JP3778112B2 - Drainage unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fixing structure for a drainage pumping device.
[0002]
[Prior art]
As a conventional waste pumping apparatus, for example, Japanese Patent Laid-Open No. 11-342092 shown in FIGS. 19 and 20 is known. In this apparatus, the urine tank 94 is in close contact with the lower part of the bowl part 1 via the on-off valve 21. Since the bowl part 1 and the urine tank 94 are configured vertically, there is a problem that the height of the apparatus increases. there were. Further, the positioning and fixing of the apparatus is performed by fixing only the urine tank 94 placed at the lower part with the gantry 4, and the position of the bowl part 1 positioned at the upper part is not covered until the entire apparatus is covered with the outer body 8. Is decided.
Moreover, once this apparatus is installed, it is impossible to adjust the position, height, and angle of the bowl part 1, the on-off valve 2, and the pressure discharge part 3.
[0003]
[Problems to be solved by the invention]
According to the conventional method, since the bowl part 1 is supported by the pressure discharge part 3 installed below, the bowl part 1 located at the uppermost part is in an unstable state without the exterior body 8. In addition, the height of the entire apparatus is kept small by arranging the bowl part 1 beside the pressure discharge part 3 and making the flow of drainage from the bowl part 1 to the pressure discharge part 3 substantially horizontal. It is necessary to avoid an installation state that is opposite to the direction of drainage flow.
Moreover, it is necessary to fix so that each positional relationship may become predetermined on arrangement | positioning of the bowl part 1, the stored water holding | maintenance part 2, and the pressurization discharge part 3, respectively.
In particular, when the bowl part 1, the stored water holding part 2, and the pressurized discharge part 3 are installed side by side, the structure is provided to the stored water holding part 2 and the pressurized discharge part 3 in order to support the bowl part 1. Increases the burden of strength.
Further, when removing or inspecting the lower on-off valve 2 or the pressure discharge part 3 for maintenance or the like, it is necessary to remove the unsupported bowl part 1, which makes the work complicated.
[0004]
The main object of the present invention is to discharge and discharge the sewage in the bowl part out of the system, such as sewage, with washing water, and a drainage unit located adjacent to the bowl part and having a stored water holding part and a pressure discharge part. In the drainage device constructed by assembling the drainage unit, the bowl portion is supported and fixed, and the bowl portion, the stored water holding portion, and the pressurized discharge portion are in a predetermined positional relationship with each other, and in the drainage unit. It is to install and fix the bowl part, the stored water holding part, and the pressure discharge part in an appropriate state.
[0005]
[Means, actions and effects for solving the problems]
The invention according to claim 1 is a bowl part that temporarily forms a stored water, a stored water holding part that holds the stored water in the bowl part, and a pressurized discharge part that pressurizes and discharges drainage from the bowl part. And a drainage outlet provided on the side of the bowl part, a drainage inlet of the stored water holding part, and a drainage inlet provided on the side of the pressurized discharge part are supported in a connected state. A drainage unit comprising a fixing member, wherein the fixing member includes a first plate material for fixing the bowl portion, another second plate material, and the first and second plate materials. The first plate material has a cutout portion similar to the horizontal cross section of the bowl portion, and the bowl portion is fitted into the cutout portion. Features.
[0006]
Further, the invention according to claim 2 is a bowl portion that temporarily forms a pooled water, a pooled water holding portion that holds the pooled water in the bowl portion, and a pressure that pressurizes and discharges drainage from the bowl portion. A drainage outlet, a drainage outlet provided on the side of the bowl part, a drainage inlet and drainage outlet of the stored water holding part, and a drainage inlet provided on the side of the pressurized drainage part, A drainage unit comprising: a fixing member that supports the connecting member in a connected state, wherein the fixing member is erected on the first plate member and the first plate member placed substantially horizontally. A second plate material and a third plate material, wherein the second and third plate materials have a cutout portion similar to the vertical cross section of the bowl portion; It is characterized by being fitted and fixed to the part from above.
[0007]
Further, the invention according to claim 3 is a bowl part that temporarily forms the accumulated water, a retained water holding part that retains the retained water in the bowl part, and a pressurization that pressurizes and discharges the drainage from the bowl part. In a state where the discharge part, the drainage outlet provided on the side of the bowl part, the drainage inlet of the stored water holding part, and the drainage inlet provided on the side of the pressurized discharge part are connected. A drainage unit including a first frame member and a second frame member formed in an elbow shape, and a first frame member and a second frame member formed in an elbow shape and suspended in a lateral direction. The first and second frame members are provided with bearings for fixing mounting shafts protruding from both side surfaces of the bowl portion.
[0008]
According to claims 1 to 3, the bowl portion, the stored water holding portion, and the pressure discharge portion are supported and fixed so as to be in a predetermined positional relationship with each other, so that the bowl portion can be independently supported. In addition, an integrated configuration can be maintained as the drainage device.
That is, the load on other parts linked to the bowl portion can be reduced. Also, maintenance such as maintenance of other parts can be easily performed with the bowl portion fixed. In addition, since the bowl part, the stored water holding part, and the pressure discharge part can be arranged and fixed at predetermined positions in advance, it is easy to assemble each part according to the determined order and position when assembling the drainage unit. You can configure the device. Moreover, the installation failure which inhibits the flow of drainage can be prevented, and a favorable installation state can be maintained.
[0009]
In a preferred embodiment, the fixing member has a structure in which the bowl portion, the stored water holding portion, and the pressure discharge portion are supported and fixed at installation positions provided in advance. According to this, since a bowl part, a stored water holding part, and a pressurization discharge part are supported and fixed separately, the load burden between the said 3 components is reduced. Moreover, it is easy to fix the positional relationship between the three parts, and a structure that does not hinder the function of the apparatus can be maintained.
[0010]
In a more preferred embodiment, the stored water holding part is connected to the bowl part or the pressure discharge part in advance, and is supported and fixed. According to this, only the two parts of the bowl part and the pressure discharge part need be installed and fixed on the fixing member, and the assembly and construction of the drainage unit becomes easy.
[0011]
As a further preferred embodiment, the fixing member has a structure for placing a valve seat and supporting the load of the user. According to this, since the user's load is not directly applied to the bowl portion, the strength of the bowl portion can be reduced structurally.
In a more preferred embodiment, the fixing member includes a connector, a water stopper, a check valve, a branch joint, a constant flow valve, a solenoid valve, a vacuum breaker, and a water discharge nozzle in a water supply pipe (secondary pipe). The water supply unit is fixed. According to this, since the dead space of the drainage unit can be used, a set of a secondary water supply system pipe connected to the cleaning water outlet and a primary drainage system pipe connected to the pressurized discharge part can be provided in advance. In construction, it is easy to install a drainage unit and connect the primary water supply pipeline and the secondary drainage pipeline.
[0012]
As a further preferred embodiment, the fixing member has a structure in which the installation position of the bowl part and the pressure discharge part can be adjusted. Thereby, the installation position and the installation angle of the bowl portion can be appropriately changed as appropriate. That is, manufacturing tolerances and construction errors of each part can be absorbed.
[0013]
Specific examples of the fixing member include a structure in which frame materials are combined, a structure in which panel materials are combined, a structure in which pipe materials and panel materials are combined, and the like. As the frame material, a pipe material, an angle material, a square material, a modified cross-section extruded material, a bending material thereof, or the like can be used as appropriate. As the plate material, wood plywood, solid board, laminated material, metal plate, plastic molded plate, porcelain, ceramics, inorganic materials such as ceramics, and the like can be used as appropriate. Furthermore, the frame material may have a groove, a recess, and a through hole, which can be used for positioning and fixing the bowl portion and the pressure discharge portion.
[0014]
In a more preferred embodiment, the bowl portion includes an upper edge, a bowl-shaped water reservoir, a drainage discharge path, and a drainage outlet. The upper edge has a toilet seat placed on the upper part, and forms a water conduit for cleaning water on the bowl surface on the lower part. The drainage outlet is located on the bottom surface or the side surface of the bowl portion, and extends from the bowl-shaped reservoir to the drainage discharge path. In particular, when the drainage outlet is on the side of the bowl, the overall height of the drainage unit can be kept low. The drainage discharge path may partially have an ascending gradient. In this case, even if the water tightness of the valve portion of the accumulated water holding portion is weak, the ascending gradient portion reliably retains the accumulated water. Can be secured.
[0015]
Moreover, as a stored water holding | maintenance part, it may be a structure which has a trap which has an upward gradient, a movable seal trap, and an on-off valve, for example. According to this, the stored water holding part can be used as a mechanism for forming and discharging the stored water in the bowl part. A drainage unit by controlling the drive of the movable mechanism, the water supply unit, and a pressurizing device such as a pump in the pressurizing and discharging unit when forming and draining water in the bowl part. Further, the structure from the drainage discharge port of the bowl part to the stored water holding part can be simplified by providing the valve part that can be freely opened and closed. Examples of the valve unit that can be freely opened and closed include a flapper valve that opens and closes by rotation, a sliding shutter, and a pinch valve that uses a rubber elastic body.
[0016]
The pressurizing and discharging part includes a storage tank that receives drainage from the bowl part, a pressurizing device that pressurizes and discharges drainage from the drainage storage tank, and a basket that receives solid matter in the drainage. Also good. According to this, when solid matter is contained in the drainage, once held in the basket part, and subdivided to a predetermined size or less in the basket part, the mixture with the liquid in the pressure device It can be discharged out of the system. Moreover, the pressurization discharge part may have a structure in which the drainage suction port of the pressurization apparatus and the stored water holding part are directly connected. According to this, the whole drainage unit can be made compact.
[0017]
As the pressurizing device, for example, a pump, a line pump, a grinder pump, a slurry pump, a vortex pump, an air pump, a jet pump, or the like can be used as appropriate.
[0018]
Further, as a more preferred embodiment, the drainage unit includes a mounting table on which the draining unit is mounted above, a drainage pipe and a water supply pipe connector fixed to the mounting table, and a lower part of the mounting table. It is possible to move without moving the installation state of the bowl unit, the stored water holding unit, and the pressurized discharge unit fixed as a drainage unit.
[0019]
The invention according to claim 4 is characterized in that the drainage unit is provided with an angle adjusting portion capable of adjusting an angle so that the bowl portion is horizontal at a fixing portion between the bowl portion and the fixing member.
[0020]
The invention according to claim 5 is characterized in that the angle adjusting portion is provided in a grounding portion of the fixing member.
[0021]
According to claim 4 or 5, it is possible to adjust the installation angle of the drainage unit according to the installation state of the drainage unit. That is, the angle can be adjusted to a better state while the bowl part, the flowing water holding part, and the pressure discharge part, which are attached to the drainage unit, are installed and fixed in a predetermined manner. Specifically, for example, the drainage device is a temporary toilet and is used at a construction site. In this case, there are many places where the installation ground is not leveled, and when the drainage device is installed, the interior drainage unit may not be placed at an appropriate angle. Therefore, it is possible to maximize the performance of the drainage unit by adjusting the angle of the drainage unit with respect to the above problems.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram of an entire drainage unit as a first embodiment of the present invention, a bowl portion 1 having a drainage outlet 14 on a side wall, a retained water holding part 2 connected to the drainage outlet 14, A pressure discharge unit 3 connected to the downstream side of the stored water holding unit 2 is fixed to the fixing member 4 in a predetermined manner.
[0023]
The fixing member 4 includes two upper and lower rectangular first plate members 412 and 411 placed at predetermined intervals, and four frame members 42 erected at predetermined positions. Configured. In addition, a toilet seat placing plate 416 is fixed to the upper part of the first plate material 412, and the toilet seat 11 is placed on the upper part. Further, at the rear part of the fixing member 4, a water supply / drainage power connector 5 is narrowly provided and fixed to the second plate material 411 and the first plate material 412. The bowl portion 1 is fitted and fixed to a notch not shown in front of the first plate material 412. The bowl portion 1 is positioned at the notch. Further, the positioning of the stored water holding portion 2 is performed by being connected and fixed in advance to the drainage outlet 14 of the bowl portion 1. Further, the pressure discharge unit 3 is arranged and fixed at a predetermined position on the second plate material 411.
[0024]
The stored water holding unit 2 includes a flap-type on-off valve 21 that opens and closes by rotation of an electric motor. The pressurized discharge unit 3 includes a storage tank 37, a cage part 31 that temporarily holds solids in the inflowing drainage therein, a pump 32 at the lower part thereof, and a water level detection unit 38 that detects a rise in the water level in the storage tank. . The pump 32 is provided with an agitation blade 33 for agitating the inflowing waste water in the upper part 31 in the upper part, and a pump suction port 35 for entrance of the waste water into the pump chamber at the lower part. A first pumping pipe 34 is connected to the pump outlet. Further, a primary drain pipe 74 is connected to the storage tank 37 and communicates with the first pumping pipe 34. Further, below the upper rim on the inner surface of the bowl 1, a cleaning water discharge port 62 for discharging cleaning water for rinsing the inner surface is provided. A secondary water supply flexible pipe 721 is connected to the cleaning water outlet 62. An electromagnetic valve 61 is connected to the conduit of the secondary water supply flexible pipe 721 and is electrically connected to the electromagnetic valve 61 and the control unit 64. Further, a secondary water supply flexible tube 722 is connected to the local cleaning toilet seat 6 including the rotatable toilet seat 11, the buttocks cleaning nozzle 63, and the control unit 64. The secondary water supply flexible pipes 721 and 722 are branched from the primary water supply flexible pipe 73 at the water supply / drainage power connector 5 and connected to the water supply pipe connector 52.
[0025]
As a procedure for assembling the drainage unit in the present embodiment, first, the pressure discharge unit 3 is arranged and fixed on the second plate member 411 of the assembled fixing member 4. Next, the bowl portion 1 to which the stored water holding portion 2 is fixed in advance is set on the first plate material 412 from above in the drawing, and a drainage inlet (not shown) of the storage tank 37 and the drainage outlet 24 of the stored water holding portion are disposed. Are slide chucked so as to maintain watertightness. Next, the local cleaning toilet seat 6 is installed and fixed on the toilet seat mounting plate 416 and the first plate material 412. Next, the primary drainage flexible pipe 74 and the secondary drainage flexible pipe 75 are connected to the drainage pipe connector 51 to communicate with each other. Further, the secondary water supply flexible pipes 721 and 722 are connected to and communicated with the water supply pipe connector 52. Further, the plug of the power cord 711 is connected to the water supply / drainage power connector 5. Through the above procedure, the drainage unit 4 of this embodiment completes assembly and maintains a predetermined structure. Therefore, the use can be expanded to various drainage devices having the drainage unit of the present invention as a basic configuration.
[0026]
FIG. 2 is a configuration diagram of the whole drainage unit as a second embodiment of the present invention, a bowl portion 1 having a drainage outlet 14 on a side wall, a pressurized outlet 3 connected to the drainage outlet 14, The stored water holding unit 2 connected to the pump outlet of the pressurized discharge unit 3 is fixed to the fixing member 4 in a predetermined manner.
[0027]
The fixing member 4, the bowl part 1, the pressure discharge part 3, and the stored water holding part 2 are configured in the same manner as in the first embodiment. The bowl portion 1 is fitted and fixed to a notch not shown in front of the first plate material 412. The bowl portion 1 is positioned at the notch. In addition, positioning of the stored water holding unit 2 is performed by connecting and fixing to a pump outlet provided on the side wall of the pressurized discharge unit 3. Further, the pressure discharge unit 3 is suspended and fixed at a predetermined position on the first plate material 412 by a fixture 43. Moreover, the pressurization discharge part 3 has an in-line type pump, and the drainage discharge port 14 of the bowl part 1 is connected to the inflow port of the pump.
[0028]
The stored water holding part 2 is composed of an ascending pipe part 26 and a descending pipe part 25, and a primary drainage flexible pipe 74 is connected to the downstream side.
[0029]
The assembly procedure of the drainage unit in the present embodiment is the same as that in the first embodiment, and the drainage unit 4 of the present embodiment completes assembly and maintains a predetermined structure. Therefore, the use can be expanded to various drainage devices having the drainage unit of the present invention as a basic configuration.
[0030]
FIG. 3 is a configuration diagram of the entire drainage unit as a third embodiment of the present invention, a bowl portion 1 having a drainage outlet 14 on a side wall, a stored water holding part 2 connected to the drainage outlet 14, A pressure discharge unit 3 connected to the downstream side of the stored water holding unit 2 is fixed to the fixing member 4 in a predetermined manner.
[0031]
The fixing member 4 is configured by connecting and fixing two rectangular first and second plate members 412 and 411 arranged at predetermined intervals and four frame members 42 erected at predetermined positions. Is done. A base plate 12 for fixing the toilet seat is fixed to the upper portion of the first plate material 412. Further, at the rear part of the fixing member 4, a water supply / drainage power connector 5 is narrowly provided and fixed to the second plate material 411 and the first plate material 412. The bowl portion 1 is fitted and fixed to a notch portion in front of the first plate material 412. The bowl portion 1 is positioned at the notch. Further, the positioning of the stored water holding unit 2 is performed by being connected and fixed in advance to the drainage inlet of the pressurized discharge unit 3. Further, the pressure discharge unit 3 is arranged and fixed at a predetermined position on the second plate material 411.
[0032]
As a procedure for assembling the drainage unit in the present embodiment, the drainage unit 4 of the present embodiment completes assembly and maintains a predetermined structure in the same procedure as in the first embodiment. Moreover, the bowl part 1 may be a structure in which height adjustment is possible, for example, the movable stopper 421 fixed to the frame material 42 in a figure is suitably fixed according to an appropriate position. The stopper 421 supports the first plate material 412 from below, and can fix the bowl portion 1 to be installed at an appropriate height. Therefore, the use can be expanded to various drainage devices having the drainage unit of the present invention as a basic configuration.
[0033]
FIG. 4 is a block diagram of the whole drainage unit as a fourth embodiment of the present invention, a bowl part 1 having a drainage outlet 14 on a side wall, a retained water holding part 2 connected to the drainage outlet 14, A pressure discharge unit 3 connected to the downstream side of the stored water holding unit 2 is fixed to the fixing member 4 in a predetermined manner.
[0034]
The fixing member 4 has a second plate member 413 having a semicircular cutout at the top and a third plate member 414 standing at a predetermined position on the first plate member 415 placed substantially horizontally. Become.
[0035]
As a procedure for assembling the drainage unit in the present embodiment, the bowl portion 1 is placed on the cutout portions of the second and third plate members 413 and 414 from above the predetermined fixed member 4. Next, the pressurized discharge part 3 to which the stored water holding part 2 is connected and fixed in advance is connected from the rear of the bowl part 1. At this time, the drainage outlet 14 of the bowl part 1 and the stored water holding part drainage inlet 22 are fitted so as to be sealed in a watertight manner. Through the above procedure, the drainage unit 4 of this embodiment completes assembly and maintains a predetermined structure. Therefore, the application can be expanded to various drainage devices having the drainage unit of the present invention as a basic configuration.
[0036]
In addition, an angle adjustment unit 45 is provided at the lower portion of the fixing member 4 to enable adjustment of the installation angle of the entire drainage unit. The angle adjustment unit 45 may be an elliptical cam that rotates around the rotation axis provided in the first plate member 415, and the elliptical cam changes the height with the installation surface by rotation, The installation angle of the whole drainage unit can be adjusted.
[0037]
FIG. 5 is a block diagram of the whole drainage unit as a fifth embodiment of the present invention, a bowl part 1 having a drainage outlet 14 on a side wall, a retained water holding part 2 connected to the drainage outlet 14, A pressure discharge unit 3 connected to the downstream side of the stored water holding unit 2 is fixed to the fixing member 4 in a predetermined manner. The bowl portion 1 is mounted and fixed by an angle adjusting portion including a mounting shaft 16 protruding from both side surfaces and a bearing 44 provided in the fixing member 4.
The fixing member 4 is configured by connecting and fixing three frame members 422, 423, and 424, and two of them are bent in an elbow shape and warped forward. The first frame member 422 and the second frame member 423, which are the two frame members, are joined to each other at a predetermined interval by the second frame member 424, which is another one laid down substantially horizontally. Yes.
[0038]
As a procedure for assembling the drainage unit in the present embodiment, the mounting shaft 16 of the bowl portion is fixed to a bearing 44 provided on a warped portion of the first and second frame members 422 and 423. The fixing may be an angle adjusting portion having a structure capable of rotating and adjusting the vertical angle of the bowl portion 1. Next, the pressurized discharge part 3 to which the stored water holding part 2 is connected and fixed in advance is connected from the rear of the bowl part 1. At this time, the drainage outlet 14 of the bowl part 1 and the stored water holding part drainage inlet 22 are fitted so as to be sealed in a watertight manner. Further, the pressure discharge unit 3 is fixed laterally by a fixture 43 provided on the frame members 422 and 423. The fixture 43 has a structure capable of adjusting the position in the vertical direction and the height direction, and can absorb mounting tolerances. Through the above procedure, the drainage unit 4 of this embodiment completes assembly and maintains a predetermined structure. Therefore, the application can be expanded to various drainage devices having the drainage unit of the present invention as a basic configuration.
[0039]
Moreover, as another embodiment, it is the structure which can adjust the installation height of the said drainage unit arbitrarily. According to this, it is possible to adjust the attachment height with respect to the said exterior body of the said drainage unit according to the installation state of the said drainage device. That is, the height can be adjusted to a state that is easier to use while the bowl part, the running water holding part, and the pressure discharge part, which are attached to the drainage unit, are installed and fixed in a predetermined manner. Specifically, for example, when the drainage device is a vanity, the user can improve the usability by adjusting the upper counter to a height that is easy to use.
[0040]
FIG. 6 is a conceptual diagram of a stored water holding unit as a sixth embodiment of the present invention, in which a stored water holding unit drainage inlet 22 is provided on the upstream side, and a stored water holding unit drainage outlet 24 is provided on the downstream side. An on-off valve 21 is provided in the middle. 6A shows the open / close valve 21 in an open state, and FIG. 6B shows the open / close valve 21 in a closed state. The on-off valve 21 has an on-off valve rotating shaft 23, and when the valve is closed, the on-off valve 21 abuts against the valve seat portion 27 to maintain water tightness and form accumulated water in the bowl portion 1. In addition, the open / close valve 21 is rotated by 0 to 90 degrees in the downstream direction around the open / close valve rotation shaft 23 when being opened, and discharges the waste water.
[0041]
The on-off valve 21 in the present embodiment may be a mechanical type or an electric type. As the mechanical type, for example, a spring, a weight, a magnet, and the like can be used in appropriate combination. Moreover, the method of utilizing the drainage pressure of the pump in the pressurization discharge part 3 is also mentioned. In the case of the electric type, a driving motor can be used as appropriate, and the turning angle and opening speed of the on-off valve 21 can be controlled depending on the case.
[0042]
According to the configuration of the stored water holding part 2 of the present embodiment, it is connected to the bowl part 1 fixed in a predetermined manner, and a predetermined stored water can be secured and discharged.
[0043]
FIG. 7 is a block diagram of the whole drainage device as a seventh embodiment of the present invention, and FIG. 8 is a conceptual view seen from the side. The drainage device of the present embodiment is a stool toilet, and includes a drainage unit fixed by a fixing member 4 and an exterior body 8 that covers the drainage unit. The drainage unit fixes the bowl portion 1, the stored water holding portion 2, and the pressure discharge portion 3 to a predetermined position by a fixing member 4 similar to that of the first embodiment. The exterior body 8 includes a handrail 82, a backrest 81, and a base plate 12 for attaching a toilet seat. The exterior body 8 is a chair configured to mount the toilet seat 11 on the base plate 12 provided on the upper portion. . Furthermore, the exterior body 8 includes the water supply / drainage power connector 5 and connects the secondary drainage flexible pipe 75, the primary water supply flexible pipe 73, and the power cord 71.
[0044]
The drainage unit is inserted into the exterior body 8 and includes a primary drainage flexible pipe 74 and a secondary water supply flexible pipe 72 that are configured to bendable and stretchable in the drainage unit, and a drainage pipe connector 51. , And the water supply pipe connector 52, respectively. At that time, the drainage unit is introduced while being supported from below by the slide guide 83. Further, a caster 93 is provided below the fixing member 4 to facilitate the movement of the drainage unit.
[0045]
In the drainage unit of this example, the drainage unit can be easily attached to the exterior body 8, the load load of the user can be supported by the exterior body, and a structure that can be easily changed in position can be realized.
[0046]
FIG. 9 is a block diagram of the whole drainage device as an eighth embodiment of the present invention. The drainage apparatus of the present embodiment is a nursing bed with stool, and includes a drainage unit fixed by a fixing member 4 and an exterior body 8 that covers the drainage unit. The drainage unit fixes the bowl portion 1, the stored water holding portion 2, and the pressure discharge portion 3 to a predetermined position by a fixing member 4 similar to that of the first embodiment. The exterior body 8 is a bed 84 having a space provided with a slide guide 83 below the bed, and the drainage unit is loaded from the side of the bed 84 while being supported from below by the slide guide 83.
[0047]
The drainage device of the present embodiment can easily mount the drainage unit on the bed 84, can support the load applied by the user with the exterior body, and can realize a structure in which the position can be easily changed.
[0048]
FIG. 10 is a block diagram of the entire drainage device as the ninth embodiment of the present invention. The drainage apparatus of the present embodiment is a temporary toilet, and includes a drainage unit fixed by a fixing member 4 and an exterior body 8 that covers the drainage unit. As in the first embodiment, the drainage unit fixes the bowl part 1, the stored water holding part 2, the pressure discharge part 3, and the hand-washer, which are fixed to the fixing member 4. The hand-washing machine 9 has a water supply / drainage connector 91 and is connected to and fixed to a water supply / drainage power connector 5 provided on the fixing member 4. The exterior body 8 is configured to insert the drainage unit from the side.
[0049]
Furthermore, a further preferred embodiment is that the drainage unit comprising the drainage unit and an exterior body that covers the drainage unit is provided so that the drainage unit can be attached to and detached from the exterior body. . That is, as the drainage unit, the bowl part, the running water holding part, and the pressure discharge part can be set on the exterior body in a state where they are assembled and fixed in a predetermined manner, so that there is little variation in quality of the drainage device. Moreover, the assembly work of the drainage device is completed when a drainage unit set in advance is installed on the exterior body and a predetermined piping operation is performed. In addition, the drainage device of the present invention can be easily performed by simply separating the exterior body and the drainage unit at the time of maintenance, replacement of parts, redesign of the exterior body, and the like.
[0050]
For example, when the drainage device is a seated toilet, accessory parts such as a toilet seat, a local cleaning device, a deodorizing device, a hand-washing device, a backrest, an armrest, and a cleaning switch can be attached to the exterior body. According to this, in a use state in which the drainage unit is mounted on the exterior body, the drainage unit is not directly subjected to the weight load of the user, and the weight load is supported by the rigidity of the exterior body. Thus, it is possible to reduce the guarantee strength of the drainage unit and the parts such as the bowl portion attached to the drainage unit. This also makes it difficult for the drainage unit to bend due to the load, which may hinder its function.
[0051]
As another example, the exterior body may be a hospital bed or a care bed. In this case, the drainage unit can be mounted from the side below the bed floor. Specifically, the drainage device of the present embodiment can be suitably used by a patient who normally treats defecation with diaper or the like, such as a hospitalized person who is paralyzed in the lower body. Therefore, the drainage unit of the present invention can be appropriately installed according to the medical condition of the patient.
[0052]
Another example is a combination of the seated toilet and the bed. In the case where a user who was originally self-supporting and excreted by the above-mentioned seated toilet at the side of the bed will be performed in the bed as the medical condition worsens, one drainage unit and an exterior body should be prepared respectively. It can respond.
[0053]
The drainage device of the present example could easily mount the drainage unit on the temporary toilet 85, support the load load of the user with the exterior body, and realize a structure that can be easily changed in position.
[0054]
FIG. 14 is a system diagram showing the apparatus configuration of the drainage unit in the tenth embodiment. FIG. 15 is a control time chart in the tenth embodiment, which is divided into a user operation (input), a control (output), and a (water level) state. As the user operation (input), input signals from the seat switch 102 and the washing switch 103 are shown. As the control (output), output signals to the water supply electromagnetic valve 61, the on-off valve 21, and the pump 32 are shown. ing. Further, as the (water level) state, the water level of the stored water 1A in the bowl part 1 and the water level of the stored water 3A in the pressurized discharge part 3 are shown. Since the pump 32 is driven by a motor, the stirring blade 33 is also driven while the pump 32 is driven.
[0055]
Next, these operations will be described.
[Initial state] The water supply solenoid valve 61 and the on-off valve 21 are closed, and the pump 32 is stopped. Equivalent). The level of the stored water 3A in the pressurized discharge unit is higher than the height of the pump suction port 35, which means that the pump 32 can be driven without priming water.
[0056]
[Standby] When the user is seated on the toilet seat, based on the ON signal from the seat switch 102, the power supply circuit 101 of the control unit opens the water supply electromagnetic valve 61 and closes the water supply electromagnetic valve 61 after a predetermined time.
While the solenoid valve 61 for water supply is opened, the water level of the water in the bowl portion 1A rises to about 55 mm (equivalent to about 0.7 L of water).
FIG. 11A shows the state of the stored water 1A in the bowl portion, and FIG. 11B shows the state of the stored water 3A in the pressurized discharge portion.
[0057]
[At the start of washing] When the user excretes, the water level of the water in the bowl portion 1A rises according to the amount of filth.
Subsequently, when the user presses the cleaning switch 103, the control unit 64 opens the water supply electromagnetic valve 61 again based on the signal.
After the water supply electromagnetic valve 61 is opened, the water level of the water in the bowl portion 1A rises again.
12A shows the state of the stored water 1A in the bowl portion, and FIG. 12B shows the state of the stored water 3A in the pressurized discharge portion.
The washing water supplied from the washing water outlet 62 is preferably 9 to 16 L / min.
In this state, heavy filth is sinking to the bottom of the bowl portion 1, and the lightweight filth is floating in the bowl 1 due to the flow of cleaning water.
[At the start of pumping] A predetermined time after opening the water supply electromagnetic valve 61 (when the water level of the water 1A in the bowl portion rises to about 80 mm), the control unit 64 opens the on-off valve 21 and simultaneously drives the pump 32. . The drainage capacity of the pump 32 is 30 to 60 L / min.
Then, the heavy waste sinking to the bottom of the bowl part 1 starts to move to the drainage discharge port 14 together with the surrounding washing water (reserved water) by the head pressure of the water level of the water 1A in the bowl part and the water pressure of the washing water. (The water level of the water 1A in the bowl portion decreases).
Here, since the water level of the stored water 3 </ b> A in the pressurized discharge unit is decreased at the same time as the water level of the stored water 1 </ b> A in the bowl unit is decreased, the compression of the air in the pressurized discharge unit 3 is reduced.
That is, the weight of the compressed air is reduced by reducing the pressure in the pressurized discharge unit 3 before the reservoir in the bowl unit 1 flowing toward the pressurized discharge unit 3 after supplying the washing water reaches the pressurized discharge unit 3. Obstruction of filth transport is reduced.
[0058]
As a preferable modification, before the control unit 64 opens the on-off valve 21 (before the reservoir (heavy waste and surrounding reservoir and washing water) in the bowl 1 flows toward the pressurized discharge unit 3). The pump 32 can be driven. In this case, when the on-off valve 21 is opened, the inside of the pressurizing and discharging unit 3 is at a negative pressure, so that the suction force due to the negative pressure can be used for the conveyance of filth.
[0059]
As another modification, the control unit 64 can drive the pump 32 before opening the water supply electromagnetic valve 61 (before supplying cleaning water through the cleaning water discharge port 62). In this case, it is necessary to pay attention so that the water level of the stored water 3 </ b> A in the pressurized discharge portion does not become less than the height of the pump suction port 35.
[0060]
[Pressure-feeding state] When the water level in the bowl portion 1A and the water level in the pressurization discharge portion 3A both drop, and the reservoir in the bowl portion 1 reaches the pressure discharge portion 3 through the drainage discharge port 14. In addition, the water level of the stored water 3A in the pressurized discharge section starts to rise.
After that, the water level of the pressurized drainage internal water 3A rises for a while, but eventually begins to drop at a peak of about 100 mm.
FIG. 13 (a) shows the state of the stored water 1A in the bowl portion, and FIG. 13 (b) shows the state of the stored water 3A in the pressurized discharge portion.
Thereafter, when the water level in the bowl portion water 1A becomes substantially zero and the water level in the pressurized discharge portion water 3A becomes less than the height of the pump suction port 35, the control unit 64 stops driving the pump 32. As a result, the pumping state ends.
[0061]
The [priming water] control unit 64 continues the open state of the water supply electromagnetic valve 61 and the on-off valve 21 even after the pump 32 is stopped, and closes the water supply electromagnetic valve 61 and the on-off valve 21 after a predetermined time has elapsed (pump). The water is still supplied into the pressure discharge unit 3 even after the drive stop of 32). This is priming water control for setting the water level of the stored water 3A in the pressurized discharge part to about 30 mm above the height of the pump suction port 35 in the above-mentioned [initial state].
As modifications of the priming water control, there are the following.
(1) Simultaneously with the stop of driving of the pump 32, the water supply electromagnetic valve 61 and the on-off valve 21 are closed. At this time, the water level of the stored water 3 </ b> A in the pressure discharge unit is less than the height of the pump suction port 35. {Circle around (2)} At the next [Pressing start], before the on-off valve 21 is fully opened and the drive of the pump 32 is started at the same time, the on-off valve 21 is maintained in a half-open state for a predetermined time. Thereby, before the drive of the pump 32 is started, the water level of the stored water 3 </ b> A in the pressurized discharge unit is set to about 30 mm above the height of the pump suction port 35.
[0062]
Here, full opening of the on-off valve 21 indicates the state of FIG. 6B, and half-opening of the on-off valve 21 indicates an intermediate state between FIG. 6A and FIG. 6B. To do. For example, with FIG. 6B as the reference position, the on-off valve 21 can be rotated by 10 ° about the rotation shaft 23, and the fully open state can be rotated by 90 °.
FIG. 16 is a diagram showing an eleventh embodiment of the present invention. The feature of this embodiment is that a drain trap 13 is provided upstream of the on-off valve 21 of the stored water holding unit 2 and a lower part of the drain unit. A water supply pipe connector 52 and a drain pipe connector 51 are provided, and the drain unit is portable with a cartridge cart having casters 93 attached thereto. The drainage pipe connector 51 and the water supply pipe connector 52 may have a structure that is pivotably connected, and there is an advantage that there is no restriction on the direction when the drainage unit is moved.
[0063]
Further, the upper part of the cartridge cart has a chuck structure for mounting and fixing the drainage unit, for example, a structure that slides from the side or is pressed from above and chucked. Good. Further, as a further preferred embodiment, the chuck structure includes a connector for the secondary water supply system pipe or the primary drainage system pipe, and when the drainage unit is mounted on the cartridge cart, the pipe connection construction is performed at the same time. It is a structure that can do. Therefore, the pipe connection work does not need to be performed separately for the later locking work, and the construction can be completed easily. Further, as a preferred embodiment, the connector of the pipe line includes a primary water supply pipe line that communicates with the water supply main pipe and is connected to the secondary water supply pipe line, and a secondary drainage pipe that communicates with the sewage main pipe. It may be equipped with a connector for the road, and it is a rotatable structure. Therefore, when it is desired to change the installation direction of the drainage unit on the cartridge cart, it is not necessary to work by loosening the connector of the pipe line connected and fixed as in the conventional case. Moreover, if the pipe line connected to the connector has flexibility, the mobility of the drainage unit can be further improved.
[0064]
In the case of the drainage unit provided with the drainage trap 13 in the stored water holding unit 2, the degree of hindrance to the conveyance of filth by the compressed air in the pressurized drainage unit 3 is smaller than that of the drainage unit without the drainage trap 13.
[0065]
However, as shown in FIG. 16, as long as the retained water holding portion 2 extends in the lateral direction of the bowl portion 1 and the pressurized discharge portion 3 is located beside the bowl portion 1, the heavy waste is moved in the lateral direction. In other words, it is effective to perform the same drive control as in the tenth embodiment because it is affected by the compressed air in the pressurized discharge unit 3 to some extent. When the same drive control is performed, the state shown in FIG. 16 indicates [standby state], the state shown in FIG. 17 indicates [when cleaning starts], and the state shown in FIG. 18 indicates [pressure feeding state].
In the present invention, “horizontal” does not mean a horizontal position. Except for “below”, it is included in the concept of “horizontal”.
[Brief description of the drawings]
FIG. 1 shows a configuration of a drainage unit according to the present invention shown in a first embodiment.
FIG. 2 shows the configuration of the drainage unit of the present invention shown in the second embodiment.
FIG. 3 is an assembly diagram of the drainage unit of the present invention shown in the third embodiment.
FIG. 4 is an assembly diagram of the drainage unit of the present invention shown in the fourth embodiment.
FIG. 5 is an assembly diagram of the drainage unit of the present invention shown in the fifth embodiment.
FIG. 6 is a conceptual diagram of a stored water holding unit according to the present invention shown in a sixth embodiment.
FIG. 7 shows a drainage unit of the present invention shown in the seventh embodiment.
FIG. 8 shows the configuration of the drainage unit of the present invention shown in the seventh embodiment.
FIG. 9 is a perspective view of the drainage unit of the present invention shown in the eighth embodiment.
FIG. 10 is a perspective view of the drainage unit of the present invention shown in the ninth embodiment.
FIG. 11 is a sectional view of an operational state flow of the drainage unit of the present invention shown in the tenth embodiment.
FIG. 12 is a sectional view of another operational state flow of the drainage unit of the present invention shown in the tenth embodiment.
FIG. 13 is a sectional view of another operational state flow of the drainage unit of the present invention shown in the tenth embodiment.
FIG. 14 is a control circuit diagram example of the drainage unit of the present invention shown in the tenth embodiment.
FIG. 15 is an operation flow of the drainage unit of the present invention shown in the tenth embodiment.
FIG. 16 is an operational state (sectional view) of the drainage unit of the present invention shown in the eleventh embodiment.
FIG. 17 is an operational state (sectional view) of the drainage unit of the present invention shown in the eleventh embodiment.
18 is an operational state (sectional view) of the drainage unit of the present invention shown in the eleventh embodiment. FIG.
FIG. 19 is a configuration of Japanese Patent Laid-Open No. 11-342092 which is a conventional technique.
FIG. 20 is a configuration of Japanese Patent Application Laid-Open No. 11-342092 which is a prior art.
[Explanation of symbols]
1 bowl
11 Toilet seat
12 Base plate
13 Drain trap
14 Drainage outlet
15 Flange
16 Mounting shaft
2 Reservoir holding part
21 On-off valve
22 Drainage inlet
23 On-off valve rotation shaft
24 Drainage outlet
25 Downcomer section
26 Ascending pipe
27 Valve seat
3 Pressurization discharge part
31 Basket
32 pumps
33 Stirring blade
34 First pumping tube
35 Pump suction port
36 Water level detector
37 Reservoir
38 Pressurization discharge part drainage inlet
4 Fixing member
412 and 415 First plate material
411,413 Second plate material
414 Third plate material
416 Toilet seat placement board
42 Frame material
421 Stopper
422 First frame material
423 Second frame material
424 Third frame material
43 Fixture
44 Bearing
45 Angle adjustment unit
5 Water supply / drainage power connector
51 Drain pipe connector
52 Water pipe connector
53 Backflow prevention valve for drainage
54 Cartridge Cart
55 Water supply / drainage unit
6 Local toilet seats
61 Solenoid valve for water supply
62 Cleaning spout
63 Ass washing nozzle
64 Control unit
71,711,712 Power cord
72,721,722 Secondary water supply flexible pipe
73 Primary water supply flexible pipe
74 Primary drainage flexible pipe
75 Secondary drainage flexible pipe
8 Exterior body
81 Backrest
82 Handrail
83 Slide guide
84 beds
85 Temporary toilet
9 hand washing machine
91 Water supply / drainage connector
92 Faucet
93 casters
94 Human waste tank
101 Power supply circuit
102 Seat switch
103 Cleaning switch
104 Water level detection switch
105 Error warning switch
106 Abnormality release switch
1A Water in bowl
3A Reservoir in pressurized discharge section

Claims (5)

A bowl part that temporarily forms the accumulated water, a retained water holding part that retains the retained water in the bowl part, a pressurized discharge part that pressurizes and discharges the drainage from the bowl part,
A fixing member that supports the drainage outlet provided on the side of the bowl part, the drainage inlet of the stored water holding part, and the drainage inlet provided on the side of the pressurized discharge part in a connected state. A drainage unit comprising:
The fixing member includes a first plate material for fixing the bowl portion, another second plate material, and a frame material standing between the first and second plate materials. One plate material has a notch part similar to the horizontal cross section of a bowl part, and fits a bowl part to the said notch part, The drainage unit characterized by the above-mentioned. A bowl part that temporarily forms the accumulated water, a retained water holding part that retains the retained water in the bowl part, a pressurized discharge part that pressurizes and discharges the drainage from the bowl part,
A state where the drainage outlet provided on the side of the bowl part, the drainage inlet and drainage outlet of the stored water holding part, and the drainage inlet provided on the side of the pressurized drainage part are connected. A drainage unit comprising a fixing member supported by
The fixing member includes a first plate material placed substantially horizontally, a second plate material erected on the first plate material, and a third plate material,
The second and third plate materials have a cutout portion similar to the vertical cross section of the bowl portion,
The bowl unit is fitted and fixed to the cut-out part from above. A bowl part that temporarily forms the accumulated water, a retained water holding part that retains the retained water in the bowl part, a pressurized discharge part that pressurizes and discharges the drainage from the bowl part,
A fixing member that supports the drainage outlet provided on the side of the bowl part, the drainage inlet of the stored water holding part, and the drainage inlet provided on the side of the pressurized discharge part in a connected state. A drainage unit comprising:
The fixing member is composed of a first frame material formed in an elbow shape, a second frame material, and a third frame material that is suspended in a transverse direction therebetween.
The drainage unit according to claim 1, wherein the first and second frame members are provided with bearings for fixing mounting shafts protruding from both side surfaces of the bowl portion. The said drainage unit is provided with the angle adjustment part which can be angle-adjusted so that the said bowl part may become horizontal in the fixing location of the said bowl part and a fixing member, The Claim 1 thru | or 3 characterized by the above-mentioned. Drainage unit. The drainage unit according to any one of claims 1 to 3, wherein the drainage unit is provided with an angle adjustment section that can be angle-adjusted so that the bowl section is horizontal in a grounding section of the fixing member.

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