CN111486963A - Intelligent temperature measurement disinfection cabin and quarantine method - Google Patents

Abstract

The invention provides an intelligent temperature-measuring disinfection cabin and a quarantine method, wherein the temperature-measuring disinfection cabin comprises a temperature-measuring cabin, a disinfection cabin, a control system, an infrared thermal imaging temperature-measuring system, a disinfection system, an automatic door lock device, a sensor and an alarm device; the temperature measuring cabin is communicated with the disinfection cabin, the infrared thermal imaging temperature measuring system is connected with the temperature measuring cabin, and the disinfection system is connected with the disinfection cabin; the control system is connected with the infrared thermal imaging temperature measuring system, the disinfection system, the automatic gate device, the sensor and the alarm device; the automatic gate device and the alarm device are associated with an infrared thermal imaging temperature measurement system; the disinfection system comprises an ultrasonic atomization device and an ozone generation device which can not be started simultaneously; the sensor is associated with the ultrasonic atomization device. The temperature-measuring disinfection cabin can realize automatic and intelligent quarantine, continuously carry out temperature measurement and disinfection, and has high inspection and passing efficiency; the method can effectively screen the person with abnormal body temperature, and help to block the transmission path of infectious diseases; reducing the risk of cross contamination and having high safety.

Description

Intelligent temperature measurement disinfection cabin and quarantine method

Technical Field

The invention relates to the technical field of medical instruments, in particular to an intelligent temperature measurement disinfection cabin and a quarantine method.

Background

When epidemic situation is prevented, in the occasions with dense population and large pedestrian volume, such as subway stations, airports, waiting rooms, markets, communities and the like, people who enter and exit need to be screened for body temperature, so that people with heating symptoms can be rapidly identified, and the transmission path of infectious diseases can be blocked in time. At present, mostly utilize the mechanical equipment to carry out temperature measurement screening and disinfection to personnel manually, then judge whether to let pass according to the result. The manual screening has the problems of large workload, low screening efficiency and difficulty in guaranteeing accuracy, and also has the risk of cross infection caused by contact of workers and passers-by, so that epidemic prevention and control are not facilitated.

The invention patents with Chinese publication numbers CN105527870B and CN106327621B respectively disclose an intelligent quarantine inspection bench and a quarantine method and an intelligent quarantine channel and a method, wherein the two inventions realize intelligent quarantine screening by arranging a switch, a verification host, an embedded controller (a control box A and a control box B), an infrared temperature measurement detector, a spray and mask system and the like, thereby improving the verification speed of the quarantine channel, ensuring the detection accuracy, reducing the contact between workers and passengers and improving the safety. However, the temperature measurement and the disinfection of the quarantine inspection platform (or the quarantine passage) are carried out in the same space, and the disinfection is selectively carried out after the temperature measurement, so that the quarantine inspection cannot be continuously carried out, and the passing efficiency is low; and only part of personnel are disinfected, so that the risk of leakage detection and elimination exists, and the spread of infectious diseases cannot be well blocked. The automatic spraying system is adopted for disinfecting the body surface of the human body, and the spraying system has large spraying amount of the medicine, is easy to remain on the body surface of the human body and causes toxic hazard to the human body; and the spraying system has large spraying dosage and is only suitable for intermittent use, and the continuous use easily causes the problems of medicine waste, leakage and the like.

Disclosure of Invention

The invention aims to provide an intelligent temperature-measuring disinfection cabin and a quarantine method, which can realize automatic intelligent quarantine, can continuously measure and disinfect temperature and have high inspection passing efficiency; the method can effectively screen the person with abnormal body temperature, and help to block the transmission path of infectious diseases; reducing the risk of cross contamination and having high safety.

In order to achieve the purpose, the invention adopts the following technical scheme:

the intelligent temperature-measuring disinfection cabin is a pedestrian passage and comprises a temperature-measuring cabin, a disinfection cabin, a control system, an infrared thermal imaging temperature-measuring system, a disinfection system, an automatic door lock device, a sensor and an alarm device; the temperature measuring cabin is communicated with the sterilizing cabin, the infrared thermal imaging temperature measuring system is connected with the temperature measuring cabin, and the sterilizing system is connected with the sterilizing cabin; the control system is connected with the infrared thermal imaging temperature measuring system, the disinfection system, the automatic gate device, the sensor and the alarm device;

the automatic gate device and the alarm device are associated with the infrared thermal imaging temperature measurement system;

the disinfection system comprises an ultrasonic atomization device and an ozone generation device which are connected with the disinfection cabin, and the ultrasonic atomization device and the ozone generation device cannot be started simultaneously;

the sensor is associated with the ultrasonic atomization device.

Further, one or more of a certificate recognition system, a face recognition system and a fingerprint recognition system are also included; the certificate recognition system, the face recognition system and the fingerprint recognition system are arranged at the front end of the temperature measurement cabin and are connected with the control system.

Further, the face recognition system is a binocular face recognition system. When the person to be inspected wears the mask, the identity information can be normally identified.

Furthermore, the nuclear radiation monitoring system also comprises a nuclear radiation detection device, wherein the nuclear radiation detection device is arranged in the temperature measurement cabin, is connected with the control system and is associated with the automatic door lock device and the alarm device. When the body temperature is detected, the security inspection scanning can be carried out simultaneously, the inspection passing time is saved, and the passing efficiency is improved.

Further, the automatic door lock device is arranged between the temperature measuring cabin and the disinfection cabin, and door curtains are installed at the front end of the temperature measuring cabin and the rear end of the disinfection cabin.

Further, the device also comprises a one-key switch device, and the one-key switch device is connected with the control system.

Further, the length of the disinfection cabin is 0.8-2 m.

The quarantine method of the intelligent temperature measurement disinfection cabin comprises the following steps:

starting the intelligent temperature measurement disinfection cabin;

the ozone generating device operates to perform ozone disinfection on the temperature measurement disinfection cabin, the ozone generating device is closed when the preset disinfection time is reached, the ultrasonic atomization device is started, and atomized gas is sprayed into the disinfection cabin;

the method comprises the following steps that a person to be quarantined enters a temperature measurement cabin, and quarantine data collection is carried out on the person to be quarantined in the temperature measurement cabin;

the quarantine data is transmitted to the control system, and whether the data exceeds a preset threshold value is judged;

if so, closing the automatic gate device, sending an alarm signal by the alarm device, and enabling the person to be inspected to quit the temperature-measuring disinfection cabin for manual quarantine;

if not, the automatic gate device is opened, and the person to be inspected enters the disinfection cabin and is released after being disinfected by the atomized gas.

Further, the ultrasonic atomization device is started, and meanwhile, a sensor is started, the sensor monitors the concentration of the atomization gas in the disinfection cabin, transmits monitoring data to a control system, and judges the relation between the monitoring data and a preset threshold range; if the discharge amount is lower than the threshold range, the discharge amount of the ultrasonic atomization device is increased; if the discharge amount is higher than the threshold range, reducing the discharge amount of the ultrasonic atomization device; and if the discharge quantity is within the threshold value range, maintaining the preset discharge quantity of the system of the ultrasonic atomization device.

Further, the method also comprises the step of identity information collection before the person to be inspected enters the temperature measuring cabin, wherein the identity information collection comprises certificate information/face information/fingerprint information.

Compared with the prior art, the invention has the beneficial effects that:

1. the intelligent temperature-measuring disinfection cabin is provided with the temperature-measuring cabin and the disinfection cabin which are communicated with each other, the temperature-measuring cabin and the disinfection cabin run simultaneously, a plurality of persons to be quarantined can be quarantined at the same time, and the passing efficiency is high. An infrared thermal imaging temperature measuring system is adopted for measuring the body temperature, the body temperature is calculated for non-contact absorption of infrared measurement emitted by a human body, and pathogen transmission caused by contact is effectively avoided. The disinfection system adopts two sets of devices, namely an ultrasonic atomization device and an ozone generating device, and the ozone generating device generates ozone for disinfecting the internal space before and after the temperature measurement disinfection cabin is used; the ultrasonic atomization device converts the disinfectant into mist to be sprayed into the disinfection cabin for sterilizing and disinfecting the body surface of a human body, the atomized liquid can be comprehensively and uniformly attached to the body surface, the sterilization and disinfection effect is good, the usage amount of the disinfectant is small, certain atomized gas concentration can be always maintained in the disinfection cabin, and then the continuous passing disinfection of the people to be inspected can be realized. The temperature measurement disinfection cabin is associated with an infrared thermal imaging temperature measurement system through an automatic door lock device and an alarm device, so that abnormal personnel can be automatically identified and prevented from going together; the sensor is associated with the ultrasonic atomization device, and can automatically adjust and maintain the concentration of the atomized gas in the disinfection cabin, thereby realizing full intelligent control.

2. The temperature measurement disinfection cabin has high intelligent degree, can carry out the tests of identity recognition, temperature measurement, security inspection, disinfection and the like, and has high passing efficiency; the method can effectively screen and prevent abnormal personnel from passing, and help to block the spread of infectious diseases and the like; avoid staff and expert's contact, reduce risks such as cross infection, the security is high.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic front structural view of the intelligent temperature-measuring disinfection cabin of the invention.

Fig. 2 is a front isometric view of the intelligent thermometric sterilization chamber of the present invention.

Fig. 3 is a rear isometric view of the intelligent thermometric sterilization chamber of the present invention.

FIG. 4 is a left side view schematic diagram of the intelligent temperature measurement disinfection cabin of the present invention.

FIG. 5 is a functional schematic diagram of the intelligent temperature measurement disinfection cabin of the present invention.

Reference numerals:

1: a temperature measuring cabin; 2: a disinfection cabin; 3: binocular face recognition system.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example one

As shown in fig. 1 to 5, the intelligent temperature-measuring disinfection cabin of the invention is a pedestrian passageway and comprises a temperature-measuring cabin 1, a disinfection cabin 2, a control system, an infrared thermal imaging temperature-measuring system, a disinfection system, an automatic door lock device, a sensor, an alarm device and the like.

Wherein, the temperature measuring cabin 1 and the disinfection cabin 2 are communicated to form a quarantine passage. The infrared thermal imaging temperature measurement system is connected with the temperature measurement cabin 1 and can carry out infrared absorption temperature measurement on a human body passing through the temperature measurement cabin 1. The disinfection system is connected with the disinfection cabin 2 and can disinfect the objects passing through the disinfection cabin 2 and the internal space of the disinfection cabin 2. The control system is connected with the infrared thermal imaging temperature measuring system, the disinfection system, the automatic gate device, the sensor, the alarm device and the like.

Wherein, the disinfection system comprises an ultrasonic atomization device and an ozone generation device. Ultrasonic atomization device and ozone generating device all are connected with disinfection cabin 2, and during the use, ultrasonic atomization device and ozone generating device can not the simultaneous operation. The ozone generating device is mainly used for sterilizing the inner space of the temperature measuring sterilizing cabin before or after use. The ultrasonic atomization device converts the disinfectant into atomized gas for disinfecting the body surface of a human body.

The sensor is mounted in the disinfection chamber 2 in connection with the operation of the ultrasonic atomization device. When the ultrasonic atomization device starts to operate, the sensors are started simultaneously, the sensors monitor the concentration of the atomization gas in the disinfection cabin 2 and transmit data to the control system in real time, and the control system compares the monitoring data of the sensors with a preset concentration threshold range so as to adjust the discharge speed of the ultrasonic atomization device.

The automatic gate device and the alarm device are associated with an infrared thermal imaging temperature measurement system. The infrared thermal imaging temperature measurement system detects the body temperature of a person to be epidemic, transmits detection data to the control system, and the control system compares and judges the detection data and a preset threshold value: if the threshold value is not exceeded, the control system controls the automatic gate device to be opened, and the person to be epidemic enters the disinfection cabin 2; and when the threshold value is exceeded, the control system controls the automatic gate device to close, and the alarm device sends an alarm signal.

In a preferred embodiment, the system further comprises one or more system devices for identity information verification in a certificate recognition system, a face recognition system, a fingerprint recognition system and the like. The certificate identification system, the face identification system and the fingerprint identification system are arranged at the front end of the temperature measurement cabin 1 and are electrically connected with the control system. Before entering the temperature measuring cabin 2, the person to be inspected needs to identify the identity information and transmit the identity information to the control system for recording.

Further, a certificate recognition system, a face recognition system and a fingerprint recognition system are associated with the alarm device. Identity information collected by the certificate recognition system, the face recognition system and the fingerprint recognition system is recorded, analyzed and compared by the control system, and when an abnormality is found, the alarm device sends an alarm signal; when the abnormity is not found, the alarm device does not alarm.

Preferably, the face recognition system is a binocular face recognition system 3, and the identity of a person can be recognized through eye features. In the epidemic period of infectious diseases, people usually wear the mask to go out, and the identity can be better identified by adopting a binocular face recognition system, so that the mask is prevented from being taken off, and the infection risk is reduced.

Further preferred embodiment is that the nuclear radiation detection device is further included. The nuclear radiation detection device is arranged in the temperature measuring cabin 1, is connected with the control system and is associated with the automatic door lock device and the alarm device. Used for detecting whether the personnel to be inspected carries dangerous and forbidden articles.

The automatic door lock device is arranged at the joint between the temperature measuring cabin 1 and the disinfection cabin 2. Door curtains are arranged at the front end of the temperature measuring cabin 1 and the rear end of the sterilizing cabin 2. The door curtain plays a role in blocking and is convenient to pass.

The temperature measuring and sterilizing device further comprises a one-key type switch device, wherein the one-key type switch device is arranged outside the temperature measuring cabin 1 or the sterilizing cabin 2 and is electrically connected with the control system. The temperature measuring disinfection cabin is started or closed.

Preferably, the temperature measuring cabin 1 and the disinfection cabin 2 are designed into an integrated cabin body, universal wheels are arranged at the bottom of the cabin body, the cabin body can integrally and quickly move, and the cabin body can be used after being plugged.

Wherein, the length of disinfection cabin 2 is 0.8~2m, calculates the length of disinfection cabin 2 according to the disinfection and isolation time, ensures that personnel can be fully attached to the body surface through back atomizing liquid, shortens disinfection passageway length as far as possible when guaranteeing the disinfection effect. Be equipped with sealed transparent window on the lateral wall of 2 both sides in disinfection cabin, be convenient for observe inside personnel disinfection, the current condition, increase the natural light in the passageway simultaneously, reduce the uncomfortable sense of oppression of the personnel of expert.

Example two

The quarantine method of the intelligent temperature measurement disinfection cabin is suitable for the intelligent temperature measurement disinfection cabin in the embodiment one, and comprises the following steps:

s100: pressing a key switch device to start the intelligent temperature measurement disinfection cabin;

s200: the ozone generating device operates to generate ozone to carry out ozone disinfection on the inner space of the temperature-measuring disinfection cabin, and the ozone generating device is closed after the preset disinfection time of the control system is reached; the ultrasonic atomization device is started intelligently, disinfectant is converted into atomized gas and is sprayed into the disinfection cabin 2, and the disinfection cabin 2 is enabled to keep the atomized gas with a certain concentration all the time;

s300: the personnel to be quarantined enter from the front part of the temperature measuring cabin 1, and the quarantine data/security data acquisition is carried out on the personnel to be quarantined in the disinfection cabin 1 by an infrared thermal imaging temperature measuring system and/or a nuclear radiation detection device;

s400: the quarantine data/security inspection data are transmitted to the control system, and the control system judges according to the acquired data and a threshold value preset by the system;

if the threshold value exceeds the preset threshold value, S500 is carried out;

s500: the automatic gate device is closed, and meanwhile, the alarm device sends out an alarm signal to prevent the person to be quarantined from passing through; the person to be inspected needs to exit the temperature measurement disinfection cabin, and further detection is carried out manually to judge whether the person is passed;

if the threshold value is not exceeded, S600 is carried out;

s600: the automatic gate device is opened, the person to be inspected enters the disinfection cabin 2, the body surface disinfection is carried out by ultrasonic atomization gas of the disinfection solution when the person to be inspected passes through the disinfection cabin 2, and the person passes through the disinfection chamber after disinfection.

Further, in this embodiment, step S200 further includes intelligently starting the sensor, starting the sensor synchronously when the ultrasonic atomization apparatus is started, monitoring the concentration of the atomized gas of the disinfectant in the disinfection chamber 2 by the sensor, transmitting the monitoring data to the control system, and determining by the control system according to the monitoring data and a preset concentration threshold range; if the monitoring data is lower than the concentration threshold range, automatically increasing the discharge amount of the ultrasonic atomization device; if the concentration is higher than the concentration threshold range, automatically reducing the discharge amount of the ultrasonic atomization device; if the concentration is within the range of the concentration threshold, the preset discharge capacity of the system of the ultrasonic atomization device is automatically maintained.

Preferably, in this embodiment, steps S210 and S220 are further included before step S300.

S210: the method comprises the following steps that a person to be quarantined collects identity information through a certificate identification system, a face identification system, a fingerprint identification system and the like in the front of a temperature measuring cabin 1, wherein the collected information comprises certificate information, face information (iris information), fingerprint information and the like;

s220: the acquired identity information is transmitted to a control system, backup recording is carried out, information comparison is carried out simultaneously, and whether the person is an abnormal person is judged;

if the information is judged to be abnormal, the alarm device sends out an alarm signal, and identity information is manually checked;

if the information is judged to be normal, no alarm signal is sent, and the person to be inspected enters the temperature measurement disinfection cabin.

Step S700 is further included after step S600 in this embodiment:

s700: after the inspection of the person to be inspected is completed, the ozone generating device is started, the ultrasonic atomizing device is closed, ozone is generated to perform ozone sterilization and disinfection on the inner space of the temperature measurement disinfection cabin, and after the disinfection time preset by the control system is reached, the ozone generating device is closed, and the intelligent temperature measurement disinfection cabin stops running.

In the foregoing, only certain exemplary embodiments have been described briefly. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Claims (10)

1. The intelligent temperature-measuring disinfection cabin is a pedestrian passageway and is characterized by comprising a temperature-measuring cabin (1), a disinfection cabin (2), a control system, an infrared thermal imaging temperature-measuring system, a disinfection system, an automatic door lock device, a sensor and an alarm device; the temperature measuring cabin (1) is communicated with the disinfection cabin (2), the infrared thermal imaging temperature measuring system is connected with the temperature measuring cabin (1), and the disinfection system is connected with the disinfection cabin (2); the control system is connected with the infrared thermal imaging temperature measuring system, the disinfection system, the automatic gate device, the sensor and the alarm device;

the automatic gate device and the alarm device are associated with the infrared thermal imaging temperature measurement system;

the disinfection system comprises an ultrasonic atomization device and an ozone generation device which are connected with the disinfection cabin (2), and the ultrasonic atomization device and the ozone generation device cannot be started simultaneously;

the sensor is associated with the ultrasonic atomization device.

2. The intelligent thermometric disinfection cabinet of claim 1, further comprising one or more of a certificate recognition system, a face recognition system, and a fingerprint recognition system; the certificate identification system, the face identification system and the fingerprint identification system are arranged at the front end of the temperature measurement cabin (1) and are connected with the control system.

3. The intelligent thermometric disinfection cabin according to claim 2, characterized in that the face recognition system is a binocular face recognition system (3).

4. The intelligent temperature-measuring disinfection cabin according to claim 1 or 3, characterized by further comprising a nuclear radiation detection device, wherein the nuclear radiation detection device is installed in the temperature-measuring cabin (1), is connected with the control system, and is associated with the automatic door lock device and the alarm device.

5. The intelligent temperature-measuring disinfection cabin according to claim 4, wherein the automatic door lock device is arranged between the temperature-measuring cabin (1) and the disinfection cabin (2), and door curtains are installed at the front end of the temperature-measuring cabin (1) and the rear end of the disinfection cabin (2).

6. The intelligent temperature-measuring disinfection cabin of claim 1 or 5, further comprising a one-key switch device, wherein the one-key switch device is connected with the control system.

7. The intelligent temperature-measuring disinfection cabin according to claim 1, wherein the length of the disinfection cabin (2) is 0.8-2 m.

8. The quarantine method of the intelligent temperature measurement disinfection cabin is characterized by comprising the following steps:

starting the intelligent temperature measurement disinfection cabin;

the ozone generating device operates to carry out ozone disinfection on the temperature-measuring disinfection cabin, when the preset disinfection time is reached, the ozone generating device is closed, the ultrasonic atomization device is started, and atomized gas is sprayed into the disinfection cabin (2);

the method comprises the following steps that a person to be quarantined enters a temperature measuring cabin (1), and quarantine data collection is carried out on the person to be quarantined in the temperature measuring cabin (1);

the quarantine data is transmitted to the control system, and whether the data exceeds a preset threshold value is judged;

if so, closing the automatic gate device, sending an alarm signal by the alarm device, and enabling the person to be inspected to quit the temperature-measuring disinfection cabin for manual quarantine;

if not, the automatic gate device is opened, and the person to be inspected enters the disinfection cabin (2) and is released after being disinfected by the atomized gas.

9. The quarantine method of the intelligent temperature-measuring disinfection cabin according to claim 8, wherein the ultrasonic atomization device is started, and simultaneously a sensor is started, the sensor monitors the concentration of the atomized gas in the disinfection cabin (2), transmits the monitoring data to a control system, and judges the relationship between the monitoring data and the preset threshold range; if the discharge amount is lower than the threshold range, the discharge amount of the ultrasonic atomization device is increased; if the discharge amount is higher than the threshold range, reducing the discharge amount of the ultrasonic atomization device; and if the discharge quantity is within the threshold value range, maintaining the preset discharge quantity of the system of the ultrasonic atomization device.

10. The quarantine method of the intelligent temperature-measuring disinfection cabin according to claim 8 or 9, further comprising identity information collection before the person to be quarantined enters the temperature-measuring cabin (1), wherein the identity information collection comprises certificate information/face information/fingerprint information.

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