• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention discloses a slipper dispenser including a storage cabinet and a sensing doormat. Pressure value information related to a user is obtained through the sensing doormat and sent to a controller in the storage cabinet through a Wireless transmitter and receiver. The controller identifies the user entering or leaving, and after this identification, an instruction is sent to open a designated slipper storage chamber by the controller so that either the user can get the slippers best fitting his or her size, or the user takes off his or her slippers and put them back into a designated slipper storage chamber. The slipper dispenser is simple in structure, capable of intelligently identifying the requirements of a user and automatically operating, thereby reducing the operation difficulty, avoiding the situation of inappropriate selection of slippers, and improving the user experience. Some structural arrangements provide characteristics of sanitation and high efficiency.
    公开号:NL2026257A
    申请号:NL2026257
    申请日:2020-08-12
    公开日:2020-11-27
    发明作者:Xie Bailing
    申请人:Nanjing Robust Information Tech Co Ltd;
    IPC主号:
    专利说明:

    P128028NL00 Title: Slipper dispenser
    FIELD OF THE INVENTION The present application relates to the field of smart home technology, in particular to a slipper dispenser.
    BACKGROUND OF THE INVENTION Slippers are indispensable for the daily life of people, and the slippers have various types in different usage scenarios. For example, we have cotton slippers designed for keeping warm, bathroom slippers designed for anti-skid functions, hotel disposable slippers designed for hygiene factors, etc. Depending on the size of a user’s foot, shippers may also be classified as adult slippers, female slippers, child slippers, etc. For personal use or guest use, it is often necessary to provide more than one pair and type of slippers at home. And a user has to select slippers, by himself/herself, from a storage cabinet where the more than one pair of slippers are stored when he or she is about to use the slippers, which, however, may often be troublesome in actual life. For example, in a storage cabinet in the prior art, more than one pair of slippers are usually stacked together for storage, causing inconvenience for a user to quickly find one pair fitting his/her size; for another example, more than one pair of slippers are placed together, and they are likely to be misplaced after several times of taking in and out, as a result, a later user may take out two slippers which, however, do not match with one another because they belong to two different pairs, respectively, leading to poor user experience; for yet another example, when demands for two or more types of slippers happen at the same time (e.g., an adult and a child), the task of taking out the slippers is usually accomplished by one person, but the slippers selected by the person may not necessarily fit the actual needs of the other person, so they have to select again, which is inefficient.
    SUMMARY OF THE INVENTION It’s an object of the present application to solve the problem in the prior art that slippers cannot be dispensed intelligently to best fit features of a user by providing a slipper dispenser.
    The present application provides a slipper dispenser, comprising a storage cabinet and a sensing doormat; wherein a plurality of first pressure sensors are uniformly arranged in the sensing doormat; a wireless transmitter is provided at an end of the sensing doormat; the wireless transmitter is electrically connected with each of the first pressure sensors; a plurality of slipper storage chambers are arranged inside the storage cabinet; all the slipper storage chambers are provided with openings on one side of the storage cabinet, and the openings are provided with rotary doors; the rotary door is hinged with the storage cabinet and driven by a motor provided on a side of the rotary door to open and close the slipper storage chamber; a receiver is provided on a side of the storage cabinet; the wireless transmitter is in wireless connection with the receiver for transmitting a pressure value signal detected by the first pressure sensor to the receiver; and a controller is provided in the storage cabinet and electrically connected with the motor and the receiver, respectively; and the controller is used for controlling the opening and closing of the corresponding rotary door according to the pressure value signal received by the receiver.
    According to the slipper dispenser provided by the present application, pressure value information related to a user is obtained through the sensing doormat and sent to the controller in the storage cabinet through the wireless transmitter and receiver, whether the user is entering or leaving is identified by the controller, and after this identification, an instruction is sent to open a designated slipper storage chamber by the controller so that either the user can get the slippers best fitting his or her size, or the user takes off his or her slippers and put them back into a designated slipper storage chamber; the slipper dispenser disclosed herein is simple in structure, capable of intelligently identifying the requirements of a user and automatically operating, thereby reducing the operation difficulty, avoiding the situation of inappropriate selection of slippers, and improving the user experience. Some structural arrangements provide the slipper dispenser with characteristics of sanitation and high efficiency, and facilitate popularizing and employing the slipper dispenser.
    BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic illustration of s structure of a slipper dispenser of the present application; FIG. 2 is a schematic illustration of an internal structure of a slipper storage chamber of the slipper dispenser shown in FIG. 1 in an embodiment; FIG. 3 is a schematic illustration of components of a controller in the slipper dispenser shown in FIG. 1; FIG. 4 is a schematic illustration of an internal structure of the slipper storage chamber of the sipper dispenser shown in FIG. 1 in another embodiment.
    DETAILED DESCRIPTION OF THE EMBODIMENTS Reference is made to FIG. 1, a schematic illustration of s structure of a slipper dispenser of the present application; Reference is made to FIG. 2, a schematic illustration of an internal structure of a slipper storage chamber 11 of the slipper dispenser shown in FIG. 1 in an embodiment; As can be seen from FIG. 1, the present application provides a slipper dispenser, including a storage cabinet 1 and a sensing doormat 2; In the embodiment of the present application, the storage cabinet 1 can be a cuboid cabinet-type structure, and is usually placed at the entrance of a house or on a side of a door, so that a user can conveniently take on and off slippers and shoes when entering and leaving the house, so the storage cabinet 1 had better be shaped and sized to meet the indoor structural design. But it should be noted that the body of the storage cabinet 1 is supposed to have enough space to place a pair of shoes horizontally, so the thickness of the body should be at least greater than the length of a pair of adult shoes.
    The sensing doormat 2 is a separate structure from the storage cabinet 1 and is normally placed at the entrance of a house, providing a person entering or leaving the house with a place to change his or her shoes without soiling the floor of the house. Different from a common doormat, in the embodiment, a plurality of first pressure sensors 21 are uniformly arranged inside the sensing doormat 2; when a person steps on the sensing doormat 2 when entering the house, some of the first pressure sensors 21 in the sensing doormat 2 generate pressure value signals under the pressure, and the pressure value signals of these sensors are collected and fed back to the corresponding controller to identify the slippers fitting the person currently stepping on the sensing doormat 2, after this, the corresponding slippers are selected for the user according to the identification result.
    A wireless transmitter 22 is provided at an end of the sensing doormat 2; the wireless transmitter 22 is electrically connected with each of the first pressure sensors 21; in the embodiment, the wireless transmitter
    22 may be any module capable of wirelessly transmitting a signal, and the signal collected by the transmitter 22 not only includes the pressure values detected by the respective pressure sensors 21, but also includes, not limited to, the number and positions of the pressure sensors 21 that have 5 received signals, and the like.
    As can be seen from FIG. 1, a plurality of slipper storage chambers 11 are arranged inside the storage cabinet 1; all the slipper storage chambers 11 are provided with openings on one side of the storage cabinet 1, and in the embodiment, each slipper storage chamber 11 is set to place only one pair of slippers such that two slippers can be placed side by side or the two slippers can be inserted into each other and stacked, and accordingly, the space inside the slipper storage chamber 11 is sized to exactly accommodate one pair of slippers to improve the utilization rate of the space in the storage cabinet. As can be seen from the foregoing, since the slippers include various types (plastic slippers, cotton slippers, etc.), as well as various sizes (e.g., large size for adult men, medium size for women, children sizes, etc.), different types of slippers demands different sizes of accommodation space, therefore, in a possible embodiment, the slipper storage chambers 11 of various specifications can be correspondingly provided to place the corresponding slippers of different sizes for users with different needs. For example, the slipper storage chamber 11 has at least three sizes, namely, a large size (generally corresponding to plastic slippers and cotton slippers for men, cotton slippers for women), a medium size (corresponding to plastic slippers for women, cotton slippers for children), and a small size (corresponding to plastic slippers for children), the slipper storage chamber 11 of each size storing slippers of a corresponding size. Further, in an arrangement where the slipper storage chambers 11 of various sizes are provided, those of the same size can be arranged in proximity so that the structural design is optimized, and wrong choices of slippers caused by a disordered arrangement can be avoided; further, to better adapt to postures of users, the slipper storage chambers 11 of smaller sizes may be provided at the bottom of the storage cabinet 1, and those of larger sizes may be provided above those of the smaller sizes. For example, three layers of slipper storage chambers are provided, wherein the uppermost layer is for the slippers of the above-mentioned large size so that an adult with a higher height can take the slippers conveniently without bending down; and the bottommost layer is for the slippers of the above- mentioned small size so that children short in stature can conveniently take their shippers.
    Further, to facilitate control of each of the slipper storage chambers 11, each of the slipper storage chambers 11 and a corresponding motor 13 may be numbered as, for example, storage chamber A, motor A, storage chamber B, motor B, …, etc.; when slipper storage chambers 11 of various sizes are provided, they may be numbered as storage chambers Al, A2, Bl, B2, C1, C2, etc., where A denotes the large size, B denotes the medium size, and C denotes the small size It can be seen from FIG. 2 that the opening is provided with a rotary door 12; the rotary door 12 is hinged with the storage cabinet 1 and driven by the motor 13 provided on a side of the rotary door 12 to open and close the slipper storage chamber 11; in the embodiment, the rotary door 12 can be opened and closed by turning upwards, downwards, leftwards and rightwards, when the motor 13 drives the rotary door 12 to open and close, the movement track of the rotary door 12 has to ensure that the rotary door 12 aligns the frame of the storage cabinet 1 when the rotary door 12 is closed, and a user’s operation is not interfered when the rotary door 12 is opened.
    A receiver 14 is provided on a side of the storage cabinet 1; the wireless transmitter 22 is in wireless connection with the receiver 14 and for transmitting a pressure value signal detected by the first pressure sensor 21 to the receiver 14; in the embodiment, the receiver 14 may be any module having wireless reception functions, which may be provided independently or may be configured in a controller 15 as a functional module of the controller 15, and the embodiment is not limited thereto.
    The controller 15 1s provided in the storage cabinet 1, and the controller 15 is electrically connected with the motor 13 and the receiver 14, respectively; the controller 15 is used for controlling opening and closing of a corresponding rotary door 12 according to the pressure value signal received by the receiver 14. In the embodiment, the controller 15 has to complete the step of analyzing and identifying which slipper storage chamber 11 to open or close according to the collected pressure value signal, and the specific analysis process can be implemented as follows through a plurality of built-in functional modules, and the specific process is illustrated by the following examples: As can be seen from FIG. 3, the controller 15 may include, not limited to, a receiving module 151, an analyzing module 152, and an executing module 153; wherein, the receiving module 151 is used for receiving the pressure value signal from the receiver 14; the pressure value signal, as described above, includes not only the pressure value, but also the number, positions, and the like of the first pressure sensors under pressure; and the analyzing module 152 is used for generating an identification result according to the received pressure value signal; the identification result includes the number given to the slipper storage chamber 11 corresponding to the identity information of the user; the number may be formulated according to the above-mentioned rules.
    The executing module 153 is used for sending a control instruction to the corresponding motor 13 according to the identification result.
    In the embodiment, the person stepping on the sensing doormat 2 may be a person who just entered the house or who is about to leave the house, so the identification result obtained by the analyzing module 152 and the target of relevant instructions sent by the executing module 153 also correspond to the two cases, that is, in the case of a person who just entered the house, the executing module 153 sends an instruction to open a slipper storage chamber of a corresponding size where the slippers are placed so that the person can take out the slippers; in the other case, if a person is about to leave the house, the executing module 153 is required to send an Instruction to open an empty slipper storage chamber of a corresponding size so that the person places the slippers back in. Therefore, the analyzing module 152 has to analyze at first whether the user is entering or leaving the house before the identification, specifically, the identification can be made according to the pressure value in the collected pressure value signals and positions of the sensors, the patterns of the pressure values are inevitably different in the cases of entering and leaving the house because of different foot directions; the direction of the foot can be obtained through the patterns of the pressure values, and then the identification can be made.
    After either the case of entering and leaving the house is identified, furthermore, to accurately obtain the information about whether the slippers exist in the slipper storage chamber 11, in a possible embodiment, a plurality of second pressure sensors 111 can be uniformly arranged on the bottom surface of the slipper storage chamber 11, and the second pressure sensors 111 are electrically connected to the controller 15, whereby the pressure value information in all the slipper storage chambers 11 is available to the controller 15. The slipper storage chamber 11 in which slippers are present is indicated by a value, and vice versa. Therefore, the executing module 153 can send an instruction to open the correct slipper storage chamber 11.
    It can be seen from the above technical solution that the usage process of the slipper dispenser provided by the present application is as follows:
    Firstly, a first pressure sensor in the sensing doormat detects and obtains a pressure value signal, transmits the pressure value signal to a receiver through a wireless transmitter, and the receiver transmits the pressure value signal to a controller; Secondly, the controller firstly identifies whether a user is entering or leaving the house according to the obtained signal; Thirdly, an approximate shape and size of a foot of a user is obtained according to the pattern of the pressure values, the size of slippers fitting the user is identified, and slipper storage chambers in which the slippers are placed are targeted; It is to be illustrated that which size of the slippers is suitable can be identified according to the size of the foot, i.e., by setting threshold values defining a range representing each size, for example, a range equal to or greater than 25 mm represents the large size, a range from 15 mm to 25 mm represents the medium size, and a range less than 15 mm represents the small size; when it’s identified which range where the length of the user's foot falls within according to the pressure values, the most suitable size of the slippers is determined, and subsequent processing proceeds accordingly.
    A special case should also be considered. If a user's foot size is approximately 25 mm, but the foot is relatively fat, the user may feel uncomfortable in the medium size, and still, the threshold settings may not make the large size available. In this situation, a reference factor has to be added in the identification, for example, the weight information of the user is obtained according to the pressure value, a corresponding identification is executed according to weight threshold values set already, and when the weight exceeds a threshold value, the user is given a larger size of slippers and the like.
    Fourthly, if the user is entering the house, a slipper storage chamber in which the slippers are placed is selected from the targeted slipper storage chambers, and an instruction to open the selected slipper storage chamber is sent; if the user is leaving the house, an empty slipper storage chamber is selected from the targeted slipper storage chambers, and an instruction to open the selected slipper storage chamber is sent; Fifthly, after the user takes out the slippers from or places the slippers back into the slipper storage chamber, an instruction to close the slipper storage chamber is sent; the rotary door can be set to close automatically in a preset duration, or the instruction can be sent after the change of the pressure value in the slipper storage chamber is detected. The embodiment is not limited thereto.
    The above is described by taking a single user as an example, but the application does limit the number of users, and when the number of users is more than one, the controller has to perform a step of information separation after obtaining the pressure value information, i.e., to identify the number of users and the suitable slipper sizes through data integration. For example, when the users include an adult and a child, the pressure value signals which can be obtained then should include the pattern of the pressure values at the positions of the four feet, and it can be identified that two feet belong to one person, the other two feet belong to the other; slippers with corresponding suitable sizes are selected for the two users according to their foot sizes, and control instructions are sent, respectively.
    Further, in a possible embodiment shown in FIG. 4, to make it easier for the user to take the slipper, the bottom surface of the slipper storage chamber 11 is provided with a moving plate 112; the moving plate 112 is in rolling connection with the bottom surface of the slipper storage chamber 11; one end, distal to the opening, of the moving plate 112 is provided with a control device 113; the control device 113 is electrically connected to the controller 15; an output end of the control device 113 is fixedly connected with the moving plate 112 for controlling the moving plate 112 to move out of or into the opening. In this embodiment, the slippers can be delivered out by the control device 113 to bring convenience to a user, and the controller 15 can control the control device 113, after a control instruction is sent to the corresponding motor 13, i.e., after the motor 13 drives the rotary door 12 to be fully opened, to push out the moving plate 112. Further, to accurately identify whether or not slippers are present in the slipper storage chamber, the second pressure sensor 111 in the foregoing embodiment may also be provided on the surface of the moving plate 112 to achieve the same effect as in the foregoing embodiment, which will not be described in detail herein.
    Further, it can be seen from FIG. 1 that in a possible embodiment, the sensing doormat 2 is provided with a temperature and humidity sensor 23; the temperature and humidity sensor 23 is electrically connected with the wireless transmitter 22; the receiver 14 is also used for receiving a temperature and humidity signal detected by the temperature and humidity sensor 23 sent by the wireless transmitter 22; and the controller 15 is used for opening and closing the corresponding rotary door 12 according to the pressure value signal and the temperature and humidity signal received by the receiver 14.
    In the embodiment, the purpose of providing the temperature and humidity sensor 23 is to roughly obtain the sensible temperature in the house by detecting the ambient temperature and humidity data. For a slipper storage chamber specially provided with cotton slippers, the temperature and humidity data can be an important basis for identifying whether the cotton slippers are selected for the user or not. In this case, after obtaining the data of the foot size of the user, a choice between plastic slippers and cotton slippers is necessary according to the data, so that the intelligent degree of the slipper dispenser is further improved.
    Further, as can be seen from FIG. 1, in some possible embodiments, an upper part of the storage cabinet 1 is provided with a placement layer 16 for placing shoes taken off by a user so that the slipper dispenser obtains a loading capacity and makes efficient use of space. Besides, the spaces for out-door shoes and the in-door slippers are arranged up and down in one appliance, bringing convenience to the user.
    Further, the slippers are easy to generate peculiar smell, bacteria and the like after long-term usage, corresponding measures can be taken in some embodiments, for example, ventilation holes 114 are formed in a side wall of the slipper storage chamber 11; the ventilation hole 114 is communicated with the outside of the storage cabinet 1 through a ventilation pipeline 115; the ventilation pipeline 115 can adopt a device such as a fan to increase the ventilation effect and keep the air inside the storage cabinet 1 fresh; it should be noted that the ventilation hole 114 and the ventilation pipeline 115 in the present application are not limited to the structural form shown in FIG. 1, and the pipeline communicating all the internal spaces and the external spaces can be designed accordingly according to practical requirements.
    In addition, an ultraviolet lamp 116 electrically connected to the controller 15 for providing a sterilizing function may be provided on a side wall of the slipper storage chamber 11.
    权利要求:
    Claims (10)
    [1]
    A slipper dispenser, characterized by a storage cabinet (1) and a detection doormat (2); wherein a plurality of first pressure sensors (21) are uniformly arranged in the detection doormat (2), a wireless transmitter (22) being provided at one end of the detection doormat (2); wherein the wireless transmitter (22) is electrically connected to each of the first pressure sensors (21); wherein a plurality of slipper storage chambers (11) are arranged in the storage cabinet (1); wherein all shpper storage rooms (11) are provided with openings on one side of the storage cabinet (1), and the openings are provided with revolving doors (12); and wherein the revolving door (12) is hinged to the storage case (1) and driven by a motor (13) provided on one side of the revolving door (12) to open and close the slipper storage chamber (11); wherein a receiver (14) is provided on one side of the storage case (1); the wireless transmitter (22) is in wireless communication with the receiver (14) for transmitting a pressure value signal detected by the first pressure sensor (21) to the receiver (14); wherein a controller (15) is provided in the storage box (1) and electrically connected to the motor (13) and the receiver (14) respectively; and wherein the controller (15) is used to control the opening and closing of the corresponding revolving door (12) according to the pressure value signal received by the receiver (14).
    [2]
    Slipper dispenser according to claim 1, characterized in that the controller (15) comprises a receiver module (151), an analysis module (152) and an output module (153);
    wherein the receiver module (151) is used to receive the pressure value signal from the receiver (14); wherein the analysis module (152) is used to generate an identification result according to the received pressure value signal; wherein the identification result includes a number given to the slipper storage chamber (11) corresponding to a user's identity information; and wherein the output module (153) is used to send a control instruction to the corresponding motor (13) according to the identification result.
    [3]
    Slipper dispenser according to claim 1, characterized in that a plurality of second pressure sensors (111) are uniformly arranged on a bottom surface of the slipper storage chamber (11), the second pressure sensors (111) being electrically connected to the controller (15).
    [4]
    A4. Slipper dispenser according to claim 1, characterized in that a moving plate (112) is provided on the bottom surface of the slipper storage chamber (11); wherein the moving plate (112) is in rolling communication with the bottom surface of the slipper storage chamber (11); wherein an end, distal to the opening, of the moving plate (112) is provided with a control device (113); wherein the controller (113) is electrically connected to the controller (15); wherein an output end of the control device (113) is rigidly connected to the moving plate (112) for controlling the moving plate (112) to move out or into the opening.
    [5]
    The slipper dispenser according to claim 1, characterized in that the detection door mat (2) includes a temperature and humidity sensor (23); wherein the temperature and humidity sensor (23) is electrically connected to the wireless transmitter (22);
    wherein the receiver (14) is also used to receive a temperature and humidity signal detected by the temperature and humidity sensor (23) transmitted by the wireless transmitter (22); and wherein the controller (15) is used to open and close the corresponding revolving door (12) according to the pressure value signal and the temperature and humidity signal received by the receiver (14).
    [6]
    Slipper dispenser according to claim 1, characterized in that an upper part of the storage box (1) is provided with a placement layer (16).
    [7]
    The slipper dispenser of claim 1, characterized in that a vent hole (114) is provided in a side wall of the slipper storage chamber (11); wherein the vent hole (114) communicates with the outside of the storage box (1) through a vent pipe (115).
    [8]
    Slipper dispenser according to claim 1, characterized in that the slipper storage chambers (11) have at least three sizes to respectively store slippers of corresponding sizes.
    [9]
    Slipper dispenser according to claim 8, characterized in that below the slipper storage chambers (11), the smaller sized slipper storage chambers (11) may be arranged at the bottom of the storage cabinet (1), and the larger sized slipper storage chambers (11) above the slpper storage chambers. (11) of the smaller sizes can be decorated.
    [10]
    The slipper dispenser of claim 1, characterized in that an ultraviolet lamp (116) is further arranged on the side wall of the slipper storage chamber (11), and wherein the ultraviolet lamp (116) is electrically connected to the controller (15).
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CN103054590A|2012-12-26|2013-04-24|南昌大学|Foot style and pressure detection floor mat device|
    CN206380943U|2016-08-25|2017-08-08|重庆品智家具有限公司|Shoe chest|
    CN206896108U|2017-02-20|2018-01-19|中山大学新华学院|Multifunctional intelligent shoe cabinet|
    KR102029247B1|2017-11-29|2019-10-07|김은지|System for managing shoes|
    CN209899321U|2019-01-18|2020-01-07|山西正一康生物科技有限公司|Shoes changing and storing device suitable for medical and biological ultra-clean laboratory|
    CN111053375A|2019-12-11|2020-04-24|安徽信息工程学院|Intelligent household shoe cabinet|
    CN110881938A|2019-12-20|2020-03-17|沈阳航空航天大学|Domestic multi-functional intelligent shoe cabinet|CN112190017A|2020-09-28|2021-01-08|肖华田|Shoe rack for smart home|
    CN112120506A|2020-11-02|2020-12-25|李少影|Supplementary intelligent house of changing with maintenance shoes|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    PCT/CN2020/092996|WO2021237596A1|2020-05-28|2020-05-28|Slipper distributing apparatus|
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