mat 10 will be described first.
FIG. 3 is a development view of the diaper 12. As shown in the figure, the diaper 12 extends forward from the waste collection cup 120 and covers the vicinity of the umbilicus of the user 3. Has a backrest 12b that covers the buttocks of the subject. That is, the diaper 12 tears the vicinity of both waist sides of general shorts in the direction of the thigh, and the crotch area is cut out for mounting the waste collection cup 120, and the waste collection cup 120 is attached to the hollowed portion. It has a shape substantially equal to the shape given. The belly portion 12a and the back portion 12b of the diaper 12 are made of a material (eg, PTFE: polytetrafluoroethylene) that has good air permeability and does not allow moisture to pass therethrough. Even if you continue, stuffiness due to sweating is prevented. The diaper 12 may be made of a stretchable synthetic resin (for example, a neoprene foam) used for wet suits or the like to improve the fit.
Further, a total of four fastening portions 126 are attached to the left side portion 12bL and the right side portion 12bR of the backrest portion 12b. Velcro fasteners (so-called magic tape (registered trademark)) are adhered to the upper surface (upper surface in the drawing) of the fastening portion 126, and the fastening portion 126 is locked to the surface of the stomach rest portion 12a. It has become.
When the diaper 12 is worn on the user 3, the filth collection cup 120 is applied to the crotch, and the back support 12b is applied to the buttocks and the abdomen support 12a is provided near the navel, as with a conventional shime. Then, the fastening portions 126 provided on both sides 12bL and 12bR of the backrest 12b to be wound around the waist and thighs are carried to the upper surface of the abdomen rest 12a and fixed.
In the diaper 12, the wrapper wraps around the edges 128a, 128b of the stomach rest portion 12a and the back rest portion 12b, which wrap around the belly of the user 3, and the thigh of the user 3. Rubber bands are provided on the edge portions 128c and 128d at the locations, so that the airtightness when the user 3 wears them is enhanced.
Next, the configuration of the waste collection cup 120 will be described in detail. FIG. 4 is a side view of the waste collection cup 120, and FIG. 5 is a sectional view thereof. As shown in these figures, the waste collection cup 120 is integrally formed in a generally U-shape with a curved appearance as a whole, and a tray having a substantially flat rear surface (lower side in the drawing) of the waste collection cup 120. A waste collection pipe 122 is integrally formed at one end of the tray-shaped bottom surface. The waste collection cup 120 is made of plastic having a certain degree of elasticity, and can absorb the pressing force even if a slight pressing force is applied.
Further, as shown in FIG. 5, the cleaning nozzles 130a and 130b each having a small hole at the tip and the inside of the waste collection cup 120 are washed into the side wall of the waste collection cup 120 in order to spray the cleaning water. A cleaning nozzle 134a having a check valve (not shown) is provided in a direction in which water or air is jetted, and each of the cleaning nozzles 130a and 130b is cleaned from the excrement disposal device 14 via a cleaning water tube 132. Water is supplied to the washing nozzle 134a, and air that has been sterilized by flowing from the excrement treatment device 14 through a deodorizing / sterilizing device 207 described below from the excrement treating apparatus 14 through an air pipe 134 that is a tube thicker than the washing water tube 132 is supplied. The cleaning water is mixed and supplied. The cleaning nozzle 134a is for flushing filth toward the side where the filth collection pipe 122 is provided, and is provided on the back of the filth collection cup 120 (the surface facing the buttocks of the user 3). The direction is set so as to face the waste collection pipe 122. The cleaning nozzle 130a is for cleaning the anus of the user 3 and is provided in the vicinity of the waste collection pipe 122. The direction of the injection port is such that the cleaning water is injected toward the anus of the user 3. Is set to Further, the cleaning nozzle 130b is for cleaning the genital area of the female user 3, and is provided near a position corresponding to the lower abdomen of the female user 3. 3 is set to be injected toward the genital area. It is desirable that the washing water is warm water having an appropriate temperature so as not to cause the user 3 to feel uncomfortable. As described above, the waste collection cup 120 is provided with the cleaning nozzle 130b for cleaning the genital area (particularly, urine, vagina, etc.) of a woman, so that the genital area is kept clean even after urination, and discomfort is caused. It is not remembered. In consideration of the case where the user 3 is a male, an opening / closing valve or the like may be provided between the washing water tube 132 and the washing nozzle 130b, and the washing water may be selectively injected from the washing nozzle 130b. .
The above-mentioned washing water tube 132 is configured to be supplied with air as well as washing water. That is, after each part of the user 3 is washed with the washing water, it is dried by blowing air (outside air) heated by a warm air heater 219 described later. The air supplied from the washing water tube 132 into the waste collection cup 120 is released from the suction nozzle 401 to the outside air (this structure will be described when the excrement disposal device 14 is described). In addition, the air pipe 134 is branched, and the suction nozzle 401 is connected via the check valve 400. In the drying process described later, the air in the waste collection cup 120 is sucked by the suction nozzle 401. . Although not shown, a hole larger than the cleaning nozzles 130a, 130b, and 134a is provided at the tip of the suction nozzle 401.
Further, a plurality of moisture detection sensors 217 are provided on the back surface of the waste collection cup 120 to detect whether or not the excrement is excreted from the user 3. The signal detected by the moisture detection sensor 217 is transmitted to a control unit 216 of the excrement disposal device 14 to be described later via a signal wiring 218.
Under such a configuration, after the user 3 has excreted, washing water is supplied from the excrement disposal device 14 to the washing water tube 132, and the washing water and air are mixed and supplied from the air pipe 134, and the washing nozzle 130a , 130b, and the air mixed with the cleaning water is injected from the cleaning nozzle 134a into the waste collection cup 120. As a result, the excrement is softened, flushed and sucked into the waste collection pipe 122, and the anus and the pubic area of the user 3 are washed with the washing water.
At this time, since the suction nozzle 401 is provided with the check valve 400, the cleaning water and the air do not blow out from the suction nozzle 401.
Next, the excrement disposal device 14 supplies air to the washing water tube 132. Thereby, the anus and the pubic area of the user 3 are dried. When the pubic part does not need to be dried, such as when the user 3 is a male, the air may be jetted from the washing nozzle 130b, that is, only the anus may be dried.
The waste collection pipe 122 is formed to extend the bottom of the waste collection cup 120 as shown in FIG. In this configuration, the excrement is collected together with washing water, urine, and the like toward the filth collection pipe 122 by the rinsing water and air spouted from the rinsing nozzle 134a, and then the filth suction hose 16 is discharged by the excrement processing device 14. It is sucked and discharged through.
The waste collection pipe 122 has a structure that allows not only liquids such as excrement and the like but also air to flow therethrough, and has such a rigidity that the pipe diameter does not become small even if the excrement disposal device 14 sucks the dirt. It is formed of a tube.
By the way, as described above, since the rear surface of the waste collection cup 120 slightly protrudes, as shown in FIG. 6, when the user 3 wears the diaper cup 12 and lays on his / her back on a bed or the like, this waste collection cup 120 The buttocks of the user 3 slightly rise due to the rear portion of the cup 120 (the portion located on the buttocks of the user 3), and the sleeping comfort of the user 3 is deteriorated.
Therefore, in the present embodiment, as shown in FIG. 7, an accommodation recess 102 for accommodating the rear portion of the waste collection cup 120 is formed in the mat 10 on which the user 3 lies. As shown in FIG. 8, the mat 10 has an appropriate number (26 in the illustrated example) of air cells 100 arranged so as to expand into a substantially columnar shape in the length direction of the mat 10. . More specifically, air cells 100a and 100b (for example, 48 mm × 825 mm) having different dimensions from the others are arranged at both ends in the longitudinal direction of the mat 10, and an air cell is provided between the air cells 100a and 100b. 100d and 100e (76 mm x 825 mm) are alternately arranged to form a mat 10 having dimensions of 1920 mm x 825 mm.
Further, air introduction zones 108a and 108b extending in the longitudinal direction of the mat 10 are provided on each of the left and right sides of the mat 10 in the drawing. At one end (in the illustrated example, the lower end in the drawing) of each of the air introduction zones 108a and 108b, an air injection port 112 into which air from an air compressor (not shown) is injected is provided. The air is guided to each of the air cells 100b, 100d, and 100e.
More specifically, in the mat 10, except for the four air cells 100a and 100c located above the drawing (in the direction of the head of the user 3), air is introduced into the mat 100d from the air introduction zone 108a. Air is introduced into the air cells 100e and 100b from the air introduction zone 108b. Further, the air pressure of the air cell 100 corresponding to the head of the user 3, that is, the air pressure of the air cells 100 a and 100 c is always maintained at a substantially constant pressure, thereby suppressing the unevenness when the pillow is placed. Thus, the user 3 does not feel uncomfortable.
In the mat 10, air cells 100d communicating with the air introduction zone 108a arranged on the left side of the drawing and air cells 100e communicating with the air introduction zone 108b arranged on the right side of the drawing are alternately arranged. At the same time, air cells 100b are juxtaposed at the lower end of the drawing. That is, since the air cells 100d and 100e having different air introduction paths are alternately arranged in the mat 10, it is necessary to appropriately change each of the air pressures injected into the air introduction zones 108a and 108b. Accordingly, air cells having different air pressures are alternately arranged. For example, if the air pressure injected into each of the air introduction zones 108a and 108b is alternately increased and decreased alternately, and the air cells 100d and 100e are expanded and contracted, the place where the user 3 and the mat 10 come into contact with each other is changed. To prevent bedsores.
An edge 110 having a fixing hole 110a formed therein is provided at the upper and lower end of the mat 10 in the drawing. A string or the like is passed through the fixing hole 110a, and the mat is tied to a bed frame or the like. 10 is fixed.
Further, as described above, in the mat 10, a portion corresponding to the groin to the crotch of the user 3 is provided with a recess for accommodating the waste collection pipe 122 of the waste collection cup 120 and the rear surface of the waste collection cup 120. 102 are formed. Since the storage recess 102 is formed by recessing the mat 10, air conduction can be performed on both sides of the storage recess 102 even in the air cells 100d and 100e where the storage recess 102 is formed. Has become.
Next, the excrement disposal device 14 will be described. FIG. 9 is a schematic diagram illustrating a configuration of the excrement disposal device 14. In this figure, the excrement tank 200 stores excrement and dirt (wash water, etc.), and is connected to the dirt collection pipe 122 of the dirt collection cup 120 via the dirt suction hose 16 as described above. I have. In the vicinity of the top of the excretion tank 200, a liquid level sensor 201 for detecting the liquid level of the dirt and excrement stored in this tank is provided, and the excrement and dirt stored in the excretion tank 200 are provided. Is detected. 205a and 205b are blower blowers, respectively, and the blower blower 205a has to blow air from the cleaning nozzles 130a and 130b in a drying process described later, so that a blower having a larger blower capacity than the blower blower 205b is used. I have.
This is because the blower blower 205a sucks in the outside air through the filter 203 and injects washing water or air into the waste collection cup 120 from the washing nozzles 130a and 130b and the washing nozzle 134a provided with small holes at the tips. This is because pressure loss in the filter 203 and the cleaning nozzles 130a and 130b is large. On the other hand, the blower blower 205b is connected to the suction nozzle 401 provided with a hole larger than the holes at the tips of the cleaning nozzles 130a and 130b, and the air pipe 134 having a larger diameter than the cleaning water tube 132. This is because the pressure loss of the air blower 205a is smaller than that of the blower blower 205a. The difference in capacity between the blower blower 205a and the blower blower 205b is determined by considering the above-mentioned pressure loss, the excrement and the waste in the waste collection cup 120 can be sucked, and the inside of the waste collection cup 120 is weak. It is preferable that the pressure is maintained at a negative pressure.
Further, a separator 202 for removing the liquid component and passing only the gas component is provided at an outlet of the top part of the excretion tank 200, and the separator 202 (that is, the outlet of the excretion tank 200) is provided with an air pipe 140, -It is connected to the suction port of the blower blower 205a via a sterilizer 207, an air pipe 141, a three-way valve 204, and an air pipe 142. On the other hand, the discharge port of the blower blower 205a is connected to the air pipe 134, the three-way valve 208, the air pipe 144, the branch pipe 170, the air pipe 145, and the air pipe 134 that communicates with the waste collection cup 120 through the branch pipe 172 (see FIG. 5). And air is supplied into the waste collection cup 120 through the cleaning nozzle 134a. The air pipe 146, the hot air heater 219, the air pipe 150, the check valve 222, and the air pipe 151 are sequentially connected to the branch destination of the three-way valve 208, and are connected to the branch pipe 171 inserted in the water pipe 149. I have. On the other hand, the branch destination of the three-way valve 204 is connected to the air pipe 152 and is connected to the filter 203 via the silencer 206, so that the outside air can be filtered and sucked and blown into the waste collection cup 120. I have. An air pipe 154, a two-way valve 221, and an air pipe 155 are sequentially connected to the branch pipe 170 and connected to a suction port of the blower blower 205 b, and an air pipe 156 is connected to a discharge port of the blower blower 205 b. The silencer 207 is connected, and the air circulated through the waste collection cup 120 can be discharged to the outside air.
Reference numeral 210 denotes a cleaning water tank that stores cleaning water. At the bottom of the washing water tank 210, a hot water heater 211 for warming the stored washing water is provided. Inside the washing water tank 210, a thermistor 212 for detecting the temperature of the stored washing water, A float sensor (water level gauge) 213 for detecting the amount of washing water is provided, and the amount of stored washing water and the temperature of the washing water can be monitored. An injection port (not shown) is provided at an upper portion of the cleaning water tank 210. When the cleaning water is supplied to the cleaning water tank 210, the water is injected from the injection port. A water pipe 147 provided with a drain cock (stopcock) 214 is connected to a lower portion of the washing water tank 210. When draining the washing water from the washing water tank 210, the drain cock 214 is opened and the washing is performed from the water pipe 147. Let the water drain out. Further, the water outlet provided in the washing water tank 210 is connected to the washing nozzles 130a and 130b of the waste collection cup 120 via the water pipe 148, the water pump 215, the branch pipe 171, the water pipe 149, the branch pipe 173, and the wash water tube 132. It is connected. The branch destination of the branch pipe 173 is provided with a two-way valve 209 and connected to the branch pipe 172. In a suction step described later, the two-way valve 209 is opened, and cleaning water and air are discharged from the cleaning nozzle 134a. The waste is mixed and jetted to increase the fluidity of the waste discharged into the waste collection cup 120 so that the waste can be flushed to the waste collection pipe 122.
Next, the operation of the excrement processing apparatus 14 will be described. Note that the two-way valves 209 and 221 are closed in the initial state.
This operation is roughly divided into three steps: a suction step, a cleaning step, and a drying step.
First, the suction step is an operation of suctioning excrement and the like from the waste collection cup 120 of the diaper 12. First, the suction port is opened in a direction in which the COM port side of the three-way valve 204 and the NC port side communicate with each other, and the COM port of the three-way valve 208 is opened. By opening in the direction in which the port side communicates with the NO port side, the air inside the excretion tank 200 is sucked by the blower blower 205a and maintained at a negative pressure, and the waste collection cup 120 to the waste collection pipe 122, the waste suction hose 16 While the air flows toward the excretion tank 200 and the blower blower 205a, the waste collection cup 120 passes from the discharge port of the blower blower 205a through the air pipe 143, the three-way valve 208, the air pipe 144, the air pipe 134, and the washing nozzle 134a. The air circulates. Since the check valve 400 is provided in the suction nozzle 401, the air is not injected from the suction nozzle 401.
At this time, by opening the two-way valve 209 and operating the water pump 215, the washing water flows from the washing water tank 210 into the air pipe 134 via the water pipe 148, the water pipe 149, the branch pipe 173, and the two-way valve 209. I do. This is because the pressure loss is lower because the diameter of the air pipe 134 is larger than the diameter of the washing water tube 132 as described above. Then, in the air pipe 134, the cleaning water and the air are mixed and sent to the waste collection cup 120, and are sprayed from the cleaning nozzle 134 a to increase the fluidity of the waste, thereby sucking the waste. Things.
More specifically, when the blower blower 205a operates, the excretion tank 200 is maintained at a negative pressure, only the air in the excretion tank 200 is guided to the air pipe 140 by the separator 202, and is converted into air by the deodorizing / sterilizing device 207. The removal and sterilization of the contained odor components are performed, and the odor components flow into the suction port of the blower 205a. Further, the air discharged from the discharge port of the blower blower 205a is guided to the filth collection cup 120 after the odor and the sterilization are performed as described above, and the inside of the filth collection cup 120 is kept hygienic.
Usually, in a blower blower, when suction resistance is large, such as when sucking filth, the suction capacity is reduced. However, the blowability of the blower 205a is determined in consideration of the reduction in the suction capacity. I have.
Next, the washing step is an operation of washing each part of the user 3. First, the two-way valve 209 is closed, and washing water is supplied from the washing water tank 210 to the water pipes 148, 149, 132 by the water pump 215. After that, water is sent to the waste collection cup 120 and jetted from each of the cleaning nozzles 130a and 130b. In addition, in this cleaning step, the circulation of air in the above-described suction step is also performed in order to suction the cleaning water from the inside of the waste collection cup 120.
After the water pump 215 is stopped, the air discharged from the blower blower 205a can be conducted into the water pipe 149 by opening the three-way valve 208 in the direction in which the COM port side and the NC port side communicate with each other while the blower blower 205a is operating. The washing water accumulated in the water pipe 149, the branch pipe 173, and the washing water tube 132 can be drained. Thereby, the water that accumulates in the water pipe at the start of the next cleaning can be reduced, and the low-temperature cleaning water spouting to the user 3 can be reduced.
In the drying step, after cleaning each part of the user 3, dry air is sprayed from each of the cleaning nozzles 130a and 130b to dry.
Specifically, the two-way valve 209 is closed, opened in the direction in which the COM port side and the NO port side of the three-way valve 204 communicate, and opened in the direction in which the COM port side and the NC port side of the three-way valve 208 communicate. , The two-way valve 221 is opened to operate the blower blowers 205a and 205b simultaneously. At this time, the operation of the blower blower 205b may be started at the same time as the operation of the blower blower 205a, or slightly earlier (for example, several seconds) than the start of the operation of the blower blower 205b.
Then, after the outside air is filtered by the filter 203, it flows into the suction port of the blower blower 205a through the silencer 206, the air pipe 152, the three-way valve 204, and the air pipe 142, and is discharged from the discharge port of the blower blower 205a. Through the air pipe 143, the three-way valve 208, the air pipe 146, the hot air heater 219, the air pipe 150, the check valve 222, the air pipe 152, the branch pipe 171 and the water pipe 149, the branch pipe 173, and the washing water tube 132. It is guided to each of the cleaning nozzles 130a and 130b, and is jetted into the waste collection cup 120. Here, the hot air heater 219 heats and dries the air. The warm air heater 219 heats the outside air to a predetermined temperature (for example, 60 ° C.), and also prevents the temperature from lowering due to the inflow of cool air. Here, the hot air heater 219 is provided with a thermistor 220 and a temperature fuse (not shown), and the hot air heater 219 is turned off when the heater is heated to a predetermined temperature.
The air (outside air) jetted into the waste collection cup 120 passes through the air pipe 134, the branch pipe 172, the air pipe 145, the branch pipe 170, the air pipe 154, the two-way valve 221, and the air pipe 155 from the suction nozzle 401. The air is sucked from the suction port of the blower blower 205b, and is discharged from the muffler 207 to the outside air through the air pipe 156 from the outlet.
In addition, an operation panel 300 for an operator to operate is provided on the body of the excrement disposal apparatus 14. FIG. 10 is a diagram illustrating an example of the operation panel 300. In this figure, a power switch 300a is a push-down switch for instructing power on / off of the excrement disposal device 14, and an automatic operation switch 300b is provided regardless of the operation of the operator. Is a push-down switch for instructing a series of steps of a suction step, a cleaning step, and a drying step to be automatically performed based on a detection signal from the moisture detection sensor 217 provided in the above. The operation mode lamp 300e operates in a manual mode in which the operation mode of the excrement processing apparatus 14 operates in accordance with an operation of an operator, or in an automatic mode in which the operation mode is operated based on a detection signal from the moisture detection sensor 217. This is a display lamp for notifying whether or not there is. The hot water setting switch 300c is a push-down switch for setting the temperature of the cleaning water stored in the cleaning water tank 210. The hot water display panel 300f displays the set temperature while the hot water setting is being performed by operating the hot water setting switch 300c, and based on the detected value of the thermistor 212 except for the hot water setting. Displays the current temperature of the wash water. The pressure setting switch 300d is a switch for setting the air pressure of the mat 10. The water supply lamp 300g is a display lamp for notifying that the amount of the washing water stored in the washing water tank 210 is insufficient, and the hot water lamp 300i is a lamp at which the temperature of the washing water reaches the set temperature. This is a display lamp for notifying that no operation has been performed. The full lamp 300h is a display lamp for notifying that the amount of excrement and filth stored in the excrement tank 200 exceeds a predetermined amount, that is, that there is no room to newly store excrement. It is.
Further, the excrement processing system 1 of the present embodiment includes a remote controller 302 for an operator (user 3) or the like to transmit an instruction signal to the excrement processing apparatus 14 by wireless and / or wired operation. It has. As shown in FIG. 11, the remote controller 302 includes a suction / stop button 302a, a cleaning button 302b, and a drying button 302c. The suction / stop button 302a is an operation button for instructing the start of the suction step or the stop of each step of the suction step, the cleaning step, and the drying step. The cleaning button 302b is an operation button for instructing the start of the cleaning process, and the drying button 302c is an operation button for instructing the start of the drying process. In this way, the reason why the operation by the remote controller 302 is made possible is that when the operator is the user 3 and is a bedridden person, the operator can easily perform the operation.
Next, the operation of the present embodiment will be described. As described above, the excrement disposal device 14 performs a series of steps of the suction step, the washing step, and the drying step when an operation instruction is given by an operator, and based on a detection signal from the moisture detection sensor 217. It has two operation modes: an automatic mode in which the operation is performed by a manual operation.
FIG. 12 is a flowchart showing a processing procedure of the excrement processing apparatus 14 at the time of the manual mode operation. As shown in the figure, when the power of the main body is turned on by operating the power switch 300a (step Sa1), the amount and temperature of the cleaning water stored in the cleaning water tank 210 and the excrement processing device 14 are determined. Then, a check process is performed to check the amount of the excrement stored in the excretion tank 200 (step Sa2). FIG. 13 is a flowchart illustrating the procedure of the check process. As shown in this figure, the excrement disposal device 14 first determines that the amount of washing water stored in the washing water tank 210 is sufficient for washing the user 3 based on the detection value of the float sensor 213. Is checked (step Sb1), and when the amount of water is insufficient (step Sb1: NO), a water supply lamp 300g is turned on to warn the operator to supply cleaning water, and an alarm is issued (step Sb1). Sb2) The operation reception from the remote controller 302 is prohibited (step Sb3), and the processing procedure returns to step Sb1 to check the amount of cleaning water again. Here, whether the amount of washing water is sufficient is determined based on the amount of water required for one washing (for example, 600 cc). If the amount is less than this standard, it is determined that the amount of washing water is insufficient.
If the amount of washing water is sufficient (step Sb1: YES), the excrement disposal device 14 activates the hot water heater 211 to heat the washing water (step Sb4). It is checked whether or not the temperature of the washing water has reached a predetermined temperature (such as a preset temperature) (step Sb5). As a result of this check, if the temperature of the washing water has not reached the set temperature (step Sb5: NO), the excrement disposal device 14 turns on the warm water lamp 300i to warn the operator that the warm water is not at an appropriate temperature. (Step Sb6), operation acceptance from the remote controller 302 is prohibited (Step Sb7), and the processing procedure returns to Step Sb5 again to detect the water temperature.
If the temperature of the washing water is equal to or higher than the set temperature (step Sb5: YES), the excrement disposal device 14 stores new excrement in the excrement tank 200 based on the detection value of the liquid level sensor 201. It is checked whether or not there is enough time (step Sb8). As a result of this check, if there is no room in the excrement tank 200 (step Sb8: NO), the excrement disposal device 14 turns on the full lamp 300h to notify the operator that the excrement tank 200 is full of excrement or the like. After the alarm is issued (step Sb9), operation acceptance from the remote controller 302 is prohibited (step Sb10), and the process returns to step Sb8 to check whether the excretion tank 200 has room again. On the other hand, when there is room to newly store excrement or the like in the excrement tank 200 (step Sb8: YES), the excrement disposal device 14 ends the check processing. It should be noted that whether or not there is room in the excretion tank 200 is determined based on the capacity of one excretion (for example, 300 cc). If the free capacity is less than the standard, it is determined that there is no free capacity. You.
As described above, in the present embodiment, after the power is turned on and before the suction step, the cleaning step, or the drying step is performed, each step such as the amount and temperature of the cleaning water and the free capacity of the excretion tank 200 is performed. Are checked in advance, and if there is a problem, operation acceptance for instructing the execution of each step is prohibited, and thus the execution of these steps is prohibited. This prevents problems such as the inability to store the excrement and filth in the excretion tank 200 during the execution of each step.
More specifically, the check process causes the suction process to start the drying process only when the capacity of the waste and excreta that can be stored when the suction process and the cleaning process are performed once is secured in the excretion tank 200. Therefore, it is possible to prevent the empty capacity of the excrement tank 200 from being completely lost during these series of steps. In addition, since the check process performs the steps from the suction step to the drying step only when the washing water required for performing one washing step is secured in the washing water tank 210, the washing water is performed during these series of steps. The washing water in the tank 210 is prevented from being empty.
Next, as shown in FIG. 12, upon receiving a suction instruction from the remote controller 302 (step Sa3), the excrement disposal device 14 performs a suction step of sucking excrement from the waste collection cup 120 (step Sa4). In the initial state, the two-way valves 209 and 221 are in a closed state.
In this suction step, as shown in FIG. 14, the excrement disposal device 14 is opened in a direction in which the COM port side and the NC port side of the three-way valve 204 are communicated (step Sc1), and the three-way valve 208 is opened. The COM port side and the NO port side are opened in a communication direction (step Sc2), and after starting the blower blower 205a (step Sc3), the two-way valve 209 is opened (step Sc4), and the water pump 215 is turned on for a predetermined time (step Sc4). For example, for 20 seconds) (step Sc5). As a result, the pressure in the excrement tank 200 is reduced by the suction of the blower blower 205a, and the excrement is softened by the washing water and the air jetted from the washing nozzle 134a and is sucked toward the excretion tank 200. . Then, the water pump 215 is operated until the predetermined time (for example, 20 seconds) elapses (step Sc6: NO). If the predetermined time elapses (step Sc6: YES), the water pump 215 is stopped. (Step Sc7), the blowing blower 205a is stopped (Step Sc8), the two-way valve 209 is closed (Step Sc9), and the suction step is completed.
Then, as shown in FIG. 12, the excrement disposal apparatus 14 continues the suction step until a cleaning instruction is given from the remote controller 302 (step Sa5: NO), and when there is a cleaning instruction (step Sa5: YES). ), A cleaning step is performed (step Sa6). Since the process to be performed next to the suction process is a cleaning process, operation acceptance of the drying process is prohibited during the suction process to prevent malfunction. As shown in FIG. 15, in the cleaning step, the excrement disposal device 14 communicates with the NC port side of the three-way valve 204 and the NO port side of the three-way valve 208 in the suction step. Since the port is in communication with the port and the two-way valve 209 is closed, the blower blower 205a is started (step Sd1), and then the water pump 215 is operated for a predetermined time (for example, 20 seconds). (Step Sd2). As a result, the washing water stored in the washing water tank 210 is jetted from the washing nozzles 130a and 130b connected to the water pipe 149, and each part of the user 3 (anus, pubic region, etc.) is washed. At this time, the washing water is sucked from the waste collection cup 120 via the waste collection pipe 122 into the excretion tank 200 and stored therein. Then, the water pump 215 is operated until the predetermined time (for example, 20 seconds) elapses (step Sd3: NO). If the predetermined time elapses (step Sd3: YES), the water pump 215 is stopped. (Step Sd4), the blowing blower 205a is stopped (Step Sd5), and the cleaning process is completed.
Next, as shown in FIG. 12, the excrement disposal device 14 performs a drying process (step Sa7). In the drying step, as shown in FIG. 16, the excrement disposal device 14 forms a circulation path of the dried air so that the dried air does not pass through the excretion tank 200. Specifically, in the excrement disposal apparatus 14, the two-way valves 209 and 221 are in a closed state, and the COM port side of the three-way valve 204 is in a direction communicating with the NC port side. Since the COM port side is in the direction communicating with the NO port side, the direction is switched to the direction in which the COM port side and the NO port side of the three-way valve 204 communicate (step Se1), and the COM port side of the three-way valve 208 and the NC port are switched. The direction is switched to the direction communicating with the side (step Se2). Thereby, the filter 203, the silencer 206, the air pipe 152, the three-way valve 204, the air pipe 142, the blower blower 205a, the air pipe 143, the three-way valve 208, the air pipe 146, the hot air heater 219, the air pipe 150, the check valve A path for circulating air is formed in the order of 222, air pipe 151, branch pipe 171, water pipe 149, branch pipe 173, washing water tube 132, washing nozzles 130a and 130b, and air pipe 134 and branch pipe from suction nozzle 401. A path for circulating air is formed in the order of 172, air pipe 145, branch pipe 170, air pipe 154, two-way valve 221, air pipe 155, blower blower 205b, air pipe 156, and muffler 207. Next, the excrement disposal apparatus 14 activates the blower blowers 205a and 205b for a predetermined time (for example, 420 seconds) (Step Se3), filters and sucks outside air, and circulates the waste into the waste collection cup 120. And release it to the outside. Further, the hot air heater 219 is operated so as to be at a predetermined temperature (for example, a temperature at which dry air is blown out at 50 ° C.) (Step Se4). As a result, the dry air heated by the hot air heater 219 is blown from the cleaning nozzles 130a and 130b to each part (anus, pubic region, and the like) of the user 3, and drying is performed. Then, the blower blowers 205a and 205b are operated until the predetermined time (for example, 420 seconds) elapses (Step Se5: NO). When the operation is performed for the predetermined time (Step Se5: YES), the hot air heater is operated. 219 is stopped (Step Se6), the blowing blowers 205a and 205b are stopped (Step Se7), and the drying process is completed.
The hot air heater 219 may be turned on before the blower blowers 205a and 205b, or both may be turned on substantially simultaneously. Further, in order to prevent wasteful air heating by the hot air heater 219, the hot air heater 219 is not operated until the temperature of the heater reaches a predetermined temperature (for example, 60 ° C.) or after the blower blowers 205a and 205b start operating. It is desirable to turn off the blower after a lapse of time (for example, 415 seconds) and before the blower blowers 205a and 205b stop.
Here, the time for cleaning and drying is set in advance, but depending on the situation, there is a possibility that cleaning or drying may be insufficient. Therefore, as shown in FIG. 12, the excrement disposal apparatus 14 determines whether or not a cleaning instruction has been received again from the remote controller 302 (step Sa8). If no cleaning instruction has been received (step Sa8: NO) ), It is determined whether or not the drying instruction has been received again (step Sa9). If there is a cleaning instruction (step Sa8: YES), the excrement disposal apparatus 14 returns the processing procedure to step Sa6 to perform the cleaning step again. If there is a drying instruction (step Sa9: YES), the excrement disposal apparatus 14 returns the processing procedure to step Sa7 to perform the drying step again. If the drying instruction has not been received (step Sa9: NO), the excrement disposal device 14 ends the processing.
As described above, in addition to the manual mode as the operation mode, the excrement disposal apparatus 14 of the present embodiment performs a series of the suction step, the cleaning step, and the drying step based on the detection signal from the moisture detection sensor 217. There is an automatic mode for automatically performing the above steps. In the automatic mode, a series of steps from a suction step to a drying step is performed. Hereinafter, the operation in the automatic mode will be described.
FIG. 17 is a flowchart showing a processing procedure of the excrement processing apparatus 14 in the automatic mode. As shown in this figure, the power of the own apparatus 14 is turned on (step Sf1), and the automatic operation mode (automatic operation) is instructed by pressing the automatic operation switch 300b, and the steps from the suction step to the drying step are automatically executed. (Step Sf2), the excrement disposal device 14 performs the same check processing (see FIG. 14) as in the manual mode described above (Step Sf3). This prevents a problem from occurring in the suction step, cleaning step, and drying step performed later.
Next, the excrement disposal device 14 detects the excrement in the waste collection cup 120 by the moisture detection sensor 217 based on the presence or absence of moisture, and if there is no excrement in the waste collection cup 120 (step Sf4: NO). The determination in step Sf4 is repeated, and if excrement is present in the waste collection cup 120 (step Sf4: YES), a suction step (step Sf5) in the same procedure as the drying step in the manual mode shown in FIG. A series of processes including a cleaning step (step Sf6) in the same procedure as the cleaning step in the manual mode shown in FIG. 16 and a drying step (step Sf7) in the same procedure as the drying step in the manual mode shown in FIG. It is. After that, a check process (Step Sf3) is performed after a series of steps to confirm changes in the amount and temperature of the washing water stored in the washing water tank 210 and the amount of excrement stored in the excretion tank 200. And
It should be noted that the above-described embodiment is merely one aspect of the present invention, and the present invention is not limited to this, and it is needless to say that the present invention can be arbitrarily modified within the scope of the present invention.
For example, in the above-described manual mode or automatic mode operation, the excrement disposal device 14 performs a series of processes from the suction process to the drying process when the free space of the excrement tank 200 becomes insufficient during the suction process or the cleaning process. After the process is completed, the full lamp 300h may be turned on to alert the operator and cancel the instruction of the suction process until the free space of the excrement tank 200 is sufficient.
Further, for example, in the above-described manual mode or automatic mode operation, the excrement disposal device 14 may be configured to operate when the remaining amount of the washing water stored in the washing water tank 210 during the washing process becomes smaller than a predetermined value. After the drying step is completed, the water supply lamp 300g may be turned on to alert the operator, and a series of instructions from the suction step to the drying step may be canceled until the cleaning water is supplied. good.
【The invention's effect】
As described above, according to the present invention, after suction of excrement and washing of the user's anus and genital area, air is sucked and heated to circulate air into the diaper surrounding the hips of the user. Therefore, an excrement disposal apparatus is provided that keeps the genital area of the user clean and eliminates the need to replace a dryer that removes the humidity of the air.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an excrement disposal system according to an embodiment of the present invention.
FIG. 2 is a perspective view showing an external configuration of the diaper.
FIG. 3 is a perspective view showing a configuration of the diaper.
FIG. 4 is a side view showing a configuration of a waste collection cup provided in the diaper.
FIG. 5 is a sectional view of the waste collection cup.
FIG. 6 is a perspective view of the diaper as viewed from the back.
FIG. 7 is a view for explaining a housing recess provided in the mat.
FIG. 8 is a diagram showing a configuration of the mat.
FIG. 9 is a diagram showing a configuration of the excrement disposal apparatus.
FIG. 10 is a diagram showing an operation panel provided on the excrement disposal apparatus main body.
FIG. 11 is a view showing a remote controller for operating the excrement disposal apparatus.
FIG. 12 is a flowchart showing a processing procedure of the excrement processing apparatus during the manual mode operation.
FIG. 13 is a flowchart showing a processing procedure of the check processing.
FIG. 14 is a flowchart showing a processing procedure of a suction step performed at the time of the manual mode operation.
FIG. 15 is a flowchart showing a processing procedure of a cleaning step performed during the manual mode operation.
FIG. 16 is a flowchart showing a processing procedure of a drying step performed during the manual mode operation.
FIG. 17 is a flowchart showing a processing procedure of the excrement processing apparatus during the automatic mode operation.
[Explanation of symbols]
1 Excrement disposal system
3 users
10 mat
12 diapers
14 Excrement disposal device
130a, 130b Cleaning nozzle
134a Cleaning nozzle
148, 149 water pipe
140-146, 150-162 Air tube
200 excretion tank
201 Liquid level sensor
205a, 205b blower
210 Wash water tank
211 Hot water heater
212 Thermistor
213 Float sensor
215 Water pump
217 Moisture detection sensor
219 Hot air heater
222 check valve
302 Remote Controller

Claims (9)

A mat on which the user lies, a waste collection cup applied to the crotch of the user, suction of waste discharged in the waste collection cup, circulation of dry air into the waste collection cup, and use of the waste. An excrement disposal system comprising an excrement disposal device for drying the crotch of the elderly,
The excrement disposal device includes a first air blower that blows air into the waste collection cup and a second air blower that sucks air circulated in the waste collection cup, and performs drying of the user's crotch. In this case, the excrement disposal system is characterized in that air is blown into the waste collection cup by the first blower blower and air circulated in the waste collection cup is sucked by the second blower blower. The blowing capacity of the first blowing blower is set to be larger than the blowing capacity of the second blowing blower, and the difference in the blowing capacity between the first blowing blower and the second blowing blower is determined in the waste collection cup. 2. The excrement disposal system according to claim 1, wherein the air blowing capacity difference can be maintained at a pressure. The excrement disposal according to claim 1 or 2, wherein the bottom of the waste collection cup has a tray shape, and a moisture detection sensor is provided in the waste collection cup to detect that the excrement has been excreted. system. The excretion according to any one of claims 1 to 3, wherein the mat has a concave portion for accommodating a back surface of the waste collection cup at a position corresponding to the hips of the user. Object processing system. At the time of the drying, the blowing capacity of the first blowing blower is set to be larger than the blowing capacity of the second blowing blower, and the difference in blowing capacity between the first blowing blower and the second blowing blower is determined by the waste collection cup. The excrement disposal system according to any one of claims 1 to 4, wherein the air blowing capacity difference is such that the inside can be maintained at a weak negative pressure. The waste collection cup is connected to a waste collection cup applied to a user's crotch, sucks excrement discharged into the waste collection cup, and circulates dry air into the waste collection cup to dry the user's crotch. In the excrement processing device to be performed,
A first blower that blows air into the waste collection cup; and a second blower that sucks air circulated in the waste collection cup. The first blower is used when drying the crotch of the user. An excrement disposal apparatus, wherein air is blown into the waste collection cup by a blower blower, and air circulated in the waste collection cup is sucked by a second blower blower. The blowing capacity of the first blowing blower is set to be larger than the blowing capacity of the second blowing blower, and the difference in the blowing capacity between the first blowing blower and the second blowing blower is determined in the waste collection cup. 7. The excrement disposal apparatus according to claim 6, wherein the air blowing capacity difference can be maintained at a pressure. At the time of the drying, the blowing capacity of the first blowing blower is set to be larger than the blowing capacity of the second blowing blower, and the difference in blowing capacity between the first blowing blower and the second blowing blower is determined by the waste collection cup. The excrement disposal device according to claim 6 or 7, wherein the air blowing capacity difference is such that the inside can be maintained at a weak negative pressure. A cup portion applied to the crotch of the user, a belly portion extending from the cup portion and covering the vicinity of the navel of the user, and a back portion extending from the cup portion and covering the buttocks of the user. In a diaper having
A diaper, wherein the bottom of the waste collection cup is shaped like a tray, and a moisture detection sensor is provided in the waste collection cup to detect that the waste is excreted.

Images