JPS581760Y2 - Temperature measuring device inside the sintered layer - Google Patents

Description

[Detailed description of the invention] The present invention relates to a temperature measuring device in a sintered layer, and more specifically, it can be used continuously as long as the life of the temperature measuring detector such as a thermocouple allows, and is extremely easy to replace. Related to temperature measuring device.

Sintering machines at steel plants measure the temperature within the sintered layer to control the sintering conditions and stably produce high-quality sintered ore.

Most of the temperature measurements are carried out by inserting or embedding a temperature detector such as a thermocouple into the sintered layer, making continuous measurement difficult and requiring improvements.

That is, the conventional temperature measuring device in the sintered layer is configured such that the thermocouple is inserted into the layer by protruding from the side surface of the pallet or the grate.

Therefore, when the sintered ore falls after firing, the sintered ore adheres to and becomes entangled with the thermocouple, causing the thermocouple to be bent and deformed.

Therefore, if a thermocouple is attached and measurements are taken once or several times, the thermocouple becomes deformed or disconnected, making it unusable.

The purpose of this invention is to solve the above-mentioned problem. Specifically, the temperature is measured by protruding a temperature sensor such as a thermocouple only when measuring the temperature, and there is no need to measure the temperature just before the ore falls. By the way, we are proposing a structure in which the temperature detector can be retracted so that it will not be affected by sintered ore when it falls.

That is, the present invention has a measuring device for measuring the sintering temperature of a sintering machine that performs bulk mineralization of powdered iron ore, and a temperature detector for measuring temperature changes during the sintering process is installed in the sintered layer. It is characterized by being provided with a means that protrudes substantially parallel to the traveling direction of the pallet and further allows the temperature detector to be retracted just before the ore falls after firing.

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

In addition, FIG. 1 is a perspective view of a temperature measuring device according to one embodiment of the present invention, FIG. 2 is a layout diagram of an example of its drive mechanism, and FIG. 4 is a sectional view along the line, and FIG. 4 is a partial front view taken from the direction of arrow BB in FIG. 3.

First, in FIG. 1, reference numeral 1 indicates a pallet of a sintering machine, and this pallet tool 1 is connected to an entrance, and each pallet 1 runs on a rail 3 via its wheels 2.

Further, a striker 4 that operates as described later is provided at the departure station, etc., and the lever 5 is configured to rotate when the lever 5 comes into contact with the striker 4 due to the movement of the pallet 1.

A shaft 6 is connected to this lever 5, and this shaft 6 is supported by a plurality of bearings 7. A cam 8 is attached to the shaft 6, and a temperature sensor 20 such as a thermocouple is connected to the lever 5. A great par 9.

The thermocouple 20 is protected by the great par 9, and the great par 9 is composed of a cover 10, a base plate 11, and a guide plate 12, as shown in FIG.
A rod 13 is attached to the base plate 11 and guide plate 12 so as to be movable up and down.

Further, a spring 14 is inserted into the rod 13 so that the lower end of the rod 13 is pressed by the cam 8. When the rod 13 is pushed up by the cam 8, the spring 14 is compressed, and when the cam 8 is lowered, the spring 14 is compressed. 14
to extend the rod 13 and push it down.

Next, in order to protrude or retract the thermocouple 20 from the front surface of the above-configured grate bar, the mechanism or means is configured as follows.

That is, as shown in FIGS. 3 and 4, a guide groove 12a of the guide plate 12 is formed, and the guide bar 15 of the rod 13 engages with this guide groove 12a, so that the rod 13 is vertically raised and lowered. Configure as you like.

A plurality of link plates 16 are attached to the rod 13,
A holder 17 is attached to each link plate 16, and a thermocouple 20 is attached to this holder 17 with a set screw 18.

Further, the guide plate 12 has a guide groove 12 in the horizontal direction.
b, and along this guide groove 12b, the guide bar 19 is configured to be guided in the horizontal direction, and the holder 17
At the same time, the thermocouple 20 is configured to be movable.

Additionally, the thermocouple 20 is mounted on a support 2 for horizontal guidance.
It is preferable to attach the thermocouple 20 to the cover 10 through the thermocouple 1. When the thermocouple 20 is not in use, that is, before the ore falls, it can be retracted into the support 21, and when measuring temperature, it can be protruded into the sintered layer from the support 21-. Temperature can be measured without damaging the thermocouple 20.

The thermocouple 20 operates as follows.

First, when the rod 13 is pushed up by the cam 8, the spring 14 is compressed, and the rod 13 moves in the direction of vertical force on the guide bar 15 by the guide groove 12a of the guide plate 12. The thermocouple 20 is moved in the horizontal direction by the guide groove 12b and the guide bar 19, and the thermocouple 20, which is stopped by the holder 17, is projected into the sintered layer.

Next, in response to this, the thermocouple 20, in which the cam 8 rotates and the rod 13 is pushed down by the spring 14, is drawn into the support 21 by the above-mentioned reverse operation.

Although the cam 8 can be rotated in any manner, normally the pallet 1 runs on the rails 3 with the wheels 2 and, for example, when the lever 5 comes into contact with the striker 4 provided at the falling ore area. , when the lever 5 is moved, the shaft 6 rotates while supported by the bearing 7, and conversely, for example, when the striker 4 provided in the ore feeding section contacts the lever 5, the shaft 6 rotates in the opposite direction. good.

When the lever 5 is set in the ore falling part and the ore supply part in this way,
When the endlessly connected pallets 1 are rotated, the thermocouples 20 can move in and out between the ore feeding part and the ore dropping part, and the thermocouples 20 are not damaged when the ore falls.

Note that the striker 4 can be configured to be moved in and out as required without being fixed. In this case, the striker 4 can be taken out at any time and the thermocouple 20 can be moved in and out to measure the temperature. can.

As explained in detail above, the present invention is constructed so that the temperature detector that measures the transition of temperature change within the sintered layer can be inserted and removed, so there is no need to measure the temperature after sintering and before the ore falls. When it runs out, the temperature detector can be retracted,
This eliminates deformation and damage, allowing for long-term use and measurement.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a temperature measuring device according to one embodiment of the present invention, FIG. 2 is a layout diagram of an example of its drive mechanism, and FIG.
A sectional view taken along the line A-A in the figure, and Fig. 4 is taken from the arrow B-B in Fig. 3.
It is a front view of a part from a line direction. Code 1...Pallet, 2...Wheel, 3
...Rail, 3...Striker-15
...Lever, 6...Shaft, 7...
・Bearing, 8...Cam 1, 9...Great bar, 10...Cover 11...Base plate, 12...Guide plate) , 12a
, 12b...Guide groove, 13...Rod, 14:...Spring, 15...Guide bar, 16...Link play = ) ,1'
7... Holder, 18... Set screw, 1
9... Guide bar, 20... Thermocouple,
21...Support.

Claims (1)

[Scope of utility model registration request] In a temperature measuring device that measures the temperature in the sintered layer of a sintering machine that performs bulk mineralization of powdered iron ore, the temperature detector that measures temperature changes during the sintering process is installed on a pallet in the sintered layer. 1. A temperature measuring device in a sintered layer, which protrudes substantially parallel to the direction of movement and is further provided with a means for retracting the temperature detector just before falling ore after firing.