RU128053U1 - DEVICE FOR VIDEO SURVEILLANCE OF THE REACTION SPACE OF A HIGH-TEMPERATURE REACTOR - Google Patents

Abstract

A device for observing the reaction space of a high-temperature reactor, containing a video camera with forced cooling, while the video camera is electrically connected to the video surveillance monitor, characterized in that the video camera is mounted on a rod with the ability to move along it, the rod is connected to a mechanism for changing the angle of the rod, the rod and the mechanism for changing angle of inclination are placed on the support console, which is equipped with a mechanism for positioning the video camera relative to the observation window of the reaction space of the high-temperature reactor.

Description

The utility model relates to video surveillance devices for reaction spaces of high-temperature reactors, in particular, it can be used for video surveillance of the process of growing single crystals from melts, for example, complex oxide compounds from a melt solution to seed.

A device for measuring crystallization kinetics parameters is known, including a measuring cell in which a sample with a test substance is placed, a microscope focusing an image of a test substance on a video camera matrix in the infrared, visible or X-ray ranges, and a device for recording a video sequence of an image of a test substance, characterized in that allows synchronously with the video recording the temperature dynamics of the test substance using a temperature sensor located in the measuring cell, and / or using the aforementioned infrared microscope (thermal imager), and in order to quickly change the temperature of the test substance, the sample is in contact with the liquid or gaseous coolant, which is pumped through the measuring cell, for example, using a fan, and for control the temperature of the coolant device contains a temperature controller that controls the coolant heater, and / or the mixer of hot and cold coolant flows (Patent P Number: 2406080, G01N 25/00, published 10.12.10 city).

The disadvantage of this device is the complexity of the design.

A device for observing the reaction space of a high-temperature reactor is also known, which can be used to control technological processes in the metallurgical, chemical and other industries. A video camera in which a polaroid is mounted using a clamping ring is mounted in a sleeve made with radial slots evenly spaced along its lateral surface. The sleeve is mounted in the inner tube with the possibility of rotation around the longitudinal axis together with the video camera. The second polaroid and the protective glass are mounted in a stationary holder with the formation of a closed cavity between them. In the side inclined wall of the cage, longitudinal grooves are made for transporting purge gas. The camcorder is electrically connected to the power supply and video surveillance monitor. (RF patent No. 2353879, F27D 21/02, published on April 27, 09). This device is selected for the prototype.

The disadvantage of this device is the design complexity and high thermal load on the video camera, since the video camera is constantly located in the immediate vicinity of the reaction space.

The technical problem that this utility model aims to solve is to simplify the design of the device and reduce the thermal load on the video camera.

The problem is solved in that a device for observing the reaction space of a high-temperature reactor, containing, like the prototype, a forced-cooling video camera, the video camera being electrically connected to the video surveillance monitor, unlike the prototype, the video camera is mounted on a rod with the ability to move along it, the rod is connected with a mechanism for changing the angle of inclination of the rod, the rod and mechanism for changing the angle of inclination are placed on the support console, which is equipped with a mechanism for positioning the video camera about in relative observation window reaction space high-temperature reactor.

This solution allows you to bring the camcorder to the viewing window for a short time, eliminating overheating of the camcorder.

The essence of the utility model is illustrated by the description and drawing.

The device comprises a video camera 1, mounted on a rod 2, an electric motor 3, a connecting rod 4, a movement mechanism 5 with an electric motor 6, a swivel connection 7, a support console 8, a positioning mechanism of the support console, consisting, for example, of two gears 9 and 10 and an electric motor 11 , as well as the mount 12 for installing the entire device in the area of the inspection window of the reaction space.

The device operates as follows. The video surveillance device, using the mount 12, is installed in the area of the viewing window of the reaction space.

When the motor 11 is rotated, the support console 8 is rotated, allowing you to adjust the position of the camera relative to the viewing window. The electric motor 6 drives the bis movement mechanism using the connecting rod 4 and sets the required angle of inclination of the rod 2, mounted on the support console 8, for example, through a swivel joint 7. The electric motor 3 moves the camcorder 1 along the rod 2, positioning it in height. As electric motors 3, 6, 11, a direct current motor reducer IG-42GM can be used.

Remote control of electric motors and signal processing from a video camera is carried out using a personal computer.

When using the proposed device for monitoring the process of growing single crystals from melts, for example, complex oxide compounds from a melt solution to seed, the thermal load on the video camera is significantly reduced.

Claims (1)

A device for observing the reaction space of a high-temperature reactor, comprising a forced-cooling video camera, wherein the video camera is electrically connected to a video surveillance monitor, characterized in that the video camera is mounted on a rod with the ability to move along it, the rod is connected to a mechanism for changing the angle of the rod, the rod and the mechanism for changing tilt angles are placed on the support console, which is equipped with a camera positioning mechanism relative to the observation window of the reaction space high temperature reactor.

Images