A temperature controller for a gas oven includes a control module, a temperature measurement module, a prompt module, and a gas regulating module. The control module is connected to the temperature measurement module, the prompt module, and the gas regulating module, respectively, to transmit a signal. The temperature measurement module is arranged in the oven to measure a temperature in the oven and return the temperature to the control module. The prompt module is configured to receive an excessive temperature or a normal temperature of the control module, and provide a prompt. The gas regulating module is configured to receive a temperature and a control quantity returned by the control module, and control an air intake quantity, to adjust the temperature or turn on or turn off the oven. A micro-switch is provided and an on signal and an off signal of the micro-switch are transmitted to the control module.

A temperature controller for a gas oven includes a control module, a temperature measurement module, a prompt module, and a gas regulating module. The control module is connected to the temperature measurement module, the prompt module, and the gas regulating module, respectively, to transmit a signal. The temperature measurement module is arranged in the oven to measure a temperature in the oven and return the temperature to the control module. The prompt module is configured to receive an excessive temperature or a normal temperature of the control module, and provide a prompt. The gas regulating module is configured to receive a temperature and a control quantity returned by the control module, and control an air intake quantity, to adjust the temperature or turn on or turn off the oven. A micro-switch is provided and an on signal and an off signal of the micro-switch are transmitted to the control module.

An inspection apparatus for melting furnaces that can be used in the steel industry, includes an inspection head and a positioning support, said inspection head including a rotating table. Said inspection head includes one or more image detection devices attached on said rotating table and which rotate in a manner integral with it. Said positioning support is suitable for the insertion of the inspection head into said melting furnace through an inlet aperture of the melting furnace. Also disclosed is an inspection method for melting furnaces that can be used in the steel industry, by means of an inspection apparatus.

An inspection apparatus for melting furnaces that can be used in the steel industry, includes an inspection head and a positioning support, said inspection head including a rotating table. Said inspection head includes one or more image detection devices attached on said rotating table and which rotate in a manner integral with it. Said positioning support is suitable for the insertion of the inspection head into said melting furnace through an inlet aperture of the melting furnace. Also disclosed is an inspection method for melting furnaces that can be used in the steel industry, by means of an inspection apparatus.

An oven can include an oven body including a set of interior panels. A set of exterior panels are spaced from the set of interior panels such that a channel is defined between the set of interior panels and the set of exterior panels. The set of interior panels includes an interior panel peripheral wall and an interior panel top wall that at least partially define a cooking cavity. Each interior panel of the set of interior panels has an inner surface and an outer surface. The oven further includes an imaging device with a field of view including at least a portion of the cooking cavity. The oven also comprises a damper coupled to the oven body and to the imaging device for absorbing mechanical vibrations associated with airflow generated by the fan

An oven can include an oven body including a set of interior panels. A set of exterior panels are spaced from the set of interior panels such that a channel is defined between the set of interior panels and the set of exterior panels. The set of interior panels includes an interior panel peripheral wall and an interior panel top wall that at least partially define a cooking cavity. Each interior panel of the set of interior panels has an inner surface and an outer surface. The oven further includes an imaging device with a field of view including at least a portion of the cooking cavity. The oven also comprises a damper coupled to the oven body and to the imaging device for absorbing mechanical vibrations associated with airflow generated by the fan

An improved lime mud recycling system including a camera proximate the kiln outlet imaging the granular lime and providing outlet images of the granular lime exiting the kiln, a processor analyzing the outlet images of the granular lime and providing pebble size distributions for the granular lime exiting the kiln, as well as a controller communicating with the processor comparing the pebble size distribution of the granular lime exiting the kiln with predetermined prescribed operating parameters for pebble size distributions for the granular lime exiting the kiln and issuing (I) a notification and/or (II) a control signal prompting remedial action when the pebble size distributions for the granular lime exiting the kiln are outside of the predetermined prescribed operating parameters.

An improved lime mud recycling system including a camera proximate the kiln outlet imaging the granular lime and providing outlet images of the granular lime exiting the kiln, a processor analyzing the outlet images of the granular lime and providing pebble size distributions for the granular lime exiting the kiln, as well as a controller communicating with the processor comparing the pebble size distribution of the granular lime exiting the kiln with predetermined prescribed operating parameters for pebble size distributions for the granular lime exiting the kiln and issuing (I) a notification and/or (II) a control signal prompting remedial action when the pebble size distributions for the granular lime exiting the kiln are outside of the predetermined prescribed operating parameters.

There is provided a control system for a furnace. The control system comprises a thermal imaging camera and a control unit. The thermal imaging camera is configured to receive thermal radiation from a plurality of positions in a furnace and to generate an image which includes temperature information for the plurality of positions in the furnace. The control unit is configured to receive the image from the thermal imaging camera and to generate control signals for the furnace using the image.

There is provided a control system for a furnace. The control system comprises a thermal imaging camera and a control unit. The thermal imaging camera is configured to receive thermal radiation from a plurality of positions in a furnace and to generate an image which includes temperature information for the plurality of positions in the furnace. The control unit is configured to receive the image from the thermal imaging camera and to generate control signals for the furnace using the image.