JP2017087153A - Lidded mug - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lidded mug which has good portability and is capable of easily sterilizing liquid.SOLUTION: A lidded mug 1 includes: a container part 10 including an opening 11 for pouring a liquid inside thereof and holding the liquid; a lid part 20 that is attachable and detachable to/from the container part 10 for covering the opening 11; an ultraviolet light source part 30 which is attached on a backside 20a of the lid part 20 for sterilizing the liquid by irradiating the liquid held in the container part 10 with ultraviolet rays; and a driving circuit part 40 which is housed inside the lid part 20 and controls turning on/off of the ultraviolet light source part 30. The opening 11 also functions as a drinking spout.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a lidded mug having a sterilizing function.

  Conventionally, tap water distributed at home is sterilized with ultraviolet rays and then used as drinking water. This is because even tap water may be contaminated with bacteria such as micrococcus or E. coli. In particular, in developing countries and the like, even household tap water may not be sufficiently sterilized, or bacteria may be mixed during water distribution.

  On the other hand, Patent Literature 1 discloses a household sterilizer. The sterilization apparatus disclosed in Patent Document 1 is a water sterilization apparatus that is used by being connected to a water pipe. The tap water is passed through a filter and sterilized by irradiating the tap water after passing through the filter with ultraviolet rays.

JP 2005-211851 A

  However, since the conventional sterilizer is connected to a water pipe and used, it cannot be carried. From a general user, there is a demand for a sterilizer that can be easily carried anywhere and can be easily sterilized.

  Therefore, an object of the present invention is to provide a lidded mug which is excellent in portability and can easily sterilize a liquid.

  In order to achieve the above object, a lidded mug according to one aspect of the present invention has an opening for injecting liquid therein, and a container for storing liquid, and for closing the opening. A lid part detachable from the container part; an ultraviolet light source part which is attached to the back side of the lid part and sterilizes the liquid by irradiating the liquid stored in the container part with ultraviolet rays; and the lid part And a driving circuit unit that controls turning on and off of the ultraviolet light source unit, and the opening serves also as a drinking mouth.

  The lidded mug according to the present invention is excellent in portability and can easily sterilize a liquid.

It is a perspective view of the mug with a lid concerning an embodiment. It is a perspective view which shows the state which removed the cover part of the mug with a cover which concerns on embodiment. It is a disassembled perspective view of the mug with a lid concerning an embodiment. FIG. 4 is a partial cross-sectional perspective view of a lidded mug according to the embodiment taken along line IV-IV in FIG. 1. It is a fragmentary sectional perspective view of the mug with a lid concerning the embodiment in the VV line of Drawing 1. It is a partially expanded sectional view which shows the area | region VI of FIG. 4, and is a figure which shows two terminal parts when a cover part is not attached to the container part. It is a partially expanded sectional view which shows the area | region VI of FIG. 4, and is a figure which shows two terminal parts when a cover part is attached to the container part. It is a fragmentary sectional view showing the state where water is stored inside the mug with lid according to the embodiment and sterilization is possible. It is a figure for demonstrating the operation | movement and usage method of the mug with a cover which concerns on embodiment. It is sectional drawing which shows typically the cover part of the mug with a cover which concerns on the modification of embodiment. It is sectional drawing for demonstrating the effect of the cover part of the mug with a cover which concerns on the modification of embodiment.

  Below, the lidded mug which concerns on embodiment of this invention is demonstrated in detail using drawing. Note that each of the embodiments described below shows a preferred specific example of the present invention. Therefore, numerical values, shapes, materials, components, arrangement and connection forms of components, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a mimetic diagram and is not necessarily illustrated strictly. Moreover, in each figure, the same code | symbol is attached | subjected about the same structural member. In the following embodiments, expressions such as a substantially circular shape are used. For example, a substantially circular shape not only means that it is completely circular, but also means that it is substantially circular, that is, includes an error of, for example, several percent. The same applies to expressions using other “abbreviations”.

(Embodiment)
[Overview]
First, the outline | summary of the mug with a cover concerning this Embodiment is demonstrated using FIG.1 and FIG.2.

  FIG. 1 is a perspective view of a lidded mug 1 according to the present embodiment. FIG. 2 is a perspective view showing a state in which the lid portion 20 of the lidded mug 1 according to the present embodiment is removed. In addition, in each figure, let the up-down direction of the mug 1 with a lid | cover be the z-axis direction, and let two mutually orthogonal directions which cross | intersect the said up-down direction be an x-axis direction and a y-axis direction.

  The lidded mug 1 according to the present embodiment is a container (so-called water bottle) for storing a liquid such as water, and can provide the user with the stored water as drinking water or cooking water. Specifically, the lidded mug 1 is sterilized by irradiating water such as tap water, well water, spring water, rain water (hereinafter referred to as “unsterilized water”) with ultraviolet rays. The lidded mug 1 provides the user with sterilized water (hereinafter referred to as “sterilized water”) as drinking water. In addition, unsterilized water means the liquid before sterilizing by the lid-mounted mug 1 which concerns on this Embodiment, and is a concept also including the liquid sterilized by other means. For example, drinking water from a commercially available plastic bottle may be placed in the lidded mug 1.

  The lidded mug 1 according to the present embodiment has portability. That is, the lidded mug 1 is small and lightweight and can be carried. The lidded mug 1 is, for example, a size that can be held by a person.

  As shown in FIG. 2, the lidded mug 1 includes a container portion 10 having an opening portion 11 serving as a water inlet and a drinking mouth, and a lid portion 20 for closing the opening portion 11. The lid part 20 is detachable from the container part 10.

  The user removes the lid portion 20 of the lidded mug 1, pours water into the container portion 10 through the opening 11, and then attaches the lid portion 20. The lidded mug 1 irradiates the water stored in the container 10 with ultraviolet rays to sterilize the water. Thereafter, the user can remove the lid 20 and take out the sterilized water stored in the container 10 through the opening 11 and use it as drinking water. Details of the operation and usage of the lidded mug 1 will be described later.

  FIG. 3 is an exploded perspective view of the lidded mug 1 according to the present embodiment. In addition, the container part 10 is not shown in FIG. 4 and 5 are partial cross-sectional perspective views of the lidded mug 1 according to the present embodiment. Specifically, FIG. 4 shows a cross section taken along line IV-IV in FIG. FIG. 5 shows a cross section taken along line VV in FIG.

  As shown in FIG. 3, the lidded mug 1 further includes an ultraviolet light source unit 30, a drive circuit unit 40, a battery unit 50, an open / close sensor unit 60, two terminal units 70, a display unit 80, And a switch unit 90.

  Below, each component with which the mug 1 with a lid | cover which concerns on this Embodiment is provided is demonstrated in detail, referring FIGS. 1-5 suitably.

[Container]
The container part 10 is a container part in which a liquid is stored. The container part 10 has the opening part 11 for injecting liquid inside. The liquid is specifically water, but may be tea or juice.

  The opening 11 serves as a water inlet and a drinking mouth. In addition, although a drinking mouth specifically means the part which attaches a mouth directly when a user drinks water, it is not limited to this. The drinking mouth means a water supply opening from which water for the user to drink is taken out. That is, regardless of whether or not the user can directly attach a mouth, the opening 11 is an opening that is used for both water injection to the inside and water supply to the outside.

  In this Embodiment, the container part 10 is not provided with the opening for performing the water injection to an inside and the water supply to the exterior other than the opening part 11. FIG. The opening 11 is the only opening that communicates the inside and the outside of the container 10.

  Although the capacity | capacitance of the container part 10 is 500 mL, for example, it is not limited to this. The container unit 10 has a size that can be held by a person with one hand or both hands, for example.

  Although the shape of the container part 10 is a bottomed substantially cylindrical shape as shown in FIG.1 and FIG.2, it is not limited to this. The shape of the container portion 10 may be a bottomed rectangular tube shape, or may be a shape in which the opening 11 is smaller than the bottom portion (so-called bottle shape).

  In this Embodiment, the container part 10 has a heat retention function. Specifically, the container part 10 has a double structure of an inner container and an outer container. The space between the inner container and the outer container is a decompressed space such as a vacuum. Thereby, heat conduction is suppressed between the inner container and the outer container, and the temperature of the water stored inside can be maintained.

  The inner container of the container part 10 is formed using metal materials, such as stainless steel or aluminum. Thereby, since the ultraviolet-ray which the ultraviolet light source part 30 emits can be reflected in the inner surface of the container part 10, water can be disinfected efficiently. In addition, the outer container of the container part 10 is formed from resin materials, such as a polypropylene (PP), for example.

  In addition, the container part 10 does not need to have a heat retention function, and does not need to have a double structure. Moreover, the container part 10 may be shape | molded using the resin material, and the inner surface may be covered with the metal material by the plating process etc.

[Cover]
The lid 20 is a lid that can be attached to and detached from the container 10 to close the opening 11. The lid part 20 can close the opening 11 by being attached to the container part 10.

  In a state where the lid portion 20 is attached to the container portion 10, that is, in a state where the lid portion 20 blocks the opening portion 11, no gap is formed between the lid portion 20 and the opening portion 11. Light (ultraviolet rays) does not leak from the inside of the 10 to the outside. Further, in the state where the lid 20 closes the opening 11, the water stored in the container 10 does not leak to the outside.

  In the present embodiment, the lid 20 is a screw-type lid. Specifically, the lid portion 20 is provided with a female screw, and a male screw that engages with the female screw is provided in the vicinity of the opening 11 of the container portion 10. By rotating the lid portion 20 with respect to the container portion 10, the lid portion 20 can be attached to the container portion 10 and block the opening 11. The rotation axis of the lid 20 is the central axis (z-axis direction) of the cylindrical lidded mug 1.

  The lid 20 may be a push-type or slide-type lid, and the attachment method to the container 10 is not particularly limited. For example, the lid portion 20 may be attached to the container portion 10 by being pushed into the opening portion 11 of the container portion 10.

  As shown in FIGS. 1 and 2, the shape of the lid 20 is a substantially cylindrical shape with both ends closed, but is not limited thereto. The shape of the lid portion 20 corresponds to the shape of the opening portion 11 of the container portion 10 and is a shape that can close the opening portion 11.

  The back surface 20 a of the lid portion 20 is a surface that covers the opening portion 11 of the container portion 10. The front surface 20b of the lid part 20 is a surface on the opposite side of the back surface 20a. In the present embodiment, the direction from the back surface 20a to the front surface 20b in the state where the lid portion 20 is attached to the container portion 10 (for example, FIGS. 4 and 5), that is, the z-axis positive direction is described as “upward”. The opposite direction may be described as “downward”.

  As shown in FIG. 3, the lid portion 20 includes a lid base 21, a battery lid 22, a sealing packing 23, and a waterproof packing 24.

  The lid base 21 is a main body of the lid portion 20. The shape of the lid base 21 is a bottomed substantially cylindrical shape. As shown in FIG. 2, the outer surface of the bottom portion 211 of the lid base 21 is a back surface 20 a of the lid portion 20. The cover base 21 and the battery cover 22 are combined to form the outer shape of the substantially cylindrical cover 20. The lid base 21 is made of a resin material such as polypropylene, for example.

  In the present embodiment, as shown in FIGS. 4 and 5, the bottom portion 211 is provided with irregularities in accordance with the opening portion 11 of the container portion 10. That is, the bottom portion 211 has the concave portion 212 and the convex portion 213. The recess 212 is an annular recess (groove) provided along the outer periphery of the lid base 21. The convex portion 213 is a substantially cylindrical convex portion surrounded by the concave portion 212 and protrudes downward (on the negative side in the z-axis direction).

  The edge of the opening 11 of the container part 10 is inserted into the recess 212. In the present embodiment, the recess 212 is provided with a female screw and is screwed with a male screw provided on the outer surface of the edge of the opening 11.

  The convex portion 213 is inserted through the opening portion 11 and located inside the container portion 10 when the lid portion 20 is attached to the container portion 10. In the present embodiment, the ultraviolet light source unit 30 is attached to the convex portion 213.

  Specifically, the convex portion 213 is provided with a hole portion 214 penetrating in the z-axis direction at a substantially central portion. As shown in FIGS. 4 and 5, the UV lamp 31 of the ultraviolet light source unit 30 is inserted into the hole 214 and attached. A female screw is provided on the inner surface of the hole 214 and is screwed with a male screw provided on the outer periphery of the UV lamp 31.

  The back surface 20a is, for example, a metal surface. Specifically, the lower surface of the projection 213 is covered with a metal film such as aluminum. Thereby, since the ultraviolet-ray which the ultraviolet-ray light source part 30 emits can be reflected, water can be sterilized efficiently. The lid base 21 may be formed using a metal material such as stainless steel or aluminum.

  The battery lid 22 is a lid that covers the opening of the lid base 21. The shape of the battery lid 22 is a flat bottomed substantially cylindrical shape. As shown in FIG. 3, the outer surface of the bottom portion 221 of the battery lid 22 is a surface 20 b of the lid portion 20. The battery lid 22 is formed from a resin material such as polypropylene, for example.

  In the present embodiment, as shown in FIG. 5, the protrusion 222 is erected downward from the inner surface of the bottom portion 221 (the surface opposite to the surface 20 b). When viewed from above, a slit is provided around the protrusion 222 except for a part thereof, and the protrusion 222 is movable in the z-axis direction. As shown in FIG. 5, the switch unit 90 is fixed to the upper surface of the protrusion 222. The protrusion 222 moves downward when the switch unit 90 is pressed (turned on), and presses the switch element 42 of the drive circuit unit 40.

  The battery lid 22 may be detachable from the lid base 21, for example. For example, the battery lid 22 is a screw-type lid. Accordingly, the battery cover 50 (specifically, the battery 51) can be replaced by easily removing the battery cover 22 from the cover base 21.

  As shown in FIGS. 4 and 5, the sealing packing 23 is provided on the back surface 20 a side of the lid portion 20. Specifically, the sealing packing 23 is fixed to the outer surface of the convex portion 213 of the lid base 21. As shown in FIG. 3, the shape of the sealing packing 23 is a substantially cylindrical shape. The sealing packing 23 is made of a resin material such as rubber having water resistance, for example.

  The hermetic packing 23 closes the gap between the lid 20 and the container 10 when the lid 20 is attached to the container 10. Specifically, the sealing packing 23 closes between the opening 11 and the convex portion 213. Thereby, the cover part 20 can block | close the opening part 11 completely, and it can prevent that water and light leak from the inside of the container part 10 outside.

  As shown in FIGS. 4 and 5, the waterproof packing 24 is provided between the lid base 21 and the battery lid 22. As shown in FIG. 3, the waterproof packing 24 has a substantially annular shape. The waterproof packing 24 is formed of a resin material such as rubber having water resistance, for example.

  The waterproof packing 24 suppresses moisture from entering the inside of the lid base 21 through the gap between the lid base 21 and the battery lid 22. Thereby, the battery part 50 etc. which are accommodated in the inside of the cover part 20 can be protected from moisture.

[Ultraviolet light source]
The ultraviolet light source part 30 is attached to the back surface 20a side of the lid part 20, and sterilizes the liquid by irradiating the liquid (specifically, water) stored in the container part 10 with ultraviolet rays. The ultraviolet rays to be irradiated are, for example, ultraviolet rays having a peak wavelength in the range of 200 nm to 400 nm. In the present embodiment, the ultraviolet light source unit 30 irradiates ultraviolet rays having a peak wavelength of 253.7 nm as an example.

  In the present embodiment, the ultraviolet light source unit 30 is attached to the lid unit 20, and when the lid unit 20 is removed from the container unit 10 as shown in FIG. 2, the lid unit 20 and the ultraviolet light source unit 30. Is removed as a unit.

  As shown in FIG. 3, the ultraviolet light source unit 30 includes a UV lamp 31, a protective frame 32, a screw 33, and an O-ring 34.

  The UV lamp 31 receives electric power from the drive circuit unit 40 and emits ultraviolet rays. As the UV lamp 31, for example, a glow light bulb (ultraviolet light output 1W) with an input power of 3W can be used, but is not limited thereto. The UV lamp 31 may use an LED (Light Emitting Diode) element that emits ultraviolet rays.

  The UV lamp 31 is provided so as to penetrate the back surface 20a. Specifically, the UV lamp 31 is screwed into the hole 214 and fixed. The UV lamp 31 may be fixed to the lid base 21 using a resin or the like for waterproofing.

  The UV lamp 31 is provided substantially at the center of the back surface 20a when viewed from below. Thereby, it is possible to irradiate the water stored in the container part 10 with ultraviolet rays substantially evenly.

  The UV lamp 31 and the protective frame 32 are inserted from the opening 11 and positioned inside the container 10 as shown in FIGS. 4 and 5 when the lid 20 is attached to the container 10. . As a result, the UV lamp 31 and the protective frame 32 are immersed in the stored water when a predetermined amount (for example, 500 mL) of water is stored in the container 10 (see FIG. 7 described later).

  The protective frame 32 is a three-dimensional lattice-shaped cover for preventing the UV lamp 31 from being damaged. The protective frame 32 is provided so as to surround the UV lamp 31. The protective frame 32 is made of a metal material such as stainless steel, for example.

  The screw 33 is a screw for fixing the protective frame 32 to the lid base 21 (specifically, the convex portion 213), and is, for example, a tapping screw.

  As shown in FIGS. 4 and 5, the O-ring 34 is provided between the UV lamp 31 and the lid 20 (specifically, the hole 214). As shown in FIG. 3, the shape of the O-ring 34 is a substantially annular shape. The O-ring 34 is formed from a resin material such as rubber having water resistance, for example. The O-ring 34 prevents moisture from entering the inside of the lid 20 through the gap between the UV lamp 31 and the hole 214. Thereby, the electric power feeding part of the UV lamp 31 located inside the cover part 20, the drive circuit part 40, the battery part 50, etc. can be protected from moisture.

[Drive circuit section]
The drive circuit unit 40 is housed inside the lid unit 20 and controls turning on and off of the ultraviolet light source unit 30. Specifically, the drive circuit unit 40 controls the timing for turning on and off the ultraviolet light source unit 30. Note that the drive circuit unit 40 may perform control to change the intensity of the ultraviolet light emitted from the ultraviolet light source unit 30 or the period of irradiation with the ultraviolet light.

  In the present embodiment, the drive circuit unit 40 executes a lighting enabled mode in which the ultraviolet light source unit 30 can be turned on and a lighting prohibited mode in which lighting of the ultraviolet light source unit 30 is prohibited. In the lighting enabled mode, the drive circuit unit 40 turns on the ultraviolet light source unit 30 when the switch unit 90 is turned on. In the lighting prohibition mode, the drive circuit unit 40 does not turn on the ultraviolet light source unit 30 even if the switch unit 90 is turned on.

  In the present embodiment, the drive circuit unit 40 switches between the lighting enabled mode and the lighting prohibited mode based on at least one state of the open / close sensor unit 60 and the two terminal units 70.

  Specifically, when the lid 20 is attached to the container unit 10, the drive circuit unit 40 is electrically connected by the two terminal units 61 and 62 of the open / close sensor unit 60 being in contact with each other, The ultraviolet light source unit 30 can be turned on. That is, the drive circuit unit 40 executes the lighting enabled mode when the two terminal units 61 and 62 are in an electrically conductive state.

  In addition, when the lid 20 is removed from the container unit 10, the drive circuit unit 40 prohibits the lighting of the ultraviolet light source unit 30 by separating the two terminal units 61 and 62 from each other and becoming non-conductive. To do. That is, the drive circuit unit 40 executes the lighting prohibition mode when the two terminal units 61 and 62 are in a non-conductive state.

  Furthermore, in the present embodiment, when the lid 20 is attached to the container unit 10, the drive circuit unit 40 is configured such that when both of the two terminal units 70 come into contact with water stored in the container unit 10, The ultraviolet light source unit 30 can be turned on when the two terminal units 70 are electrically connected via the water. That is, the drive circuit unit 40 executes the lighting enabled mode when the two terminal units 70 are brought into conduction through water.

  Further, when at least one of the two terminal portions 70 does not contact the water stored in the container portion 10, the drive circuit portion 40 is brought into a non-conductive state so that the ultraviolet light source portion 30 Prohibit lighting. That is, the drive circuit unit 40 executes the lighting prohibition mode when the two terminal units 70 are in a non-conductive state.

  As described above, in the present embodiment, when both of the two terminal portions 61 and 62 and the two terminal portions 70 are in the conductive state, the drive circuit portion 40 executes the lighting enabled mode. That is, when the switch unit 90 is turned on, the drive circuit unit 40 turns on the ultraviolet light source unit 30.

  In addition, when at least one of the two terminal portions 61 and 62 and the two terminal portions 70 is in a non-conductive state, the drive circuit portion 40 executes the lighting prohibition mode. That is, even if the switch unit 90 is turned on, the drive circuit unit 40 does not turn on the ultraviolet light source unit 30.

  As shown in FIG. 3, the drive circuit unit 40 includes a main circuit board 41, a switch element 42, an LED board 43, and screws 44.

  The main circuit board 41 controls lighting and extinguishing of the ultraviolet light source unit 30 (specifically, the UV lamp 31). That is, the main circuit board 41 is a circuit board for controlling the start and stop of power supply from the battery unit 50 to the UV lamp 31. The main circuit board 41 is, for example, a board on which a microcomputer (microcontroller) is mounted.

  The main circuit board 41 operates based on a control signal from the switch element 42. Further, the main circuit board 41 switches between the lighting enabled mode and the lighting prohibited mode based on at least one state of the open / close sensor unit 60 and the two terminal units 70.

  When the switch unit 90 is turned on in the lighting enabled mode, the main circuit board 41 turns on the ultraviolet light source unit 30 for a predetermined period. In addition, the said period is a period sufficient for the unsterilized water put into the container part 10 to be sterilized. The said period is a period determined based on the capacity | capacitance of the container part 10 and the intensity | strength of the ultraviolet-ray of the ultraviolet light source part 30, for example.

  The switch element 42 detects the pressing (ON) of the switch unit 90 and outputs a control signal to the main circuit board 41. The switch element 42 is mounted on the LED board 43, for example.

  In the present embodiment, when the switch element 42 detects that the switch unit 90 is turned on, the switch element 42 outputs an on signal for starting lighting of the UV lamp 31 to the main circuit board 41 as a control signal. When the ON signal is input, the main circuit board 41 turns on the UV lamp 31 in the lighting-enabled mode.

  The LED substrate 43 is a substrate on which an LED element (not shown) is mounted. The LED element emits visible light. The light emitted from the LED element passes through the display unit 80 and is emitted to the outside.

  In the present embodiment, the LED substrate 43 controls the lighting of the LED elements according to the lighting state of the UV lamp 31. Specifically, the LED board 43 blinks the LED elements while the UV lamp 31 is lit, that is, during the period when the UV lamp 31 emits ultraviolet rays. In addition, the LED substrate 43 continuously turns on the LED elements after the UV lamp 31 is turned on.

  Furthermore, the LED substrate 43 turns off the LED element when the lid 20 is removed from the container 10 after the UV lamp 31 is turned on. For example, the LED substrate 43 is electrically connected to the open / close sensor unit 60, and turns off the LED element when the open / close sensor unit 60 detects that the lid 20 has been removed from the container unit 10.

  The screw 44 is a screw for fixing the main circuit board 41 to the lid base 21 and is, for example, a tapping screw. In the present embodiment, the main circuit board 41 is fixed to the bottom portion 211 of the lid base 21 with two screws 44 and two screws 54. For example, the LED substrate 43 is placed on a protrusion (not shown) provided inside the lid base 21.

[Battery section]
The battery unit 50 is a battery unit that is housed inside the lid unit 20 and supplies power to the ultraviolet light source unit 30. In the present embodiment, the battery unit 50 supplies power not only to the ultraviolet light source unit 30 but also to the LED elements of the display unit 80 by supplying power to the drive circuit unit 40.

  As shown in FIG. 3, the battery unit 50 includes a battery 51, two battery terminals 52, a battery receiver 53, and a screw 54.

  The battery 51 is an example of a power source that supplies power to the drive circuit unit 40. The battery 51 is, for example, a lithium battery, but is not limited to this. The battery 51 may be either a primary battery or a secondary battery.

  The two battery terminals 52 are arranged such that one contacts the positive electrode of the battery 51 and the other contacts the negative electrode of the battery 51. The two battery terminals 52 are formed using a conductive material such as metal, for example. The two battery terminals 52 supply the power of the battery 51 to the drive circuit unit 40.

  The battery receiver 53 is a member for supporting the battery 51. The battery receiver 53 is formed using, for example, an insulating resin material. In the present embodiment, the battery receiver 53 has a recess in which about half of the battery 51 is accommodated. The battery 51 is accommodated in the recess, and the upper part is held by the battery lid 22. Thereby, the movement of the battery 51 inside the lid portion 20 is restricted, and the reliability of power supply to the drive circuit portion 40 can be improved.

  The screw 54 is a screw for fixing the battery receiver 53 to the lid portion 20. In the present embodiment, as shown in FIG. 5, the screw 54 is fixed by sandwiching the main circuit board 41 between the battery receiver 53 and the lid base 21. The screw 54 is, for example, a tapping screw.

  The battery 51 may be detachable. That is, in the present embodiment, the battery 51 may be replaceable. Thereby, when the capacity of the battery 51 becomes small (or disappears), the battery 51 having a small capacity can be replaced with a new battery 51. For example, since the battery 51 is exposed to the outside by removing the battery lid 22 from the lid base 21, the battery 51 can be easily replaced.

[Opening / closing sensor part (first terminal part)]
The open / close sensor unit 60 detects whether or not the lid unit 20 is attached to the container unit 10. That is, the open / close sensor unit 60 detects whether or not the lid unit 20 blocks the opening 11 of the container unit 10.

  In the present embodiment, the open / close sensor unit 60 is provided on the back surface 20 a of the lid unit 20. Specifically, as shown in FIG. 4, the open / close sensor unit 60 is fixed in the recess 212 of the lid base 21. The open / close sensor unit 60 includes two terminal units 61 and 62 and a buffer member 63.

  6A and 6B are partially enlarged sectional views showing a region VI of FIG. FIG. 6A is a diagram illustrating two terminal portions 61 and 62 when the lid portion 20 is not attached to the container portion 10. FIG. 6B is a diagram illustrating the two terminal portions 61 and 62 when the lid portion 20 is attached to the container portion 10.

  The two terminal portions 61 and 62 are an example of two conductive first terminal portions that are electrically connected to the drive circuit portion 40. The two terminal portions 61 and 62 are, for example, a plate member made of metal such as copper, aluminum, stainless steel, or an alloy of nickel and copper, or conductive rubber.

  As shown in FIG. 6A, the terminal portion 61 and the terminal portion 62 are separated from each other when the lid portion 20 is not attached to the container portion 10. That is, the terminal part 61 and the terminal part 62 are in a non-conductive state.

  When the two terminal portions 61 and 62 are in a non-conductive state, the ultraviolet light source unit 30 is not lit even if the lighting prohibition mode is maintained and the switch unit 90 is turned on. For this reason, when the cover part 20 is not attached to the container part 10, the ultraviolet light source part 30 does not light up. Therefore, it is possible to prevent the ultraviolet light source unit 30 from erroneously irradiating ultraviolet rays in a state where the lid unit 20 is removed from the container unit 10, and safety can be improved.

  On the other hand, as shown in FIG. 6B, in a state where the lid portion 20 is attached to the container portion 10, the terminal portion 62 is pressed by a part of the container portion 10 (specifically, the edge of the opening portion 11). Elastically deforms. The terminal part 62 is, for example, a metal leaf spring. Thereby, the terminal part 62 contacts the terminal part 61 and is electrically connected.

  When the two terminal portions 61 and 62 are in the conductive state, the lighting prohibition mode is switched to the lighting enabled mode. That is, when the switch unit 90 is turned on, the drive circuit unit 40 can turn on the ultraviolet light source unit 30. The terminal portion 62 may not be a leaf spring, but may be a conductive member that can move in response to pressing by the container portion 10.

  The buffer member 63 is an elastic member provided so that the terminal portion 62 does not directly contact the container portion 10. The buffer member 63 is pressed by the container part 10 and elastically deforms. The buffer member 63 is made of a resin material such as rubber, for example.

[Terminal part (second terminal part)]
The two terminal portions 70 are an example of two conductive second terminal portions that are electrically connected to the drive circuit portion 40. The two terminal portions 70 are, for example, rod members made of metal such as stainless steel, aluminum, copper, or an alloy of nickel and copper.

  The two terminal portions 70 protrude from the back surface 20a of the lid portion 20 and are spaced apart from each other. In the present embodiment, as shown in FIG. 5, the two terminal portions 70 pass through the convex portion 213 (back surface 20 a) and are connected to the main circuit board 41.

  FIG. 7 is a partial cross-sectional view showing a state in which water 2 is stored in the lidded mug 1 according to the present embodiment and can be sterilized. Specifically, FIG. 7 shows a cross section taken along line VV of FIG.

  In the present embodiment, both of the two terminal portions 70 are in contact with the water 2 when a predetermined amount (for example, 500 mL which is a specified capacity) of the water 2 is put inside the container portion 10. Both of the two terminal portions 70 come into contact with the water 2, whereby the two terminal portions 70 are electrically connected via the water 2. Thereby, the drive circuit unit 40 can turn on the ultraviolet light source unit 30 (UV lamp 31). That is, when both of the two terminal portions 70 come into contact with water, the lighting prohibition mode is switched to the lighting enabled mode.

  When at least one of the two terminal portions 70 does not come into contact with the water 2, the lighting prohibition mode is maintained. For this reason, even if the switch unit 90 is turned on, the ultraviolet light source unit 30 is not turned on.

  With this configuration, when a sufficient amount of water 2 is stored in the container unit 10, the ultraviolet light source unit 30 can be turned on to sterilize the water 2. In other words, when the amount of water 2 stored in the container unit 10 is small, the ultraviolet light source unit 30 is not turned on.

  For example, when there is little water 2 put into the container part 10, an ultraviolet-ray is not irradiated appropriately to the water 2, but a disinfection effect becomes low. That is, since it is suppressed that the ultraviolet light source part 30 lights in the state where the bactericidal effect is inadequate, it can suppress that a lamp lifetime becomes short.

  In addition, even when a sufficient amount of water 2 is stored in the container part 10, if the lid part 20 is not attached to the container part 10, the two terminal parts 70 do not contact the water 2, The ultraviolet light source unit 30 is not turned on. Therefore, it is possible to prevent the ultraviolet light source unit 30 from erroneously irradiating ultraviolet rays in a state where the lid unit 20 is removed from the container unit 10, and safety can be improved.

[Display section]
The display unit 80 displays the lighting state of the ultraviolet light source unit 30. In the present embodiment, display unit 80 is a substantially annular resin member. Specifically, the display unit 80 is formed by injection molding using a translucent resin material into which a diffusion material such as silica is diffused. For example, the display unit 80 is formed integrally with the battery lid 22 by two-color molding.

  The display unit 80 transmits light emitted from the LED elements of the LED substrate 43 and diffuses (scatters) the light using a diffusing material. Since the lighting state of the LED element changes according to the lighting state of the ultraviolet light source unit 30 (specifically, the UV lamp 31), the display unit 80 can display the lighting state of the UV lamp 31.

  Specifically, the display unit 80 blinks while the ultraviolet light source unit 30 is lit, and continuously lights after the ultraviolet light source unit 30 is turned on. Blinking lighting is to repeatedly increase and decrease the amount of light, for example, to repeatedly turn on (100%) and turn off (0%). The repetition period is not particularly limited. Continuous lighting is to continuously emit light with a constant light amount (for example, 100%).

  Thus, since the lighting state (display state) of the display unit 80 changes according to the lighting state of the ultraviolet light source unit 30, the user can enter the container unit 10 by checking the lighting state of the display unit 80. You can grasp the state of water. For example, when the display unit 80 is lit in a blinking manner, it is understood that water is being sterilized. When the display unit 80 is continuously lit, it can be seen that the sterilization of the water is finished and it can be used as drinking water. That is, when the display unit 80 is continuously lit, the user can remove the lid 20 and drink the water stored in the container unit 10.

  The display unit 80 is turned off when the lid unit 20 is removed from the container unit 10. Thereby, when the display part 80 is light-extinguished, it means that the cover part 20 is removed from the container part 10 at least once, and ultraviolet irradiation is not performed after that. That is, the water stored in the container part 10 may be unsterilized water. For this reason, the user can be prompted to sterilize before drinking water.

[Switch part]
The switch unit 90 switches the drive circuit unit 40 on and off. In the present embodiment, the switch unit 90 is a push-down physical button, but is not limited thereto. The switch unit 90 may be a slide type button or the like.

  In the present embodiment, when the switch unit 90 is pressed (turned on), the switch element 42 is pressed through the protrusion 222 of the battery lid 22. As a result, the drive circuit unit 40 can be informed that the switch unit 90 is turned on. When the switch unit 90 is turned on, the ultraviolet light source unit 30 sterilizes water by emitting ultraviolet rays in the lighting-enabled mode.

[Operation and usage]
Then, operation | movement and the usage method of the mug 1 with a cover concerning this Embodiment are demonstrated using FIG. FIG. 8 is a diagram for explaining the operation and usage of the lidded mug 1 according to the present embodiment.

  First, as shown in FIG. 8A, the user 5 (see (f)) removes the lid portion 20 of the lidded mug 1 and puts water 2 into the container portion 10 through the opening 11. Add water. For example, tap water is poured from the faucet 3 as water 2. The faucet 3 is, for example, a household faucet, and the water 2 is tap water (unsterilized water).

  Next, as shown in FIG. 8B, the user 5 closes the opening 11 by attaching the lid 20 to the container 10. By properly attaching the lid part 20 to the container part 10, the terminal parts 61 and 62 of the open / close sensor part 60 are brought into contact with each other and become conductive, and both the two terminal parts 70 are brought into contact with the water 2 to form water. 2 (see FIGS. 6B and 7). Thereby, the drive circuit unit 40 is switched from the lighting prohibition mode to the lighting possible mode.

  In the state where the lid 20 is removed ((a) of FIG. 8), since the terminal portions 61 and 62 and the two terminal portions 70 are both non-conductive, the lighting prohibition mode is maintained. . For this reason, even if the switch unit 90 is turned on, the ultraviolet light source unit 30 is not turned on.

  Moreover, the water 2 put into the container part 10 does not leak outside by attaching the cover part 20 to the container part 10. Therefore, the user 5 can carry the lidded mug 1.

  Next, as illustrated in FIG. 8C, the user 5 presses the switch unit 90 with the finger 4, for example. Thereby, as shown in FIG. 8D, the ultraviolet light source unit 30 (specifically, the UV lamp 31) emits ultraviolet rays. At this time, the display unit 80 blinks.

  When a predetermined period elapses, the ultraviolet light source unit 30 is turned off as shown in FIG. The display unit 80 is continuously turned on as the ultraviolet light source unit 30 is turned off.

  Finally, as shown in (f) of FIG. 8, the lid 20 is removed from the container 10 at an arbitrary timing of the user 5, and the water 2 is used as drinking water through the opening 11. The water 2 at this time is sterilized water and is suitable for drinking. At this time, since the lid part 20 is removed from the container part 10, the display part 80 is turned off.

[Effects, etc.]
As described above, the lidded mug 1 according to the present embodiment has the opening 11 for injecting liquid therein, and the container 10 for storing the liquid and the opening 11 for closing the opening 11. A lid 20 that can be attached to and detached from the container 10, an ultraviolet light source 30 that is attached to the back side of the lid 20 and sterilizes the liquid by irradiating the liquid stored in the container 10 with ultraviolet light, 20 and a drive circuit unit 40 that controls turning on and off of the ultraviolet light source unit 30, and the opening 11 also serves as a drinking mouth.

  Thereby, as shown in FIG. 8, sterilization of water can be easily performed with the lid-mounted mug 1 alone. The user 5 can freely carry the lidded mug 1 containing sterilized water, and can use the sterilized water as drinking water through the opening 11 at a favorite place and a favorite time. That is, the lidded mug 1 according to the present embodiment is excellent in portability and can easily sterilize water.

  In addition, for example, drinking water put in a commercially available plastic bottle may be bred with various germs from the mouth or air when opened once. That is, even if it is sufficiently safe at the time of purchase, the state is not always maintained. On the other hand, according to the mug 1 with a lid | cover which concerns on this Embodiment, since the user 5 can sterilize just before drinking, highly safe drinking water can always be provided.

  Further, for example, the lidded mug 1 further includes two conductive terminal portions 61 and 62 electrically connected to the drive circuit unit 40. The drive circuit unit 40 includes: (i) the lid unit 20 is a container. When attached to the part 10, the two terminal parts 61 and 62 come into contact with each other and are electrically connected to each other, whereby the ultraviolet light source part 30 can be turned on, and (ii) the lid part 20 is the container part 10. When the two terminals 61 and 62 are separated from each other and become non-conductive, lighting of the ultraviolet light source 30 is prohibited.

  Thereby, when the cover part 20 is removed from the container part 10, the ultraviolet light source part 30 does not light. Accordingly, it is possible to prevent the ultraviolet rays from being accidentally irradiated in a state where the lid portion 20 is removed from the container portion 10, and safety can be improved.

  In addition, for example, the lidded mug 1 further includes two conductive terminal portions 70 that are electrically connected to the drive circuit unit 40, projecting from the back surface 20 a of the lid unit 20, and spaced apart from each other. When the lid 20 is attached to the container 10, the drive circuit unit 40 includes (i) water in which both of the two terminal parts 70 are stored in the container 10. When the two terminal portions 70 are electrically connected to each other through the water 2, the ultraviolet light source unit 30 can be turned on. (Ii) At least one of the two terminal portions 70 is a container. When not contacting the water 2 stored in the part 10, the two terminal parts 70 are in a non-conductive state, thereby prohibiting the ultraviolet light source part 30 from being lit.

  Thereby, when the cover part 20 is removed from the container part 10, the ultraviolet light source part 30 does not light. Accordingly, it is possible to prevent the ultraviolet rays from being accidentally irradiated in a state where the lid portion 20 is removed from the container portion 10, and safety can be improved.

(Modification)
Below, the modification of the mug 1 with a lid | cover mentioned above is demonstrated using drawing.

  For example, in the above-described embodiment, the example in which the shape of the lid portion 20 of the lidded mug 1 is a substantially cylindrical shape has been described, but the present invention is not limited thereto. As shown in FIG. 9, the shape of the lid 120 according to this modification is a substantially cylindrical shape with a bottom.

  FIG. 9 is a cross-sectional view schematically showing the lid portion 120 of the lidded mug according to this modification.

  The lid 120 according to this modification has a bottom 121 and an opening 122. Although not shown, the ultraviolet light source unit 30 is attached to the inner surface 121 a of the bottom 121. The inner surface 121a corresponds to the back surface of the lid 120.

  In this modification, the two terminal portions 170 protrude from the inner surface 121a and are spaced apart from each other. The two terminal portions 170 are an example of the second terminal portion. Similarly to the two terminal portions 70 according to the above-described embodiment, when the two terminal portions 170 are in contact with water, the two terminal portions 170 The ultraviolet light source unit 30 can be turned on when the unit 170 is electrically connected via water. When the two terminal portions 170 are in a non-conducting state, lighting of the ultraviolet light source unit 30 is prohibited.

  In this modification, at least one outer surface of the two terminal portions 170 is electrically insulated from the bottom 121 of the lid 120 to the end surface of the opening 122 of the lid 120. Specifically, as shown in FIG. 9, each of the two terminal portions 170 includes a conductive portion 171 and an insulating portion 172. The conductive portion 171 is, for example, a metal rod-like member, like the terminal portion 70 according to the embodiment. The conductive portion 171 is erected on the inner surface 121 a of the bottom portion 121.

  The insulating part 172 is an insulating member provided so as to cover the outer surface of the conductive part 171. Specifically, the insulating portion 172 covers the outer surface of the conductive portion 171 from the bottom 121 to the end surface of the opening 122. The insulating part 172 is formed using, for example, an insulating resin material.

  As described above, in the lidded mug according to the present modification, the shape of the lid portion 120 is a bottomed cylindrical shape, and the back surface of the lid portion 120 is the inner surface 121a of the bottom portion 121 of the lid portion 120. At least one outer surface of the terminal portion 170 is electrically insulated from the bottom 121 of the lid 120 to the end surface of the opening 122 of the lid 120.

  Here, FIG. 10 is a figure for demonstrating the effect of the cover part 120 of the mug with a cover which concerns on this modification. Since the shape of the lid portion 120 is a bottomed cylindrical shape, as shown in FIG. 10, when the lid portion 120 is turned over, the water 2 attached to the lid portion 120 may accumulate in the bottom portion 121.

  At this time, according to the lid part 120 according to the present modification, the insulating part 172 is provided at the base part of the terminal part 170, so that the two terminal parts 170 do not conduct through the water 2. Therefore, it is possible to prevent the ultraviolet rays from being accidentally irradiated in a state where the lid portion 120 is removed from the container portion 10, and safety can be improved.

  In this modification, the insulating portion 172 is provided on both of the two terminal portions 170, but the insulating portion 172 may be provided on only one of them.

(Other)
As described above, the lidded mug according to the present invention has been described based on the above embodiment and the modifications thereof, but the present invention is not limited to the above embodiment.

  For example, in the above-described embodiment, the example in which the lidded mug 1 includes the open / close sensor unit 60 and the two terminal units 70 has been described. However, the present invention is not limited to this. The lidded mug 1 may include only one of the open / close sensor unit 60 and the two terminal units 70, or may not include both.

  Moreover, the lidded mug 1 may not include the switch unit 90. For example, when the lidded mug 1 does not include the switch unit 90, when the two terminal units 61 and 62 are electrically connected and the two terminal units 70 are electrically connected, the drive circuit unit 40 May turn on the ultraviolet light source unit 30 for a certain period of time.

  Thereby, by putting a specified amount of water into the container part 10 and attaching the lid part 20 to the container part 10, ultraviolet rays are irradiated and the water is sterilized. That is, it is possible to avoid accidentally drinking unsterilized water due to the user forgetting to press the switch unit 90.

  Moreover, for example, a through-hole for penetrating the lid 20 and taking out drinking water may be provided. The through hole communicates the inside of the container portion 10 with the external space, and a lid may be provided at the opening on the external space side. Thereby, even if it does not remove the cover part 20, sterilization water can be used for drinking.

  In addition, the embodiment can be realized by arbitrarily combining the components and functions in each embodiment without departing from the scope of the present invention, or a form obtained by subjecting each embodiment to various modifications conceived by those skilled in the art. Forms are also included in the present invention.

1 Mug with lid 2 Water (liquid)
DESCRIPTION OF SYMBOLS 10 Container part 11 Opening part 20, 120 Cover part 20a Back surface 30 Ultraviolet light source part 40 Drive circuit part 61, 62 Terminal part (1st terminal part)
70, 170 terminal part (second terminal part)
121 Bottom 121a Inner surface 171 Conductive portion 172 Insulating portion

Claims (4)

A container having an opening for injecting liquid therein and storing liquid;
A lid that can be attached to and detached from the container for closing the opening;
An ultraviolet light source part that is attached to the back side of the lid part and sterilizes the liquid by irradiating the liquid stored in the container part with ultraviolet rays,
A drive circuit unit that is housed inside the lid unit and controls turning on and off of the ultraviolet light source unit;
The opening is a drinking mug that doubles as a drinking mouth. further,
Two conductive first terminal portions electrically connected to the drive circuit portion;
The drive circuit unit is
(I) When the lid portion is attached to the container portion, the two first terminal portions can be brought into electrical contact with each other, whereby the ultraviolet light source portion can be turned on,
(Ii) When the lid part is removed from the container part, the two first terminal parts are separated from each other and become non-conductive, thereby prohibiting the lighting of the ultraviolet light source part. The described mug with a lid. further,
Two conductive second terminal portions electrically connected to the drive circuit portion, the two second terminal portions projecting from the back surface of the lid portion and spaced apart from each other;
In the case where the driving circuit unit is attached to the container unit,
(I) When both of the two second terminal parts come into contact with the liquid stored in the container part, the two second terminal parts are electrically connected via the liquid, whereby the ultraviolet ray The light source can be turned on,
(Ii) When at least one of the two second terminal portions does not come into contact with the liquid stored in the container portion, the two second terminal portions are in a non-conductive state, thereby turning on the ultraviolet light source portion. The mug with a lid according to claim 1 or 2. The shape of the lid is a bottomed cylindrical shape,
The back surface of the lid is an inner surface of the bottom of the lid,
4. The mug with a lid according to claim 3, wherein an outer surface of at least one of the two second terminal portions is electrically insulated from a bottom portion of the lid portion to an opening end surface of the lid portion.

Images