JP2022001113A - dispenser - Google Patents

Abstract

To provide a dispenser which can be easily maintained and managed, has durability and can automatically eject fluid.SOLUTION: A dispenser is provided, comprising: a fluid housing portion 12 housing fluid; an ejection mechanism 18 for ejecting the fluid; and a housing 16 configured to arrange constituent components which constitute the ejection mechanism 18. The ejection mechanism 18 comprises an actuator 14, a first transfer pipe 70, a second transfer pipe 72, and an ejection port 74, the fluid housing portion 12 has a side wall portion 22, a bottom wall portion 24, and an injection port 28. A lid portion 52 is provided above the injection port 28, the fluid can be injected from the injection port 28 by opening the lid portion 52. The housing 16 comprises a foundation portion 42, a mechanism portion 44, and a projected portion 46. A sensor 82 is provided in a prescribed arrangement in the projected portion 46. The sensor 82 senses approach of an object which uses fluid, then actuates the actuator 14.SELECTED DRAWING: Figure 1

Description

The present invention relates to a dispenser, and more particularly to a dispenser capable of automatically discharging a fluid such as a hand-washing liquid soap or a disinfectant without touching the user's hands.

For dispensers used by many, users want a dispenser that works automatically and without contact to prevent the transmission of viruses and bacteria.
When used by many people, it is required to be easy to maintain and manage, such as having to replenish the liquid soap frequently, while the fluid such as the liquid soap does not easily invade the internal mechanism due to leakage or the like. A structure is required.

The solution supply device of Patent Document 1 includes a solution tank, a solution chamber for sucking and storing a solution from the solution tank via a solution suction pipe, a nozzle for mixing the solution and air, and discharging the solution in a mousse shape. It consists of a sensor that operates an air pump by detecting that a hand is inserted under the nozzle, and is configured to operate every time it is used in a non-contact manner and constantly discharge a constant amount in a mousse shape. In the solution supply device of Patent Document 1, the solution tank is arranged at the lowermost part of the device, and there is a problem in stability, and it is difficult to suck all the solutions from the solution tank.
The soap dispenser of Patent Document 2 includes a housing, a reservoir, a pump, a motor, a sensor, an electronic processor, and a nozzle, and is configured to control the motor so as to approximately discharge the discharge volume of the liquid. This soap dispenser has a poor stability because the reservoir is located at the bottom of the device and other components are located at the top. In addition, it is difficult to completely suck up the liquid soap stored in the reservoir.
The dispenser and the replenishment unit of Patent Document 3 are attached to the base unit so that the replenishment unit containing the discharged substance has a reverse configuration, that is, the outlet is located at the lowermost end. The base unit is provided with all the actuating mechanisms for discharging the liquid, and if the liquid contained in the replenishment unit leaks, the liquid may flow into the actuating mechanism.
The electric device of Patent Document 4 includes various parts such as a main body, a drive device, and a discharge nozzle. The main body is configured as a case in which a bottle container containing contents such as detergent can be attached, and the inside of the main body is equipped with a bottle holder that attaches and holds the bottle container with the mouth facing down. Has been done. The bottom of the holding space of the bottle holder is provided with a nozzle that is inserted and fitted into the mouth of the bottle container. The drive device is located under the bottle holder of the main body. In the electric device of Patent Document 4, if a liquid container such as a detergent contained in a bottle holder leaks, there is a possibility that the drive device under or around the electric device may be immersed in water.

Japanese Unexamined Patent Publication No. 9-150877 Japanese Unexamined Patent Publication No. 2018-158103 Japanese Patent No. 5425223 Japanese Unexamined Patent Publication No. 2020-50375

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a dispenser which is easy to maintain and manage, has durability, and can automatically discharge a fluid.

The dispenser according to the present invention is
It includes a fluid accommodating portion for accommodating a fluid, a discharge mechanism for discharging the fluid flowing out from the fluid accommodating portion, and a housing configured to arrange components constituting the discharge mechanism.
The discharge mechanism is
An actuator that transfers the fluid transferred from the fluid accommodating portion and an actuator that transfers the fluid.
A first transfer pipe, which is connected to the outlet of the fluid accommodating portion and sends the fluid toward the actuator located above.
A second transfer pipe that transfers the fluid discharged from the actuator, and
It is provided with a discharge port for discharging the fluid sent by the second transfer pipe to the outside.
The fluid accommodating portion is
It has a side wall portion and a bottom wall portion, and is provided with an injection port for injecting a fluid on the side opposite to the bottom wall portion.
The outlet is provided on the bottom wall portion.
An openable and closable lid is provided above the injection port so that the lid can be opened and fluid can be injected from the injection port.
The housing is
A foundation portion to which the fluid accommodating portion is attached, a mechanism portion disposed on the foundation portion, and a detector and a discharge port are provided above the mechanism portion so as to project forward from the mechanism portion. With a protruding part,
The housing is configured to include the actuator, the second transfer pipe, the discharge port and the sensor.
The detector is configured to detect the approach of a fluid utilization object and activate the actuator.
With this configuration, the remaining amount of the contents can be monitored, and the replenishment of the contents can be promoted. In addition, detergents and chemicals can be discharged without contact.

According to the dispenser according to the present invention, it is possible to provide a dispenser that is easy to maintain and manage, has durability, and can automatically discharge a fluid.

The above-mentioned object, other object, feature and advantage of the present invention will be further clarified from the description of the embodiment for carrying out the following invention with reference to the drawings.

It is a perspective illustration of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the dispenser which is one Embodiment of this invention. It is a front view of the dispenser which is one Embodiment of this invention. It is a side view of the dispenser which is one Embodiment of this invention. It is a plan view of the dispenser which is one Embodiment of this invention. It is a bottom illustration of the dispenser which is one Embodiment of this invention. It is a vertical cross-sectional diagram of the dispenser shown in FIG. FIG. 7 is an enlarged cross-sectional schematic diagram taken along the line AA shown in FIG. 7. FIG. 7 is an enlarged cross-sectional schematic diagram taken along the line BB shown in FIG. 7. It is a schematic diagram which shows the base part of a housing. It is an exploded diagram of the dispenser which is one Embodiment of this invention. It is an exploded diagram of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the liquid storage container of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the liquid storage container of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the housing body of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the housing body of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the bottom surface side of the upper cover portion of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the upper part side of the housing body of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the upper cover part of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the upper cover part of the dispenser which is one Embodiment of this invention. It is the illustration of the upper cover part of the dispenser which is one Embodiment of this invention, (A) is a plan view, and (B) is a front view. It is a bottom illustration of the top cover portion of the dispenser which is one Embodiment of this invention. It is a perspective illustration which shows the mounting structure of the actuator of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the lower cover portion of the dispenser which is one Embodiment of this invention. It is a perspective illustration which shows the mounting structure of the battery storage part of the dispenser which is one Embodiment of this invention. It is a perspective illustration of the battery storage part of the dispenser which is one Embodiment of this invention. It is a schematic diagram of the dispenser which is one Embodiment of this invention. It is a flowchart which sets the discharge amount of the dispenser which is one Embodiment of this invention. It is a schematic diagram which shows the kind of operation of the dispenser which is one Embodiment of this invention. It is a schematic diagram which shows the operation of the dispenser which is one Embodiment of this invention.

A dispenser according to an embodiment of the present invention will be described below, mainly based on FIGS. 1 to 29.

The dispenser 10 according to one embodiment is
A fluid accommodating unit 12 for accommodating a fluid such as a detergent such as liquid soap or a chemical solution, a discharge mechanism 18 for discharging the fluid from the fluid accommodating unit 12, and a note for injecting the fluid into the fluid accommodating unit 12. Equipped with an entrance 20
A first transfer pipe 70 constituting the discharge mechanism 18 connected to the outlet 26 constituting the discharge mechanism 18 of the fluid accommodating portion 12 and for sending the fluid toward the pump constituting the actuator 14 above.
A pump constituting the actuator 14 for transferring the fluid transferred from the fluid accommodating unit 12 toward the discharge port 74, and a pump.
A second transfer pipe 72 constituting a discharge mechanism 18 for sending the fluid discharged from the actuator 14 toward the discharge port 74, and
A discharge port 74 that discharges the fluid sent by the second transfer pipe 72 to the outside,
The sensor 82, which senses that a fluid-utilized object is approaching and sends a signal to activate the actuator 14,
It includes a housing 16 configured to include an actuator 14, a second transfer tube 72, a discharge port 74 and a sensor 82.

Housing 16
A foundation portion 42 to which the fluid accommodating portion 12 is attached, and
A mechanical portion 44 disposed on the foundation portion 42,
A housing main body 40 having a protruding portion 46 which is provided so as to project forward from the mechanism portion 44 above the mechanism portion 44 and in which a sensor 82 and a discharge port 74 are arranged.
The upper covering portion 50 that covers the upper part of the housing body 40,
It is provided with a lower covering portion 56 that is placed on the lower portion of the housing main body 40.

The fluid accommodating portion 12 is mainly composed of a liquid accommodating container made of plastic and having a side wall portion 22 and a bottom wall portion 24. The fluid accommodating portion 12 may be integrally molded with plastic. The liquid storage container constituting the fluid storage unit 12 is composed of a tank formed in a hollow shape with polypropylene having chemical resistance, and is configured to be able to store a fluid that is a liquid.

The bottom wall portion 24 includes a bottom plate portion having a substantially U-shape in bottom view, and the bottom plate portion is one size smaller than the side wall portion 22 and fits into the recess of the base portion 42 of the housing body 40. The housing mounting portion 30 is configured so that it can be used.
The bottom wall portion 24 is connected to the side wall portion 22, and the side wall portion 22 following the bottom wall portion 24 has a region close to the bottom wall portion 24 formed to be the same size as the bottom plate portion of the bottom wall portion 24. The housing mounting portion 30 is configured so as to fit into the base portion 42 of the housing body 40.
The bottom wall portion 24 is inclined downward from the peripheral portion where the bottom plate portion is connected to the side wall portion 22, and the outlet 26 for discharging the fluid stored in the liquid storage container to the outside is provided at the lowest position of the bottom plate portion. It is arranged.
The outflow port 26 has a tubular shape protruding downward and is configured to be able to connect the first transfer pipe 70, and constitutes a discharge mechanism 18 for delivering liquid from the fluid accommodating portion 12 to the discharge port 74.
A first transfer pipe 70 for feeding a fluid to the actuator (pump) 14 is fitted and connected to the outlet 26 at a portion protruding from the bottom of the base portion 42 of the housing 16.

The fluid accommodating portion 12 injects a liquid which is a fluid into the liquid storage portion in the liquid accommodating container constituting the fluid accommodating portion (liquid accommodating container) 12 in the upper part of the side wall portion 22 opposite to the bottom wall portion 24. It is provided with an injection port portion 20 which is an opening portion for the purpose.
The fluid accommodating portion 12 includes a container lid portion 32 that covers the upper portion of the side wall portion 22 in order to cover the injection port portion 20 formed in the upper portion of the side wall portion 22.

The container lid portion 32 has an overall shape substantially similar to that of the bottom wall portion 24 connected to the lower portion of the side wall portion 22. The container lid portion 32 has an injection port 28 formed in the center thereof.
The container lid portion 32 is formed into a substantially U-shaped plate in a plan view, which is provided with an edge portion that can be fitted to the mouth edge portion of the side wall portion 22.
The container lid portion 32 is made of a plastic such as polypropylene, which has chemical resistance.

The fluid accommodating portion 12 includes a region disposed on one side surface, the other side surface, or both side surfaces of the mechanical portion 44 of the housing 14, so that the amount of liquid contained therein can be seen from the front. It is configured in.
That is, the fluid accommodating portion 12 is configured such that the side wall portion 22 is arranged on the left side, the right side, both sides, and the rear side of the mechanical portion 44 of the housing 16.
In this embodiment, the side wall portion 22 and the housing mounting portion 30 of the fluid accommodating portion 12 are provided on both sides of the mechanical portion 44 of the housing 16, that is, the left and right facing regions, and are also arranged on the rear side of the mechanical portion 44. It is formed in a cylindrical shape having a substantially U-shaped cross section, which is configured to be installed.
The fluid accommodating portion 12 may have a substantially L-shaped cross section arranged on the left side, the right side, and the rear side of the mechanical portion 44 of the housing 16, and the outer peripheral surface is not formed of a flat surface. It may be composed of an arcuate surface.
In this embodiment, the fluid accommodating portion 12 has a rear region 22c that straddles between the left protruding region 22a protruding forward on the left side, the right protruding region 22b protruding forward on the right side, and the right protruding region 22b. And.

The side wall portion 22 has a housing mounting portion 30 formed in a front region thereof and a lower region thereof, that is, a front region and a lower region of a left protrusion region 22a, a right protrusion region 22b, and a rear region 22c.
The housing mounting portion 30 formed in the front region of the side wall portion 22 is formed between the left left protruding region 22a on the left side and the right protruding region 22b on the right side so as to fit into the front region of the mechanical portion 44 of the housing body 40. The front corner is formed in a curved beak shape so that the opening is narrow.
The housing mounting portion 30 formed in the lower region of the side wall portion 22 is configured so that it can be fitted to the base portion 42 of the housing main body 40.
In this embodiment, the housing mounting portion 30 is configured such that the side wall portion 22 of the liquid storage container is fitted into the recess inside the outer peripheral wall formed by the vertical wall constituting the base portion 42 of the housing main body 40. The lower region of the side wall portion 22 fitted inside the vertical wall of the foundation portion 42 is formed in a stepped shape so as to be smaller by the plate thickness of the opening portion of the vertical wall.

The side wall portion 22 has a fluoroscopic structure that allows the amount of fluid contained in the fluid storage container to be confirmed from the front in the region protruding from the housing 16, that is, the left protruding region 22a and the right protruding region 22b.
The liquid storage container constituting the fluid storage unit 12 is a tank having a side wall portion 22 and a bottom wall portion 24 and capable of storing a liquid formed of a transparent or translucent synthetic resin, and the side wall portion 22 of the tank is a tank. , From the front and / or side and / or rear of the housing 16, the amount of fluid contained in the fluid accommodating portion 12 can be confirmed in the transparent or translucent portion.

The liquid storage container constituting the fluid storage unit 12 has a structure in which the bottom wall portion 24 is arranged on the foundation portion 42 of the housing 16 and can be vertically erected by the housing mounting portion 30 fitted above the foundation portion 42. And has a structure that can be arranged around the mechanism portion 44 by the housing mounting portion 30 fitted on the side and rear sides of the mechanism portion 44 arranged on the foundation portion 42. That is, the fluid accommodating portion 12 is attached to and detached from the housing mounting portion 30 formed on the base portion 42 and the mechanical portion 44 of the housing 16 by the housing mounting portion 30 formed on the side wall portion 22 and the bottom wall portion 24 of the liquid accommodating container. It is configured to be freely fixed.
The injection port 28 is an openable / closable lid formed in the container lid portion 32 and for covering the injection port portion 20 which is an opening formed in the upper part of the liquid storage container and the injection port 28 formed in the container lid portion 32. The portion 52 is arranged.
The container lid portion 32 includes a convex portion 32a that is fitted and inserted into a positioning convex portion 52a projecting from the lower surface of the lid portion 52 on the peripheral edge of the injection port 28 formed in the container lid portion 32.
The lid portion 52 is formed so as to cover the entire container lid portion 32, and the lid portion 52 is rotatably attached to the housing main body closing portion 54 constituting the upper covering portion 50, and the lid portion is formed. The 52 is opened so that the fluid can be injected into the liquid storage portion of the fluid storage portion (liquid storage container) 12 from the injection port 28.

The housing main body closing portion 54 has a substantially rectangular shape in a plan view covering the mechanical portion 44 of the housing main body 40 of the housing 16 and the upper opening portion of the protruding portion 46, and the lid portion 52 has a fluid accommodating portion (liquid accommodating container) 12. It is a substantially U-shaped plan view that covers the upper part of the constituent liquid storage container.
The lid portion 52 is projected forward and includes a bridging portion configured to sandwich the rear end portion of the housing main body closing portion 54 between them. In the bridging portion, the housing main body closing portion 54 is provided. A fitting hole 68b for fitting the rotating protrusion 68a is formed.
The lid portion 52 is rotatably attached to the housing main body closing portion 54 by fitting the rotating protrusion 68a of the lid portion 52 and the fitting hole 68b of the housing main body closing portion 54.

The liquid storage container constituting the fluid storage portion 12 has substantially the same width and depth as the bottom wall portion 24 arranged on the base portion 42 of the housing 16, the housing mounting portion 30, and the base portion 42 of the housing 16. ing.
The liquid storage container constituting the fluid storage portion 12 is provided with an opening having the same width as the front side of the mechanical portion 44 of the housing 16 between the left protruding region 22a and the right protruding region 22b, and the front surface thereof is the housing 16. It has a width combined with the mechanism portion 44 and the foundation portion 42, and has a depth of being fitted to the side and the rear side of the mechanism portion 44 and a depth of being fitted to the foundation portion 42 on the side and the rear side.
In the fluid accommodating portion 12, the side wall portion 22 has the same width and depth as the base portion 42 of the housing body 40, and the bottom wall portion 24 has the same width and depth as the base portion 42 of the housing body 40.
The liquid storage container constituting the fluid storage unit 12 has substantially the same height as the mechanism unit 44 and the projecting portion 46 projecting forward from the mechanism unit 44 above the mechanism unit 44.

In the housing 16, the housing body 40 faces forward from the mechanism portion 44 above the foundation portion 42 to which the fluid accommodating portion 12 is attached, the mechanism portion 44 disposed on the foundation portion 42, and the mechanism portion 44. A protruding portion 46 is provided, and an upper covering portion 50 is attached to the upper portion thereof to close the upper space, and a lower covering portion 56 is attached to the lower portion thereof. The lower space is blocked.

The housing 16 has a housing body 40 having a foundation portion 42, a mechanical portion 44, and a protruding portion 46 formed of plastic so as to maintain watertightness.

The housing 16 has a constant volume and weight so that the base portion 42 to which the fluid accommodating portion 12 is attached can support the mechanical portion 44 and the protruding portion 46 of the housing 16 and the fluid accommodating portion 12.
The foundation portion 42 is a square cylinder having a square cross section as a whole, and in the front region thereof, the width of the foundation portion 42 is narrower than that of the foundation portion 42, and the mechanism portion 44 is spaced from the left and right ends of the foundation portion 42 at regular intervals. , It is erected upward.

The mechanism portion 44 arranged on the base portion 42 has a square cross section, and is configured in a hollow cylindrical shape so that the battery accommodating mechanism 90 and the actuator 14 can be accommodated therein.
The upper portion of the mechanism portion 44 and the protruding portion 46 constituting the housing main body 40 is open, and an upper covering portion 50 covering the upper open portion is attached to the upper portion thereof.

In the housing 16, a protruding portion 46 is provided so as to project forward from the mechanical portion 44, and the protruding portion 46 externally releases a liquid which is a fluid sent from a sensor 82 such as an infrared sensor and an actuator (pump) 14. The discharge port 74 for discharging to is configured to be arranged.
In this embodiment, the protrusion 46 has a sensor mounting through hole 62a formed on the rear side, that is, the mechanism portion 44 side, and a sensor 82 such as an infrared sensor is formed in the sensor mounting through hole 62a. It is configured to fit and fix.
Further, on the front side of the protruding portion 46, a through hole 62b for a discharge port into which a nozzle constituting the discharge port 74 is fitted is provided, and the nozzle constituting the discharge port 74 protruding from the through hole 62b for the discharge port protrudes. It is configured so that it can protrude from below the 46 and discharge the liquid.

The first transfer pipe 70 and the second transfer pipe 72 are composed of tubes, and the optimum material, diameter, and the like are appropriately selected depending on the type of liquid such as liquid soap and disinfectant.
The optimum tube is selected from, for example, plastic, rubber, metal, and the like.

The second transfer pipe 72 is provided with a discharge port 74 at a position higher than the position of the uppermost portion of the liquid which is the fluid filled in the liquid storage container constituting the fluid storage unit 12.
As described above, by providing the discharge port 74 for discharging the fluid at a position higher than the water level of the liquid filled in the liquid storage container, it is possible to avoid the natural discharge of the liquid from the discharge port 74.

The housing 16 has a constant volume and weight so that the actuator 14, the mechanism portion 44 for attaching the first transfer pipe 70 and the second transfer pipe 72 can support the protrusion 46 and the fluid accommodating portion 12 of the housing 16. It has a structure.
The mechanism portion 44 is a square cylinder having a square cross section as a whole, and a beak-shaped protruding portion 46 having a tapered tip is provided in an upper region thereof so as to project forward.
The mechanism unit 44 has a square cross section, and is configured in a hollow cylindrical shape so that the actuator 14 and the battery storage mechanism 90 can be stored inside the mechanism unit 44.

The upper closed portion 50 includes a housing main body closing portion 54 having substantially the same outer shape as the mechanical portion 44 and the protruding portion 46, and a lid portion 52 having substantially the same outer shape as the lid portion 52 of the fluid accommodating portion (liquid accommodating container) 12. It is equipped with.
The housing main body closing portion 54 is provided with an engaging portion for fitting and attaching to the peripheral edge portion of the upper opening portion of the mechanical portion 44 and the protruding portion 46 on the peripheral peripheral portion of the lower portion thereof.
The housing body closing portion 54 of the upper covering portion 50 has a retaining portion 64 for connecting the upper covering portion 50, the mechanism portion 44, and the protruding portion 46 to a portion that fits into the mechanism portion 44 and the protruding portion 46. Is provided.
On the other hand, on the inside of the wall portion constituting the open portion of the mechanism portion 44 for fitting the upper cover portion 50 and the protrusion portion 46, the upper cover portion 50 is connected to the mechanism portion 44 and the protrusion portion 46. A retaining portion 66 is provided.

In the cavity of the mechanism portion 44, an actuator mounting portion 60 for mounting the actuator 14 is provided above the center thereof.
The actuator mounting portion 60 is provided with a convex portion for mounting the actuator 14.
The actuator 14 is attached to the mechanism portion 44 by engaging with the convex portion constituting the actuator mounting portion 60.

The actuator 14 includes a pump 76 and a motor 78.
The pump 76 uses a plurality of rolling pumps that individually supply different fluids, or a rolling pump that mixes different fluids and supplies them to a pressurized object.
For example, two suction ports are provided, one suction port is supplied with gas from the outside, and the other suction port is supplied with the liquid sent from the fluid storage unit (liquid storage container) 12, and the pump chambers of a plurality of pump chambers are provided. Let something inhale the gas. A pump chamber configured to suck in the liquid sent from the fluid storage unit (liquid storage container) 12 is used.
The pump 76 is appropriately changed depending on the type of fluid supplied.
As the motor 78, for example, an AC electric motor is used. In addition, a DC motor, a solenoid, or the like that can operate the pump is used in response to the function of the pump 76 and the power supply 94.

The mechanism unit 44 has a space for guiding the first transfer pipe 70 connected to the outlet 26 of the fluid storage unit (liquid storage container) 12 arranged in the foundation portion 42 to the actuator 14, and the first transfer pipe 70 is provided. Is formed in the shape of a hollow cylinder so as to have a space extending upward toward the actuator 14 above the base portion 42.

Further, the mechanism portion 44 has a space for guiding the second transfer pipe 72 connected to the actuator 14 upward, and the second transfer pipe 72 is attached to the protruding portion 46 in front of the mechanism portion 44. It is provided with a space that leads to the discharge port 74.

The discharge port 74 is provided with a nozzle at the tip, and the nozzle at the tip is detachably attached so that the state of the discharged fluid can be changed and the nozzle can be changed to the optimum nozzle according to the state of the discharged fluid. Is equipped with.
The discharged fluid may be liquid, foamy, or mist-like, and the nozzle has a structure suitable for the state of the discharged fluid.

In the housing 16, the housing body 40 faces forward from the mechanism portion 44 above the foundation portion 42 to which the fluid accommodating portion 12 is attached, the mechanism portion 44 disposed on the foundation portion 42, and the mechanism portion 44. A protruding portion 46 is provided, and an upper covering portion 50 is attached to the upper portion thereof, so that the upper space is closed.
The housing 16 is configured to mount the fluid accommodating portion (liquid accommodating container) 12 on the base portion 42 of the housing main body 40.
The fluid accommodating portion (liquid accommodating container) 12 is provided on the intermediate wall 42b of the foundation portion 42 by opening the upper covering portion 50 and lowering the fluid accommodating portion (liquid accommodating container) 12 downward from the opening portion of the foundation portion 42 into the space of the foundation portion 42. The outlet 26 is penetrated into the through hole 42d, and the mounting protrusion 30d is fitted into the mounting fitting portion 42e of the foundation portion 42 to be mounted on the housing 16.

The housing 16 is provided with a battery storage mechanism 90 at the lower part of the housing body 40.
The housing 16 is attached with a lower covering portion 56 that closes the lower opening portion of the foundation portion 42.
The lower closed portion 56 is attached to the foundation portion 42 by fitting the attachment portion 56c to the attachment portion 42c provided on the intermediate wall 42b of the foundation portion 42.

The housing 16 is provided with a battery box mounting portion 58 for mounting the battery storage mechanism 90 in a region straddling the foundation portion 42 and the mechanism portion 44 in the hollow portion at the lower part of the housing body 40.
In this embodiment, a square tubular battery box mounting portion 58 is projected from the upper surface of the lower closed portion 56 that covers the foundation portion 42.

The housing 16 is provided with a touch sensor 80 that controls a sensor 82 in the upper part on the rear side of the upper closed portion 50 that is placed on the upper part of the housing body 40.
Further, the housing 16 is provided with an information processing / transmitting device 84 including a display device such as an LED in the upper part on the front side of the upper closed portion 50 covered on the upper part of the housing main body 40.
The information processing / transmitting device 84 includes an electronic control device 88 including a CPU (central processing unit) and the like, an indicator 86 such as an LED, and the like.

Since the touch sensor 80 provided on the upper closed portion 50 covered on the upper portion of the housing body 40 of the housing 16 can be arranged on the upper closed portion 50 without a gap, it is excellent in waterproofness.
Further, the information processing / transmitting device 84 provided on the upper closed portion 50 covered on the upper portion of the housing main body 40 can be arranged on the upper closed portion 50 without a gap in the upper portion on the front side thereof, so that it is excellent in waterproofness. There is.

The touch sensor 80 provided on the upper closed portion 50 overlaid on the upper portion of the housing main body 40 constituting the housing 16 allows the user to input a command to the electronic control device 88 of the information processing / transmitting device 84. It has a structure that enables.
The touch sensor 80 has a function as a selector that makes it possible to select the amount of liquid discharged from the discharge port 74 by pressing it for a long time or for a short time.
The touch sensor 80 has a function as an ON / OFF button function of the sensor 82, a function of setting the discharge time of the information processing / transmitting device 84, a function of switching the cleaning mode, and the like as a function changing means.
For example, if the touch sensor 80 is pressed and held for a long time, the ejection time becomes long, and if the touch sensor 80 is pressed for a short time, the ejection time becomes short.

Further, the information processing / transmitting device 84 provided on the upper part of the upper closed portion 50 covered on the upper part of the housing body 40 sets the ejection time, switches the cleaning mode, and displays lines such as characters. It is structured to be expressed.
The information processing / transmitting device 84 is electrically connected to the touch sensor 80, the sensor 82, and the actuator (pump) 14.

The electronic control device 88 of the information processing / transmitting device 84 switches on / off the actuator 14, sets the size of the fluid discharge amount, and displays devices (red LED and blue) constituting the transmitting device of the information processing / transmitting device 84. The LED) is configured to be able to control the change of the color at the time of discharging the fluid and the color after discharging, and the switching between lighting and blinking.

The electronic control device 88 includes a CPU (Central Processing Unit) and the like.
The electronic control device 88 is configured to operate the actuator 14 continuously or for a period of time when the touch sensor 80 is pressed.
The electronic control device 88 is configured to continuously or temporarily activate the detector 82 to detect the presence of an object.
The electronic control device 88 is configured to send an electrical signal instructing the indicator 86 to emit information.

The electronic control device 88 of the information processing / transmitting device 84 operates the motor 78 to drive the pump 76 so as to discharge a predetermined amount of liquid from the discharge port 74 each time the sensor 82 is started. It is configured to let you.

The electronic control device 88 of the information processing / transmitting device 84 is configured so that the power can be turned ON (ON) or OFF (OFF) depending on a command from the user, that is, the length of touch and the number of touches. It is also configured to allow selection of the amount of liquid discharged from the discharge port 74.
In this embodiment, when the touch sensor 80 is pressed for a short time, the power is turned on (on), and when the touch sensor 80 is pressed for a long time, the electronic control device 88 of the information processing / transmitting device 84 is set to the cleaning mode. It is initially set.
In this embodiment, the discharge amount is small (0.5 seconds), the discharge amount is medium (1.0 seconds), and the discharge amount is large (1.5 seconds) depending on the number of times the touch sensor 80 is pressed briefly. The electronic control device 88 of the information processing / transmitting device 84 is set.

The sensor 82 includes a sensor device and a light receiving portion, and an infrared sensor or the like configured so that light rays are emitted from the light emitting portion and received by the light receiving portion is used.
The sensor 82 is electrically connected to the electronic control device 88 of the information processing / transmitting device 84 for starting the actuator 14.
The information processing / transmitting device 84 includes an indicator 86 that constitutes a display device electrically connected to the electronic control device 88.
The indicator 86 constituting the display device includes a first color display device that lights up at the time of ejection and a second color display device that lights up after ejection.
In this embodiment, a blue LED constituting the first color display device and a red LED constituting the second color display device are provided.

The indicator 86 has a transmission function capable of visually displaying information and receiving information audibly.
In this embodiment, a light emitting diode (LED) is used.
The indicator 86 is electrically connected to the electronic control device 88 of the information processing / transmitting device 84 in order to receive electronic information.
The indicator 86 has a function of transmitting information to the user, such as being electrically connected to the electronic control device 88 of the information processing / transmitting device 84 in order to receive electronic information.

The indicator 86 has a function of displaying the discharge amount of the liquid selected by the touch sensor 80.
In this embodiment, when the discharge amount is set to small (0.5 seconds), the blue LED of the indicator 86 blinks once. Then, when the discharge amount is set to the middle (1.0 second), the blue LED of the indicator 86 blinks twice. Then, when the discharge amount is set to large (1.5 seconds), the blue LED of the indicator 86 blinks three times.
In this embodiment, at the time of ejection (when the actuator 14 operates), the blue LED of the indicator 86 lights up according to the ejection amount. On the other hand, when the power is turned off, the red LED of the indicator 86 blinks once.

The housing 16 is provided with a battery storage mechanism 90 at the bottom of the housing body 40.
The battery storage mechanism 90 is provided with a space portion below the mechanism portion 44 and below the mechanism portion 44 of the foundation portion 42 so that the battery storage portion 92 can be fitted, so as to close the space portion. , It has a structure in which the battery storage portion 92 is inserted.
The battery storage mechanism 90 is provided at the tip of the battery storage unit 92 when the battery box constituting the battery storage unit 92 accommodating the power supply (battery such as a battery) 94 is inserted upward from below the base portion 42. It is provided with a locking mechanism for pinching and fixing the protruding protrusion to the housing body 40.
When the battery storage mechanism 90 takes out the battery storage unit 92 from the space forming the battery storage mechanism 90 of the housing body 40, the battery storage unit 92 pushes the lower part of the battery storage unit 92 upward to lock the battery storage unit 92 to the housing body 40. It has a structure in which the battery accommodating portion 92 is taken out downward by removing it from the locking mechanism.

The battery storage mechanism (battery storage mechanism) 90 is a battery box that constitutes the battery storage unit (battery box) 92, closes the hole into which the battery storage unit (battery box) 92 is fitted, and pushes the battery storage unit (battery box). ) 92, the battery box constituting the 92 can be taken out, so that the battery can be replaced without turning over the housing 16, and the liquid contained in the fluid storage unit (liquid storage container) 12 is not spilled.
Further, by providing a protrusion for installation at the lower part of the housing main body 40, the battery storage portion (battery box) 92 can always be positioned higher than the ground plane, and water from the bottom side can be removed. The inflow can be prevented.

Although a battery is used in the power supply 94 in the embodiment, the power supply 94 is provided with an electronic device for allowing AC power or DC power, and can be configured to correspond to various power sources.

Next, the processing operation in the system of the dispenser of the embodiment having the above-mentioned configuration will be described with reference to FIGS. 28 and 29. FIG. 28 is a flowchart for setting the discharge amount of the dispenser according to the embodiment of the present invention. FIG. 29A is a schematic diagram showing the type of operation of the dispenser according to the embodiment of the present invention. FIG. 29B is a schematic view showing the operation of the dispenser according to the embodiment of the present invention.

The dispenser according to the embodiment of the present invention is controlled by the operations I to III shown in FIG. 29A.
The operation I is an operation of short-pressing the touch sensor 80. The operation I is a discharge time and / or discharge amount setting operation, and indicates, for example, an operation of touching the touch sensor 80 for about 1 second.
The operation II is an operation of pressing and holding the touch sensor 80 for a long time. The operation II is an operation for setting the cleaning mode, and indicates, for example, an operation of touching the touch sensor 80 for about 3 seconds.
The operation III is an operation of detecting a fluid-utilized object (hand or the like) in the detection range of the sensor 82 (infrared sensor), and is a discharge start operation.

In the present embodiment, the electronic control device 88 of the information processing / transmitting device 84 is set in advance as shown in the table below.

For example, when the variable i is set to 2 in the electronic control device 88 of the information processing / transmitting device 84, that is, when the variable i is set to the "second discharge mode (M2)", the sensor 82 is set to a person by the operation III. When the dispenser 10 senses an object such as a hand, the indicator 86 (blue LED) lights up for 1.0 second at the time of ejection, and the fluid is ejected for 1.0 second.

An operation when setting the discharge amount of the dispenser 10 according to the present embodiment will be described.

First, when the touch sensor 80 is briefly pressed while the power is off, the power is turned on and 1 is input to the variable i as an initial value. The variable i of the electronic control device 88 becomes 1, the "first discharge mode (M1)" is set, and the indicator 86 (blue LED) blinks once.
Next, if you want to increase the discharge amount, press the touch sensor 80 once for a short time, 1 is added to the variable i, the variable i becomes 2, and it is set to the "second discharge mode (M2)" and the indicator. 86 (blue LED) blinks twice. If the discharge amount is not increased, nothing is done, that is, by not pressing the touch sensor 80, the state in which 1 is input to the variable i is maintained, and the "first discharge mode (M1)" is set. The state is maintained.
If you want to further increase the discharge amount, press the touch sensor 80 once for a short time, 1 is added to the variable i, the variable i becomes 3, and the "third discharge mode (M3)" is set, and the indicator 86 ( Blue LED) blinks 3 times. If the discharge amount is not increased, nothing is done, that is, by not pressing the touch sensor 80, the state in which 2 is input to the variable i is maintained, and the "second discharge mode (M2)" is set. The state is maintained.
Finally, when turning off the power, after setting to the "third discharge mode (M3)", by short-pressing the touch sensor 80 once, 1 is added to the variable i and the variable i becomes 4. .. When the variable i becomes larger than 3, the "power OFF mode (M4)" is set, and the indicator 86 (red LED) is turned on once and then the power is turned off.

Further, for example, an operation of cleaning the inside of the discharge mechanism 18 when the fluid is solidified in the discharge mechanism 18 and it becomes difficult to discharge the fluid will be described.

By pressing and holding the touch sensor 80 once in advance, the electronic control device 88 of the information processing / transmitting device 84 is set so as to discharge for 10 seconds. The mode in which the fluid is discharged for 10 seconds and the blue LED is lit for 10 seconds at the time of discharge is referred to as "cleaning mode (M5)".

If you want to clean the discharge mechanism 18, press and hold the touch sensor 80 once while the power is on to enter the "cleaning mode (M5)" state and discharge the fluid for 10 seconds. ..
If you want to finish cleaning the discharge mechanism 18, the state of "cleaning mode (M5)", that is, the mode in which the discharge amount is set by pressing and holding the touch sensor 80 once while discharging the fluid for 10 seconds. Return to.

By setting in this way, the solidified fluid can be removed without disassembling and cleaning the dispenser 10.

As described above, the embodiments of the present invention are disclosed in the above description, but the present invention is not limited thereto.
That is, various changes can be made to the above-described embodiments with respect to the mechanism, shape, material, quantity, position, arrangement, etc., without departing from the scope of the technical idea and purpose of the present invention. They are, and they are included in the present invention.

10 Dispenser 12 Fluid storage unit (liquid storage container)
14 Actuator (pump)
16 Housing 18 Discharge mechanism 20 Injection port 22 Side wall 22a Left protrusion area 22b Right protrusion area 22c Rear area 24 Bottom wall 26 Outlet 28 Injection 28 Injection 30 Housing mounting 30a Rear mounting surface 30b Side mounting surface 30c Front mounting surface 30d Mounting protrusion 32 Container lid 32a Convex 40 Housing body 42 Foundation 42a Peripheral 42b Intermediate wall 42c Mounting 42d Through hole 42e Mounting fitting 44 Mechanical 46 Protruding 48 Liquid storage container Mounting part 50 Upper covered part 52 Cover part 52a Convex part for positioning 54 Housing body closing part 56 Lower closed part 56c Mounting part 58 Battery box mounting part 60 Actuator mounting part 62a Sensor mounting through hole 62b Discharge port penetration Hole 64, 66 Locking part 68b Rotating protrusion 68b Fitting hole 70 First transfer pipe 72 Second transfer pipe 74 Discharge port 76 Pump 78 Motor 80 Touch sensor 82 Sensor 84 Information processing / transmission device 86 Indicator 88 Electronic control device 90 Battery storage mechanism (battery storage mechanism)
92 Battery compartment (battery box)
94 Power supply 96 Locking mechanism 96a Protrusion 96b Pinching part

The dispenser according to the present invention is
It includes a fluid accommodating portion for accommodating a fluid, a discharge mechanism for discharging the fluid flowing out from the fluid accommodating portion, and a housing configured to arrange components constituting the discharge mechanism.
The discharge mechanism is
An actuator that transfers the fluid transferred from the fluid accommodating portion and an actuator that transfers the fluid.
A first transfer pipe, which is connected to the outlet of the fluid accommodating portion and sends the fluid toward the actuator located above.
A second transfer pipe that transfers the fluid discharged from the actuator, and
It is provided with a discharge port for discharging the fluid sent by the second transfer pipe to the outside.
The fluid accommodating portion is
It has a side wall portion and a bottom wall portion, and is provided with an injection port for injecting a fluid on the side opposite to the bottom wall portion.
The outlet is provided on the bottom wall portion.
An openable and closable lid is provided above the injection port so that the lid can be opened and fluid can be injected from the injection port.
The housing is
A foundation portion to which the fluid accommodating portion is attached, a mechanism portion disposed on the foundation portion, and a detector and a discharge port are provided above the mechanism portion so as to project forward from the mechanism portion. With a protruding part,
The Haujin grayed, the actuator constituting the discharge mechanism, the second transfer pipe, is configured with the discharge port and the detector,
The foundation portion constituting the housing is a tubular body configured to support the mechanical portion, the protruding portion, and the liquid accommodating portion constituting the housing.
The mechanism portion is erected in the front region of the foundation portion, which is narrower than the foundation portion and faces upward at a certain interval from the end of the foundation portion, and inside the battery storage mechanism and the actuator. It is configured in a hollow cylinder shape so that it can be stored.
The container constituting the fluid accommodating portion is configured to be disposed on the foundation portion on the side and the rear side of the mechanism portion.
The detector is configured to detect the approach of a fluid utilization object and activate the actuator.
With this configuration, the remaining amount of the contents can be monitored, and the replenishment of the contents can be promoted. In addition, detergents and chemicals can be discharged without contact.

Claims (5)

It includes a fluid accommodating portion for accommodating a fluid, a discharge mechanism for discharging the fluid flowing out from the fluid accommodating portion, and a housing configured to arrange components constituting the discharge mechanism.
The discharge mechanism is
An actuator that transfers the fluid transferred from the fluid accommodating portion and an actuator that transfers the fluid.
A first transfer pipe, which is connected to the outlet of the fluid accommodating portion and sends the fluid toward the actuator located above.
A second transfer pipe that transfers the fluid discharged from the actuator, and
It is provided with a discharge port for discharging the fluid sent by the second transfer pipe to the outside.
The fluid accommodating portion is
It has a side wall portion and a bottom wall portion, and is provided with an injection port for injecting a fluid on the side opposite to the bottom wall portion.
The outlet is provided on the bottom wall portion.
An openable and closable lid is provided above the injection port so that the lid can be opened and fluid can be injected from the injection port.
The housing is
A foundation portion to which the fluid accommodating portion is attached, a mechanism portion disposed on the foundation portion, and a detector and a discharge port are provided above the mechanism portion so as to project forward from the mechanism portion. With a protruding part,
The housing is configured to include the actuator, the second transfer pipe, the discharge port and the sensor.
The detector is a dispenser configured to activate the actuator by detecting the approach of a fluid utilization object. The dispenser according to claim 1, wherein the bottom wall portion of the fluid accommodating portion is inclined downward from the side wall portion, and the outlet is arranged at the lowest position. The dispenser according to claim 1 or 2, wherein the fluid accommodating portion comprises a region disposed on one side, the other side, or both sides of the mechanical portion of the housing. The fluid accommodating portion is molded of synthetic resin.
The aspect according to any one of claims 1 to 3, wherein the side wall portion is configured so that the amount of fluid contained in the fluid accommodating portion can be confirmed from the front and / or side and / or rear of the housing. Dispenser. A battery storage mechanism is arranged at the base of the housing.
The dispenser according to any one of claims 1 to 4, wherein the battery storage mechanism has a structure in which a battery box for accommodating a battery is taken out downward.

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