CN210871546U - Monitoring device and monitoring system - Google Patents

Abstract

The utility model provides a monitoring device and a monitoring system, which comprises a first shell, a second shell, a first shell and a second shell, wherein the first shell is provided with a containing cavity; the circuit board is arranged in the accommodating cavity, the power circuit module is connected with the circuit board in a circuit mode, the light emission temperature sensor, the blood oxygen photoelectric sensing device and the heart rate pulse device are connected to one side, close to the first shell, of the circuit board, the monitoring device further comprises a connecting port, the connecting port is connected with the circuit board through the power circuit module, and the connecting terminal is connected with the mobile terminal so that the mobile terminal can supply power to the circuit board through the connecting port. Like this, the technical scheme that this embodiment provided monitors user's blood oxygen, blood pressure condition in real time through setting up light emission temperature sensor, blood oxygen photoelectric sensing device and heart rate pulse device to in time take safeguard measure according to the blood oxygen, the blood pressure condition of monitoring, in order to guarantee user's health, this monitoring devices's convenient to use promptly, and simple structure can save the cost.

Description

Monitoring device and monitoring system

Technical Field

The utility model relates to a monitoring technology field, in particular to monitoring devices and monitoring system.

Background

With the development of society, environmental pressure caused by the technology soaring is increased, and people are concerned about whether the living environment of people is problematic.

At present, the monitor generally adopts the half chip computer principle, wherein, including a plurality of modules such as sensor, master controller, battery module, alarm, screen, the monitor sets up modules such as master controller, battery module, alarm, screen for the structure of whole monitor is complicated, the cost is higher, and is difficult for using.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a monitoring devices and monitoring system has solved the problem that current monitor's structure is complicated, the cost is higher, and is difficult for using.

In order to achieve the above object, an embodiment of the present invention provides a monitoring device, which includes a first housing, a second housing, a circuit board, a connection port, a power circuit module, a light emission temperature sensor, a blood oxygen photoelectric sensing device, and a heart rate pulse device;

the first shell is provided with an accommodating cavity, and the second shell is covered on the first shell; the circuit board is arranged in the accommodating cavity, the power circuit module is connected with the circuit board in a circuit mode, and the light emission temperature sensor, the blood oxygen photoelectric sensing device and the heart rate pulse device are connected to one side, close to the first shell, of the circuit board;

the connection port passes through power supply circuit module with the circuit board is connected, just connecting terminal connects mobile terminal to make mobile terminal pass through the connection port to the circuit board power supply.

Furthermore, a avoiding groove is formed in the first shell, and the light emission temperature sensor is arranged in the avoiding groove.

Furthermore, a through hole is formed in the groove wall of the avoiding groove, a light source generating piece is arranged on the light emission temperature sensor, and the position of the through hole corresponds to the position of the light source generating piece, so that a light source generated by the light source generating piece is emitted to the outside of the first shell through the through hole.

Furthermore, a through hole is further formed in the first shell, the position of the connecting port corresponds to the position of the through hole, and the connecting end of the connecting port is arranged opposite to the hole opening of the through hole.

Further, the connection port is a USB port.

Further, the monitoring device further comprises a gas sensor and an electromagnetic sensor, and the gas sensor and the electromagnetic sensor are connected to one side, close to the second shell, of the circuit board.

Furthermore, an air inlet is arranged on the second shell, and an air inlet of the gas sensor is opposite to the air inlet.

Further, the gas sensor includes at least one of a sulfur dioxide sensor, a carbon monoxide sensor, a methane sensor, and a formaldehyde sensor.

Furthermore, the first shell and the second shell are made of plastics.

In order to achieve the above object, the embodiment of the present invention further provides a monitoring system, which includes a terminal, a connecting wire and the monitoring device;

and the terminal is connected with the monitoring device through the connecting line.

The embodiment of the utility model provides a monitoring device and a monitoring system, which comprises a first shell, a second shell, a circuit board, a connecting port, a power circuit module, a light emission temperature sensor, a blood oxygen photoelectric sensing device and a heart rate and pulse device; the first shell is provided with an accommodating cavity, and the second shell is covered on the first shell; the circuit board is arranged in the accommodating cavity, the power circuit module is connected with the circuit board in a circuit mode, and the light emission temperature sensor, the blood oxygen photoelectric sensing device and the heart rate pulse device are connected to one side, close to the first shell, of the circuit board; the connection port passes through power supply circuit module with the circuit board is connected, just connecting terminal connects mobile terminal to make mobile terminal pass through the connection port to the circuit board power supply. Like this, the technical scheme that this embodiment provided monitors user's blood oxygen, blood pressure condition in real time through setting up light emission temperature sensor, blood oxygen photoelectric sensing device and heart rate pulse device to in time take safeguard measure according to the blood oxygen, the blood pressure condition of monitoring, in order to guarantee user's health, this monitoring devices's convenient to use promptly, and simple structure can save the cost.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments or examples of the present invention, the drawings used in the embodiments or examples will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of a one-directional structural explosion of a monitoring device according to an embodiment of the present invention;

fig. 2 is an exploded view of the monitoring device according to the embodiment of the present invention in another direction;

fig. 3 is a system block diagram of the monitoring system according to the embodiment of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in FIGS. 1-2, an embodiment of the present invention provides a monitoring device.

In one embodiment, as shown in fig. 1-2, the monitoring device includes a first housing 1, a second housing 2, a circuit board 3, a power circuit module 4, a light emitting temperature sensor 5, a blood oxygen photoelectric sensor 6 and a heart rate pulse device 7. The first shell 1 is provided with an accommodating cavity 8, and the second shell 2 is covered on the first shell 1; the circuit board 3 is arranged in the accommodating cavity 8, the power circuit module 4 is connected with the circuit board 3 in a circuit mode, and the light emission temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 are connected to one side, close to the first shell 1, of the circuit board 3.

Further, the power circuit module 4 may be disposed at any position of the circuit board 3.

Further, the first casing 1 has an accommodating cavity 8, the accommodating cavity 8 is used for accommodating the circuit board 3, the power circuit module 4, the light emission temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7, and the accommodating cavity 8 can be covered on the first casing 1 through the second casing 2. Wherein, the length and the width that hold chamber 8 are greater than the length and the width of circuit board 3, so that circuit board 3 can install hold in the chamber 8, just light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 and heart rate pulse device 7 connect in circuit board 3 is close to one side of first casing 1 makes light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 and heart rate pulse device 7 can be in hold in the chamber 8.

Further, a protective layer (not shown) is coated on the inner wall of the accommodating cavity 8 to protect the structures of the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 from being damaged when the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 are in contact with the inner wall of the accommodating cavity 8. Optionally, the material of the protective layer includes, but is not limited to, rubber, silicone, and the like.

Further, the light emitting temperature sensor 5 is used for emitting a light source and sensing a temperature according to the emitted light source, wherein the sensed temperature may be an ambient temperature or a surface temperature of the user, that is, the light emitting temperature sensor 5 may directly contact the user's skin through the emitted light source to obtain the ambient temperature, or the light emitting temperature sensor 5 may directly contact the user's skin through the emitted light source to obtain the surface temperature of the user's body. Optionally, the light source emitted by the light emitting temperature sensor 5 is visible light, wherein the wavelength range of the visible light is 770nm to 390nm, for example, the wavelength range of visible red light is 770nm to 622nm, the wavelength range of visible green light is 577nm to 492nm, and the wavelength range of visible blue light is 492nm to 455nm, which is not limited herein. Of course, in the present embodiment, the light source emitted by the light emitting temperature sensor 5 is invisible light, wherein the invisible light includes infrared light, ultraviolet light, and the like, and is not limited herein.

Further, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 are respectively used for acquiring blood oxygen data and blood pressure data of a user, specifically, when the light emission temperature sensor 5 is in contact with the skin of the user through a light source for emission, information which is absorbed by the skin and then reflected back is acquired, the information is transmitted to the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 through the circuit board 3, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 respectively obtain corresponding blood oxygen data and blood pressure data according to the information calculation, and in addition, corresponding heart rate data, electrocardiogram data and the like can be obtained according to the information calculation. The blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 are used for analyzing the skin information of the user collected by the light emission temperature sensor 5 to calculate the blood oxygen data and the blood pressure data of the user, so that the blood oxygen and blood pressure conditions of the user can be monitored in real time, and protective measures can be taken in time according to the monitored blood oxygen and blood pressure conditions to ensure the health of the user.

Further, in order to guarantee circuit board 3 and light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 heart rate pulse device 7's normal work, monitoring devices still includes connection port 9, connection port 9 passes through power supply circuit module 4 with circuit board 3 is connected, just connecting terminal 8 connects mobile terminal, so that mobile terminal passes through connection port 9 to circuit board 3 power supply can make circuit board 3 and light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 heart rate pulse device 7 keeps normal work, regularly or acquires detection data in real time.

Further, the circuit board 3 may further communicate with the mobile terminal through the connection port 9, an APP (Application) adapted to the monitoring device is installed on the mobile terminal, that is, data of each sensor acquired by the circuit board 3 may be transmitted to the APP of the mobile terminal through the connection port, and the data is analyzed, and when the data exceeds a threshold, an alarm is given through the mobile terminal, where the alarm may be a preset ringing mode, or vibration, and the like, and there is no limitation here. In this way, the monitoring device in this embodiment is used for monitoring data of a user, and performs data processing through the mobile terminal connected with the monitoring device, that is, the monitoring device can save most modules or devices such as a screen, a battery, a buzzer, a flasher, a circuit switch module and the like, so that the manufacturing cost of the monitoring device can be saved.

Optionally, the light emission temperature sensor 5 is of a model MLX90615, that is, the light emission temperature sensor is a digital infrared sensor, and light emitted by the light emission temperature sensor is infrared light; the model of the blood oxygen photoelectric sensing device 6 is YKB1712, and the model of the heart rate pulse device 7 is HRB 6708. Of course, in other embodiments, the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 may be of other types, and are not limited herein.

Further, the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 detect the environmental parameters and the blood oxygen, blood pressure, heart rate, electrocardiogram and other data of the user within a preset time interval, wherein the preset time interval may be 1s, 5s, 10s and the like, and is not limited herein.

In the embodiment of the present invention, the monitoring device includes a first casing 1, a second casing 2, a circuit board 3, a power circuit module 4, a light emitting temperature sensor 5, a blood oxygen photoelectric sensor 6 and a heart rate and pulse device 7. The first shell 1 is provided with an accommodating cavity 8, and the second shell 2 is covered on the first shell 1; circuit board 3 is located hold in the chamber 8, power supply circuit module 4 with circuit board 3 is connected with the form of circuit, light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 and heart rate pulse device 7 connect in circuit board 3 is close to one side of first casing 1, monitoring devices still includes connection port 9, connection port 9 passes through power supply circuit module 4 with circuit board 3 is connected, just connecting terminal 8 connects mobile terminal, so that mobile terminal passes through connection port 9 to circuit board 3 supplies power. Like this, the technical scheme that this embodiment provided monitors user's blood oxygen, blood pressure condition in real time through setting up light emission temperature sensor 5, blood oxygen photoelectric sensing device 6 and heart rate pulse device 7 to in time take safeguard procedures according to the blood oxygen, the blood pressure condition of monitoring, in order to guarantee user's health, this monitoring devices's convenient to use promptly, and simple structure can save the cost.

Furthermore, a clearance groove 10 is formed in the first housing 1, and the light emission temperature sensor 5 is disposed in the clearance groove 10. The shape of light emission temperature sensor 5 is the cylindricality, works as light emission temperature sensor 5 locates when holding chamber 8 of first casing 1, because the hole that holds chamber 8 is less, be in first casing 1 is seted up promptly and is used for light emission temperature sensor 5 keeps away the groove 10 of keeping away of position, can save the space that holds chamber 8.

Further, a through hole 11 is formed in a wall of the avoiding groove 10, a light source generating member (not shown) is arranged on the light emission temperature sensor 5, the light source generating member is used for generating a light source, and a position of the through hole 11 corresponds to a position of the light source generating member, so that the light source generated by the light source generating member is emitted to the outside of the first housing 1 through the through hole 11. Namely, the light source generating member of the light emitting temperature sensor 5 generates a light source, and emits the light source to the outside of the monitoring device through the via hole 11 provided on the groove wall of the avoiding groove 10, so as to sense the temperature of the external environment.

Further, the position of the via hole 11 may be set according to the position of the light source generating member of the light emitting temperature sensor 5, that is, the position of the via hole 11 is not limited in this embodiment, and it is sufficient that the light source generated by the light source generating member of the light emitting temperature sensor 5 penetrates through the via hole, and therefore, the aperture of the via hole 11 is not limited in this embodiment.

Furthermore, a through hole 12 is further formed in the first housing 1, the position of the connection port 9 corresponds to the position of the through hole 12, and the connection end of the connection port 9 is opposite to the hole opening of the through hole 12. The aperture of the through hole 12 is larger than the size of the connection end of the connection port 9, so that the mobile terminal can pass through the through hole 12 to be connected with the connection port 9, that is, the mobile terminal can supply power to the circuit board 3 through the connection port 9 and perform data transmission with the circuit board 3.

Optionally, the port 9 is a USB (Universal Serial Bus) port, that is, the mobile terminal may be connected to the port 9 through a USB data line. Of course, in other embodiments, the port 9 may be other types of ports, and is not limited herein.

It is understood that the mobile terminal can be a mobile phone, a computer, a tablet, etc., without limitation.

Further, in order to enable the monitoring device to detect the environmental parameter, the monitoring device further includes a gas sensor 13 and an electromagnetic sensor 14, and the gas sensor 13 and the electromagnetic sensor 14 are connected to a side of the circuit board 3 close to the second housing 2. The gas sensor 13 is used for monitoring the concentration of gas in the environment, the electromagnetic sensor 14 is used for monitoring the electromagnetic wave radiation in the environment, and can transmit the detected gas concentration and electromagnetic wave radiation to the circuit board 3, the circuit board 3 can transmit the gas concentration and the electromagnetic wave radiation to the mobile terminal through the connecting port 9 for data processing.

Further, an air inlet hole 15 is arranged on the second housing 2, and an air inlet of the gas sensor 13 is arranged opposite to the air inlet hole 15, so that air outside the monitoring device can enter the accommodating cavity through the air inlet hole 15 and directly enter from the air inlet of the gas sensor 13, and the gas sensor 13 can directly monitor the concentration of the entering air. Wherein the gas sensor 13 includes at least one of a sulfur dioxide sensor, a carbon monoxide sensor, a methane sensor, and a formaldehyde sensor. In other words, in the embodiment, the concentration of the corresponding gas can be monitored according to different types of gas sensors, so that the gas is transmitted to the mobile terminal, the mobile terminal judges whether the concentration of the gas exceeds the standard or not, and early warning is performed when the concentration of the gas exceeds the standard.

Optionally, in this embodiment, the gas sensor is mainly used for detecting the concentration of formaldehyde and the concentration of carbon monoxide in the environmental parameters, that is, the gas sensor includes a formaldehyde sensor and a carbon monoxide sensor, wherein the model of the formaldehyde sensor is ZE08-CH2O, and the model of the carbon monoxide sensor is MQ-7. Of course, in other embodiments, other gas sensors may be used, and other types of formaldehyde sensors and carbon monoxide sensors may also be used, without limitation.

Optionally, the electromagnetic sensor 14 is of the type GS-1260. In other embodiments, other types of electromagnetic sensors may be used, without limitation.

Furthermore, the first shell 1 and the second shell 2 are made of plastic, so that the whole monitoring device is lighter in weight and convenient to carry. Of course, in other embodiments, the material of the first casing 1 and the second casing 2 may be other materials, and is not limited herein.

Further, the monitoring device has various embodiments, that is, any one of the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6, the heart rate pulse device 7, the gas sensor 13 and the electromagnetic sensor 14 and the combination of several of them form a monitoring device with one or more than two functions, for example, the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7 form a monitoring device capable of monitoring the ambient temperature and the blood oxygen, blood pressure, heart rate and electrocardiographic data of the user, the light emitting temperature sensor 5, the gas sensor 13 and the electromagnetic sensor 14 form a monitoring device capable of monitoring the ambient temperature and the gas concentration and the electromagnetic wave radiation, etc., without limitation.

In the embodiment of the present invention, the monitoring device includes a first casing 1, a second casing 2, a circuit board 3, a power circuit module 4, a light emitting temperature sensor 5, a blood oxygen photoelectric sensor 6 and a heart rate and pulse device 7. The first shell 1 is provided with an accommodating cavity 8, and the second shell 2 is covered on the first shell 1; circuit board 3 is located hold in the chamber 8, power supply circuit module 4 with circuit board 3 is connected with the form of circuit, light emission temperature sensor 5 blood oxygen photoelectric sensing device 6 and heart rate pulse device 7 connect in circuit board 3 is close to one side of first casing 1, monitoring devices still includes connection port 9, connection port 9 passes through power supply circuit module 4 with circuit board 3 is connected, just connecting terminal 8 connects mobile terminal, so that mobile terminal passes through connection port 9 to circuit board 3 supplies power. In this way, the technical solution provided by this embodiment monitors the blood oxygen and blood pressure conditions of the user in real time by arranging the light emitting temperature sensor 5, the blood oxygen photoelectric sensing device 6 and the heart rate pulse device 7, and takes protective measures in time according to the monitored blood oxygen and blood pressure conditions to ensure the health of the user; and the monitoring device has a simple structure and can save cost.

Based on the above embodiment, as shown in fig. 3, the embodiment of the present invention further provides a monitoring system, where the monitoring system includes the mobile terminal 100, the connection line 200, and the monitoring device 300 of the above embodiment; wherein, the mobile terminal 100 is connected to the monitoring device 300 through the connection line 200.

Optionally, the mobile terminal 100 includes, but is not limited to, a mobile phone, a computer, a tablet, and other terminal devices, and the mobile terminal 100 is loaded with an APP adapted to the monitoring apparatus 300.

Since the monitoring system includes the monitoring device of the above embodiment, that is, the monitoring system includes all technical features and technical effects of the monitoring device of the above embodiment, specific reference is made to the description of the above embodiment, and details are not repeated here.

The above is only the optional embodiment of the present invention, and not therefore the limit to the patent scope of the present invention, all the concepts of the present invention utilize the equivalent transformation made by the contents of the specification and the drawings, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A monitoring device is characterized by comprising a first shell, a second shell, a circuit board, a connecting port, a power circuit module, a light emission temperature sensor, a blood oxygen photoelectric sensing device and a heart rate and pulse device;

the first shell is provided with an accommodating cavity, and the second shell is covered on the first shell; the circuit board is arranged in the accommodating cavity, the power circuit module is connected with the circuit board in a circuit mode, and the light emission temperature sensor, the blood oxygen photoelectric sensing device and the heart rate pulse device are connected to one side, close to the first shell, of the circuit board;

the connection port is connected with the circuit board through the power circuit module, and the connection port is connected with the mobile terminal, so that the mobile terminal supplies power to the circuit board through the connection port.

2. The monitoring device of claim 1, wherein the first housing defines a clearance groove, and the light emitting temperature sensor is disposed in the clearance groove.

3. The monitoring device according to claim 2, wherein a through hole is formed in a wall of the avoiding groove, and a light source generating member is disposed on the light emitting temperature sensor, and a position of the through hole corresponds to a position of the light source generating member, so that a light source generated by the light source generating member is emitted to the outside of the first housing through the through hole.

4. The monitoring device of claim 1, wherein the first housing further comprises a through hole, the connecting port is located at a position corresponding to the through hole, and the connecting end of the connecting port is disposed opposite to the aperture of the through hole.

5. The monitoring device of claim 4, wherein the connection port is a USB port.

6. The monitoring device of claim 1, further comprising a gas sensor and an electromagnetic sensor, wherein the gas sensor and the electromagnetic sensor are connected to a side of the circuit board near the second housing.

7. The monitoring device of claim 6, wherein the second housing has an air inlet disposed thereon, and the air inlet of the gas sensor is disposed opposite the air inlet.

8. The monitoring device of claim 7, wherein the gas sensor comprises at least one of a sulfur dioxide sensor, a carbon monoxide sensor, a methane sensor, a formaldehyde sensor.

9. The monitoring device of claim 1, wherein the first housing and the second housing are both plastic.

10. A monitoring system, characterized in that the monitoring system comprises a mobile terminal, a connecting line and the monitoring device according to any one of claims 1 to 9;

and the mobile terminal is connected with the monitoring device through the connecting line.

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