JP4049290B2 - Granular jet type body washing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
More particularly, the present invention relates to a body washing apparatus capable of cleaning a user's body and improving health by jetting particles with gas and causing them to collide with the body. Is. In the present specification, the jet state of the particles means a state in which the particles are blown up with a gas flow faster than the free fall end velocity.
[0002]
[Prior art]
With the arrival of a rapidly aging society in recent years, the number of elderly people who need nursing care is increasing, and bathing is one of the major problems in nursing care for elderly people.
Methods for washing the body during bathing include rubbing the body with a towel or brush, a method of spraying shower water on the body, a method of washing the body by flowing slurry, etc. None of the methods for washing the body of elderly people who could not take a bath were satisfactory.
First, the method of rubbing the body with a towel or brush is a big problem that requires the caregiver's hand. On the other hand, when a machine such as a robot is used, it is fine between fingers and underarms. It was difficult to clean the part.
Further, the method of spraying shower water on the body has a large impact effect on the skin of the water, but since there is almost no frictional action, a sufficient cleaning effect cannot be obtained.
Also, in the method of washing the body by flowing the slurry, the fluidization behavior of the solid particles is slow because the ratio of the specific gravity of the solid particles and the liquid constituting the slurry is as low as about 1: 3. The friction and collision action between the particles and the skin was small, and a sufficient cleaning effect could not be obtained.
[0003]
In the above-described conventional method, it is possible to improve the cleaning effect somewhat by using a large amount of hot water, but this is not a preferable method because a large amount of water and a large heat source are required.
In order to solve this problem, it is sufficient to circulate and reuse the hot water used for body washing. However, since a filter, a sterilizer, etc. are required, the facilities are enlarged and dissolved in the hot water. The soil component could not be removed completely.
[0004]
In view of such a situation, the applicant of the present application already disclosed in Japanese Patent Application No. 9-302601, a body cleaning method and apparatus for cleaning a body by fluidizing a large number of particles by blowing and causing friction and collision with the body. Has proposed.
This technology uses a gas instead of a liquid with a large specific gravity as a fluidizing medium for the particles, thereby making the fluidized state of the particles intense, thereby increasing the frictional impact on the skin and cleaning. Although it was an excellent thing that can enhance the effect, it requires a large amount of particles to fluidize the particles around the body, and accordingly the power of the blower (blower) increases, Furthermore, there are problems that are not preferable in terms of space and running cost, such as a large-scale facility for sterilization and washing of a large amount of granules to be used.
[0005]
The present invention has been made in order to solve the above-described problems of the prior art, and has a large frictional collision effect on the skin of the granule, thereby obtaining an excellent cleaning effect without substantially using water. In addition, the present invention provides a body washing apparatus that can reduce running costs without requiring a large-scale facility.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 includes a cleaning tank that accommodates a user's body, a number of particles that collide with the user's body in the cleaning tank, and an opening through which the particles can pass. An insole plate disposed with a gap between the bottom of the tank and an opening provided between the insole plate and the bottom of the washing tank, through which the particles cannot pass but gas can pass. The present invention relates to a granular squirting type body washing apparatus comprising: a gas blowing part provided; and a granular jet means for sending gas to the bottom of the cleaning tank and jetting the granular substance in the cleaning tank .
In the invention according to claim 2, an inclined surface is formed around the opening of the gas blowing portion, and the inclined surface is vibrated by an inclined surface or a vibration generator inclined at an angle larger than the static friction angle of the particles. 2. The granular squirting type body washing apparatus according to claim 1, wherein the body squirting surface is a possible inclined surface.
The invention according to claim 3 relates to a granular jet-type body washing apparatus according to claim 1 or 2, wherein the opening of the gas blowing part is formed in a slit shape.
According to a fourth aspect of the present invention, there is provided the granular squirting type body washing apparatus according to the first or second aspect, wherein the openings of the gas blowing portions are formed to be scattered in a hole shape.
The invention according to claim 5 is characterized in that the opening part of the gas blowing part comprises an openable / closable opening plate having a large number of openings. The present invention relates to a cleaning device.
[0007]
The invention according to claim 6 is characterized in that the gas blowing section is provided with jet swaying means for oscillating the jet jetted into the cleaning tank. The present invention relates to a granular jet-type body washing apparatus.
The invention according to claim 7 is characterized in that the jet swaying means alternates the control jets from at least two positions that are substantially perpendicular to the jets jetted from the gas blow-out part into the cleaning tank. 7. The granular squirting type body washing apparatus according to claim 6, wherein the body squirting means is a means for spraying on the body.
The invention according to claim 8 is characterized in that the jet swaying means is means for generating a control jet along an inclined surface provided around the opening of the gas blowing part. It relates to the granular body jet-type body washing apparatus described.
[0008]
The invention according to claim 9 is characterized in that the gas blowout means is provided with jet swirling means for swirling the jet spouted into the cleaning tank. The present invention relates to a jet-type body washing apparatus.
According to a tenth aspect of the present invention, the jet swirling means forms an inclined surface provided around the opening of the gas blowing portion in a substantially inverted conical shape, and the control jet is arranged in the circumferential direction of the inclined surface. It is a means to eject so that it may flow along, It is related with the granule jet-ized body washing apparatus of Claim 9.
The invention according to claim 11 is characterized in that the gas blowing section is provided with jet twisting means for twisting the jet jetted into the cleaning tank. The present invention relates to a granular jet-type body washing apparatus.
According to a twelfth aspect of the present invention, the jet twisting means is configured such that the opening of the gas blowing portion forms a slit shape and at least two inclined surfaces facing the control jet with the opening interposed therebetween. It is a means to eject so that it may mutually flow in the direction opposite to each other along the width direction of an inclined surface, The particle | grain jet-flow type body washing apparatus of Claim 11 characterized by the above-mentioned.
[0009]
According to a thirteenth aspect of the present invention, there is provided a turbulent nozzle that generates turbulent flow in the cleaning tank on the side wall of the cleaning tank. And an ejection nozzle that ejects gas or a mixture of gas and granules into the cleaning tank The particle jet-type body washing apparatus according to any one of claims 1 to 12, characterized by comprising:
The invention according to claim 14 is: The granule is composed of a plurality of types of granules having different specific gravities, and the granule having a large specific gravity has a small diameter and the granule having a small specific gravity has a large diameter so that the free fall termination speed is substantially constant. 14. The granular jet-type body washing apparatus according to claim 1, wherein the granular body is made of a porous member impregnated with a cleaning liquid and contains a far-infrared emitting substance. About.
[0010]
The invention according to claim 15 is: Granules recovery cleaning means for recovering and cleaning particles from the bottom of the cleaning tank, cleaning liquid supply means for supplying a cleaning liquid into the cleaning tank, and a shower for a user to wash the body in the cleaning tank 15. A granular squirting type body washing apparatus according to any one of claims 1 to 14, characterized by comprising equipment. About.
The invention according to claim 16 provides: Hot water supply means for supplying warm water into the cleaning tank from the opening of the gas blowing section and / or the ejection nozzle, and hot air for supplying warm air into the cleaning tank from the opening of the gas blowing section and / or the ejection nozzle 16. A granular squirting type body washing apparatus according to claim 1, further comprising a supply means. About.
[0011]
The invention according to claim 17 provides: 17. The granule jetting means comprises warm air and water vapor generating means, and an exhaust means for discharging the gas in the tank is provided above the cleaning tank. Granule-jet body washing device as described in About.
The invention according to claim 18 The granular jet-type body washing apparatus according to any one of claims 1 to 17, wherein a plurality of support rods for supporting a user's body are fixed to a side wall of the washing tank. About.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a granular jet-type body washing apparatus (hereinafter simply referred to as a body washing apparatus) according to the present invention will be described with reference to the drawings.
FIG. 1 is a cross-sectional view showing a first embodiment of a body washing apparatus according to the present invention.
As shown in the figure, the body washing apparatus according to this embodiment can wash the body in the washing tub (2) while the user (1) on the wheelchair is on the wheelchair (6). It is configured as follows.
[0013]
The cleaning tank (2) has an open ceiling surface, and an opening / closing door (3) that can be raised and lowered with a lower end portion as a fulcrum is provided on a side wall of the cleaning tank (2). ) Can be opened as shown by a broken line to enter the cleaning tank (2), and the body of the user (1) that has entered the cleaning tank (2) is jetted (jetted) by the granular jetting means described later. It is cleaned by frictional collision of the blasted granules (4).
[0014]
The granule (4) used in the present invention is a sphere having a diameter of 0.5 to 10 mm, and the material is iron (specific gravity 7.9), alumina (specific gravity 3.7), ceramics (specific gravity 2.6). ), Plastic (specific gravity 1.2) and the like. Although only the same material may be used for the granules (4), it is preferable to use a mixture of different materials. In this case, the diameter of a large specific gravity particle is reduced and the diameter of a low specific gravity particle is increased so that the free fall termination speed of one particle (4) is substantially constant.
In the case of adopting such a configuration, a granule having a large diameter and a small specific gravity hits the user's body strongly, so that the granule having a small diameter and a large specific gravity is suitable for washing, for promoting blood circulation and removing skin fatigue. Can be used.
[0015]
Here, the relationship between the jetting of particles and the amount (volume) of particles will be briefly described.
FIG. 2 is a diagram showing the relationship between the upward empty tank velocity U (the average velocity of the cross section of the empty tank calculated with the washing tank as an empty tank) and the pressure loss ΔP. ) Shows the case where there are few granules.
When there are many particles, the pressure loss in the particle layer is large, so the pressure loss increases rapidly as the tank speed increases, and when the tank speed exceeds a certain size Uf, the particle layer Suddenly expands and begins to move. This is a fluidized state, and in this fluidized state, the pressure loss does not change much with respect to the change in the empty tank speed, and the speed Ut (free fall end speed of the granule) is increased. When exceeding, the particles are blown away by the gas flow. This is the flow of particles.
On the other hand, when the number of particles is small, the pressure loss in the particle layer is small, so that even if the empty tank speed is increased, the particles are jetted without a clear fluidized state.
[0016]
In the present invention, it is also possible to preferably adopt a configuration in which the particles (4) are formed of a porous member and the voids are impregnated with a cleaning solution. According to this configuration, a cleaning solution supply means for separately supplying the cleaning solution into the cleaning tank Need not be provided.
Moreover, it is good also as a structure which makes a granule contain a far-infrared radiation | emission substance, According to this structure, a far-infrared ray is radiated | emitted to a user's body, and a user's blood circulation is accelerated | stimulated and health improvement is aimed at. it can. In this case, the particles themselves may be composed of a far-infrared radiation material such as far-infrared radiation ceramics, or a structure in which a far-infrared radiation material is attached to the surface.
[0017]
The amount (volume) of the granule (4) in the present invention is set to a moderate small amount for jetting the granule. In order to jet the particles, a gas velocity higher than the free fall termination velocity of at least one particle is required. However, if the amount of the particles (4) is too large, the particle layer becomes thick. This is because the pressure loss of the gas during passage through the bed increases, and the power of the blower increases in order to jet the particles.
For example, in a washing tank (2) of length: 1000 mm × width: 600 mm × height: 1000 mm, particles (4) of polystyrene (specific gravity: 1.0, diameter: 6.0 mm) are jetted for body washing. Experiments have confirmed that the amount (volume) of the particles (4) may be 4 liters or less.
[0018]
An intermediate bottom plate (5) having an opening through which the particles (4) can pass is disposed slightly above the bottom surface of the cleaning tank (2). The mid-sole plate (5) is a plate for the user (1) riding on the wheelchair (6) to ride, and is composed of, for example, a wire mesh.
[0019]
Between the bottom plate (5) and the bottom surface of the cleaning tank (2), there is provided a gas blowing section (7) for blowing up the particles (4) into the cleaning chamber.
FIG. 3 is a diagram in which the vicinity of the gas blowing section (7) of the body washing apparatus according to the present invention is extracted, and FIGS. 4 and 5 are perspective views showing an example of the configuration of the gas blowing section (7).
The gas blowing part (7) includes an opening plate (8) having an opening through which the particles (4) cannot pass but gas can pass, and an inclined surface (9) adjacent to the opening plate (8). And an upright plate (91) erected vertically so as to reach the surface of the opening plate (8) from the lower end of the inclined surface (9), and the inclined surface (9) is formed on the opening plate (8). Inclined towards.
[0020]
In the present invention, the way of providing the opening of the gas blowing portion (7) is not particularly limited, but a representative example is shown in FIGS.
The gas blowing portion (7) in the example shown in FIG. 4 is formed by the hypotenuses of triangular columnar members whose inclined surfaces (9) are arranged in parallel and spaced apart from each other, and a band-shaped opening is formed between the triangular columnar members. The plate (8) is provided. In the case of this example, the opening is formed in a slit shape.
The triangular columnar member and the opening plate (8) may be arranged so that the longitudinal direction thereof is in the left-right direction of the cleaning tank (2) or in the front-rear direction.
The gas blowing portion (7) in the example shown in FIG. 5 has a configuration in which the four inclined surfaces (9) are inclined downward toward the four sides of the square-shaped opening plate (8) in plan view. In the case of this example, the openings are formed in the form of holes.
[0021]
In the present invention, the behavior of the granular material in the jetting state differs depending on the way of providing the opening, so it is preferable to use the above-described two forms properly.
When the opening is formed in a slit shape as in the example shown in FIG. 4, since the area of the opening is large, the particles (4) blow up evenly like a fountain, but the momentum is not so strong. Therefore, this form is preferably used in the case of elderly people who do not like strong stimulation.
On the other hand, when the opening is formed in a hole shape as in the example shown in FIG. 5, since the area of the opening is small, the particles (4) blow up vigorously at a pinpoint. Therefore, this form is preferably used in the case of a healthy person who likes strong stimulation.
[0022]
The opening plate (8) is made of a wire mesh or the like that can be opened and closed by a hinge (10), and a granule (4) is placed on the upper surface thereof. The figure shows a state in which the aperture plate (8) is closed. In this state, the particles (4) cannot fall below the aperture plate (8), but the aperture plate ( By rotating 8) downward, the granules (4) fall toward the bottom of the washing tank (2).
[0023]
The inclination angle (θ) of the inclined surface (9) is inclined at an angle larger than the static friction angle (rest angle) of the particles, and thereby the particles (4) that have fallen on the inclined surface (9). Falls quickly and reliably onto the aperture plate (8) and is immediately blown up. That is, by providing the inclined surface (9) around the opening, a small amount of particles can be efficiently jetted, and the particles can always collide with the body.
In addition, when supplying water vapor | steam and a cleaning agent in a washing tank (2), since the static friction angle of a particle | grain changes, it is good to change an inclination angle ((theta)) according to this.
In the present invention, the inclination angle (θ) of the inclined surface (9) may be smaller than the static friction angle (repose angle) of the particles, and in this case, the inclined surface (9) is vibrated. By attaching the vibration generator at a suitable position such as on the inclined surface, the particles (4) falling on the inclined surface (9) can be quickly and surely dropped onto the aperture plate (8). It becomes possible.
[0024]
A gas supply port (11) is provided on the side wall of the cleaning tank (2) below the gas blowing part (7) of the cleaning tank (2), and the cleaning tank (5) above the midsole plate (5) ( The front side wall of 2) is provided with a jet nozzle (12) for jetting gas into the cleaning tank (2) at a plurality of positions (three places in the illustrated example) having different heights.
[0025]
The gas supply port (11) is connected to the heater (15) and the blower (16) via valves (13) and (14), and the steam boiler (61) supplies air via the venturi pipe (60). Connected to the supply conduit. When the blower (16) is operated with the valves (13) and (14) opened, the air heated by the heater (15) becomes warm air and flows through the conduit, and the negative pressure of the flow is used in the venturi section. Then, water vapor is supplied to the conduit, air and water vapor are mixed and supplied from the gas supply port (11) into the cleaning tank (2), and jetted upward through the particles (4) on the aperture plate (8). Blow up in state.
In addition, the blowing speed into the washing tank (2) by the blower (16) is adjusted to a speed capable of jetting the particles (4) as described above.
[0026]
The jet nozzle (12) is connected to a heater (15) and a blower (16) via a valve (17), and further connected to a conduit through which a steam boiler (61) supplies air via a venturi pipe (60). Is done. When the blower (16) is operated with the valve (17) opened, the air heated by the heater (15) flows as a hot air and flows through the conduit. In the venturi pipe, water vapor is generated using the negative pressure of the flow. The particles (4) supplied to the conduit, mixed with air and water vapor, ejected from the ejection nozzle (12) into the washing tank (2), and blown up into the washing tank (2) from the front. ).
When strong washing is desired, the granule (4) is stored in a separate storage (62), and the storage (62) and the ejection nozzle (12) are connected via a valve (17) and a rotary valve (63). By doing so, the mixture of gas and particles can be directly collided with the user (1) from the ejection nozzle (12).
Further, when it is desired to wash the local part of the body intensively, the air from the blower (16) is bypassed to the storage (62), and the air is pumped through the valve (64) attached to the storage (62). The gas and granule mixture is caused to collide directly with a local part of the body by adjusting the flexible pipe (65) connected in this manner and the nozzle (66) attached to the tip of the flexible pipe (65) to an appropriate position. It becomes possible.
As a result, the granule (4) can be made to collide with the abdomen or the like, which becomes a dead space, when the granule is blown from below, and the cleaning effect is further improved.
Although not shown, a jet nozzle (12) is provided on the side wall located on the side of the user (1) and the open / close door (3) located on the rear side, and warm air is supplied into the cleaning tank (2). It is preferable to eject the liquid since the cleaning effect is further increased.
[0027]
The bottom surface of the cleaning tank (2) has a downwardly inclined surface, and a discharge hole (18) is provided at a position where the inclination is lowest. The discharge hole (18) has a rotary valve (19), air It is connected with the granular material washing tank (22) via the transport pipe (20) and the valve (21).
The rotary valve (19) includes a rotor having a cross-shaped wing inside, and the tip of the wing is in close contact with the inner wall of the casing, so that the particles (4) can be dropped while preventing the backflow of air. it can.
The pneumatic transport pipe (20) located immediately below the rotary valve (19) communicates with the blower (16) by the pneumatic transport pipe (24) through the valve (23), and the output wind of the blower (16) is It is comprised so that it can send in to an air conveyance pipe | tube (20).
[0028]
When the blower (16) is operated to open the valves (21) and (23), the output air from the blower (16) is sent to the lower side of the rotary valve (19) through the air transport pipe (24). , Cannot pass through the rotary valve (19), and flows directly into the pneumatic transport pipe (20).
This air flow causes the rotary valve (19) to be in a negative pressure state, and in combination with the downward inclination of the bottom surface of the cleaning tank, the particles (4) in the cleaning tank (2) are efficiently discharged from the discharge hole (18). It is sent to the granular material washing tank (22) provided above the washing tank through the transport pipe (20).
[0029]
The granule cleaning tank (22) is a tank for cleaning the granules (4) taken out from the cleaning tank (2), and includes a stirrer (25) and a motor (26) for rotating the agitator. . And the granule (4) collect | recovered in the tank is sterilized and washed by opening a valve (27), supplying tap water, and simultaneously adding a bactericidal agent and rotating a stirrer (25). .
The dirty water after washing is discharged from the lower part of the granule washing tank (22) to the outside through a valve (28) different from that for taking out the granule (4). The valve (28) is fitted with a filter or the like so that water can pass through but not through the granules (4).
Moreover, the clean particle | grains (4) after sterilization washing | cleaning can be again supplied in a washing tank (2) by opening a valve | bulb (29).
In addition, when adopting a configuration in which the above-described granule (4) is formed from a porous member and the gap is impregnated with the cleaning liquid, the cleaning liquid is injected into the granule cleaning tank (22) to form the granule. The body (4) may be impregnated with a cleaning liquid.
[0030]
The cleaning agent used for washing the body is usually mixed in the air supplied from the blower (16) and the water vapor supplied from the steam boiler (61) in order to jet the particles into the gas supply port (11). In addition to the supply from the ejection nozzle (12) to the cleaning tank (2), cleaning liquid supply means for supplying the cleaning liquid into the cleaning tank is provided above the cleaning tank (2). This cleaning liquid supply means is for spraying the cleaning liquid onto the body of the user (1) before or after the jetting of the particles (4), and is connected via the cleaning liquid tank (30) and the valve (31). And a nozzle (33) attached to the tip of the flexible tube (32).
The user (1) in the cleaning tank (2) opens the valve (31), bends the flexible tube (32) and adjusts the nozzle (33) to an appropriate position, thereby spraying the cleaning liquid evenly on the body. be able to.
[0031]
The user (1) can efficiently wash the body due to the collision friction action on the skin by the jetting of the granule (4) and the cleaning action of the cleaning liquid, but the granule blown up by the jetting. It is necessary to take measures to prevent (4) from jumping out of the washing tank (2).
This has an opening which can adjust the wind pressure of the blower (16) appropriately, can expose only the head of the user (1) to the outside, and does not hinder the injection of the cleaning liquid by the nozzle (33). This can also be achieved by providing a lid, but as shown in the figure, a gas suction port (34) is provided at a height around the shoulder of the user on the side wall of the cleaning tank (2), and the blown gas is blown out by a blower. You may make it return to (16). In this case, a filter for preventing the passage of the granules (4) is attached to the gas suction port (34).
[0032]
In addition, a shower facility is provided above the cleaning tank (2) to wash away the cleaning liquid adhering to the body after cleaning with the granules and the cleaning liquid.
The shower facility is connected to the instantaneous water heater (38) connected to the water pipe via the valve (37), and to the instantaneous water heater (38), the valve (39), and the hot water supply pipe (40). The shower nozzle (41), and the user (1) in the washing tub (2) activates the instantaneous water heater (38) and opens the valve (39) to put a hot water shower on the body. You can wash your head and face.
[0033]
The hot water supply pipe (40) from the instantaneous water heater (38) is also connected to the valves (13) and (17) via the valve (41), and the valve (39) is closed to close the valves (41), ( By opening 13) and (17), hot water can be supplied into the cleaning tank (2) from the gas supply port (11) and the ejection nozzle (12).
Thereby, warm water is filled in the washing tank (2), and the body of the user (1) is warmed. The used hot water is discharged to the outside by opening the valve (43) from a drain port (42) provided at the bottom of the washing tank (2).
[0034]
After all the hot water in the washing tank (2) has been discharged, the heater (15) and the blower (16) are operated to warm the washing tank (2) from the gas supply port (11) and the ejection nozzle (12). The wind is blown and the user's (1) body can be dried.
[0035]
In the body washing apparatus according to the present invention, in addition to the above-described configuration, a turbulent nozzle (67) that generates turbulent flow in the washing tank (2), and a jet jetted in the washing tank (2) are shaken. A jet oscillating means (70) for moving, a jet swirling means (80) for turning a jet jetted into the cleaning tank (2), and a jet twisting for twisting the jet jetted into the cleaning tank (2) Means (90) and the like are preferably provided, and these configurations will be described below.
FIG. 6 is a view showing a state in which the body washing apparatus according to the present invention is provided with the turbulent nozzle (67) and the jet rocking means (70). Note that other configurations are omitted for the sake of clarity, but the configuration shown in FIG. 6 can be provided in addition to the configuration shown in FIG.
[0036]
The turbulent nozzle (67) is provided on the side wall of the cleaning tank (2) and is connected to the control blower (71) via the valve (68) and the silencer (72). The generated gas flow is sent as a turbulent flow into the cleaning tank (2).
Thus, by providing the turbulent flow nozzle (67) on the side wall of the cleaning tank (2), the movement of the particles (4) jetted in the cleaning tank (2) is changed irregularly. It becomes possible to make it collide with the body, and it becomes more excellent by the cleaning effect.
[0037]
The jet rocking means (70) includes a control jet nozzle (73) provided on an inclined surface (9) formed around the opening of the gas blowing section (7), a control blower (71), and a silencer. (72), and a solenoid valve (74) for opening and closing a passage connecting the control jet generating means and the control jet nozzle (73).
[0038]
The control jet nozzle (73) is disposed at a position facing the opening of the gas blowing section (7), and the jet (jet) jetted from the gas blowing section (7) into the cleaning tank (2) ( The control jet (B) is blown in a direction substantially perpendicular to the (main jet) (A), whereby the main jet can be deflected.
Therefore, by alternately switching the opening and closing of the solenoid valves (74) respectively provided in the control jet nozzles (73) arranged opposite to each other, they are ejected from the gas blowing section (7) into the cleaning tank (2). The main jet can be swung.
By providing such a jet rocking means (70), the flow of the particles (4) rising in the washing tank (2) is bent and rocked, so that it is applied to every corner of the user's body. The particles (4) can be made to collide with each other, and the cleaning effect is further improved.
[0039]
As the discharge port shape of the control jet nozzle (73) used in the jet rocking means (70), for example, the discharge port (73a) as shown in FIG. Examples of such a discharge port (73a) may be a rectangular shape or a circular shape, but are not particularly limited to these shapes.
[0040]
FIG. 9 is a partial view showing another embodiment of the jet rocking means (70).
The jet rocking means (70) of this embodiment also includes a control jet nozzle (73) provided opposite to the inclined surface (9) formed around the opening of the gas blowing section (7), A control jet generating means comprising a control blower (not shown) and a silencer (not shown), and an electromagnetic valve (74) for opening and closing a passage connecting the control jet generating means and the control jet nozzle (73). However, the flow direction of the control jet ejected from the control jet nozzle (73) is different from that of the above embodiment.
That is, in this jet flow oscillating means (70), the control jet (B) generated from the control jet nozzle (73) is provided around the opening of the gas blowing section (7) as shown in FIG. It is injected in the same direction (upward direction) as the main jet along the inclined surface (9).
[0041]
Hereinafter, the operation of the jet rocking means (70) of this embodiment will be described with reference to FIG.
First, in the state in which no control jet is generated from the control jet nozzle (73), the main jet (A) flows upward from the opening as shown in FIG. 10 (1). Between the inclined surface (9) when one solenoid valve (74) of the jet nozzle (73) is opened to generate the control jet (B) along the inclined surface (9) (see (2)). The symmetry of the flow of the main jet passing through is broken and a negative pressure region (shown by a broken line) is generated on the side where the control jet is generated. The main jet (A) is the control jet (B) as shown in (3). It will be deflected to the side where this occurs.
Therefore, the main jet can be swung by alternately opening and closing the solenoid valves (74) of the control jet nozzles (73) facing each other.
[0042]
FIGS. 11 and 12 are perspective views showing examples of the jet rocking means (70) of the above embodiment.
In the example shown in FIG. 11, the opening of the gas blowing section (7) is circular, and the control jet nozzle (73) is opposed to the inclined surface (9) having a substantially inverted conical shape provided around the opening. In the example shown in FIG. 12, the opening of the gas blowing part (7) has a slit shape, and the control jet nozzle (73) has an approximately triangular prism-shaped inclined surface provided around the opening. (9) are provided at opposite positions.
[0043]
FIG. 13 is a view showing the jet swirling means (80).
The jet swirling means (80) is a control jet nozzle (73) provided on an inclined surface (9) formed around the opening of the gas blowing section (7), like the jet swinging means (70). And a control jet generating means comprising a control blower (not shown) and a silencer (not shown), and a solenoid valve for opening and closing a passage connecting the control jet generating means and the control jet nozzle (73). Not shown).
[0044]
In this jet swirling means (80), the opening of the gas blowing section (7) is circular, and the inclined surface (9) provided around the opening is formed in a substantially inverted conical shape. Two control jet nozzles (73) are arranged at opposite positions of the inclined surface (9) in opposite directions and in the circumferential direction of the inclined surface.
According to the jet swirling means (80), when the control jets are generated in the opposite directions and in the circumferential direction of the inclined surface from the two control jet nozzles (73), the control jet (B) is changed to the inclined surface (9). ), And the main jet (A) ejected from the gas blowing section (7) into the cleaning tank (2) by the flow of the control jet (B) swirls as shown in the figure. The particles (4) can be made to collide with the dead space of the user's body (the part behind the gas blowing part), and the cleaning effect is further improved.
[0045]
FIG. 14 is a view showing the jet twisting means (90).
The jet twisting means (90) also has a control jet nozzle (9) provided on the inclined surface (9) formed around the opening of the gas blowing section (7), like the jet swinging means (70). 73), a control jet generating means comprising a control blower (not shown) and a silencer (not shown), and an electromagnetic valve for opening and closing a passage connecting the control jet generating means and the control jet nozzle (73) (Not shown).
[0046]
In this jet twisting means (90), the opening part of the gas blowing part (7) is formed in a slit shape, and two control jet nozzles (73) are inclined surfaces facing each other across the opening part (73). 9), the positions are shifted in the width direction (longitudinal direction of the slit) and provided in opposite directions. In the figure, only two control jet nozzles (73) are shown, but more nozzles can be provided along the width direction of the inclined surface (9).
[0047]
According to the jet twisting means (90), the two control jet nozzles (73) provided in opposite directions at different positions are opposite to each other along the width direction of the inclined surface (9). By ejecting the control jet (B) so as to flow, the main jet (A) ejected from the gas blowing part (7) into the cleaning tank (2) becomes twisted as shown in the figure, Thereby, it becomes possible to make the granule (4) collide with the dead space of the user's body (the part behind the gas blowing part), and the cleaning effect is further improved.
[0048]
In the body washing apparatus according to the present invention, when all of the above-described jet rocking means (70), the jet swirling means (80) and the jet twisting means (90) are provided, the control jet nozzle (73) used for them is provided. ) May be used separately, but the same control nozzle (73) can also be used for three means.
FIG. 15 is a schematic view showing the configuration of the control jet nozzle (73) for achieving this, and the tip of the control jet nozzle (73) is bent in an L-shape and is inclined (9). It protrudes from the hole (92) provided in. The other end is connected to the air hose (75) and fixed to the connecting joint (76), and is connected to the rotary motor (77) via the joint (76).
According to this configuration, since the direction of the tip of the control jet nozzle (73) can be changed by driving the rotary motor (77), the same control jet nozzle (73) is made to oscillate. The means (70), the jet swirling means (80), and the jet twisting means (90) can be used together.
[0049]
FIG. 16 is a cross-sectional view showing a second embodiment of the body washing apparatus according to the present invention.
The body washing apparatus according to the second embodiment is an apparatus combined with a sauna bath, and an insole plate (5) having an opening through which granules (4) can pass slightly above the bottom surface of the washing tank (2). And a gas blowing part (7) for blowing up the particles (4) into the cleaning chamber is provided between the bottom plate (5) and the bottom surface of the cleaning tank (2).
In addition, the structure of a midsole board (5) and a gas blowing part (7) is the same as the thing of 1st embodiment mentioned above.
[0050]
A gas supply port (11) is provided on the side wall of the cleaning tank (2) below the gas blowing part (7) of the cleaning tank (2), and the cleaning tank (2) is provided from the gas supply port (11). Warm air and water vapor are supplied inside, and the particles (4) are jetted.
Further, an exhaust port (44) for discharging air and water vapor in the tank is provided above the cleaning tank (2), and an exhaust blower (45) is connected to the exhaust port (44). ing. An opening / closing door (46) for a user to enter and exit is provided on one side wall of the cleaning tank (2).
[0051]
The portion other than the gas blowing part (7) and the exhaust port (44) of the cleaning tank (2) is a sealed space, and the sauna effect is exhibited by supplying warm air and water vapor from the gas supply port (11). Then, the user can wash the body with the particles (4) spouted while being exposed to water vapor.
[0052]
FIG. 19 is a sectional view showing a third embodiment of the body washing apparatus according to the present invention.
The body washing apparatus according to the third embodiment is an apparatus for a bedridden elderly person or a physically handicapped person, and the washing tank (2) is put in a state where the user (1) goes out from the neck to the outside and sleeps. It is formed as follows.
That is, the cleaning tank (2) in this embodiment has a low ceiling and a shape that is long in the front-rear direction, and an opening (47) through which the user (1) puts the top out from the neck to the outside is provided at the front end. Is provided.
Further, a support member (50) for supporting the neck of the user (1) and a shower facility (51) for washing the head of the user (1) are provided outside the opening (47). ing. The support member (50) extends under the head of the user (1) and has a tray shape. The support member (50) receives water ejected from the nozzle of the shower facility (51) and is provided with a valve (52 It is possible to discharge the washed water to the outside.
[0053]
An intermediate bottom plate (5) having an opening through which the granules (4) can pass is disposed slightly above the bottom surface of the cleaning tank (2), and the intermediate bottom plate (5) and the bottom surface of the cleaning tank (2) are arranged. A gas blowing part (7) for blowing up the particles (4) into the cleaning chamber is provided between them.
In addition, the structure of a midsole board (5) and a gas blowing part (7) is the same as the thing of 1st embodiment mentioned above.
[0054]
A gas supply port (11) is provided on the side wall of the cleaning tank (2) below the gas blowing part (7) of the cleaning tank (2), and the cleaning tank (2) is provided from the gas supply port (11). Warm air and water vapor are supplied inside, and the particles (4) are jetted.
Further, an exhaust port (53) for discharging air and water vapor in the tank is provided above the cleaning tank (2), and an exhaust blower (48) is connected to the exhaust port (53). ing.
[0055]
A plurality of support bars (49) that support the body of the user (1) are fixed to the side wall of the cleaning tank (2). These support bars (49) are arranged in a direction perpendicular to the vertical direction of the body of the user (1) from one side wall to the other side wall.
Although the number of support bars (49) is five in the illustrated example, the number of support bars (49) can be further increased to reliably support the body of the user (1).
[0056]
In this embodiment, the ceiling part of the cleaning tank (2) is constituted by a removable cover, and the user can enter the cleaning tank by removing the cover.
And in the state which closed the cover, parts other than the gas blowing part (7), opening part (47), and exhaust port (53) of a washing tank (2) become sealed space, and a gas supply port (11) By supplying warm air and water vapor from the sauna, the sauna effect is exhibited, and the user can wash the body with the particles (4) spouted while being exposed to water vapor.
[0057]
In the body washing apparatus according to the second and third embodiments described above, any or all of the jet oscillating means (70), the jet swirling means (80), and the jet twisting means (90) are used. It is possible to further add the above means.
[0058]
【The invention's effect】
As described above, according to the granular jet-type body washing apparatus according to the present invention, the granular body is jetted with gas and the body is washed by colliding with the body. Therefore, compared with the method using slurry. Collision between the body and the body is large and the cleaning effect is excellent. Further, since the amount of water to be used is small, it can be suitably used even in regions and seasons where water is insufficient, and the apparatus can be made small.
In addition, since the particles are jetted, the amount of particles is less than that of the device for fluidizing the particles, so there is no need for a high-power blower, and facilities for sterilizing and washing the particles are also provided. It is possible to reduce the size, and it is also possible to disposable the granules, which is advantageous in terms of installation space and running cost.
Further, by causing the jetted particles to frictionally collide with the body, health promotion effects such as blood circulation promotion and skin fatigue recovery can be obtained.
Furthermore, body washing, bathing, and drying can all be performed automatically in the washing tank.
Also, a turbulent nozzle for generating turbulent flow in the cleaning tank, jet oscillating means for oscillating the jet jetted in the cleaning tank, jet swirling means for rotating the jet jetted in the cleaning tank, and cleaning tank If a jet twisting means that twists the jet jetted into the inside is provided, it is possible to make the particles collide with the dead space of the user's body (the part behind the gas blowing part) It becomes even better due to the cleaning and massage effect.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a first embodiment of a body washing apparatus according to the present invention.
FIG. 2 is a diagram showing a relationship between an upward empty tank velocity U and a pressure loss ΔP.
FIG. 3 is an extracted view of the vicinity of a gas blowing portion of the body washing apparatus according to the present invention.
FIG. 4 is a perspective view showing an example of a configuration of a gas blowing part.
FIG. 5 is a perspective view showing an example of a configuration of a gas blowing part.
FIG. 6 is a view showing a state where the body washing apparatus according to the present invention is provided with a turbulent nozzle and a jet rocking means.
FIG. 7 is a view showing an example of a control jet nozzle used in the jet rocking means.
FIG. 8 is a view showing an example of a control jet nozzle used in the jet rocking means.
FIG. 9 is a partial view showing another embodiment of the jet rocking means.
10 is an explanatory view showing the operation of the jet flow oscillating means shown in FIG. 9. FIG.
11 is a perspective view showing an embodiment of the jet flow oscillating means shown in FIG. 9. FIG.
12 is a perspective view showing an embodiment of the jet rocking means shown in FIG. 9. FIG.
FIG. 13 is a view showing jet swirling means.
FIG. 14 is a diagram showing jet twisting means.
FIG. 15 is a schematic diagram showing a configuration for combining the jet flow oscillating means, the jet swirling means, and the jet twisting means with the same control jet nozzle.
FIG. 16 is a cross-sectional view showing a second embodiment of the body washing apparatus according to the present invention.
FIG. 17 is a cross-sectional view showing a third embodiment of the body washing apparatus according to the present invention.
[Explanation of symbols]
1 user
2 Washing tank
4 particles
5 Bottom plate
7 Gas blowing part
8 Opening plate
9 Inclined surface
11 Gas supply port
12 ejection nozzle
22 Granule washing tank
30 Cleaning liquid tank
31 Valve
32 Flexible pipe
33 nozzles
38 Instantaneous water heater
37 Valve
40 Hot water supply pipe
41 shower nozzle
44 Exhaust vent
45 Exhaust blower
49 Support rod
67 Turbulent nozzle
70 Jet rocking means
73 Jet nozzle for control
80 Jet swirling means
90 Jet twisting means
A main jet
B Control jet

Claims (18)

  There is a gap between a cleaning tank that accommodates the user's body, a large number of particles that collide with the user's body in the cleaning tank, and an opening through which the particles can pass. An intermediate bottom plate disposed with a gap between the intermediate bottom plate and the bottom of the washing tank, and a gas blowing portion provided with an opening through which the particles cannot pass but gas can pass, A granular squirting type body washing apparatus comprising a granule jetting means for sending gas to the bottom of the cleaning tub and jetting the granule in the cleaning tub.   An inclined surface is formed around the opening of the gas blowing portion, and the inclined surface is an inclined surface inclined at an angle larger than the static friction angle of the particles or an inclined surface that can be vibrated by a vibration generator. The granular squirting type body washing apparatus according to claim 1.   3. The granular squirting type body washing apparatus according to claim 1, wherein an opening of the gas blowing part is formed in a slit shape.   The granular squirting type body washing apparatus according to claim 1 or 2, wherein openings of the gas blowing part are formed in a hole-like manner.   The granule jet-type body washing apparatus according to any one of claims 1 to 4, wherein the opening of the gas blowing section is formed of an openable / closable opening plate having a large number of openings.   6. A granular squirting type body wash according to any one of claims 1 to 5, wherein the gas blowing part is provided with jet oscillating means for oscillating the jet jetted into the washing tank. apparatus.   The jet flow oscillating means is means for alternately blowing control jets from two locations that are substantially perpendicular to the jet flow jetted from the gas blow-out portion into the cleaning tank. The granular body jet type body washing apparatus according to claim 6 characterized by the above-mentioned.   7. The granular jet-forming body according to claim 6, wherein the jet oscillating means is means for generating a control jet along an inclined surface provided around the opening of the gas blowing part. Cleaning device.   6. A granular squirting type body washing apparatus according to any one of claims 1 to 5, wherein the gas blowing section is provided with jet swirling means for swirling a jet jetted into the washing tank.   The jet swirling means forms an inclined surface provided around the opening of the gas blowing portion in a substantially inverted conical shape and ejects the control jet so as to flow along the circumferential direction of the inclined surface. The granular squirting type body washing apparatus according to claim 9.   6. A granular squirting type body washing apparatus according to claim 1, wherein the gas blowing section is provided with jet twisting means for twisting the jet jetted into the washing tank. .   The jet twisting means is configured such that the opening of the gas blowing portion forms a slit shape, and the control jet flows along at least two locations of the inclined surfaces facing each other across the opening along the width direction of the inclined surface. 12. The granular squirting type body washing apparatus according to claim 11, wherein the squirting means is a means for jetting so as to flow in opposite directions. A turbulent nozzle for generating turbulent flow in the cleaning tank and a jet nozzle for jetting gas or a mixture of gas and particles are provided in the cleaning tank on the side wall of the cleaning tank. Item 13. A granular body jet type body washing apparatus according to any one of Items 1 to 12. The granule is composed of a plurality of types of granules having different specific gravities, and the granule having a large specific gravity has a small diameter and the granule having a small specific gravity has a large diameter so that the free fall termination speed is substantially constant. 14. The granular jet-type body washing apparatus according to claim 1, wherein the granular body is made of a porous member impregnated with a cleaning liquid and contains a far-infrared emitting substance. . Granules recovery cleaning means for recovering and cleaning particles from the bottom of the cleaning tank, cleaning liquid supply means for supplying a cleaning liquid into the cleaning tank, and a shower for a user to wash the body in the cleaning tank The equipment according to claim 1, further comprising equipment. Granule jet type body washing device. Hot water supply means for supplying warm water into the cleaning tank from the opening of the gas blowing section and / or the ejection nozzle, and hot air for supplying warm air into the cleaning tank from the opening of the gas blowing section and / or the ejection nozzle 16. A granular squirting type body washing apparatus according to claim 1, further comprising a supply means. 17. The granule jetting means comprises warm air and water vapor generating means, and an exhaust means for discharging the gas in the tank is provided above the cleaning tank. The granular jet-type body washing apparatus described in 1. The granular jet-flow type body washing apparatus according to any one of claims 1 to 17, wherein a plurality of support bars for supporting a user's body are fixed to a side wall of the washing tank.

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