CN211956520U - Integrated monitoring device for user sign detection and identity information acquisition - Google Patents

Abstract

An integrated monitoring device for user sign detection and identity information acquisition mainly comprises an infrared temperature measurement module, an information acquisition module and a monitoring module, wherein the infrared temperature measurement module is used for carrying out infrared thermal detection on a user to be detected so as to obtain body temperature information of the user; the information acquisition module is used for acquiring the identity information of the user; the monitoring module is connected with the infrared temperature measuring module and the information acquisition module and is used for binding body temperature information and identity information of the user. Because the monitoring module binds the body temperature information and the identity information of the user, the integrated monitoring device realizes the integrated functions of infrared temperature measurement and user identity information acquisition, is convenient for effectively correlating and recording the body temperature information and the identity information of pedestrians, is easy to track potential abnormal body temperature personnel, and can meet the strict requirement of people flow management on public channels.

Description

Integrated monitoring device for user sign detection and identity information acquisition

Technical Field

The utility model relates to a technical field of intelligent monitoring, concretely relates to user's sign is surveyed and identity information acquisition's integrated monitoring device.

Background

In areas with large people flow, such as airports, train stations, subway stations, shopping malls, residential areas, and the like, a monitoring system is generally required to be arranged to manage people flow. Especially, when epidemic situations such as epidemic diseases occur, people need to be monitored so as to find individuals with abnormal body temperature in time and avoid wide-range spread of the epidemic situations.

At present, the main body temperature measuring equipment is a forehead temperature gun, a measurer needs to be in close contact with a testee, cross infection risks exist, and health safety of workers is threatened. In addition, the temperature measurement information and the personnel identity information cannot form effective association, the traceability is poor, and the manual registration mode brings the problems of personnel gathering, low clearance speed and the like. The system also adopts the thermal imaging technology to detect the body temperature, realizes the body temperature detection of pedestrians by installing a thermal imager, and sends out an alarm signal to inform background processing when detecting the abnormal temperature of the pedestrians. However, when the mass of people stream flows in, the existing system is difficult to distinguish and judge which pedestrian has abnormal body temperature, and cannot trace back to which specific person, and the strict requirement of people stream management in public places cannot be met.

Disclosure of Invention

The utility model discloses the main technical problem who solves is that current pedestrian's body temperature measurement risk is high and identity information management effect is poor, can't adapt to the strict requirement of public place stream of people management.

In order to solve the above technical problem, the present application provides an integrated monitoring device for user sign detection and identity information acquisition, which includes: the infrared temperature measurement module is used for carrying out infrared thermal detection on a user to be detected so as to obtain body temperature information of the user; the information acquisition module is used for acquiring the identity information of the user; and the monitoring module is connected with the infrared temperature measuring module and the information acquisition module and is used for binding the body temperature information and the identity information of the user.

The infrared temperature measurement module comprises an infrared sensor, and the infrared sensor is used for detecting infrared heat radiation of a user to be measured in a preset measurement area and converting the infrared heat radiation to obtain body temperature information of the user.

The integrated monitoring device further comprises an infrared sensing module, wherein the infrared sensing module is connected with the monitoring module and used for sensing objects passing through the measuring area through infrared irradiation and triggering the monitoring module to record body temperature information of a user when the user to be measured passes through the measuring area.

The infrared induction module comprises an infrared light supplement lamp and an infrared camera, the infrared light supplement lamp is used for conducting infrared light irradiation on the measurement area, the infrared camera is used for sensing infrared light of the measurement area, and whether a user passes through the measurement area or not is confirmed according to the sensing intensity.

The information acquisition module comprises a visible light camera, the visible light camera is used for shooting real-time images of the measurement area and transmitting the real-time images to the monitoring module, and the monitoring module carries out face recognition on the user according to the received real-time images so as to take the face images as identity information of the user.

The information acquisition module further comprises a white light supplement lamp, and the white light supplement lamp is used for performing white light irradiation on the measurement area.

The information acquisition module also comprises a radio frequency card reader, wherein the radio frequency card reader is used for communicating with a radio frequency card in which the identity information of the user to be detected is stored and reading the identity information of the user to be detected in the radio frequency card; the radio frequency card is an IC card or an identity card.

The integrated monitoring device comprises a shell, wherein the infrared temperature measuring module, the infrared sensing module and the information acquisition module are integrated on the surface of the shell, and the monitoring module is integrated inside the shell.

The integrated monitoring device further comprises a display, wherein the display is arranged on the surface of the shell and is in signal connection with the monitoring module, and the display is used for displaying the identity information and the body temperature information of the user.

The integrated monitoring device further comprises a communication module, wherein the communication module is connected with the monitoring module and used for transmitting the recorded identity information and the body temperature information to a rear-end management platform in a wired or wireless mode and/or outputting a control signal to control a gate on a preset channel to execute an opening action when the body temperature information of the user is normal.

The integrated monitoring device also comprises an alarm module and a power supply adaptation module; the alarm module is arranged on the surface of the shell, is in signal connection with the monitoring module and is used for generating sound/light alarm information when the body temperature information of the user is abnormal; the power supply adaptation module is arranged in the shell, is electrically connected with other modules and is used for being connected with external commercial power through a line.

The integrated monitoring device further comprises a rack, wherein the rack comprises a first part and a second part which are movably connected, the first part is used for being fixed on a wall body or a column body, and the second part is used for fixing the shell.

The surface of the shell is provided with a junction box, the second component is provided with an assembly area of the junction box, and the junction box is clamped with the assembly area to fix the shell.

A rotating shaft, a hinge or a turntable is arranged between the first component and the second component, and the second component is rotated to enable the infrared temperature measuring module and the infrared induction module arranged on the shell to face a preset measuring area.

The beneficial effect of this application is:

according to the integrated monitoring device for user sign detection and identity information acquisition of the embodiment, the integrated monitoring device comprises an infrared temperature measuring module, an information acquisition module and a monitoring module, wherein the infrared temperature measuring module is used for carrying out infrared thermal detection on a user to be detected so as to obtain body temperature information of the user; the information acquisition module is used for acquiring the identity information of the user; the monitoring module is connected with the infrared temperature measuring module and the information acquisition module and is used for binding body temperature information and identity information of the user. On the first hand, the monitoring module binds the body temperature information and the identity information of the user, so that the integrated monitoring device realizes the integrated functions of infrared temperature measurement and information acquisition, is convenient for quickly and effectively correlating and recording the body temperature information and the identity information of pedestrians, is easy to track potential abnormal body temperature personnel, and can meet the strict requirement of people flow management; in a second aspect, the integrated monitoring device further comprises an infrared sensing module, so that the infrared sensing module can sense an object passing through the measurement area at any time, and the monitoring module is started to record body temperature information of a user only when the object passes through the measurement area, thereby effectively preventing the occurrence of a wrong recording condition; in the third aspect, the information acquisition module comprises a visible light camera and a radio frequency card reader, so that the acquired face image can be used as the identity information of the user to be detected, or the acquired information stored in the radio frequency card can be used as the identity information of the user to be detected; in a fourth aspect, the integrated monitoring device further comprises a shell, so that the infrared temperature measuring module, the infrared sensing module and the information acquisition module can be integrated on the surface of the shell, and the monitoring module is integrated inside the shell, so that the shell can be conveniently carried and installed; in a fifth aspect, the integrated monitoring device further comprises a communication module, so that the communication module can transmit the recorded identity information and the body temperature information to a back-end management platform in a wired or wireless manner, and/or output a control signal to control a gate on a preset channel to open when the body temperature information of the user is normal, so that information interaction with other equipment can be performed, and people flow on a public channel can be better managed; in the sixth aspect, the alarm module is further included, so that the alarm module generates sound/light alarm information when the body temperature information of the user is abnormal, and timely reminds workers to carry out special management on the current user to be detected, thereby finding out potential infectors under epidemic conditions; in the seventh aspect, the housing can be conveniently fixed on the second part of the frame and can rotate as required due to the frame, so that the infrared temperature measuring module and the infrared sensing module arranged on the housing face the preset measuring area by rotating the second part; in the eighth aspect, the detection process of the device is simple, rapid and accurate, the working intensity of security personnel can be reduced, the passing efficiency is improved, people with abnormal body temperature can be isolated in time, and the diffusion of flow diseases is avoided.

Drawings

FIG. 1 is a schematic structural diagram of an integrated monitoring device according to the present application;

FIG. 2 is a schematic structural diagram of an integrated monitoring device in another embodiment;

FIG. 3 is a schematic diagram illustrating the connection relationship between components in the integrated monitoring device;

FIG. 4 is a second schematic diagram illustrating the connection relationship between the components in the integrated monitoring device;

FIG. 5 is a schematic front view of an integrated monitoring device in an exemplary embodiment;

FIG. 6 is a schematic side view of an integrated monitoring device in an exemplary embodiment;

FIG. 7 is a schematic view of the backside of an integrated monitoring device in one embodiment;

FIG. 8 is a schematic view of a frame;

fig. 9 is a schematic diagram of an application system formed by the integrated monitoring device.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The first embodiment,

Referring to fig. 1, the present embodiment discloses an integrated monitoring device for user sign detection and identity information acquisition, where the integrated monitoring device a1 includes an infrared temperature measurement module 11, an information acquisition module 12, and a monitoring module 13, which are described below.

The infrared temperature measurement module 11 performs infrared thermal detection on a user to be detected based on the technical principle of infrared thermal detection to obtain body temperature information of the user.

In one embodiment, the infrared temperature measuring module 11 includes an infrared sensor, which detects infrared thermal radiation of a user to be measured in a preset measuring area and converts the infrared thermal radiation into body temperature information of the user. It can be understood that the infrared sensor has a certain measuring range, and only the user to be measured can effectively carry out infrared thermal radiation detection when passing through the measuring range, so that the physical variation of the sensor is converted into a body temperature value, and the body temperature information of the user to be measured can be obtained at the moment.

It should be noted that infrared is a light invisible to human eyes, but it is an objective substance, and any object will have infrared radiation to the surroundings as long as its temperature is higher than zero thermodynamic degree, and the wavelength range of infrared is usually about in the spectral range of 0.75-100 μm. The physical nature of infrared radiation is thermal radiation, and the higher the temperature of an object, the more infrared rays are radiated, and the stronger the energy of the infrared radiation is. The infrared sensor utilizes the radiant heat effect to enable the temperature to rise after the detection device receives the radiant energy, so that the variation of the temperature is detected, the infrared radiation is detected through the seebeck effect under most conditions, after the device receives the radiation, a non-electric physical change is caused, and the non-electric physical change is converted into an electric change, so that the variation of the temperature can be obtained through conversion.

The information collecting module 12 is configured to collect identity information of a user, where the identity information may be a certificate number, a face image, a fingerprint, and the like of the user, and different information may be obtained by using a corresponding collecting component, for example, the certificate number may be obtained by using a card reader, the face image may be obtained by using a camera, and the fingerprint may be obtained by using a fingerprint identifier, which is not limited specifically here.

In an embodiment, referring to fig. 3, the information collecting module 12 may include a visible light camera 121, the visible light camera 121 is connected to the monitoring module 13, and is configured to capture a real-time image of the measurement area and transmit the real-time image to the monitoring module 13, and the monitoring module 13 performs face recognition on the user to be detected according to the received real-time image, so as to use the face image as the identity information of the user.

Further, in order to enhance the accuracy of the light camera 121 for recognizing the face, the information acquisition module 12 may further include a white light supplement lamp 122, the white light supplement lamp 122 is connected to the monitoring module 13, and may obtain a direct current required for work or obtain a control signal required for lighting from the monitoring module 13, the white light supplement lamp 122 is used for performing white light irradiation on the measurement area, and may enhance the reflection intensity of the user passing through the measurement area after the measurement area is illuminated, thereby capturing a clear image of the user to be measured, easily identifying the face area in the image processing process, and is particularly suitable for a public channel with weak ambient light brightness.

It should be noted that the method for obtaining the face image by the monitoring module 13 through face recognition belongs to the prior art, and the technique is applied in many fields. For example, patent document (CN201611227808.9) discloses a method, an apparatus, and a system for face recognition, where the apparatus can acquire a video image and extract a face image in the video image, and even compare the face image with a plurality of face data in a preset database one by one, so as to obtain face data corresponding to a high target matching degree.

In a specific embodiment, referring to fig. 3, the information acquisition module 12 further includes a radio frequency card reader 123, where the radio frequency card reader 123 is connected to the monitoring module 13, and is configured to communicate with a radio frequency card storing the identity information of the user to be detected, and read the identity information of the user to be detected in the radio frequency card; the radio frequency card is an IC card or an identity card. For example, when the user to be tested holds an IC card and passes through the measurement area, the user can swipe the card through the radio frequency card reader 123 to perform information interaction, so that the monitoring module 13 obtains the identity information stored in the IC card through the radio frequency card reader 123.

Monitoring module 13 is connected with infrared temperature measurement module 11 and information acquisition module 12, monitoring module 13 is used for binding user's body temperature information and identity information, thereby conveniently carry out body temperature detection and identity to the user and track, can reach the purpose that the information intelligence matches, each user to the last process of public channel carries out health investigation and personnel management, can in time know this user's identity when detecting that a certain user's body temperature is unusual, do benefit to and alleviate staff's work load and needn't carry out on-the-spot manual registration.

It should be noted that the monitoring module 13 may be a processor, a central chip, a micro digital processing circuit, or other processing device, and the purpose of synchronously storing the input information to achieve information binding is to process the general function of the device, which is easy to implement, and does not require creative work of technicians, only needs to adopt the conventional prior art.

The technical personnel in the field can understand that the monitoring module 13 binds the body temperature information and the identity information of the user, so that the integrated monitoring device realizes the integrated functions of infrared temperature measurement and information acquisition, is convenient for effectively correlating and recording the body temperature information and the identity information of pedestrians, is easy to track potential abnormal body temperature personnel, and adapts to the strict requirements of people flow management. In addition, since the information acquisition module 12 includes a visible light camera and a radio frequency card reader, the acquired face image can be used as the identity information of the user to be detected, or the acquired information stored in the radio frequency card can be used as the identity information of the user to be detected, so as to form a rich user identity identification function.

Example II,

Referring to fig. 2, on the basis of the integrated monitoring device a1 disclosed in the first embodiment, a structural improvement is further performed on the integrated monitoring device a1, and the improved integrated monitoring device a2 includes not only the infrared temperature measuring module 11, the information collecting module 12, and the monitoring module 13, but also the infrared sensing module 14, which are described below respectively.

It should be noted that the performance and the connection relationship of the infrared temperature measurement module 11, the information acquisition module 12, and the monitoring module 13 have been described in the first embodiment, and are not described herein again.

The infrared sensing module 14 is connected with the monitoring module 13, and the infrared sensing module 14 is used for sensing an object passing through a measurement area through infrared irradiation and triggering the monitoring module to record body temperature information of a user when the user to be measured passes through the measurement area.

In a specific embodiment, referring to fig. 3, the infrared sensing module 14 includes an infrared fill-in lamp 141 and an infrared camera 142, wherein the infrared fill-in lamp 141 can emit infrared light and is mainly used for irradiating infrared light to a measurement area; the infrared camera 142 can receive infrared light of a specific waveband and filter light of other wavebands, is mainly used for sensing infrared light of a measuring area, and confirms whether a user passes through the measuring area according to the sensing intensity. It can be understood that the infrared fill-in light lamp 141 emits infrared rays to illuminate an object, the infrared rays are subjected to diffuse reflection and received by the infrared camera 142 to form a video image, the video images corresponding to the non-human body and the human body are obviously different, and whether the human body/user passes through a measurement area can be judged based on the difference.

It should be noted that the infrared sensing module 14 is provided to sense whether a human body passes through the measurement area, and to exclude non-human bodies that pass through. In order to prevent the non-human body (such as a wall, a ground, a parcel, a human face picture or a mask) from being subjected to temperature detection and recording temperature information thereof, the infrared sensing module 14 is used for performing infrared sensing on an object passing through a measurement area, the non-human body often has a low temperature characteristic, and the human body often has a high temperature characteristic, so that the non-human body absorbs more infrared rays from the infrared light supplement lamp 141 and diffusely reflects less infrared rays to the infrared camera 142, and the human body absorbs less infrared rays from the infrared light supplement lamp 141 and diffusely reflects more infrared rays to the infrared camera 142, so that whether the object passing through the measurement area is an object with a high temperature characteristic can be judged through image differences in video images generated by the infrared camera 142, and whether the object is a human body of a user to be detected can be judged.

It should be noted that, the detection of the human motion state in the measurement area by using the infrared sensing principle should belong to the prior art, because the detection is already commonly applied in the current night vision camera monitoring, such as a night vision camera used in security products, it can be determined whether a human body passes through the monitoring area by analyzing the temperature difference of the object in the image.

In a specific embodiment, referring to fig. 3, when detecting that there is an image difference in the video image, the infrared camera 142 of the infrared sensing module 14 determines that an object such as a human body passes through the measurement area, and sends a trigger signal to the monitoring module 13, so that the monitoring module 13 timely records the body temperature information obtained from the infrared temperature measurement module 11 after receiving the trigger signal.

As can be understood by those skilled in the art, the integrated monitoring device further comprises the infrared sensing module 14, so that the infrared sensing module 14 can sense an object passing through the measurement area at any time, and the monitoring module is started to record the body temperature information of the user only when the object passes through the measurement area, thereby effectively preventing the occurrence of the condition of error recording.

Example III,

Referring to fig. 4, on the basis of the integrated monitoring device a2 disclosed in the second embodiment, a structural improvement is further performed on the integrated monitoring device a2, and the improved integrated monitoring device A3 includes not only the infrared temperature measuring module 11 (e.g., the infrared sensor 111), the information collecting module 12 (e.g., the visible light camera 121, the white light supplement lamp 122, and the radio frequency card reader 123), the monitoring module 13, and the infrared sensing module 14 (e.g., the infrared supplement lamp 141 and the infrared camera 142), but also the display 16.

The display 16 is connected to the monitoring module 13 for displaying the identity information and the body temperature information of the user, so that the staff or the user can know the monitored information in time. Specifically, the display 16 may be any type of display panel, and the specific size may be set according to actual needs, which is not limited herein. In addition, the display 16 can display information such as thermodynamic diagrams and monitoring videos, and the display function of the display is enriched.

Further, the integrated monitoring device a3 may further include a communication module 17, where the communication module 17 is connected to the monitoring module 13, and is configured to transmit the recorded identity information and the body temperature information to a back-end management platform (not shown in fig. 4) in a wired or wireless manner, and/or output a control signal to control a gate (not shown in fig. 4) on a preset channel to perform an opening operation when the body temperature information of the user is normal.

Further, the integrated monitoring device a3 further includes an alarm module 18 and a power adapter module 19. The alarm module 18 is connected to the monitoring module 13, receives a signal from the monitoring module 13, and is configured to generate sound/light alarm information when the body temperature information of the user to be measured is abnormal. It can be understood that the alarm module 18 may be a speaker, a buzzer, an LED indicator, or other components, and may generate sound or light indicating information under the driving of the signal of the monitoring module 13, so as to remind the workers on the site.

Further, the integrated monitoring device a3 further includes a power adapter module 19, where the power adapter module 19 is electrically connected to each module, and is used for providing dc power required by operation for each module, and converting the dc power required by the inside into the mains power by connecting to the outside through a line. It is understood that the power adaptation module 19 may be a circuit structure formed by circuits such as a voltage regulator, a switching power supply, and the like.

Example four,

Referring to fig. 5 to 7, on the basis of the integrated monitoring device A3 disclosed in the third embodiment, an improved integrated monitoring device is disclosed in the present embodiment and is denoted by reference numeral a 4.

In this embodiment, the integrated monitoring device a4 includes not only the infrared temperature measuring module 11 (e.g., the infrared sensor 111), the information collecting module 12 (e.g., the visible light camera 121, the white light supplement lamp 122, and the radio frequency card reader 123), the monitoring module 13, the infrared sensing module 14 (e.g., the infrared supplement lamp 141 and the infrared camera 142), but also the display 16, the communication module 17, the alarm module 18, the power adapter module 19, and the housing 15.

The housing 15 is a housing of the integrated monitoring device a4, and integrates and protects the modules, so that the modules form a complete product convenient to carry and install.

In the present embodiment, referring to fig. 5, the infrared temperature measuring module 11, the infrared sensing module 14 and the information collecting module 12 are integrated on the surface of the housing 15, and the monitoring module 13 is integrated inside the housing 15. Specifically, the infrared temperature measuring module 11 includes an infrared sensor 111 disposed at the top of the housing 15, and a receiving area for self-radiated infrared rays of a user to be measured is formed on the top surface; the infrared fill-in light 141 and the infrared camera 142 of the infrared sensing module 14 are arranged at the top of the housing 15, and an area for emitting infrared light and a receiving area for receiving diffuse reflection infrared light of a user to be detected are respectively formed on the surface of the top, and are preferably arranged in parallel with the infrared sensor 111, so that an attractive and compact design effect is achieved; the visible light camera 121 of the information acquisition module 12 is also integrated on the top of the housing 15 and forms a visible light camera area on the top surface, preferably arranged in parallel with the infrared sensor 111; the white light supplement lamp 122 of the information acquisition module 12 is arranged on the surface of the shell 15 and close to the visible light camera 121, and the white light supplement lamp 122 can be formed by a dot matrix light source formed by a plurality of LEDs, so that the advantages of high white light brightness and electric energy saving are achieved; the radio frequency card reader 123 of the information acquisition module 12 is arranged at the lower part of the shell 15, and a card swiping sensing area is formed on the lower surface of the shell to support a user to swipe an IC card or an identity card.

In the present embodiment, referring to fig. 5, the display 16 may be provided on a surface of the housing 15, preferably in the middle of the housing 15, so that a worker or a user may directly view the display contents on the display 16 while standing in front of the housing 15. Specifically, the display 16 is in signal connection with the monitoring module 13 disposed inside the housing 15, and is used for displaying the identity information and the body temperature information of the user.

In the present embodiment, referring to fig. 6, the communication module 17 is disposed inside the housing 15, but it has a standard communication interface and the communication interface is disposed on the outer surface of the housing 15, and is preferably connected with an external device in a wired manner, and the communication module 17 functions as a communication bridge to enable information interaction between the external device and the monitoring module 13. For example, the communication module 17 may transmit the identity information and the body temperature information recorded by the monitoring module 13 to a backend management platform, and/or output a control signal to control a gate on a preset channel to perform an opening action when the body temperature information of the user is normal.

In the present embodiment, referring to fig. 6, the alarm module 18 is disposed on an outer side surface of the housing 15, and a sound/light emitting area is formed on the outer side surface so that a sound of an alarm can be outwardly transmitted through the emitting area and also so that a bright light of the alarm can be outwardly indicated through the emitting area. Specifically, the alarm module 18 is in signal connection with the monitoring module 13 disposed inside the housing 15, and is configured to generate sound/light alarm information when the body temperature information of the user to be measured is abnormal.

In the present embodiment, referring to fig. 7, the power adapter module 19 is disposed inside the housing 15, but it has a standard power interface and the power interface is disposed on the back surface of the housing 15, which plays a role of aesthetic appearance and convenient wiring. Specifically, the power adapter module 19 is electrically connected to other modules, and is configured to access an external commercial power through a line, and if the external commercial power is accessed, the power adapter module is converted into a low-voltage direct current to supply power to other modules; if the external direct current commercial power is connected, the voltage is stabilized to be low-voltage direct current and then power is supplied to other modules.

As can be understood by those skilled in the art, since the integrated monitoring device further comprises the housing 15, the infrared temperature measuring module, the infrared sensing module and the information collecting module can be integrated on the surface of the housing, and the monitoring module is integrated inside the housing, so that the housing can be conveniently carried and installed. In addition, because the shell 15 is also integrated with an alarm module, the alarm module generates sound/light alarm information when the body temperature information of the user is abnormal, and timely reminds workers to carry out special management on the current user to be detected, so that potential infectors under epidemic situations can be found.

Example V,

Referring to fig. 7 and 8, on the basis of the integrated monitoring device a4 disclosed in the fourth embodiment, a rack 20 assembled with an integrated monitoring device a4 is also disclosed.

In this embodiment, the housing 20 includes a first member 201 and a second member 202 movably connected, wherein the first member 201 is configured to be fixed to a wall or a column, and the second member 202 is configured to be fixed to the housing 15 of the integrated monitoring device a 4. It will be appreciated that the housing 15 may be mounted on a wall or column of a certain height by the frame 20, and that the tilt angle or rotational direction of the housing 15 relative to the wall or column may be easily adjusted by rotating the second member 202.

In one embodiment, referring to fig. 7 and 8, the surface of the housing 15 is provided with a terminal block 205 (such as a conventional 86-box), and the second member 202 is provided with a mounting area 204 of the terminal block 205, and the housing 15 is fixed by clamping the terminal block 205 with the mounting area 204. Since the junction box 205 and its mounting area 204 are common wiring kits, they will not be described in detail herein.

In a specific embodiment, referring to fig. 8, a rotating shaft, a hinge or a turntable is provided between the first member 201 and the second member 202, and the infrared temperature measuring module and the infrared sensing module provided on the housing 15 are oriented to a predetermined measuring region by rotating the second member 202. For example, the first member 201 and the second member 202 may be movably linked together by a screw 203, and the direction of rotation and the angle of inclination of the second member 202 may be set when the screw 203 is adjusted.

As will be appreciated by those skilled in the art, the housing 15 may be conveniently fixed to the second part of the frame by further including the frame 20, and rotated as needed, so that the infrared temperature measuring module and the infrared sensing module provided on the housing are directed to a predetermined measuring region by rotating the second part.

Example six,

Referring to fig. 9, based on the technical solution disclosed in the fifth embodiment, the present embodiment discloses an application system of an integrated monitoring device a4, which includes a housing 15 and modules integrated thereon, a rack 20 for matching with the housing 15, a wall 3 for matching with and fixing the rack 20, a rear management platform, and a gate 2.

In this embodiment, the housing 20 is fixed to the wall 3, preferably at a height close to the height of the user U1 to be tested. The rotation direction and the inclination angle of the housing 15 can be adjusted by rotating the second part 202 of the rack 20, so that the modules (such as the infrared sensor 111, the visible light camera 121, the white light supplement lamp 122, the infrared supplement lamp 141, and the infrared camera 142) integrated on the housing 15 are facing the measurement region P1, and accordingly, the user U1 to be measured passing through the measurement region P1 is correspondingly detected.

In this embodiment, the monitoring module 13 integrated inside the housing 15 is connected to the rear management platform 4 and may also be connected to the gate 5 provided on the public aisle. The identity information and the body temperature information recorded by the monitoring module 13 are received through the rear-end management platform 4, and data sorting is carried out on the bound identity information and body temperature information so as to be checked by workers. The gate 5 receives the control signal from the monitoring module 13 to control the gate to open, so that the user U1 to be tested can conveniently pass through the gate 5 under the condition that the body temperature information is normal.

In another embodiment, the housing 15 may not be fixed on a wall or a column by the frame 20, but directly erected on a tripod of the camera, and is adapted to testees of different heights by adjusting the height of the tripod, so as to achieve the purposes of flexible deployment and rapid deployment.

As is easily understood by those skilled in the art, since the integrated monitoring device further comprises the communication module, the communication module can transmit the recorded identity information and the body temperature information to a back-end management platform in a wired or wireless manner, and/or output a control signal to control a gate on a preset channel to perform an opening action when the body temperature information of the user is normal, so that information interaction with other devices can be performed, and people flow on a public channel can be better managed. In addition, the detection process of the application system is simple, quick and accurate, the working intensity of security personnel can be reduced, the passing efficiency is improved, people with abnormal body temperature can be isolated in time, and the diffusion of process diseases is avoided; moreover, the application system can measure the body temperature of the user to be measured in a non-contact manner, the measurement result and the identity information are automatically and synchronously stored, the contact risk during measurement is reduced, the traceability of the information is improved, the clearance speed is accelerated, and the application system has strong practicability.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (14)

1. The utility model provides a user's sign surveys and identity information acquisition's integrated monitoring device which characterized in that includes:

the infrared temperature measurement module is used for carrying out infrared thermal detection on a user to be detected so as to obtain body temperature information of the user;

the information acquisition module is used for acquiring the identity information of the user;

and the monitoring module is connected with the infrared temperature measuring module and the information acquisition module and is used for binding the body temperature information and the identity information of the user.

2. The integrated monitoring device according to claim 1, wherein the infrared temperature measuring module comprises an infrared sensor, and the infrared sensor detects infrared radiation of a user to be measured in a preset measuring area and converts the infrared radiation into body temperature information of the user.

3. The integrated monitoring device according to claim 2, further comprising an infrared sensing module connected to the monitoring module for sensing an object passing through the measurement area by infrared radiation, and triggering the monitoring module to record the body temperature information of the user when the user to be measured passes through the measurement area.

4. The integrated monitoring device according to claim 3, wherein the infrared sensing module comprises an infrared fill-in lamp and an infrared camera, the infrared fill-in lamp is used for irradiating infrared light to the measurement area, the infrared camera is used for sensing the infrared light in the measurement area, and whether a user passes through the measurement area is determined according to the sensing intensity.

5. The integrated monitoring device according to claim 3, wherein the information acquisition module comprises a visible light camera, the visible light camera is used for capturing a real-time image of the measurement area and transmitting the real-time image to the monitoring module, and the monitoring module performs face recognition on the user to be detected according to the received real-time image so as to use the face image as the identity information of the user.

6. The integrated monitoring device according to claim 5, wherein the information collection module further comprises a white light supplement lamp for white light irradiation of the measurement area.

7. The integrated monitoring device according to claim 5, wherein the information acquisition module further comprises a radio frequency card reader, the radio frequency card reader is used for communicating with a radio frequency card storing the identity information of the user to be detected, and reading the identity information of the user to be detected in the radio frequency card; the radio frequency card is an IC card or an identity card.

8. The integrated monitoring device according to any one of claims 3 to 7, further comprising a housing, wherein the infrared temperature measuring module, the infrared sensing module and the information collecting module are integrated on a surface of the housing, and the monitoring module is integrated inside the housing.

9. The integrated monitoring device of claim 8, further comprising a display, wherein the display is disposed on a surface of the housing and in signal connection with the monitoring module for displaying the identity information and the body temperature information of the user.

10. The integrated monitoring device according to claim 8, further comprising a communication module, connected to the monitoring module, for transmitting the recorded identity information and body temperature information to a backend management platform in a wired or wireless manner, and/or outputting a control signal to control a gate on a preset channel to perform an opening action when the body temperature information of the user is normal.

11. The integrated monitoring device of claim 9, further comprising an alarm module and a power adapter module;

the alarm module is arranged on the surface of the shell, is in signal connection with the monitoring module and is used for generating sound/light alarm information when the body temperature information of the user is abnormal;

the power supply adaptation module is arranged in the shell, is electrically connected with other modules and is used for being connected into external commercial power through a line.

12. The integrated monitoring device of claim 8, further comprising a housing comprising a first member and a second member that are movably coupled, the first member configured to be secured to a wall or column and the second member configured to secure the housing.

13. The integrated monitoring device of claim 12, wherein a surface of the housing is provided with a junction box, the second member is provided with a fitting region of the junction box, and the housing is fixed by clamping the junction box with the fitting region.

14. The integrated monitoring device according to claim 13, wherein a rotation shaft, a hinge or a turntable is provided between the first member and the second member, and the infrared temperature measuring module and the infrared sensing module provided on the housing are oriented to a predetermined measuring region by rotating the second member.

Images