CN216724071U - Disinfection shoe changing stool - Google Patents

Abstract

The utility model provides a shoe bench is traded in disinfection belongs to and trades shoe bench technical field, this shoe bench is traded in disinfection's operation structure can be opened with the door together, operation structure is less to whole molding design, this shoe bench is traded in disinfection includes the stool structure, the disinfection cavity, operation structure and the door of openable disinfection cavity, disinfection cavity and stool structural connection, operation structure locates on the door, be equipped with electric connection structure between door and the doorframe, this electric connection structure is used for the disinfection module of electric connection operation structure and disinfection cavity.

Description

Disinfection shoe changing stool

Technical Field

The utility model relates to the technical field of shoe changing stools, in particular to a disinfecting shoe changing stool.

Background

The disinfection shoe changing stool is a subdivision product in the shoe changing stool, not only has the sitting function, but also has a disinfection cavity, shoes can be put into the disinfection cavity for disinfection and/or drying, and the disinfection shoe changing stool belongs to a fine household small household appliance.

Although the basic functions of the existing disinfection shoe changing stool are achieved, the operation structure needs to be powered on and provide operation, the operation structure is generally arranged separately from the door, the operation structure does not move together with the door, in addition, the operation structure occupies an immovable position, and the design of the operation structure is not facilitated, for example, the existing operation structure is exposed, protrudes obviously and cannot be opened together with the door, so that the further design of the disinfection shoe changing stool is limited to a great extent.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art and provides a disinfection shoe changing stool, wherein an operation structure can be opened together with a door, and the whole shape of the operation structure is designed to be smaller.

Compared with the prior art, the utility model provides a disinfection shoe changing stool which comprises a stool structure, a disinfection cavity, an operation structure and a door capable of opening and closing the disinfection cavity, wherein the disinfection cavity is connected with the stool structure, the operation structure is arranged on the door, and an electric connection structure is arranged between the door and a doorframe and is used for electrically connecting the operation structure and a disinfection module of the disinfection cavity.

As an improvement, the operation structure is covered by the surface layer of the door, or the operation keys of the operation structure are approximately equal to or protrude out of the surface layer of the door or are sunken in the surface layer of the door.

As an improvement, the door comprises a covering layer and a door body, wherein a touch module is arranged between the covering layer and the door body, and the covering layer is provided with a touch area for a user to operate the touch module.

As an improvement, the touch module comprises a capacitive touch part and a touch control circuit board, one end of the capacitive touch part is electrically connected with the touch control circuit board, and the other end of the capacitive touch part is positioned on one side of the touch area.

As an improvement, the electric connection operation structure comprises a pin and a jack which can be separated/inserted with the opening and closing of the door, one of the pin and the jack is arranged on the operation structure and exposed to one side of the door frame, and the other of the pin and the jack is arranged on the door frame and exposed to one side of the door.

As an improvement, the disinfection module is provided with a detection unit which is used for judging whether the door is closed or not according to the fact that whether the contact pin and the jack are connected or not in a plugging mode, and under the condition that the door is closed, the disinfection module can be controlled to work by the operation structure.

As an improvement, the power supply unit of the disinfection module is provided with a wired power interface and/or a battery and/or a mobile power interface, and the mobile power interface is used for detachably plugging a mobile power supply.

As an improvement, the mobile power supply interface is provided with a jack, the jack is used as a storage box and/or is used for being plugged in and electrically connected with the mobile power supply to supply power, and the power supply means that the mobile power supply supplies power to the disinfection module and/or can charge the mobile power supply when the power line is plugged in the mobile power supply interface.

As the improvement, the disinfection module sets up between the seatpad of the top of disinfection cavity and bench structure, and the disinfection module has the dry structure of blowing, and the air-out end of this dry structure of blowing is located the top of disinfection cavity, and the lower part of disinfection cavity is equipped with the blow vent, and the air inlet end of the dry structure of blowing, the blow vent of disinfection cavity all communicate with the ventilation passageway that the shoes bench was traded in the disinfection, and ventilation passageway has the ventilation hole with external environment intercommunication.

As an improvement, the disinfection module also comprises an ultraviolet disinfection structure and/or an ozone disinfection structure and/or an anion disinfection structure and/or an aromatherapy structure and/or a water absorption pad.

After adopting the structure, compared with the prior art, the utility model has the following advantages: because operation structure locates on the door, be equipped with electric connection structure between door and the door frame, this electric connection structure is used for the disinfection module of electric connection operation structure and disinfection cavity, so operation structure no longer occupies a motionless position, but constitutes a part of door, consequently operation structure can be opened with the door together, operation structure is less to whole molding design, in addition, because aforementioned design, operation structure can not occupy an area alone, the door can be done greatly promptly, it is corresponding, the opening that is favorable to the disinfection cavity is done greatly.

Drawings

Fig. 1 is a perspective view of a disinfection shoe changing stool.

Fig. 2 is a perspective view of fig. 1 after the door is opened.

Fig. 3 is a perspective view of fig. 1 with the cover layer removed.

Fig. 4 is a rear view of fig. 1.

Fig. 5 is a rear view of fig. 4 after the mobile power supply is plugged in.

Figure 6 is a top view showing primarily the sterilization module.

Fig. 7 is a half-sectional view of a disinfection shoe changing stool.

The reference number indicates that 1-seat cushion, 2-supporting frame, 3-disinfection cavity, 4-door, 5-covering layer, 6-door body, 7-touch area, 8-capacitance touch part, 9-touch control circuit board, 10-contact pin, 11-jack, 12-wired power interface, 13-storage box, 14-mobile power supply, 15-blower, 16-PTC heater, 17-temperature controller, 18-ultraviolet disinfection lamp panel, 19-ozone emitter, 20-negative ion emitter, 21-water absorption pad, 22-air outlet end, 23-vent, 24-vent, 25-indicator, 26-support foot, 27-temperature sensor, 28-handle, 29-fragrance box, 30-barrier, etc, 31-a loudspeaker, 32-a main control circuit board and 33-an air inlet end.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the utility model, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

The utility model is described in further detail below:

the arrows in fig. 7 indicate the general flow direction of the airflow.

As shown in fig. 1 to 7, the present disclosure provides a disinfection shoe-changing stool, which includes a stool structure, a disinfection chamber 3, an operation structure and a door 4 capable of opening and closing the disinfection chamber 3, the disinfection chamber 3 is connected with the stool structure, the operation structure is disposed on the door 4, an electrical connection structure is disposed between the door 4 and a door frame, and the electrical connection structure is used for electrically connecting the operation structure and a disinfection module of the disinfection chamber 3.

In this example, the bench structure comprises a seat cushion 1 and a support frame 2, the disinfection chamber 3 is arranged in the support frame 2, and the bottom of the support frame 2 is provided with a support leg 26. The door frame may be provided by the support frame 2 and/or the disinfection chamber 3.

In some embodiments, as shown in fig. 2, the chamber 3 is provided with a removable grid 30. After designing like this, disinfection cavity 3 forms highly variable space on the one hand, and when highly less shoes were used, can divide into two-layerly to place more shoes, on the other hand, the barrier 30 is favorable to the air at 3 flow cycles of disinfection cavity, thereby promotes disinfection efficiency and drying efficiency.

In some embodiments, the operating structure is covered by the surface of the door 4, or the operating keys of the operating structure are substantially flush with or protrude from the surface of the door 4 or are recessed into the surface of the door 4. As shown in fig. 1, 2 and 3, the operating structure is covered by the surface of the door 4 so as to be completely free from exposure or projection, and is thus integral with the door 4.

In some embodiments, as shown in fig. 1 and 3, for the case that the operation structure is covered by the surface layer of the door 4, the door 4 includes a covering layer and a door body 6, the door body 6 may also be referred to as a door panel, a touch module is disposed between the covering layer and the door body 6, the covering layer is provided with a touch area 7, and the touch area 7 is used for a user to operate the touch module. Thus, there is no special requirement for the cover layer as long as it is suitable for touch use.

In some embodiments, as shown in fig. 1, 3 and 7, the touch module includes a capacitive touch portion 8 and a touch control circuit board 9, one end of the capacitive touch portion 8 is electrically connected to the touch control circuit board 9, and the other end of the capacitive touch portion 8 is located at one side of the touch control region 7. After the design, the requirement of the covering layer is further reduced, the covering layer can be made of common plastics, the operation can be realized only by contacting the area where the capacitive touch part 8 is located by a human body, in addition, the misoperation probability is lower, and the reliability is favorably improved.

In some embodiments, as shown in fig. 1, the upper portion of the front surface of the door 4 is provided with an operation structure so as to facilitate the user to easily operate the operation structure in a sitting posture, and the door 4 is also provided to be opened forward so as to conform to the characteristic of having an operation space in front of the sitting posture and is provided with a handle 28 so as to facilitate the operation.

In some embodiments, as shown in fig. 2, a horn 31 is also included. After the design, the voice reminding function can be further developed, so that a user can know the operation condition and/or the internal operation condition without lowering his head conveniently. In order to simplify the structure and improve the structural integration, the speaker 31 is disposed on the touch control circuit board 9, and in addition, when the operation structure is disposed on the upper portion of the front surface of the door 4, the speaker 31 is also disposed on the upper portion of the front surface of the door 4, so that it is easier for the user to hear, thereby improving the ergonomics.

In some embodiments, as shown in fig. 2 and 3, the electrical connection operation structure includes a pin 10 and a socket 11 that can be separated/inserted with the door 4 opened and closed, one of the pin 10 and the socket 11 is provided in the operation structure and exposed to a side of the door frame, and the other of the pin 10 and the socket 11 is provided in the door frame and exposed to a side of the door 4. In this embodiment, the upper portion of the back of the door 4 is provided with a pin 10, the upper portion of the door frame is provided with a jack 11, and the pin 10 and the jack 11 can be electrically connected when the pin 10 is inserted to the bottom, so that the purpose of ensuring that the door 4 is actually closed and then is connected is facilitated, and a convenient solution is provided for safety.

In some embodiments, the disinfection module is provided with a detection unit, which is used to determine whether the door 4 is closed according to whether the insertion pin 10 and the insertion hole 11 are plugged, and the disinfection module can be controlled by the operation structure to work when the door 4 is closed. The detection unit is a single chip microcomputer, a pin of the single chip microcomputer can be arranged by utilizing the characteristic that the contact pin 10 and the jack 11 are electrically connected and connected, the pin 10 and the jack 11 are in a high level when being electrically connected and connected, and the pin 10 and the jack 11 are not electrically connected and connected, so that the single chip microcomputer can judge whether the door 4 is closed or not through the level change of the pin.

In some embodiments, the power supply unit of the disinfection module has a wired power interface 12 and/or a battery and/or a mobile power interface for removably plugging a mobile power source 14. As shown in fig. 5 and 6, there is not only the wired power interface 12 but also the battery, and at this time, the battery is provided by the mobile power supply 14, and the mobile power supply 14 is, for example, a charger baby, and after the design, because the charger baby is common, the use by the user is convenient, and the user can also take the charger baby to charge other devices, thereby further enhancing the practicability of the disinfection shoe-changing stool.

In some embodiments, as shown in fig. 4 and 5, the mobile power interface is provided with a jack 11, and the jack 11 is used for being used as a storage box 13 and/or being used for being plugged into an electric connection mobile power source 14 to supply power, which means that the mobile power source supplies power to the disinfection module and/or can charge the mobile power source when the electric power interface is plugged into a power line. After the design like this, the back that the shoe bench was traded in the disinfection is equipped with jack 11, jack 11 can be used for placing little article, just so form a storing box 13, also can set up alone one with the removable storing box 13 of pegging graft of jack 11, thereby convenience of customers uses, when inserting portable power source 14 power in jack 11, then usable portable power source 14 supplies power, owing to can charge for portable power source when wired power source interface is inserting the power cord, so the user can also take away portable power source 14 and charge for other equipment, the practicality that the shoe bench was traded in the disinfection has more been strengthened. In order to charge, a battery charging circuit may be disposed on the main control circuit board 21 of the disinfection module, and an existing battery charging circuit, such as a lithium battery charging circuit, may be used, which is not described herein.

In some embodiments, as shown in fig. 6 and 7, the disinfection module is disposed between the top of the disinfection chamber 3 and the seat cushion 1 of the seat structure, the disinfection module has a blow drying structure, the air outlet end 22 of the blow drying structure is located at the top of the disinfection chamber 3, the lower part of the disinfection chamber 3 is provided with an air vent 23, the air inlet end 33 of the blow drying structure and the air vent 23 of the disinfection chamber 3 are both communicated with a ventilation channel of the disinfection shoe changing stool, and the ventilation channel has a ventilation hole 24 communicated with the external environment. After the design, the shoe drying device is favorable for realizing the circulating drying effect, and is favorable for drying shoes quickly.

In some embodiments, the disinfection module further comprises an ultraviolet disinfection structure and/or an ozone disinfection structure and/or a negative ion disinfection structure and/or an aromatherapy structure and/or a water absorbent pad 21. As shown in fig. 2, 6, 7, disinfection module has ultraviolet ray disinfection structure simultaneously, ozone disinfection structure, anion disinfection structure, champignon structure, the pad 21 absorbs water, ultraviolet ray disinfection structure, ozone disinfection structure, anion disinfection structure is different in focus separately, can satisfy user's demand better, through ultraviolet ray disinfection structure, ozone disinfection structure, anion disinfection structure almost can kill, promote to decompose, restrain all bacterium, common hazards such as virus, the champignon structure then is favorable to getting rid of the peculiar smell, the pad 21 that absorbs water is favorable to handling the sole, thereby absorb the dry sole in order to keep the sole dry. Absorbent pad 21 may be removed for cleaning or replacement.

In some embodiments, as shown in fig. 2, the fragrance structure is provided as a fragrance box 29 in which fragrance can be replaced, and for convenience of replacement, the fragrance box 29 is provided at the back of the door 4 and can move together with the door 4, thereby facilitating replacement of fragrance in a state where the door 4 is opened.

As shown in fig. 6 and 7, the sterilizing module is an electric control sterilizing module, and generally includes a main control circuit board 32, a fan 15, a PTC heater 16, a temperature controller 17, an ultraviolet sterilizing lamp panel 18, an ozone generator 19, and an anion generator 20, wherein the fan 15, the PTC heater 16, the temperature controller 17, the ultraviolet sterilizing lamp panel 18, the ozone generator 19, and the anion generator 20 are electrically connected to the main control circuit board 32, the main control circuit board 32 is electrically connected to a jack 11 disposed at a door frame, the fan 15 is connected to the PTC heater 16, an air flow delivered by the fan 15 is heated by the PTC heater 16 and then output to the sterilizing chamber 3 through an air outlet 22, the air flow also plays a role of stirring air in the sterilizing chamber 3 when entering the sterilizing chamber 3, thereby forming convection, and the PTC heater 16 is provided with the circuit board 17, thereby enabling the main control circuit board 32 to better control the heating temperature. The fan 15, the PTC heater 16, the temperature controller 17, the ultraviolet disinfection lamp panel 18, the ozone generator 19, the negative ion generator 20 and other devices can adopt conventional technologies, and the conventional technologies can also be adopted for the circuit control of the fan 15, the PTC heater 16, the temperature controller 17, the ultraviolet disinfection lamp panel 18, the ozone generator 19 and the negative ion generator 20, which are not described herein again.

In some embodiments, as shown in fig. 7, in order to avoid the situation of over-high temperature, a temperature sensor 27 is further provided, the temperature sensor 27 is electrically connected to the main control circuit board 32, and the temperature sensor 27 is used for detecting the temperature in the disinfection chamber 3, thereby further improving the safety performance.

In some embodiments, by setting program software to combine the use of the air-drying structure, the ultraviolet disinfection structure, the ozone disinfection structure and the negative ion disinfection structure, various functions can be achieved, such as a nursing mode: a fan, ozone, negative ions and an ultraviolet disinfection lamp; protection/baking mode: the fan, the PTC heater 16, the ozone, the negative ions and the ultraviolet disinfection lamp; and (3) drying mode: fan + PTC heater 16+ uv disinfection lamp. As shown in fig. 1 and 3, the touch panel has four indicator lamps 25 and four capacitive touch portions 8, three of which correspond to the three modes, and which indicator lamp 25 is turned on when any one of the three modes is activated, and the other indicator lamp can be used as a switch, and when turned on, the corresponding indicator lamp 25 is turned on.

According to the technical scheme, the integrated level is high, the functions are comprehensive, the practicability is high, the design is ingenious, in addition, the structural design is favorable for further modeling design on the disinfection shoe changing stool, and the modeling design has a larger degree of freedom.

In understanding the present invention, the above structure may be understood with reference to other drawings, if necessary, and will not be described herein.

The foregoing is illustrative of the present invention and all such equivalent changes and modifications in the structure, features and principles described herein are intended to be included within the scope of this invention.

Claims (10)

1. The utility model provides a disinfection trades shoe bench, includes stool structure, disinfection cavity, operation structure and the door of openable disinfection cavity, and disinfection cavity and stool structural connection, its characterized in that, operation structure locate on the door, are equipped with electric connection structure between door and the doorframe, and this electric connection structure is used for the disinfection module of electric connection operation structure and disinfection cavity.

2. A disinfecting shoe-changing stool as claimed in claim 1, wherein the operating structure is covered by a surface layer of the door, or the operating keys of the operating structure are substantially flush with or protrude from or are recessed into the surface layer of the door.

3. A stool for sterilizing and changing shoes as claimed in claim 2, wherein, in the case where the operating structure is covered by a surface layer of the door, the door comprises a covering layer and a door body, a touch module is provided between the covering layer and the door body, and the covering layer is provided with a touch area for a user to operate the touch module.

4. The stool for sterilizing and changing shoes according to claim 3, wherein the touch module comprises a capacitive touch part and a touch control circuit board, one end of the capacitive touch part is electrically connected with the touch control circuit board, and the other end of the capacitive touch part is positioned at one side of the touch area.

5. A stool for sterilizing and changing shoes as claimed in claim 1, 2 or 3, wherein the electrically connecting operation structure includes a pin and a socket which are separable/attachable with opening and closing of the door, one of the pin and the socket is provided in the operation structure and exposed to a side of the door frame, and the other of the pin and the socket is provided in the door frame and exposed to a side of the door.

6. The stool for sterilizing and changing shoes according to claim 5, wherein the sterilizing module is provided with a detecting unit for judging whether the door is closed or not according to whether the inserting pins and the inserting holes are inserted and conducted, and the sterilizing module can be controlled by the operating structure to operate when the door is closed.

7. A disinfecting shoe exchange stool as claimed in claim 1, characterized in that the power supply unit of the disinfecting module has a wired power supply interface and/or a battery and/or a mobile power supply interface for detachably plugging a mobile power supply.

8. A disinfecting and shoe-changing stool as claimed in claim 7, characterized in that the mobile power supply interface is provided with a jack for serving as a storage box and/or for plugging in an electrically connected mobile power supply to supply power, which means that the mobile power supply supplies power to the disinfecting module and/or can charge the mobile power supply when the power cord is plugged in the power cord of the mobile power supply interface.

9. The disinfection shoe changing stool as claimed in claim 1, wherein the disinfection module is disposed between the top of the disinfection cavity and the seat cushion of the seat structure, the disinfection module has a blow drying structure, an air outlet end of the blow drying structure is located at the top of the disinfection cavity, an air vent is disposed at a lower portion of the disinfection cavity, an air inlet end of the blow drying structure and the air vent of the disinfection cavity are both communicated with a ventilation channel of the disinfection shoe changing stool, and the ventilation channel has a ventilation hole communicated with an external environment.

10. The stool for sterilizing and changing shoes according to claim 1 or 9, wherein the sterilizing module further comprises an ultraviolet sterilizing structure and/or an ozone sterilizing structure and/or a negative ion sterilizing structure and/or an aromatherapy structure and/or a water absorbent pad.

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