GR1008994B - Networked device destined for the remote temperature and humidity registration , the real-time follow-up of data and the e-mailing and sending of related messages to cellular phones - Google Patents

Abstract

Novelty: a device meant for the collection of temperature and humidity data is disclosed. Constitution: a central signal-processing unit, a network card, a power feeder, one to eight temperature and humidity sensors, a tight box for the protection of the equipment, a real-time clock and a double memory. Purpose: to collect temperature and humidity data in whatever closed space, to follow up data in real time through Internet and to transmit these data to two different secure databases, in a broadband mode. In case of alarm, the data will be sent to users or operators via an e-mailed message or a written message sent to the cellular phone.

Description

DESCRIPTION

Network Temperature-Humidity Recorder, with the possibility of remote data recording and_time monitoring in real time and sending messages-reports to mobile phones and e-mail

It is an innovative device and its purpose is to collect temperature and humidity data and then process them for the benefit of the user and the consumer in general. It can be installed in any closed space where temperature or humidity measurement is required/possible.

It consists of the temperature/humidity data collection device, the power supply to supply power to the device, one to eight temperature-humidity sensors, a waterproof box to protect the equipment. The temperature/humidity data collection device consists of a microprocessor which is connected to a network card to connect to the network, two memories (temperature/humidity), a real time clock, one to eight sensors to take the measurements. The memories are used in the event of a network failure/interruption to temporarily store the measurements and then send them to the secure database. The sensors are digital and not analog, in order to provide greater reliability to the system and avoid foreign interference in the measurements. Also, digital sensors provide the possibility of having a greater distance between sensor and device than with analog sensors. The entire system is wired and this provides greater reliability in operation and ensures sustainability over time.

During installation each temperature/humidity sensor is connected to the temperature/humidity data collection device. The sensor is powered by a separate cable to avoid interference. The temperature/humidity data logger connects to the network (Broadband/Mobile/Satellite/Wireless) and then communicates with the secure database. Measurements can be sampled at a minimum of one minute and can be as high as the user wishes (every 5/10/1/5/30/60 minutes). The ideal is every 5-10 minutes, to have a clear picture of the measurements. The data from the moment it reaches the network in the secure database is available to the end user. At the same time they are recorded in the database so that the end user can see a history of the measurements. The history of measurements has no limit, it is from the moment the device is activated and for as long as it works. Classifications of measurements are created every six months so that the latest measurements are easily accessible. Can send text messages/emails if user defined upper and lower limits are exceeded. It can send automated weekly/monthly metrics reports to pre-defined email accounts. All operations are done online and are available to the user at any time. The device has a very important advantage. We use the internet and can send text messages without having to have a cell phone card or device that supports the cell phone card which involves a landline and extra equipment. It is also important that in case of damage/destruction/malfunction of the device there is no loss of previous data. In this case, the administrator is notified manually via a text message that the device is out of order in order to restore it. The device is designed so that it can be changed without any tools. The clamps are removed by hand and placed on the new device which works without any modification. The above device provides solutions to technical problems in relation to pre-existing devices and tools, based on its cumulative characteristics below. First of all, for the full and productive function of sending text messages, a mobile phone card is not needed, achieving a reduction in the cost of use. At the same time, the sending of messages takes place via the Internet, while at the same time no built-in memory card or hard disk is required to store the data, but the data is stored in 2 different databases (one is located in Greece, the other is located in Europe) and is per at all times available to users-operators-administrators. In addition, daily and weekly backups are kept automatically in 3 different accounts (in different providers) of e-mail (user-operator-administrator) so the possibility of lost measurement is zero. In this way, the non-loss of data is achieved, which would happen with any other device in the event of damage to the memory card or hard disk due to stress or temperature. From the above, it does not need a fan to ventilate it because it is made of materials that do not have a large heat dissipation, so it can withstand any conditions.

The method of installation of the device is described below with reference to the attached drawing 1, where:

The external power supply is connected to input 1 to power the device.

At inputs 2, 2a, 3, 3a, 4, 4a, 5, 5a, 10, 10a, 11, 11a, 12, 12a, 13, 13a, the outputs of the temperature/humidity sensors are placed and the measurements are transferred via the cable. Each cable leaves the device and connects to the data cable of the temperature/humidity sensor. Because the sensors are digital there is no limitation in the length of the cable compared to the analog ones where the cable cannot be more than ten meters.

The positive supply of the sensors is connected to inputs/terminals 6,7,17. The cable can feed all sensors in parallel, no need to leave a cable for each sensor.

The negative supply of the sensors is connected to inputs/terminals 8,9,18. The cable can feed all sensors in parallel, no need to leave a cable for each sensor.

Inputs 8,9,18 are connected to the grounding of the electrical installation that secures the device and personnel.

At inputs 15,16 we can connect some external command to the device (example magnetic contact or some error output from some device).

At input 34 we connect the network cable so that the device can communicate with the internet.

In inputs 30, 31,32,33 we can get an external command (closed or open) to connect locally some siren or beacon in case of error.

The indicator light 14 shows us that the sensors are powered correctly.

The indicator light 19 shows us that the device

Indicator light 28 shows us that the device

The indicator light 29 shows us that the system is correctly connected.

Indicator lights 20, 21, 22, 23, 24, 25 connected to the device. These indications 4-22 „ 5-23 „ 10-24 „ 11-25 „ 12-26 „ 13-27.

or powered properly.

or collects data from the sensors.

kevi has an error and does not work, 26, 27 show us which sensors are and correspond to sensors 2-20 „ 3-21 „

Claims (6)

1. Temperature and Humidity data recording and collection device consisting of a microprocessor, a network card, a real-time clock, a material placement board, operation indicators, sensor and power cable connection terminals, one to eight sensors, characterized by transmits the temperature & humidity log data in real time via web page on the Internet. 2. Temperature and Humidity data recording and collection device, as referred to in claim 1, characterized by the fact that the temperature and humidity recording data are collected by the device locally and stored in a secure database on two separate stations (servers) and in case of destruction Devices are not lost. 3. Temperature and Humidity data recording and collection device as claimed in claim 1 characterized by automatic daily/weekly/monthly backup and sent to 3 different email accounts for greater data security 4. Temperature and Humidity data recording and collection device, as referred to in claim 1, characterized in that the temperature & humidity recording data, according to claim 1, in the event of an alarm, are transmitted via Internet services, without the need to use a mobile phone device or mobile phone card, and are notified via text message or phone call to mobile or landline phones and via e-mail. 5. Temperature and Humidity data recording and collection device as claimed in claim 1 characterized in that the data/measurements of either the current day or previous days collected are printable and can be exported to editable file formats via the Internet without local or other limitation . 6. Temperature and Humidity data recording and collection device as stated in claim 1 characterized in that the data/measurements collected are reproduced in graphs per day, week, month, or per defined time intervals or per sensor.