TWM598488U - Smart slipper - Google Patents

Abstract

This creation provides a smart slippers, which includes a slippers body, and a control module, an optical sensing module and a lighting module arranged on the slippers body. The optical sensing module includes an infrared sensing unit and a distance determining unit. The infrared sensing unit can detect an infrared energy released by the human body in a predetermined range. The distance determining unit infrared sensing unit receives the energy intensity of the infrared energy. , To determine the distance between the slippers body and the human body to generate a distance signal; the control module controls the lighting module to start the light emission change according to the distance signal; thereby, the wearer can clearly find the position of the slippers body in the night environment to achieve It is easy to find the convenience of the slippers body.

Description

Smart slippers

This creation is about a kind of slippers, especially a kind of smart slippers.

By the way, most of the elderly are suffering from urinary function degradation, so they usually get up in the bathroom at night or early in the morning. Moreover, most of the elderly have the power-saving habit. They usually reluctant to turn on the lights when they wake up at night, so they usually go to the bathroom. During the process, there will be insufficient light, so it is easy to slip or kick the furniture. In severe cases, there is a risk of accidental fall.

In view of this, the industry has launched slippers that emit light and illuminate. For example, Taiwan New Patent Publication No. M563789 discloses a slippers with lighting function, which includes a shoe body, a lighting unit, a control unit and a power source. The control unit includes There is a pressure-sensitive detector. When the wearer wears the shoe body, the pressure-sensitive detector is triggered by the pressure of the body weight, and drives the lighting unit to light up and project to the front of the shoe body to achieve the effect of auxiliary lighting at night.

However, the above-mentioned shoe body needs to detect the pressure of the wearer to emit light. Therefore, when the elderly are looking for the shoe body in the night environment, unless the light is turned on, it is not easy to find the exact position of the shoe body under the condition of insufficient light, which makes it inconvenient to find the shoe body. Trouble with slippers.

In order to solve the above problems, this creation provides a kind of smart slippers, which can provide the wearer at night The location of slippers can be clearly found in the environment.

In order to achieve the above objective, this creation provides a smart slippers, which includes a slippers body, and a control module, an optical sensing module and a lighting module arranged on the slippers body. The optical sensing module includes an infrared sensing unit and a distance determining unit. The infrared sensing unit can detect an infrared energy released by the human body in a predetermined range. The distance determining unit receives the energy of the infrared energy according to the infrared sensing unit Intensity, the distance between the slippers body and the human body is judged to generate a distance signal; the control module controls the illumination module to start the light emission change according to the distance signal.

In this way, the wearer can clearly find the position of the slippers body by using the intensity of the light source emitted by the illumination module when the ambient light is insufficient at night and the line of sight is not good. This improves the convenience of finding the slippers body. The effect of assisting night walking.

100: feet

10: Slippers body

11: sole

12: Socket

121: front side

122: back side

13: Sleeve

20: Control module

21: The first lighting control unit

211: sensing mode

212: Long light mode

213: Off mode

22: The second lighting control unit

30: Optical sensing module

31: infrared sensor unit

32: distance judgment unit

40: Illumination module

41: The first light-emitting unit

42: The second light-emitting unit

50: Pressure sensing module

51: detection unit

52: Recording Unit

53: Warning Judgment Unit

54: Information Transmission Unit

60: Global Positioning Module

70: battery module

80: terminal display device

Figure 1 is a three-dimensional schematic diagram of this creative embodiment.

Figure 2 is a top view of this creative embodiment.

Figure 3 is a system architecture diagram of this creative embodiment.

Fig. 4 is a functional structure diagram of the first lighting control unit of the creative embodiment.

Fig. 5 is a schematic diagram (1) of the usage state of this creative embodiment.

Fig. 6 is a schematic diagram (2) of the usage state of this creative embodiment.

Fig. 7 is a schematic diagram (3) of the usage state of this creative embodiment.

Figure 8 is a schematic diagram of the connection between the display device of the authoring terminal and the body of the slippers.

Please refer to FIGS. 1 to 8, this creation provides a smart slippers, which includes a slippers body 10, and a control module 20, an optical sensing module 30 and a lighting module 40 arranged on the slippers body 10.

The slippers body 10 is described as a general indoor slippers, wherein the slippers body 10 has a sole 11 and a socket part 12, the socket part 12 is provided on the top surface of the sole 11, and both ends of the socket part 12 are butted respectively On both sides of the front end of the sole 11, a sleeve 13 for the human foot 100 is formed between the sole 11 and the sleeve portion 12, wherein the sleeve portion 12 is provided with a front side at both ends corresponding to the sleeve opening 13 The side 121 and a rear side 122 are shown in FIG. 1. The front side 121 faces the front end of the sole 11, and the rear side 122 is corresponding to the middle section of the sole 11.

The control module 20 is arranged inside the sole 11 of the slippers body 10, and the control module 20 is used to control the illumination module 40 to emit light.

The optical sensing module 30 is electrically connected to the control module 20. The optical sensing module 30 includes an infrared sensing unit 31 and a distance determining unit 32. The infrared sensing unit 31 can detect the human body in a predetermined range. In this embodiment, the infrared sensor unit 31 can sense the infrared energy released by the human foot 100 around the slippers body 10, and the distance judging unit 32 is based on the infrared energy received by the infrared sensor unit 31 The energy intensity determines the distance between the slippers body 10 and the human body to generate a distance signal.

The illumination module 40 is electrically connected to the optical sensing module 30. The control module 20 controls the illumination module 40 to initiate a light emission change according to the distance signal. In a preferred embodiment, the illumination module 40 includes a first light emitting unit 41. The first light-emitting unit 41 is arranged at one end of the sole 11. From the perspective of FIG. 1, the first light-emitting unit 41 is an LED bulb and is installed on the front end of the sole 11, which can start to emit light on the front of the slippers body 10. , And the control module 20 has a first lighting control unit 21, the first lighting control unit 21 can control The first light emitting unit 41 emits light. The first lighting control unit 21 includes a sensing mode 211, a long light mode 212, and an off mode 213. As shown in FIGS. 1, 3, and 4, the first lighting control unit The 21 series is a dial block set on the front side end of the sole 11, which can provide the user to toggle between the sensing mode 211, the long light mode 212 and the off mode 213. Among them, when the first lighting control unit 21 is in the sensing mode 211, The first lighting control unit 21 can receive and determine the signal intensity of the distance signal detected by the distance determining unit 32, and process and convert it into a first light-emitting control signal, so that the first light-emitting unit 41 of the lighting module 40 can emit light according to the first The control signal starts to glow.

As shown in FIG. 5, when the human body approaches the slippers body 10, the infrared sensor unit 31 receives the stronger the infrared energy released by the human body, and the distance judging unit 32 can judge that the human foot 100 is close to the slippers body 10 according to the infrared energy, and the light The module 40 is controlled by the control module 20 to activate a brighter light source; as shown in FIG. 6, when the human foot 100 is far away from the slippers body 10, the infrared sensing unit 31 receives weaker infrared energy released by the human body, and the distance determining unit 32 According to the infrared energy, it can be judged that the human foot 100 is far away from the slippers body 10, and the lighting module 40 is controlled by the control module 20 to activate a darker light source.

When the first lighting control unit 21 is in the long-bright mode 212, the first lighting control unit 21 can be used to control the first light-emitting unit 41 of the lighting module 40 to emit light normally, so as to assist the wearer in lighting walking at night; When the first lighting control unit 21 is in the off mode 213, the first lighting control unit 21 can be used to turn off the first light emitting unit 41 of the lighting module 40.

In this way, the wearer can clearly find the position of the slippers body 10 by using the strength of the light source emitted by the illumination module 40 when the ambient light is insufficient and the line of sight is poor at night, which improves the convenience of finding the slippers body 10 Sex, to achieve the effect of assisting night walking.

In addition, in a preferred embodiment, the present creation further includes a pressure sensing module 50, a global positioning module 60, and a battery module 70. The pressure sensing module 50, the global positioning module 60 and the battery The modules 70 are individually electrically connected to the control module 20 and installed in the slippers body 10.

The pressure sensing module 50 is arranged on the sole 11 of the slippers body 10. Please cooperate with FIG. 2 and FIG. 3. There are two pressure sensing modules 50, and the two pressure sensing modules 50 are respectively arranged on the sole 11 The forefoot and the heel are used to detect a medium pressure on the slippers body 10 to generate a pressure signal. In a preferred embodiment, the light module 40 further includes a second light emitting unit 42 that emits light independently. The second lighting unit is a light-emitting light bar and is laterally disposed on the socket 12 along the rear side 122. The control module 20 further has a second lighting control unit 22, and the second lighting judgment unit receives the pressure sensing module 50 The generated pressure signal is processed and converted into a second light-emitting control signal, and the second light-emitting unit 42 starts to emit light according to the second light-emitting control signal.

As shown in FIG. 7, when the foot 100 is fully wearing the slippers body 10 while walking, the two pressure sensing modules 50 can respectively detect the medium pressure exerted by the wearer to determine whether the wearer has worn the slippers body 10 properly. At this time, the second lighting control unit 22 can control the second light-emitting unit 42 to start to emit light according to the pressure signal; moreover, the wearer can use the wide-range lighting provided by the second light-emitting unit 42 to enhance the safety of walking at night .

It is worth mentioning that the pressure sensing module 50 has a detecting unit 51, a recording unit 52, a warning judging unit 53, and an information transmitting unit 54. The detecting unit 51 judges the position of the slippers body 10 relative to the forefoot and the heel. The recording unit 52 integrates and records the pressure signal according to a preset period information into a pressure period information. The creation pressure period information records the number of steps the wearer walks. The warning judging unit 53 is preset with a normal pressure range value for detecting whether the pressure signal is within the normal pressure range value to determine the generation of emergency care information. The information transmitting unit 54 sends pressure cycle information and emergency care via the Internet Information to provide caregivers with real-time knowledge of the wearer’s walking status.

Simply put, when the wearer slips or falls, the warning judging unit 53 can detect that the pressure signal has not returned to the normal pressure range value within a certain period of time. At this time, the warning judging unit 53 will immediately judge that the wearer is in an emergency state. The emergency care information is generated, and finally the emergency care information is sent through the information transmitting unit 54 to provide the caregiver with the emergency situation of the wearer's fall and injury in real time, achieving the effect of instant care.

The global positioning module 60 can use the global satellite positioning system to send a position signal of the slippers body 10, and the caregiver can know the location of the wearer at any time through the position signal to prevent the wearer from getting lost, which is a utility for convenient care.

The battery module 70 is arranged on the sole 11 of the slippers body 10 and corresponds to the arch of the foot. The battery module 70 is used to provide power required for action. When the wearer wears the slippers body 10, the battery module 70 can slightly support The arch of the foot 100 improves the stability of the wearer's walking.

As shown in FIG. 8, in some embodiments, the present creation further includes a terminal display device 80, which is a smart handheld device or a computer device. The terminal display device 80 is connected to the pressure sensing module 50 through the Internet, and the terminal displays The device 80 is used for receiving and presenting the pressure cycle information and emergency care information sent by the information transmitting unit 54 so that the caregiver can learn the wearer’s pressure cycle information through the terminal display device 80, which is used to refer to and judge the wearer’s walking gait Whether the pressure distribution is normal or not, so as to help the caregiver to better understand the wearer’s walking status, help the wearer to use as a reference indicator in rehabilitation training, and also serve as a step-counting function, and the terminal display device 80 can also receive The location signal sent by the global positioning module 60 enables the caregiver to grasp the location of the wearer at any time through the terminal display device 80, preventing the wearer from getting lost and facilitating care.

In this way, this creation has the following effects:

1. In the case of insufficient ambient light at night and poor vision, the wearer can use the light The strength of the light source emitted by the module 40 can clearly find the position of the slippers body 10, which improves the convenience of finding the slippers body 10 and achieves the effect of assisting night walking.

2. The first lighting control unit 21 can provide the user to toggle the sensing mode 211, the long light mode 212, and the off mode 213 to improve the light-emitting functionality of the first light-emitting unit 41, and when the wearer completely puts on the slippers body At 10 o'clock, the second lighting control unit 22 can control the second lighting unit 42 to start emitting light according to the pressure signal, thereby providing a wide range of lighting to enhance the safety of walking at night.

3. The pressure sensing module 50 can determine the wearer’s walking status, and when the wearer falls, the pressure sensing module 50 can immediately generate emergency care information, providing the caregiver with instant information about the wearer’s emergency situation of injury from the fall. To achieve the effect of immediate care.

4. The terminal display device 80 can receive and display the pressure cycle information and emergency care information sent by the pressure sensing module 50, so that the medical staff can judge whether the wearer’s gait pressure distribution is normal according to the pressure cycle information, and then assist care A better understanding of the wearer’s walking status is helpful to help the wearer serve as a reference indicator for rehabilitation training.

The above-mentioned embodiments are only used to illustrate the creation, and not to limit the scope of the creation. All modifications or changes that do not violate the spirit of this creation belong to the scope of this creation's intention to protect.

10: Slippers body

11: sole

12: Socket

121: front side

122: back side

13: Sleeve

20: Control module

21: The first lighting control unit

211: sensing mode

212: Long light mode

213: Off mode

41: The first light-emitting unit

42: The second light-emitting unit

50: Pressure sensing module

70: battery module

Claims (10)

A smart slippers comprising: A slippers body; A control module, which is set in the slippers body; An optical sensing module, which is installed in the slippers body and electrically connected to the control module, the optical sensing module includes an infrared sensing unit and a distance determining unit, the infrared sensing unit can be in a predetermined range Detecting an infrared energy released by the human body, the distance judging unit judges the distance between the slippers body and the human body according to the energy intensity of the infrared energy received by the infrared sensing unit to generate a distance signal; and A lighting module is arranged on the slippers body and electrically connected to the optical sensing module. The control module controls the lighting module to initiate a light emission change according to the distance signal. The smart slippers according to claim 1, wherein the control module has a first lighting control unit, and the first lighting control unit includes a sensing mode, a long light mode, and an off mode, and the sensing mode can The signal intensity of the distance signal is received and judged, and processed and converted into a first light-emitting control signal. The lighting module starts to emit light according to the first light-emitting control signal. The long-bright mode is to control the lighting module to emit light normally, and the off mode Used to close the lighting module. The smart slippers according to claim 2, wherein the first lighting control unit is a dial block, which can be toggled by the user to switch the sensing mode, the long light mode, and the off mode. The smart slippers according to claim 2, wherein the body of the slippers has a sole and a socket, two ends of the socket are connected to the top side of the sole, and between the sole and the socket Form a set of mouths that can be worn by human feet. The smart slippers according to claim 4, wherein the socket part corresponds to both ends of the socket A front side and a rear side are respectively provided. The illumination module includes a first light-emitting unit and a second light-emitting unit. The first light-emitting unit is an LED bulb installed at one end of the shoe sole. The first lighting control The unit is used for controlling the first light-emitting unit to emit light, and the second light-emitting unit is a light-emitting light bar and is laterally arranged on the socket part along the rear side. The smart slippers according to claim 5, further comprising a pressure sensing module provided on the slippers body, the pressure sensing module is electrically connected to the control module, and the pressure sensing module is used to detect the slippers The main body is subjected to a medium pressure to generate a pressure signal. The control module further has a second lighting control unit. The second lighting determination unit receives the pressure signal and processes and converts it into a second light-emitting control signal. The two light-emitting units start to emit light according to the second light-emitting control signal. The smart slippers according to claim 6, wherein the pressure sensing module has a detection unit, a recording unit, a warning judgment unit, and an information transmission unit, and the detection unit judges the resistance of the slippers body The medium pressure is converted into the medium pressure to generate the pressure signal. The recording unit integrates the pressure signal according to a preset period information and records it into a pressure period information. The warning judgment unit presets a normal pressure range value, It is used to detect whether the pressure signal is within the normal pressure range value to determine the generation of emergency care information. The information transmitting unit sends the pressure cycle information and the emergency care information via the Internet. The smart slippers according to claim 7, further comprising a terminal display device, the terminal display device is connected to the pressure sensing module via the Internet, and the terminal display device is used for receiving and displaying the information transmitted by the information transmitting unit Stress cycle information and the emergency care information. The smart slippers according to claim 8, further comprising a global positioning module provided in the slippers body, the global positioning module is electrically connected to the control module, and the global positioning module can use the global satellite positioning system to send the The terminal display device sends a position signal of the slippers body. The smart slippers according to claim 9, further comprising a battery module arranged on the slippers body, the battery module is electrically connected to the control module, and the battery module is arranged on the sole of the slippers body and corresponds to the sole of the foot At the bow, the battery module is used to provide the power required for operation.

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