JP6042191B2 - Water purification equipment - Google Patents

Description

  The present invention relates to an apparatus for purifying stored water, and more particularly to an apparatus for removing foreign matter to purify water.

  The bath is the most comfortable, and the hot water stretched in a cleanly cleaned bathtub is exceptional, but in the home bath, hot water that has been stretched once may be used by multiple bathers in sequence. In the hot water, dirt and soap dust will float. Since such a state is uncomfortable for the next bather, it is tempting to scoop hot water near the surface of the water and remove the suspended matter, but it takes time and effort to remove the suspended matter neatly. If you drain the water once, clean the bathtub and refill it, you can enjoy a pleasant bath, but if you change the hot water many times a day, it will take time to boil the bath, water bills and utilities Is undesirably economical because it is excessive.

  As a device that allows you to use the bath comfortably multiple times without changing the hot water, for example, a device floated in the bath sucks in the bath water with a pump and filters the bath water with a filter to float Is a device that automatically removes (see Patent Documents 1 and 2).

JP-A-8-182737 JP 2001-224915 A

  In recent years, baths have the function of keeping the temperature of the hot water in the bathtub constant so that the bath can be used at any time, which is convenient. Breeding may adversely affect bathers. Therefore, in order to be able to use the bath comfortably without changing the hot water, it is desirable not only to remove floating foreign substances but also to sterilize the water stored in the bath. Moreover, it is desirable not only to remove floating foreign substances but also to efficiently remove foreign substances drifting in water and foreign substances sinking to the bottom.

  This invention is made | formed in view of such a subject, and exists in provision of the water purification apparatus which purifies water more effectively while removing the foreign material which floats on water.

In order to solve the above problems, a water purification apparatus according to an aspect of the present invention has a buoyancy for floating on a water surface, a housing provided with a water suction port and a discharge port, a suction port, a suction port, and a discharge port. Water flow generating means for generating a flow of water discharged from the outlet, a filter provided between the suction port and the discharge port, and a light emitting element that emits ultraviolet light, provided between the suction port and the discharge port. . When viewed from above, the direction of the discharge port is inclined at a predetermined angle from the center of the water purification apparatus with respect to the center line passing through the discharge port, and the first suction port provided at the bottom of the housing and the side surface of the housing And it is provided with two or more 2nd inlets each provided in the water surface position in a floating state.

  According to the water purification apparatus of the above aspect, the water sucked in the state of being floated near the water surface is passed through the filter to collect and remove foreign matters contained in the water, and the water passing through the filter is irradiated with ultraviolet light. Can be sterilized to purify the water.

  In the water purification device of the above aspect, the light emitting element may irradiate the water passing through the filter with ultraviolet light.

  In the water purification apparatus of the above aspect, the light emitting element may be a light emitting diode that emits ultraviolet light included in a wavelength band of 250 nm or more and less than 290 nm.

  The water purification apparatus of the above aspect may further include diving means for shifting from a state floating on the water surface to a state diving in water.

A water purification apparatus according to another aspect of the present invention has a buoyancy for floating on the water surface, a housing provided with a water inlet and outlet, and a flow of water sucked from the inlet and discharged from the outlet. A water flow generating means to be generated; a filter provided between the suction port and the discharge port; and a diving means for shifting from a state floating on the water surface to a state diving in water. When viewed from above, the direction of the discharge port is inclined at a predetermined angle from the center of the water purification apparatus with respect to the center line passing through the discharge port, and the first suction port provided at the bottom of the housing and the side surface of the housing And it is provided with two or more 2nd inlets each provided in the water surface position in a floating state.

  According to the water purification apparatus of the above aspect, the water sucked in the state of being floated near the water surface is passed through the filter to collect and remove foreign matters contained in the water, and the water is passed through the filter in the state of being submerged in water. In this way, it is possible to purify the water by efficiently removing the foreign matter drifting in the water and the foreign matter accumulated on the bottom.

  In the water purification apparatus of the above aspect, a submerged rudder may be provided as the diving means.

  The water purification apparatus according to the above aspect may include a first suction port provided at the bottom of the housing, and a second suction port that is a side surface of the housing and is provided at a water surface position in a floating state.

  In the water purification apparatus of the above aspect, the water surface or the water may be moved by the water flow discharged from the discharge port.

  According to the water purification apparatus of the present invention, it is possible to remove foreign matters floating on water and further effectively purify water.

It is a figure which shows the water purification apparatus which concerns on embodiment. It is a figure which shows the water purification apparatus seen from the upper surface. It is a figure which shows the internal structure of a water purification apparatus. It is a flowchart which shows the flow of operation | movement of a water purification apparatus.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all the drawings, the same reference numerals are given to the same components, and the description will be omitted as appropriate.

  FIG. 1 shows a water purification apparatus 100 according to an embodiment. When the water purifying device 100 is depressed on the water surface L of the bath by pressing the switch 90, the water purifying device 100 sucks water from the upper suction port 20 and the lower suction port 36 provided in the housing 10, and removes foreign matters by a filter provided inside. At the same time, water that has been sterilized by irradiating the sucked water with ultraviolet light is discharged from the discharge port 22. The water purification apparatus 100 purifies the bath water by sterilizing it by irradiating it with ultraviolet light while recovering and removing foreign matters floating in the bath by moving in the X1 direction on the surface of the bath using the water flow discharged from the discharge port 22. To do. Moreover, the water purification apparatus 100 is provided with a submerged rudder 80 as a diving means, and the submerged rudder 80 moves in the X2 direction by tilting the submerged rudder shaft 82 as a center and dives into the underwater W. The sterilization treatment by ultraviolet light irradiation is performed while collecting and removing foreign matters that have sunk in the surface.

  FIG. 2 shows the water purification device 100 as viewed from above, and FIG. 3 shows the internal configuration of the water purification device 100. The water purification apparatus 100 includes a housing 10, and includes an impeller 60, a light emitting element 64, a motor 72, a power supply unit 74, a control unit 76, and a solenoid 84 provided inside the housing 10. In addition, the water purification apparatus 100 includes a sub rudder 80 provided outside the housing 10, a switch 90, and an electrode unit 92.

  Inside the housing 10, water is discharged from the suction chamber 50 into which water is sucked through the upper suction port 20 or the lower suction port 36, the pump chamber 52 having the impeller 60 which is a water flow generating means, and the pump chamber 52. It is divided into discharge chambers 54. In addition, a control chamber 70 in which a control unit 76 that controls the operation of the impeller 60 and the like is stored is provided inside the housing 10.

  The housing 10 includes an upper housing 12 and a lower housing 30 that are molded from resin or the like, and is provided inside the housing 10 by removing the lower housing 30 from the upper housing 12. The filter 40 can be easily cleaned and replaced.

  The upper housing 12 includes an intermediate plate 14, a side surface portion 16, an upper surface portion 24, a partition plate 26, and a holding portion 42. The intermediate plate 14 is a substantially disk-shaped member that is substantially parallel to the water surface L when the water purification device 100 is floated near the water surface L. The upper surface portion 24 is attached to one surface of the intermediate plate 14, and the side surface portion 16 and the partition plate 26 are attached to the other surface.

  The upper surface portion 24 is a bowl-shaped member, and the edge portion 24 a of the upper surface portion 24 is fixed in close contact with one surface of the intermediate plate 14. A switch 90 and an electrode part 92 described later are attached to the top part of the upper surface part 24. The upper surface portion 24 forms a control chamber 70 having a waterproof structure in which water does not enter inside in a region between the middle plate 14 and buoyancy for the housing 10 to float near the water surface due to the space of the control chamber 70. Give rise to

  The side surface portion 16 is a cylindrical member, one end of which is fixed to one surface of the intermediate plate 14, and the other end is provided with a peripheral end portion 18 that is threaded for connection to the lower housing 30. It is done. The side surface 16 is provided with an upper suction port 20 for sucking water into the suction chamber 50 and a discharge port 22 for discharging water discharged into the discharge chamber 54 to the outside.

  The upper suction ports 20 are a plurality of rectangular openings provided in the side surface portion 16, and five are uniformly arranged in the circumferential direction of the side surface portion 16 except for the position where the discharge ports 22 are provided. The upper suction port 20 is provided at a position overlapping the water surface L so that when the water purification device 100 floats on the water surface L, foreign substances floating on the water surface can be efficiently collected. It should be noted that the number of upper suction ports 20 and the size of the opening are preferably determined according to the water suction capability of the water flow generating means, and are strong enough to suck in foreign matter floating on the water surface when the water flow generating means is activated. It is desirable to appropriately adjust so that the water flow is generated. For example, when a small water flow generating means is used to reduce the size of the water purification device 100, the number of the upper suction ports 20 is reduced so that the water flow in the upper suction port 20 has a certain strength or more. It is desirable to reduce the size of.

  The discharge port 22 is a rectangular opening provided on the side surface portion 16. The discharge port 22 is used as a moving means for moving the water purification device 100 in the direction opposite to the direction of the broken arrow by the water flow in the direction of the broken arrow. As shown in FIG. 2, the discharge port 22 is preferably formed to discharge water in a direction inclined by a predetermined angle θ with respect to the central axis C passing through the center of the water purification device 100. By inclining the direction of the discharge port 22, the water purification apparatus 100 can move so as to draw a gentle arc, and can move around all over the water surface and underwater of the bathtub to be purified. Further, a rudder may be provided at the discharge port 22 to give an angle to the water flow discharged from the discharge port 22, or the direction of the water flow may be changed by making the rudder angle variable.

  The partition plate 26 is a cylindrical member having a diameter smaller than that of the side surface portion 16, one end 26 a is fixed to one surface of the intermediate plate 14, and the other end 26 b is provided with a holding portion 42 that holds the filter 40. . The partition plate 26 is provided with a communication hole 28 corresponding to the position where the discharge port 22 is provided, and a communication portion 56 is provided so as to surround a discharge chamber 54 that connects the communication hole 28 and the discharge port 22.

  The holding portion 42 is a disc member having a shape corresponding to the cross section of the partition plate 26, and is fixed to the other end 26 b of the partition plate 26. The holding unit 42 holds the filter 40 and separates the suction chamber 50 and the pump chamber 52. A suction port 44 for sucking the water in the suction chamber 50 into the pump chamber 52 is provided in the center of the holding portion 42. In addition, the holding portion 42 is provided with radially extending ribs 43 that maintain a predetermined distance between the filter 40 and the holding portion 42. In addition, it is desirable for the holding part 42 to be able to easily remove and attach the filter 40, and for example, it is desirable to have a structure in which the filter 40 can be replaced with one touch.

  The lower housing 30 includes a bottom portion 32 and a connection portion 34. The bottom portion 32 is a substantially disc-like member like the middle plate 14 and is provided with a plurality of lower suction ports 36. The connecting portion 34 is a member that extends in a direction perpendicular to the bottom portion 32 from the circumferential portion of the bottom portion 32, and is provided with a threaded structure for connecting to the peripheral end portion 18 of the upper housing 12. Thereby, the lower housing 30 attached to the upper housing 12 can be removed by rotating the lower housing 30 with respect to the upper housing 12.

  The lower suction port 36 is a plurality of rectangular openings provided in the bottom portion 32, and is provided for sucking water outside the housing 10 into the suction chamber 50, similar to the upper suction port 20. The lower suction port 36 is provided at the bottom 32 of the lower housing 30 so that when the water purification device 100 is submerged in water and reaches the vicinity of the bottom of the bathtub, the foreign matter that sinks to the bottom can be efficiently collected. The number of the lower suction ports 36 and the size of the opening are desirably determined according to the water suction capability of the water flow generating means, as with the upper suction port 20.

  The filter 40 is detachably fixed to the holding portion 42 and scrapes foreign matters contained in water passing from the suction chamber 50 to the pump chamber 52. The filter 40 is composed of a mesh-like sheet, a nonwoven fabric sheet, or the like that is fine enough to remove hair, dirt, soap scum, and the like. The filter 40 may be a combination of a plurality of mesh-like sheets with different fineness so that various foreign substances can be removed, or an activated carbon layer may be used to remove minute foreign substances.

  The impeller 60 is provided inside the pump chamber 52, and rotates around the rotation shaft 62 by driving a motor 72 described later. The impeller 60 has a structure for discharging the central liquid to the outside as it rotates, and when the impeller 60 is rotated, the water that has entered the center of the pump chamber 52 through the suction port 44 flows into the outer communication hole 28. It will be discharged from. Accordingly, the impeller 60 functions as a water flow generating unit that sucks water from the upper suction port 20 and the lower suction port 36 and generates a flow of water discharged from the discharge port 22.

  A plurality of light emitting elements 64 are provided inside the pump chamber 52 and are fixed to the partition plate 26. The light emitting element 64 is electrically connected to the control unit 76, and emits ultraviolet light using electric power supplied from a power supply unit 74 (described later) via the control unit 76. The light emitting element 64 is an LED (Light Emitting Diode) that emits ultraviolet light included in a wavelength band having a center wavelength or peak wavelength of about 200 nm to 360 nm, and aluminum gallium nitride (AlGaN) is used as such an LED. Things are known. In order to enhance the sterilizing effect, it is desirable to select one that emits ultraviolet light, which is included in a wavelength range of 250 nm to 290 nm, and particularly called a sterilizing line near 260 nm. Thereby, the light emitting element 64 performs sterilization treatment by irradiating the water inside the pump chamber 52 from which the foreign matter has been removed by passing through the filter 40 with ultraviolet light. The light emitting element 64 is provided inside the housing 10, and consideration is given so that ultraviolet light emitted from the light emitting element 64 does not leak out of the housing 10.

  The motor 72 is a drive unit that rotates the impeller 60 with electric power supplied from the power supply unit 74 via the control unit 76, and is, for example, a DC motor. The power supply unit 74 is a battery that stores electric power supplied to the light emitting element 64 and the motor 72, and is a storage battery such as a lithium ion battery or a nickel metal hydride battery. The power supply unit 74 is electrically connected to the electrode unit 92 provided in the upper housing 12, and is charged by receiving power supply from an external power source connected to the electrode unit 92.

  The controller 76 is electrically connected to the light emitting element 64 and the motor 72, and controls these operations. The control unit 76 has a built-in timer, and starts or stops these operations when a preset time has elapsed. Moreover, the control part 76 controls light emission of LED integrated in the switch 90 mentioned later according to the operating state of the water purification apparatus 100. FIG.

  The sub rudder 80 is provided outside the housing 10 via a sub rudder shaft 82. A solenoid 84 is connected to the sub rudder shaft 82, and the angle of the sub rudder 80 is changed by operating the solenoid 84 based on a control signal from the control unit 76. When the water purification device 100 is operated while being floated on the water surface, the submerged rudder 80 has an angle that is parallel to the water surface L. When the water purification device 100 is operated while being submerged in water, the submerged rudder 80 is in contact with the water surface L. Tilt so that the angle becomes. By tilting the submersible 80 with respect to the water surface L, the water purifier 100 is submerged by applying a downward force to the submersible 80 by the water flow. The submersible rudder 80 shifts the water purification device 100 from the diving state to the floating state by returning to the original angle from the state inclined to a predetermined angle in order to diving the water purification device 100.

  The switch 90 is electrically connected to the control unit 76 and operates or stops the water purification apparatus 100 by pressing the switch 90. Inside the switch 90, an LED that shines in red or green is incorporated as a display unit, which lights up in green while the water purification device 100 is operating, and turns off when the water purification process is completed. The operation state of the water purification apparatus 100 is shown. The display unit may blink in red when the remaining battery level of the power supply unit is low to indicate that charging is necessary.

Operation | movement of the water purification apparatus 100 by the above structure is demonstrated.
FIG. 4 is a flowchart showing the operation flow of the water purification apparatus 100. When the switch 90 is pressed (Y in S10), the motor 72 is operated to rotate the impeller 60 to generate a water flow (S12), and the light emitting element 64 is turned on to start irradiation with ultraviolet light ( S14). When the switch 90 is not pressed (N in S10), the operation is not started. Thereafter, until the predetermined time elapses (N in S16), the sub rudder 80 is kept horizontal and operates in the vicinity of the water surface. When the first time elapses (Y in S16), the control unit 76 operates as a solenoid. 84 is actuated to tilt the submersible rudder 80 to start diving (S18). After that, until the predetermined time elapses (N in S20), the operation is continued while diving, and when the predetermined time elapses (Y in S20), the sub rudder 80 is returned to the horizontal surface and floated on the water surface ( S22) The operation of the motor 72 and the lighting of the light emitting element 64 are stopped (S24).

  The present invention is not limited to the above-described embodiments, and various modifications such as design changes can be added based on the knowledge of those skilled in the art. The form can also be included in the scope of the present invention.

  The water purification apparatus 100 according to the embodiment includes a submerged rudder as a diving means, but may include a main tank for performing buoyancy adjustment. When operating while floating on the water surface, the casing 10 has a predetermined buoyancy by introducing air into the main tank, and when operating while submerged in water, water enters the interior of the main tank. Adjust so that buoyancy is reduced by adopting. In addition to the main tank for adjusting buoyancy, a sub-tank for storing compressed air and a compressor for generating compressed air are provided, and when floating on the water surface, the compressed air stored in the sub-tank is injected into the main tank during diving. The buoyancy may be increased to enable automatic transition from the diving state to the floating state.

  Moreover, the water purification apparatus 100 may be comprised by the main | base station which maintains the state which floated on the water surface as a diving means, and the subunit | mobile_unit which isolate | separates from a main | base station and dives in water. The slave unit includes a water suction port and a discharge port, a water flow generating means, a filter, and a light emitting element that irradiates ultraviolet light, and removes foreign matter on the water surface or in the water in a floating state or a diving state, and ultraviolet light. Sterilize by irradiation. The master unit is equipped with a wire that can be wound and connected to the slave unit. When the slave unit is operated in a diving state, the wire is extended to cause the slave unit to be submerged, and the slave unit is operated in a floating state. In the case, the wire is wound up and lifted up from the water to rise to the surface of the water.

  Moreover, you may use the water purification apparatus 100 for the purification | cleaning of a pool or a pond besides purification of a bath. For example, by making the device larger than the water purification device 100 for home tubs, it can be used for public baths, baths in accommodation facilities, nursing homes, aquarium large tanks, aquaculture ponds, ginger It may be used for purification. On the other hand, you may utilize for the purification | cleaning of the small aquarium which can swim an ornamental fish by downsizing an apparatus.

  When the water purification device 100 is operated outdoors, a solar cell is provided as the power source 74 on the upper surface portion 24 of the water purification device 100 to operate the motor 72 and the light emitting element 64 using electric power generated by sunlight. You may use for.

  In addition, the water purification apparatus 100 further includes a storage unit that stores a trajectory of the movement of the water purification apparatus 100, and the water purification apparatus 100 does not cause a bias in a location to be purified based on the trajectory information stored in the storage unit. You may control the moving direction. In particular, when the volume of stored water such as a pool or pond is large, it is possible to purify a wide area, so that water can be purified more efficiently.

  Although the case where it was a rectangular opening as a shape of the upper suction port 20, the lower suction port 36, and the discharge port 22 with which the water purification apparatus 100 is provided, the shape of these openings is not restricted to a rectangle, circular, a polygon, etc. Other shapes may be used.

  The casing 10 of the water purification device 100 may be streamlined to reduce resistance when moving in water. In addition, when used in an aquarium or the like for ornamental purposes, the shape of a fish swimming in the aquarium may be imitated so that there is no sense of incongruity even if it is always operated.

  The water purification device 100 may be configured not to include the light emitting element 64. In this case, the water purification apparatus 100 includes a diving means, so that not only the foreign matter floating on the water surface is collected and removed while floating near the water surface, but also the foreign matter floating in the water and the foreign matter accumulated in the bottom are efficiently removed. It can be removed to purify the water.

  DESCRIPTION OF SYMBOLS 10 ... Housing | casing, 16 ... Side part, 20 ... Upper suction port, 22 ... Discharge port, 32 ... Bottom part, 36 ... Lower suction port, 40 ... Filter, 64 ... Light emitting element, 80 ... Submerged rudder, 100 ... Water purification Device, L ... water surface, W ... underwater.

Claims (9)

A housing having a buoyancy for floating on the water surface and provided with a water inlet and outlet;
Water flow generating means for generating a flow of water sucked from the suction port and discharged from the discharge port;
A filter provided between the suction port and the discharge port;
A light emitting device that is provided between the suction port and the discharge port and emits ultraviolet light;
With
In top view, the direction of the discharge port is inclined at a predetermined angle from the center of the water purification apparatus with respect to the center line passing through the discharge port ,
Wherein a first suction port provided at the bottom of the housing, wherein a side portion of the casing, water purification for the second suction port provided at the water surface position, wherein the a plurality each Rukoto in floating state apparatus.   The water purification apparatus according to claim 1, wherein the light emitting element irradiates water passing through the filter with ultraviolet light.   The water purification apparatus according to claim 1, wherein the light emitting element is a light emitting diode that emits ultraviolet light included in a wavelength band of a wavelength of 250 nm or more and less than 290 nm.   The water purification apparatus according to any one of claims 1 to 3, further comprising a diving means for shifting from a state floating on the water surface to a state diving in water. A housing having a buoyancy for floating on the water surface and provided with a water inlet and outlet;
Water flow generating means for generating a flow of water sucked from the suction port and discharged from the discharge port;
A filter provided between the suction port and the discharge port;
Diving means for shifting from a state floating on the water surface to a state submerged in water,
With
In top view, the direction of the discharge port is inclined at a predetermined angle from the center of the water purification apparatus with respect to the center line passing through the discharge port ,
Wherein a first suction port provided at the bottom of the housing, wherein a side portion of the casing, water purification for the second suction port provided at the water surface position, wherein the a plurality each Rukoto in floating state apparatus.   The water purification apparatus according to claim 4 or 5, wherein a submerged rudder is provided as the diving means. The water purifier according to any one of claims 1 to 6 , wherein the water purifier moves on a water surface or in water by a water flow discharged from the discharge port. Comprising a storage unit for storing a locus present water purification device is moved, any of claims 1 to 7, characterized in that it is configured to control the moving direction on the basis of the locus information the storage unit and stored by The water purification apparatus of crab. Including a master unit that maintains a floating state on the water surface, and a slave unit that is separated from the master unit and is submerged in water.
The water purification apparatus according to any one of claims 1 to 8 , wherein the parent device includes a wire that can be wound up and connected to the child device.

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