CN217138268U - Sphygmomanometer storage device - Google Patents

Abstract

The application provides a sphygmomanometer storage device, this sphygmomanometer storage device includes: the device comprises an upper cover, a storage box, a voice prompt module and a positioning module; the upper cover is connected with the storage box and is configured to cover the storage box in a storage state; the voice prompt module is arranged in the storage box; the positioning module is electrically connected with the voice prompt module; the voice prompt module is configured to send out voice prompts under the preset condition; wherein the preset condition comprises: the voice prompt module receives a positioning signal sent by the positioning module; the positioning information is generated based on a user's look-up of the sphygmomanometer receiver apparatus. The upper cover and the storage box are matched to realize the storage of the sphygmomanometer; the current position of the device is subjected to voice broadcast prompt through a positioning module and a voice prompt module; the user can more conveniently find the sphygmomanometer, so that the convenience of the user in using the sphygmomanometer is integrally improved, and the user experience is improved.

Description

Sphygmomanometer storage device

Technical Field

The application relates to the technical field of medical equipment, in particular to a sphygmomanometer receiver.

Background

A sphygmomanometer is a medical device that measures blood pressure. The air in the arm belt of the sphygmomanometer is evacuated by adopting an oscillometric method, a Korotkoff method or a similar noninvasive blood pressure indirect measurement method, and then the arm belt is flatly attached to the upper arm of a user to measure the blood pressure. By using the sphygmomanometer, the user can monitor the change of the blood pressure at any time without going to a hospital. If abnormal blood pressure is found, the blood pressure can be treated in time, and the effect of preventing cerebral hemorrhage, heart failure and other diseases is achieved.

The blood pressure meter is required to be stored after being used, and the existing blood pressure meter storage device only has simple functions of storage, display of the ambient temperature and humidity and the like, and has no other functions. When a user uses the existing sphygmomanometer, the user needs to remember the storage position of the sphygmomanometer and the time for measuring the blood pressure by himself or herself, and if the user forgets, great inconvenience is easily caused.

SUMMERY OF THE UTILITY MODEL

An object of the embodiments of the present application is to provide a blood pressure monitor storage device, which solves the above-mentioned technical problems by providing each functional module in the storage device structure.

The embodiment of the application provides a sphygmomanometer receiver includes: the device comprises an upper cover, a storage box, a voice prompt module and a positioning module; the upper cover is connected with the storage box and configured to cover the storage box in a storage state; the voice prompt module is arranged in the storage box; the positioning module is electrically connected with the voice prompt module; the voice prompt module is configured to send out a voice prompt under a preset condition; wherein the preset condition comprises: the voice prompt module receives a positioning signal sent by the positioning module; the positioning signal is generated based on a user's look-up of the sphygmomanometer storage apparatus.

In the implementation process, the sphygmomanometer storage device realizes the storage of the sphygmomanometer through the matching of the upper cover and the storage box; the current position of the sphygmomanometer storage device is sent to the voice prompt module through the positioning module and the voice prompt module to prompt voice broadcasting. Specifically, in a preferred embodiment, the positioning module may generate a corresponding positioning signal in response to a position finding demand signal generated by the user terminal, and the voice module performs a voice instruction after receiving the positioning signal, so that if the user and the sphygmomanometer storage device are located at a close position, for example, in the same room, it is possible to directly recognize the current specific position of the sphygmomanometer storage device by sound; the problem of unable look for the sphygmomanometer position is solved, user experience has been promoted.

In an alternative embodiment, the sphygmomanometer receiver further comprises: the communication module is electrically connected with the positioning module; the communication module is used for transmitting the positioning information generated by the positioning module to the user terminal; the positioning signal is used for indicating the position of the sphygmomanometer storage device to a user terminal.

In the implementation process, the communication module, the positioning module and the voice prompt module can perform current or voltage signal interaction based on the control circuit; meanwhile, the communication module transmits the positioning data indicating the position of the sphygmomanometer storage device to the user terminal in a wireless transmission mode of the communication module. If the user and the sphygmomanometer receiving device are located at far positions, for example, in different buildings, the user can check the position information of the current specific position of the sphygmomanometer receiving device on the user terminal interface, and the user can search the sphygmomanometer by the current specific position of the sphygmomanometer receiving device indicated by the user terminal interface, so that the problem that the user searches the position of the sphygmomanometer is further solved, and the user experience is improved. Meanwhile, in an optional embodiment, the sphygmomanometer storage device can guide a user to enter the same building by sending the position information to the user terminal, and then performs voice indication on the user, so that the user can conveniently find the sphygmomanometer.

In an alternative embodiment, the sphygmomanometer receiver further comprises: the clock module is electrically connected with the voice prompt module; wherein the preset condition further comprises: the voice prompt module receives a timing signal sent by the clock module; the timing information is generated based on a preset blood pressure measurement time of the user.

In the implementation process, the clock module is used for generating clock information, the voice prompt module receives the clock information to perform voice broadcast indication, the blood pressure measurement time of a user is reminded, and the practicability and the convenience of the sphygmomanometer storage device are improved.

In an alternative embodiment, the sphygmomanometer receiver further comprises: the disinfection module comprises a disinfection lamp and a disinfection lamp trigger switch; wherein the upper cover comprises a disinfection lamp arranged on the inner side of the upper cover; the storage box comprises a disinfection lamp trigger switch; the disinfection lamp is electrically connected with the disinfection lamp trigger switch.

In the implementation process, the disinfection module is used for disinfecting the contained sphygmomanometer and the arm band thereof; specifically, disinfection lamps and lanterns trigger switch opens or closes the light or extinguish that is used for controlling disinfection lamps and lanterns to further control the progress of disinfecting and sterilizing sphygmomanometer and armlet in the receiver, disinfection lamps and lanterns can in time disinfect sphygmomanometer and armlet in the receiver, thereby the prevention cross infection.

In an optional embodiment, the disinfecting lamp trigger switch is configured to switch to an open state when the upper cover is closed, and further control the disinfecting lamp to be turned on; the disinfecting lamp trigger switch is configured to be switched to a closed state when the upper cover is opened, and further controls the disinfecting lamp to be closed.

In the above-mentioned realization process, disinfection lamps and lanterns trigger switch in the receiver sets up to the state of mutually supporting with the upper cover, opens or close control disinfection lamps and lanterns trigger switch through the upper cover and light or extinguish to disinfection lamps and lanterns, and then control disinfection lamps and lanterns disinfect to the receiver, easy operation, convenience promote the user and feel in many-sided experience such as humanized, intelligence, life facility.

In an optional embodiment, the upper cover includes a temperature and humidity sensing module and a display module disposed on the upper cover; the temperature and humidity sensing module is used for detecting the temperature and humidity information of the environment where the sphygmomanometer storage device is located, and the display module comprises a display used for displaying the temperature and humidity information.

In the implementation process, the temperature and humidity information of the environment where the sphygmomanometer storage device is located is detected by the temperature and humidity sensing module through the temperature and humidity sensing module and the display in the display module displays the temperature and humidity information measured by the temperature and humidity sensing module in real time, so that the user experience is improved.

In an alternative embodiment, the storage case includes a charging hole and a battery; the charging hole is used for providing a charging power supply for the battery; the battery is used for supplying power to modules in the sphygmomanometer receiver.

In the implementation process, the battery is used as an energy source, so that stable voltage and stable current can be obtained, and stable power supply can be realized for a long time; the positioning module, the communication module, the voice prompt module, the clock module, the disinfection module, the temperature and humidity sensing module and other modules are charged through the charging hole, the operation is simple and easy to implement, the influence of outside climate and temperature is avoided, and the performance is stable and reliable.

In an alternative embodiment, the sphygmomanometer receiver further comprises a controller for controlling a module in the sphygmomanometer receiver; the controller is fixedly installed at the bottom of the storage box.

In the implementation process, the coordination and control of the whole circuit system formed by the positioning module, the communication module, the voice prompt module, the clock module, the disinfection module, the temperature and humidity sensing module and the like are realized through the controller, meanwhile, the controller can be integrated in a circuit and installed at the bottom of the storage box, the storage space is saved, and meanwhile, the intelligent control performance of the sphygmomanometer storage device is improved.

In an alternative embodiment, the case comprises a first case for collecting the sphygmomanometer and a second case for collecting the armband.

In the above-mentioned realization process, first receiver is used for accomodating the sphygmomanometer, and the second receiver is used for collecting the armlet of sphygmomanometer, and two receivers divide the labour to be clear and definite, have avoided cross infection.

In an alternative embodiment, the receiving case includes a sound hole provided in an outer wall of the receiving case.

In the implementation process, the sound through hole is used for providing a physical channel for sound generated by the voice prompt module, and the sound output effect of the sphygmomanometer receiver is improved.

In conclusion, the sphygmomanometer storage device provided by the application realizes the storage of the sphygmomanometer through the matching of the upper cover and the storage box; the current position of the sphygmomanometer storage device is sent to the voice prompt module for voice broadcast prompt through the positioning module and the voice prompt module, and further, the current position of the sphygmomanometer storage device can be searched and obtained no matter the distance between a user and the sphygmomanometer storage device is far or near. The blood pressure meter storage device also reminds a user of the blood pressure measurement time through the clock module and the voice prompt module, so that the practicability and the convenience of the blood pressure meter storage device are improved; the disinfection module can realize timely disinfection of the sphygmomanometer and the arm belt thereof, thereby preventing cross infection; the coordination and control of the whole circuit system consisting of the positioning module, the communication module, the voice prompt module, the clock module, the disinfection module, the temperature and humidity sensing module and the like are realized through the controller, so that the intelligent control performance of the sphygmomanometer storage device is improved; this sphygmomanometer storage device easy operation, convenience have promoted the user and have experienced the sense in many-sided such as humanized, intelligent, life facility.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in more detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic block structure diagram of a blood pressure monitor storage device according to an embodiment of the present disclosure;

FIG. 2 is a schematic block diagram of another blood pressure monitor storage device according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural view of a preferred blood pressure monitor accommodating device according to an embodiment of the present disclosure;

FIG. 4 is a schematic external structural view of a preferred blood pressure monitor accommodating device provided by an embodiment of the present application; and

fig. 5 is a schematic structural diagram of an internal part of a preferred sphygmomanometer receiving apparatus according to an embodiment of the present application.

An icon: 01-a sphygmomanometer storage device; 02-a sphygmomanometer receiver; 03-a sphygmomanometer storage device; 10-upper cover; 101-disinfecting the lamp; 102-a temperature and humidity sensing module; 103-a display module; 20-a storage box; 201-voice prompt module; 202-a positioning module; 203-a communication module; 204-a clock module; 205-disinfecting a light trigger switch; 206-a charging aperture; 207-a battery; 208-a controller; 209-sound through hole; 21-a first storage box; 22-second storage box.

Detailed Description

The technical solution in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used for distinguishing the description only, and are not to be construed as indicating or implying any such actual relationship or order between such entities or operations. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the description of the present application, it should be noted that the terms "upper", "lower", "inner", "outer", and the like refer to the orientation or positional relationship based on the drawings, or the orientation or positional relationship that the utility model product usually visits when in use, and are only for convenience of describing and simplifying the present application, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

Throughout the description of the present application, it is further noted that, unless expressly stated or limited otherwise, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1, fig. 1 is a schematic block diagram of a blood pressure monitor accommodating device 01 according to an embodiment of the present disclosure. The sphygmomanometer storage apparatus 01 includes: the top cover 10, the storage box 20, the voice prompt module 201 and the positioning module 202.

Illustratively, the sphygmomanometer receiver 01 includes two structural parts, namely an upper cover 10 and a storage case 20, and a voice prompt module 201 and a positioning module 202 are arranged inside the storage case 20. The appearance of this sphygmomanometer storage device 01 is similar with ordinary storage device, all contains two parts of upper cover 10 and receiver 20, and receiver 20 includes at least one and can be enough to hold the groove space of accomodating of whole electronic sphygmomanometer, and the notch of accomodating the groove is closed or is opened through upper cover 10. Further, the voice prompt module 201 and the positioning module 202 may be installed in the receiving groove.

Optionally, the positioning module 202 may include one or any combination of multiple positioning technologies, such as a global positioning system GPS, a global satellite navigation system GLONASS, a COMPASS navigation system COMPASS, a galileo positioning system, a quasi-zenith satellite system QZSS, a wireless fidelity Wi-Fi positioning system, and the like, for obtaining the current specific position information of the sphygmomanometer storage device 01. The voice prompt module 201 can be one of a plurality of devices capable of making sound, such as a loudspeaker, a buzzer, a loudspeaker and a microphone, and is used for sending indication voice and broadcasting, and can remind the user of the specific position information of the sphygmomanometer storage device 01 generated by the user positioning module 202. For a user group of middle-aged and elderly people, the memory of the middle-aged and elderly people is reduced, the positioning position of the sphygmomanometer storage device 01 can be indicated through voice broadcasting, and the problem that the position of a sphygmomanometer cannot be searched is solved; in addition, the voice prompt can also remind the user of the blood pressure measuring time, so that the health hidden trouble caused by the fact that the user misses the measuring time is avoided.

The upper lid 10 is connected to the storage case 20 and arranged to cover the storage case 20 in the storage state.

Illustratively, the cover 10 and the storage case 20 may be fixedly coupled or detachably coupled. Specifically, the connection may be hinged by a hinge shaft, or may be locked by a snap, so that the upper cover 10 may be conveniently opened or closed, etc., for a plurality of times.

Alternatively, the free end of the upper cover 10 may be caught by a rotatable pick from the other side of the storage case 20, and after the pick is rotated, the upper cover 10 is switched from the complete covering to the complete separation from the storage case 20. When the user is using, at first open upper cover 10, take out the electrosphygmomanometer from receiver 20 and carry out the blood pressure measurement, then put back receiver 20 with the electrosphygmomanometer, close upper cover 10 at last, realized measuring, the swift operation of accomodating to the convenience is accomodate at any time and is carried.

The voice prompt module 201 is disposed in the storage box 20; the positioning module 202 is electrically connected with the voice prompt module 201. Exemplarily, the voice prompt module 201 and the positioning module 202 can be electrically connected through an integrated control circuit, so that the specific position information of the sphygmomanometer storage device 01 generated by the positioning module 202 is also received by the voice prompt module 201, and the voice prompt module 201 performs voice broadcast indication to prompt the user of the position of the sphygmomanometer storage device 01, thereby facilitating searching.

The voice prompt module 201 is configured to send out a voice prompt under a preset condition; wherein the preset condition comprises: the voice prompt module 201 receives the positioning signal sent by the positioning module 202; the positioning information is generated based on a user's look-up of the sphygmomanometer receiver apparatus 01.

Illustratively, the positioning module 202 is configured to receive and respond to a location finding demand signal generated by the user terminal to generate a corresponding positioning signal, and the voice module performs a voice indication after receiving the positioning signal, so that if the user and the sphygmomanometer receiving device 01 are located at a close position, the current specific position of the sphygmomanometer receiving device 01 can be directly identified by voice.

Alternatively, the terminal used by the user for searching the sphygmomanometer receiving apparatus 01 may be a mobile phone or a personal computer of the user, children and family members. When the user can not find the sphygmomanometer storage device 01, the positioning module 202 is triggered by the APP applet of the mobile phone or the personal computer, the positioning module 202 triggers the voice prompt module 201 through the integrated circuit, the positioning information of the positioning module 202 is transmitted to the voice prompt module 201 through the control circuit, and the voice prompt module 201 plays voice to prompt the current position of the sphygmomanometer storage device 01. Additionally, if sphygmomanometer storage device 01 loses or loses, can realize seeking sphygmomanometer storage device 01's position through the APP applet that uses cell-phone or personal computer to help finding the specific position of losing or losing, convenience when having increased the user and using.

Referring to fig. 2, fig. 2 is a schematic block diagram of another blood pressure monitor accommodating device 02 according to an embodiment of the present disclosure.

Besides the voice prompt module 201 and the positioning module 202, the blood pressure meter storage device 02 further includes: the device comprises a communication module 203, a clock module 204, a disinfection module, a temperature and humidity sensing module 102, a display module 103, a controller 208, a USB charging hole 206 and a battery 207, wherein the disinfection module comprises a disinfection lamp 101 and a disinfection lamp trigger switch 205. The functions of the voice prompt module 201 and the positioning module 202 are similar to those of the sphygmomanometer storage device 02, and are not described again.

Illustratively, the communication module 203 may be built in a communication module based on bluetooth communication, WIFI communication, mobile network communication or 3G/4G/5G communication protocol. The clock module 204 has a function of displaying a clock, and can generate a clock signal representing the current time information, and can generate a clock signal of the measurement time information preset by the user for measuring the blood pressure. The disinfection module is internally provided with a disinfection lamp 101 and a disinfection lamp trigger switch 205, the disinfection lamp 101 can generate ultraviolet rays with proper wavelengths to disinfect the sphygmomanometer and the armband based on an ultraviolet sterilization disinfection principle, and the disinfection lamp trigger switch 205 is used for controlling the on-off of the disinfection lamp, so as to control the disinfection lamp to disinfect the storage box. The temperature and humidity sensing module 102 has the function of monitoring the ambient temperature and humidity; the display module 103 may display time information generated by the clock module 204, and may also display temperature and humidity information of the temperature and humidity sensing module 102. The controller 208 is used to provide a control center for all the modules described above to coordinate the overall circuit. The USB charging port 206 and battery 207 are used to provide operating power to all of the modules described above.

The communication module 203 is electrically connected with the positioning module 202; the communication module 203 is used for transmitting the positioning information generated by the positioning module 202 to the user terminal; the positioning information is used to indicate the position of the sphygmomanometer storage apparatus 02 to the user terminal.

For example, the communication module 203 may be electrically connected to the positioning module 202 through an integrated control circuit, and since the positioning module 202 is electrically connected to the voice prompt module 201, the communication module 203, the positioning module 202, and the voice prompt module 201 can perform current or voltage signal interaction based on the integrated control circuit. The communication module 203 transmits the positioning data indicating the position of the sphygmomanometer storage device 02 generated by the positioning module 202 to the user terminal through the wireless transmission mode of the communication module 203, and if the user and the sphygmomanometer storage device 02 are located at a far position, the user can view the position information of the current specific position of the sphygmomanometer storage device 02 on the user terminal interface.

Optionally, when the user can not find the sphygmomanometer storage device 02, the positioning module 202 is triggered by an APP applet of a mobile phone or a personal computer, the positioning module 202 generates a positioning signal, the positioning signal is converted into a current or voltage signal, the current or voltage signal is transmitted to the communication module 203 through the integrated control circuit, the communication module 203 can complete data communication with the mobile phone or the personal computer terminal of the user based on a 3G/4G/5G communication protocol, so that positioning data indicating the position of the sphygmomanometer storage device 02 is transmitted to the user terminal through a network transmission mode, the user can check position information at any time on the terminal interface, and remote real-time monitoring of the sphygmomanometer storage device 02 is achieved.

The clock module 204 is electrically connected with the voice prompt module 201; wherein, the preset condition further comprises: the voice prompt module 201 receives a timing signal sent by the clock module 204; the timing signal is generated based on a preset blood pressure measurement time of the user.

Illustratively, the clock module 204 may be electrically connected to the voice prompt module 201 through an integrated control circuit, so that the time information generated by the clock module 204 can be received by the voice prompt module 201, and the voice prompt module 201 performs a voice broadcast instruction to remind the user of the blood pressure measurement time, thereby facilitating the use of the user.

The upper cover 10 of the sphygmomanometer storage device 02 comprises a disinfection lamp 101 arranged on the inner side of the upper cover 10, and the storage box 20 comprises a disinfection lamp trigger switch 205; the disinfection light 101 and the disinfection light trigger switch 205 are electrically connected.

Illustratively, a disinfection lamp 101 in a disinfection module is arranged in the upper cover 10 of the sphygmomanometer storage device 02, a disinfection lamp trigger switch 205 corresponding to the disinfection lamp 101 is arranged in the storage box 20, and the disinfection lamp trigger switch 205 is used for controlling the disinfection lamp 101 to be turned on and off.

Alternatively, the disinfection lamp 101 may generate ultraviolet rays with appropriate wavelength based on the ultraviolet sterilization and disinfection principle, and the ultraviolet rays can destroy the molecular structure of DNA or RNA in the microbial organism cells, causing the growth cell death and/or the regenerative cell death, thereby achieving the sterilization and disinfection effect. The ultraviolet ray disinfection and sterilization range is wide and rapid, the treatment time is short, generally pathogenic microorganisms can be killed only for ten seconds under certain radiation intensity, and some germs which cannot be inactivated by a chlorine disinfection method can be killed.

The disinfecting lamp trigger switch 205 is configured to switch to an open state when the upper cover 10 is closed, and further control the disinfecting lamp 101 to be opened; the disinfecting lamp activating switch 205 is configured to switch to an off state when the upper cover 10 is opened, and further control the disinfecting lamp 101 to be turned off.

Illustratively, the disinfecting lamp triggering switch 205 is turned on or off to control the on or off of the ultraviolet disinfecting lamp 101, thereby further controlling the progress of ultraviolet disinfection of the electronic sphygmomanometer in the storage case 20. The disinfecting lamp trigger switch 205 in the storage box 20 and the upper cover 10 can be set in a mutually matched state, and the disinfecting lamp trigger switch 205 and the control circuit are controlled to be connected or disconnected by opening or closing the upper cover 10, so that whether the disinfecting lamp 101 and the control circuit form a closed loop or not is determined. When the disinfection lamp 101 and the control circuit form a closed loop, the disinfection lamp 101 is lighted for disinfection and sterilization.

Optionally, the cover 10 is provided with a raised portion that is capable of engaging the disinfecting lamp trigger switch 205. Specifically, when the upper cover 10 of the sphygmomanometer storage device 02 is closed, the convex part can just generate downward pressure to abut against the disinfection lamp trigger switch 205, the disinfection lamp trigger switch 205 is triggered and is communicated with the control circuit, and the disinfection lamp 101 is lightened to automatically disinfect; when the upper cover 10 of the sphygmomanometer storage device 02 is opened, the convex portion is separated from the disinfection lamp trigger switch 205, the downward pressure disappears, the disinfection lamp trigger switch 205 is released to return to the off state, the disinfection lamp 101 is extinguished, and the disinfection is stopped.

This temperature and humidity sensing module 102 is used for detecting the temperature and the humidity information of sphygmomanometer storage device 02 environment, and display module 103 is including being used for showing temperature and humidity information's display screen.

Illustratively, the temperature and humidity sensing module 102 has a function of monitoring ambient temperature and humidity, which are daily relatively practical functions, and by arranging the temperature and humidity sensing module 102 and the display module 103 in the upper cover 10, a display screen in the display module 103 is used for displaying temperature and humidity information measured by the temperature and humidity sensing module 102 in real time. The temperature and humidity sensing module 102 may include an electronic sensor in the form of a probe; the display module 103 may include one of various types of display screens such as an LCD liquid crystal display module screen, a PDP plasma display screen, an ELD electroluminescent display screen, an OLED organic electroluminescent display screen, and the like.

Alternatively, the temperature and humidity sensing module 102 may be used as a measuring element. Firstly, the temperature and humidity sensing module 102 collects ambient temperature and humidity signals of the sphygmomanometer storage device 01, then the ambient temperature and humidity signals are transmitted to the control circuit through the conducting wires, then the signals are collected through the control circuit and converted into current signals or voltage signals which are in linear relation with the temperature and the humidity, the current signals or the voltage signals are output to the display module 103, and the current temperature and the current humidity are displayed on the display screen.

The charging hole 206 is used for supplying charging power to the battery 207; the battery 207 is used to power the modules in the sphygmomanometer receiver apparatus 01.

Illustratively, the modules such as the positioning module 202, the communication module 203, the voice prompt module 201, the clock module 204, the disinfection module, and the temperature and humidity sensing module 102 are charged by the electric energy received from the battery 207 through the charging hole 206. The charging hole 206 may be one of a plurality of charging interfaces such as a Micro USB interface, a Type-c interface, a 30pin interface, or a lightning interface. The battery 207 may be one of a variety of rechargeable batteries 207, such as a dry cell battery 207, a lead storage battery 207, or a lithium battery 207.

Alternatively, by using the battery 207 as an energy source, a stable voltage, a stable current, and a stable power supply for the sphygmomanometer storage device 02 for a long time can be obtained; the USB charging hole 206 is used for charging and discharging, the operation is simple and easy, the influence of external weather and temperature is avoided, and the performance is stable and reliable; the battery 207 has a simple structure and is convenient to carry.

The controller 208 is fixedly mounted to the bottom of the storage box 20.

Illustratively, the controller 208 is used for coordinating and controlling the whole circuit system composed of the positioning module 202, the communication module 203, the voice prompt module 201, the clock module 204, the disinfection module, the temperature and humidity sensing module 102 and the like, and meanwhile, the controller 208 can be integrated in a circuit and installed at the bottom of the storage box 20, so that the storage space is saved.

Optionally, the controller 208 is composed of a program counter, an instruction register, an instruction decoder, a timing generator, and an operation controller 208, which is a "decision-making mechanism" that issues commands, i.e., performs coordination and directs the operations of the entire computer system. The controller 208 has an independent Signal Processing chip, which includes, but is not limited to, an ARM (Advanced RISCMachine), an FPGA (Field-Programmable Gate Array, or Field-Programmable Gate Array), a DSP (Digital Signal Processing), a GPU (Graphics Processing Unit, or Graphics Processing Unit), and a TPU (sensor Processing Unit, or Processing Unit).

In a preferred embodiment, as shown in fig. 3, fig. 3 is a schematic structural view of a preferred blood pressure meter storage device 03 provided in the embodiments of the present application. To clarify the relevant structures and components in the sphygmomanometer receiver 03, the upper lid 10 of the sphygmomanometer receiver 03 is processed in a see-through manner, and therefore all internal structures in the upper lid 10 and the receiving case 20 are shown in fig. 3.

Preferably, the sphygmomanometer receiver 03 comprises: the multifunctional portable disinfection device comprises an upper cover 10, a storage box 20, a voice prompt module 201, a positioning module 202, a communication module 203, a clock module 204, a disinfection module, a temperature and humidity sensing module 102, a display module 103, a controller 208, a USB charging hole 206 and a battery 207, wherein the disinfection module comprises a disinfection lamp 101 and a disinfection lamp trigger switch 205. The functions of the above modules are similar to those of the sphygmomanometer storage device 01 and the sphygmomanometer storage device 03, and are not described again.

The upper lid 10 and one side of the storage case 20 are hinge-fixed by a hinge shaft (not shown). The free end of the upper cover 10 can be clamped with the other side of the storage box 20 through a rotating shifting piece, and after the shifting piece rotates, the upper cover 10 and the storage box 20 are completely separated from each other by switching from complete covering. When the user is using, at first open upper cover 10, take out the electrosphygmomanometer from receiver 20 and carry out the blood pressure measurement, then put back receiver 20 with the electrosphygmomanometer, close upper cover 10 at last, realized measuring, the swift operation of accomodating to the convenience is accomodate at any time and is carried.

The positioning module 202 is a commonly used GPS positioning system, and can communicate with a global satellite positioning system through a GPS to acquire current specific position information of the sphygmomanometer storage device 03; the communication module 203 can perform data communication with a mobile phone or a personal computer terminal of a user based on a 3G/4G/5G communication protocol.

When the user can not find the sphygmomanometer storage device 03, the positioning module 202 is triggered by the APP applet of the mobile phone or the personal computer, the positioning module 202 triggers the voice prompt module 201 through the integrated circuit, the positioning information of the positioning module 202 is transmitted to the voice prompt module 201 through the control circuit, and the voice prompt module 201 plays voice to prompt the current position of the sphygmomanometer storage device 03. If the user and the sphygmomanometer receiving device are located at a close position, such as in the same room, the current specific position of the sphygmomanometer receiving device can be directly identified through sound; the problem of unable look for the sphygmomanometer position is solved, user experience has been promoted.

When the user can not look for sphygmomanometer storage device 03, APP applet with cell-phone or personal computer triggers orientation module 202, orientation module 202 produces the locating signal, the locating signal turns into electric current or voltage signal, transmit for communication module 203 through integrated control circuit, thereby transmit the locating data of instructing sphygmomanometer storage device 03 position for user terminal through wireless transmission mode, the user can look over positional information at any time at terminal interface, the realization is to the long-range real time monitoring of sphygmomanometer storage device 03. If the user and the sphygmomanometer receiving device 03 are located at far positions, for example, in different buildings, the user can check the position information of the current specific position of the sphygmomanometer receiving device 03 at the user terminal interface, and the user can search the sphygmomanometer by the current specific position of the sphygmomanometer receiving device 03 indicated by the user terminal interface, so that the problem that the user searches the sphygmomanometer position is further solved, and the user experience is improved. Meanwhile, in an optional embodiment, the blood pressure meter storage device 03 can guide the user to enter the same building by sending the position information to the user terminal, and then perform voice indication on the user, so that the user can find the blood pressure meter conveniently.

The time information that clock module 204 produced can be received by voice prompt module 201 to voice prompt module 201 carries out the voice broadcast instruction, reminds user's blood pressure measuring time, has promoted sphygmomanometer storage device's practicality and convenience.

Three ultraviolet ray disinfection lamps and lanterns 101 of inboard fixed mounting of upper cover 10, specifically, the ultraviolet ray disinfection lamps and lanterns 101 of three ultraviolet ray disinfection LED lamp matrix arrangements of installation are arranged three different positions in upper cover 10 one side, and each ultraviolet ray disinfection lamps and lanterns 101 all are connected to the disinfection lamps and lanterns trigger switch 205 of installing in receiver 20 through the wire.

The temperature and humidity sensing module 102 can be arranged at a place where the sphygmomanometer storage device 03 is in direct contact with the outside, and can more reliably collect temperature and humidity values of the surrounding environment; the temperature and humidity sensing module 102 and the display module 103 may be connected to the control circuit through wires.

The charging hole 206 may be provided on the outer sidewall of the lower cover receiving case 20. The inside of the charging hole 206 and the battery 207 can be electrically connected with the control circuit through a charging protection circuit, and the charging protection circuit and the discharging protection circuit can be integrated on the control circuit, so that the storage space of the sphygmomanometer is increased.

In a preferred embodiment, as shown in fig. 4, fig. 4 is a schematic external structural diagram of an alternative sphygmomanometer receiving device 03 according to an embodiment of the present application.

Preferably, the upper cover 10, the housing case 20, the display module 103, the charging hole 206, and the sound through hole 209 are visible from the outside of the sphygmomanometer housing apparatus 03.

The display module 103 can be embedded in the middle area of the surface of the upper cover 10, so that the user can close the upper cover 10 of the sphygmomanometer receiving apparatus 03 and still directly see the display area of the display module 103 from the outside; the charging hole 206 is provided on the outer sidewall of the lower housing case 20 so that the power source can be accessed through the outside.

The storage case 20 of the sphygmomanometer storage apparatus 01 includes a sound hole 209 provided in an outer wall of the storage case 20.

Illustratively, the sound holes 209 can be provided in two sets, which are respectively disposed on the outer walls of the two sides of the storage box 20, so as to provide a physical channel for the sound generated by the voice prompt module 201, and enlarge the volume of the external receiving voice prompt module 201.

Alternatively, the sound through hole 209 may be composed of a plurality of small holes. The shape of the sound through hole 209 is not fixed, the shape can be protruded outwards, and the aperture can be reduced from the middle to two sides, so that the sound output effect of the sound through hole 209 is improved. Further, a layer of dustproof steel mesh can be installed inside the sound through hole 209 to protect the internal sound cavity.

In a preferred embodiment, as shown in fig. 5, fig. 5 is a schematic structural diagram of an internal part of an optional blood pressure meter storing device 03 provided in the embodiments of the present application. Similarly to fig. 3, the upper cover 10 of the sphygmomanometer housing apparatus 03 is processed in a perspective view for clarity of the relevant structures and components in the sphygmomanometer housing apparatus 03, and therefore all the internal structures in the upper cover 10 and the housing case 20 are shown in fig. 5.

The storage case 20 of the sphygmomanometer storage apparatus 03 includes a first storage case 21 for storing a sphygmomanometer and a second storage case 22 for storing an arm band.

Illustratively, the storage case 20 of the sphygmomanometer storage apparatus 03 includes a single storage groove which is divided into two left and right grooves, the first storage case 21 being located in the left groove, and the second storage case 22 being located in the right groove. The first storage box 21 is used for storing the sphygmomanometer, and the second storage box 22 is used for collecting the armband of the sphygmomanometer, so that the disinfection lamp 101 positioned on the upper cover 10 can completely irradiate the armband which is most easily infected with germs in a short distance to perform disinfection and sterilization, and meanwhile, the two storage boxes 20 are clearly separated, and cross infection is avoided.

Alternatively, a gap may be left between the bottom of the second storage box 22 and the outer large storage box 20, and an integrated circuit board composed of the above control circuits is soldered and mounted on the bottom of the second storage box 22, thereby preventing the storage space from being saved.

Preferably, the control circuit may be integrated with the controller 208, and the controller 208 is embedded in the control circuit to form an integrated circuit board, and may be integrally soldered and fixedly mounted on the bottom of the storage case 20, so as to increase the storage space of the sphygmomanometer.

To sum up, the present application embodiment provides a sphygmomanometer storage device, this sphygmomanometer storage device includes: the device comprises an upper cover 10, a storage box 20, a voice prompt module 201 and a positioning module 202; the upper lid 10 is connected to the storage case 20 and arranged to cover the storage case 20 in the storage state; the voice prompt module 201 is arranged in the storage box 20; the positioning module 202 is electrically connected with the voice prompt module 201; and the voice prompt module 201 is configured to send out a voice prompt under a preset condition; wherein the preset condition comprises: the voice prompt module 201 receives the positioning signal sent by the positioning module 202; the positioning information is generated based on a user's look-up of the sphygmomanometer receiver apparatus.

In the implementation process, the sphygmomanometer storage device realizes the storage of the sphygmomanometer through the matching of the upper cover 10 and the storage box 20; the current position of the sphygmomanometer storage device is sent to the voice prompt module 201 through the positioning module 202 and the voice prompt module 201 for voice broadcasting prompt, and the positioning information generated by the positioning module 202 is transmitted to the user terminal through the communication module 203, so that the user can timely acquire the specific position information of the sphygmomanometer storage device no matter how far away the user is from the sphygmomanometer storage device, and the problem that the sphygmomanometer storage device cannot be searched is solved; the disinfection and sterilization of the sphygmomanometer are realized through the cooperation of the disinfection lamp 101 and the disinfection trigger switch; therefore, the experience of the user in various aspects such as humanization, intelligence, life convenience and the like is integrally improved.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the modules is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form. The functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

It should be noted that the functions, if implemented in the form of software functional modules and sold or used as independent products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

In this document, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A sphygmomanometer receptacle, the device comprising: the device comprises an upper cover, a storage box, a voice prompt module and a positioning module;

the upper cover is connected with the storage box and configured to cover the storage box in a storage state;

the voice prompt module is arranged in the storage box;

the positioning module is electrically connected with the voice prompt module; and

the voice prompt module is configured to send out a voice prompt under a preset condition;

wherein the preset condition comprises: the voice prompt module receives a positioning signal sent by the positioning module; the positioning signal is generated based on a user's look-up of the sphygmomanometer storage apparatus.

2. The sphygmomanometer receiver apparatus according to claim 1, further comprising: the communication module is electrically connected with the positioning module;

the communication module is used for transmitting the positioning information generated by the positioning module to the user terminal; the positioning information is used for indicating the position of the sphygmomanometer storage device to a user terminal.

3. The sphygmomanometer receiver apparatus according to claim 1, further comprising: the clock module is electrically connected with the voice prompt module;

wherein the preset condition further comprises: the voice prompt module receives a timing signal sent by the clock module; the timing signal is generated based on a preset blood pressure measurement time of the user.

4. The sphygmomanometer receiver apparatus according to claim 1, further comprising: the disinfection module comprises a disinfection lamp and a disinfection lamp trigger switch; wherein the upper cover comprises a disinfection lamp arranged on the inner side of the upper cover; the storage box comprises a disinfection lamp trigger switch; the disinfection lamp is electrically connected with the disinfection lamp trigger switch.

5. The sphygmomanometer receiver according to claim 4, wherein,

the disinfecting lamp trigger switch is configured to be switched to an open state when the upper cover is closed, and further control the disinfecting lamp to be turned on;

the disinfecting lamp trigger switch is configured to be switched to a closed state when the upper cover is opened, and further controls the disinfecting lamp to be closed.

6. The sphygmomanometer container according to claim 1, wherein the upper cover includes a temperature and humidity sensing module and a display module provided to the upper cover; temperature and humidity sensing module is used for detecting the temperature and the humidity information of the environment that sphygmomanometer storage device is located, display module is including being used for showing the display screen of temperature and humidity information.

7. The sphygmomanometer receiver according to any one of claims 1 to 6, wherein the storage case includes a charging hole and a battery; the charging hole is used for providing a charging power supply for the battery; the battery is used for supplying power to modules in the sphygmomanometer receiver.

8. A sphygmomanometer receiving apparatus according to any one of claims 1-6, wherein the apparatus further comprises a controller for controlling modules in the sphygmomanometer receiving apparatus; the controller is fixedly installed at the bottom of the storage box.

9. The sphygmomanometer receiver according to claim 1, wherein the receiving case includes a first receiving case for receiving the sphygmomanometer and a second receiving case for receiving the cuff.

10. The sphygmomanometer receiver apparatus according to claim 1, wherein: the receiver is including setting up the logical sound hole of the outer wall of receiver.

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