KR890001155Y1 - Apparatus of putting into coil - Google Patents

Abstract

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Description

Device to inject thermocouple into coil being wound

1 is a perspective view of the present invention.

2 is an explanatory diagram of a mobile device of the present invention.

Figure 3 (a) is a cross-sectional view taken along the line A-A 'of FIG. 2, (b) is a cross-sectional view of the rotating body of the present invention (c) is an initial support state of the rotating body of the present invention (d) is a Cross-section.

The present invention relates to a device for inserting a thermocouple between the hot rolled coils being wound in order to investigate the cooling process of the intermediate part of the winding coil after coil winding.

In general, the material of hot-rolled steel is greatly influenced by the heat history received during the hot rolling, so the temperature change is measured by various measuring instruments during rolling, but the change in the temperature inside the coiling coil cannot be measured. It was estimated only by cooling process.

The variables in the hot rolling process are the temperature and the deformation amount, the deformation amount is constant at each step, and the temperature at the time of deformation is changed according to the coil length direction, and the tip is the highest, and the middle part and the end part are decreasing in the order. Therefore, in the heat history, the strength of the hot rolled sheet should also increase or decrease with a constant slope between the tip and tail ends, but in fact, the strength of the hot rolled coil appears to be the lowest in the middle of the hot rolled coil. However, since all current temperature measurements are measured as surface thermometers, it is required to measure the temperature at the moment of winding the coil in the middle.

In addition, even if a worker attempts to inject a thermocouple into the middle of the coil, the hot rolled winding machine has a high temperature and complicated mechanical mechanism around it, which makes the winding machine difficult to access.

The present invention aims to accurately measure the cooling temperature in the middle of the coil by inserting a thermocouple in the middle of the coil during winding.

Referring to the detailed structure of the present invention based on the drawings as follows.

The present invention consists entirely of connecting rod forward and backward moving device (A), left and right moving device (B) and thermocouple input device (C).

Before the connecting rod, the reverse moving device (A) adheres the connecting table 9 which is slip-moved between the upper groove 15 of the moving plate 18 and the roller 16 as shown in FIGS. 2 and 3 (a). The rack (10) is formed on one side of the connecting table (9), and the pinion (13) engaged with the rack (10) constitutes the worm (12) and the worm gear (14) to form a motor (11). Will deliver the driving force.

The left and right moving devices (b) comprise the front and rear moving devices (a) on the upper part of the moving plate 18, but have slip grooves (not shown) that slide on the rails 28 above and below the bottom. It is configured to transmit a driving force of the motor 19 as the bevel gears 20 and 21 by forming a screw (not shown) which is integral with the rotating shaft 22 and bitten by the gear 17 at the center.

The thermocouple injection device (c) has a holder (5) in which the guide pipe (3) is inserted and detached from the rotor (8) as shown in (b), (c) and (d) of FIG. The rotating body 8 has a bearing 7 therein and is fixed to the fixed shaft 29.

The fixed shaft 29 is integrated at right angles to the connecting table 9 of the thermocouple moving device (a) and constitutes the support 30 on the fixed shaft 29 to hold the initial position of the rotor 8. The spring 25 is interposed between the supporting pins 24 of the rotating body 8. However, this spring 25 is easily peeled off the support pin 24 at the moment the rotor 8 is rotated.

On the other hand, as shown in (d) of FIG. 3 of the induction pipe 3, the slits 2 are formed to be inclined at an angle upward from the tip side. This is for the thermocouple 1 to be injected into the middle of the coil 6.

Reference numeral 4 is a guide pipe support bolt, 26 is a height adjustment bolt, 27 is a control panel, 31 is a mandrel (Mandrel), 32 is a frame of the present invention.

Referring to the operation of the present invention configured as described above are as follows.

Insert the wire connected to the thermocouple 1 between the slits (2) formed in the induction pipe (3) to connect to the recorder, and fixed the induction pipe (3) to the holder (5) of the rotating body (8) with a bolt (4) After the rear thermocouple (1) to the input position of the coil (6) and match the height of the entire frame (32) and the height of the mandrel (31) with the height adjustment bolt (26). Then, by operating the panel 27, the connecting rod 9 is moved forward, backward, left and right to match the center of the rotating body 8 with the center of the mandrel 31, and then the thermocouple 1 connected to the induction pipe 3. ) Is moved into the coil 6 at the feeding position, and the winding thickness of the coil 6 being wound increases gradually to reach the thermocouple 1 position, and the thermocouple 1 naturally snaps into the hot rolled coil 6 together. At that moment, the spring 25 holding the rotor 8 is peeled off the support pin 24 so that the rotor 8 rotates at the same speed as the rotational speed of the coil 6.

When winding is completed, the connecting rod 9 is retracted to release the induction pipe 3 from the holder 5, and the thermocouple 1 wire is separated between the slits 2 of the induction pipe 3, thereby separating the thermocouple 1 In the process of disassembling and cooling the coil 6 from the winder, the cooling temperature is continuously measured while being stuck in the coil 6.

As described above, the present invention measures the surface temperature of the coil 6 only, or the safety of the worker because of the facility around the winding machine and the coil 6 being wound even if the thermocouple 1 tries to put the coil 6 into the coil 6. To solve this problem, the operator cools the middle of the winding coil 6 as a useful device that allows the thermocouple 1 to be safely inserted into the coil 6 by only operating the panel 27 at a certain distance from the winding machine. The effect is that the temperature can be measured accurately.

Claims (1)

Sliding between the top groove 15 of the moving plate 18 and the roller 16, the front and back of the connecting rod 9, which constitutes the rack 10 on one side, with the conventional pinion 13 driving device. The moving device (a), the left and right to move the left and right by the drive of the drive device of the conventional rotary shaft 22, while having the forward and backward moving device and the slip movement along the two rails 28 on the bottom surface; The right moving device (B) and the connecting rod (9) integrally constitute a fixed shaft (29), which is adhered to the fixed shaft (29) and consists of a rotating body (8) supporting the thermocouple guide tube (3). The thermocouple 1, which is composed of a thermocouple injection device (c) and is fitted to the induction pipe 3 in a state where the center of the rotor 8 and the winder mandrel 31 is aligned, is formed at a predetermined winding thickness of the coil 6. A device for injecting a thermocouple into the coil being wound, characterized in that the coil is injected when winding.