JPH0449521Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention is used to quantitatively measure the adhesion shape, adhesion thickness, etc. of deposits such as tar adhering to the grooves on the side of the coke oven lid. This relates to a jig.

[Conventional technology]

Conventionally, there is no way to quantitatively measure the shape, thickness, area, etc. of tar and other deposits that have adhered to the grooves on the side of the coke oven lid, and this has been done through visual observation by workers. I was worried.

[The problem that the idea attempts to solve]

In the visual observation method, for example, when observing the adhesion shape, it is possible to find whether the adhesion is uniform or chevron-shaped, and when it comes to the adhesion area, whether it is large, small, or about 2/3 of the groove. As it was,
Because the judgments were made using various abstract expressions and were not measured quantitatively, it was not possible to reproduce them as numerical records and quantitatively evaluate the cleaning effectiveness of the coke oven lid groove cleaning device. Ta.

[Purpose of invention]

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a simple jig that is easy to use and can easily measure the deposited thickness, deposited shape, etc. in a short time.

[Means for solving problems]

The jig for measuring deposits in the groove of a coke oven lid according to the present invention has two standards that are perpendicular to each other and are placed on one piece of a ruler frame formed in an L shape, facing the tip side and inside of the one piece, respectively. The end surface is recessed, and the reference end surface is brought into surface contact with the outer surface of the knife edge provided on the side of the furnace lid, and the tip seal surface, respectively, and the other piece of the ruler frame is attached to the bottom surface of the groove provided on the side of the furnace lid. A large number of slide measuring rods are arranged in a staggered manner in a plurality of rows on the other piece so as to extend parallel to the brick holder toward the brick holder. The slide measuring rods are arranged so that the rear end lengths of the slide measuring rods in the rows become longer in sequence toward the brick holder, and the rear end lengths of the slide measuring rods are arranged differently for each row. This configuration achieves the above object.

〔Example〕

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

In the figure, 1 is a ruler frame formed in an L shape, and one piece 2 of the ruler frame 1 has two recessed reference end faces 3 and 4 that are perpendicular to each other and face the tip side and inside of the piece 2. The reference end faces 3 and 4
When brought into surface contact with the outer surface 7 and tip sealing surface 8 of the knife edge 6 provided on the side of the furnace lid 5, the other piece 9 of the ruler frame 1 touches the groove provided on the side of the furnace lid 5. It is formed to extend parallel to the bottom surface of the brick holder 11 toward the brick holder 11.

A grip 12 is fixed to the outer surface of the piece 2 of the ruler frame 1 and is used to hold the ruler frame 1 in contact with the knife edge 6 of the furnace lid 5.

13a, 13a, . . . , 13n are a plurality of sliding measuring rods arranged in multiple rows in a staggered arrangement (in the embodiment, finger hooks 13a', 13 are arranged in two rows for easy movement).
b, . . . , 13n' are provided and formed in an L shape. They movably penetrate the piece 9 of the ruler frame 1 and are arranged in parallel along the longitudinal direction of the piece 9. and,
Despite having multiple rows of slide measuring rods,
Each slide measuring rod 13a, 13
The length of the rear end of each of b, ..., 13n is 9 pieces.
The fingerrests 1 are provided at the rear end of each fingerrest.
The lengths of 3a', 13b', . . . , 13n' are made shorter in one row and longer in the other row. In the former case where the length of the rear end portion is changed, for example, to explain the four adjacent slide measuring rods 13a, 13b, 13c, and 13d, the lengths of each rod are La, Lb, Lc, and Ld. Formula, Lc>La+Ny Lb>Lc+Ny Ld>Lb+Ny Where, Ny: Length of protrusion of the knife edge from the bottom of the groove (constant) The rear end length is changed so that the following holds true.

In addition, the slide measuring rods 13a, 13 are arranged so as to make point contact with the surface of the deposits attached to the bottom surface of the groove portion 10.
The tips of b, . . . , 13n are tapered.

Next, how to use this jig as described above will be explained.

First, hold the grip 12 with one hand and hold the ruler frame 1.
The reference end surfaces 3 and 4 provided on the piece 2 of the knife edge 6
The outer surface 7 and the tip sealing surface 8 are brought into close contact with each other. While maintaining this abutting state, use the fingertips of the other hand to move the slide measuring rod 13a provided on the piece 9 of the ruler frame 1 so that its tip is aligned with the groove 10.
A mark based on the outer surface of piece 9 of ruler frame 1 is placed on slide measuring rod 13a. After repeating this operation for the slide measuring rods 13b, . Measure the length ya, yb, ..., yn from the tip to the mark. In addition, after pressing the tips of all the slide measuring rods against the surface of deposits attached to the bottom surface of the groove 10 and temporarily fixing the slide measuring rods with set screws (not shown) so that they do not move, this jig is attached to the furnace lid 5. Needless to say, it is also possible to mark each slide measuring rod with reference to the outer surface of the piece 9 of the ruler frame 1.

Next, the thickness of the deposit at the measurement point where the slide measuring rod 13a came into contact is calculated using the following formula: Ya=Ny+Ay−ya where: Ny: Knife edge protrusion length from the bottom of the groove (constant) Ay: Knife edge tip sealing surface It is determined by the distance (constant) between the reference end surface 4 and the outer surface of the piece 9, which are in contact with each other. Similarly, the slide measuring rod 13b,
..., 13n, determine the thickness of the deposit at the measurement point in contact.

Therefore, as shown in Figure 3, it is possible to create an adhesion shape that is a series of adhesion thicknesses at each measurement point, and also to calculate the adhesion thickness at a measurement point using the above data using a mathematical method. By calculating the area of each rectangle whose width is the pitch p' of the measurement point, and by summing the area, we can calculate the adhesion area shown by the shaded area in Figure 3. Therefore, we can calculate the adhesion thickness at each measurement point. It is possible to record as is, or to record the adhesion shape and adhesion area determined from this.

This embodiment is an example in which the pitch of the measurement points is reduced from p to p' by arranging a plurality of slide measuring rods in two rows and arranging them close to each other in the groove width direction. If you want to reduce the measurement error due to multiple measurement lines in a row, bend the tip of the slide measuring rod so that the tip of the slide measuring rod is aligned with the line in the width direction of one groove, and make one measurement line. It would be good to make it into a book.

[Effect of idea]

As described above, the present invention allows the thickness of deposits in the groove to be easily reduced at each measurement point by positioning and using the knife edge provided on the side of the furnace cover using the outer surface and the tip sealing surface. It can be measured in hours. Therefore, it is possible to record and reproduce the adhesion thickness at each measurement point as well as the adhesion shape and adhesion area determined from this, and quantitatively measure the cleaning effect of the adhesion deposits in the grooves on the side of the furnace lid. Effective for evaluation.

Further, because of its simple configuration, it can be manufactured easily and inexpensively, so it is effective as an accessory for a coke oven lid groove cleaning device.

[Brief explanation of the drawing]

Fig. 1 is a plan view showing a jig according to an embodiment of the present invention, Fig. 2 is a front view of the jig shown in the direction of arrow A in Fig. 1, and Fig. 3 shows the adhesion shape determined by the jig. It is a line diagram. 1... Ruler frame, 2, 9... Piece, 3, 4...
... Reference end surface, 12 ... Grip, 13a, 13b, ...
..., 13n...Slide measuring rod, 13a', 13
b',...,13n'...Finger hook.

Claims (1)

[Scope of utility model registration request] On one piece of the L-shaped ruler frame,
Two reference end surfaces perpendicular to each other facing the tip side and the inside of the one piece are recessed, and the reference end surfaces are brought into surface contact with the outer surface and the tip sealing surface of the knife edge provided on the side of the furnace lid, respectively. The other piece of the ruler frame is made to extend toward the brick holder in parallel with the bottom surface of the groove provided on the side of the furnace lid, and the other piece is capable of contacting the surface of deposits adhered within the groove. A large number of sliding measuring rods are arranged in multiple rows in a staggered manner, and the rear end lengths of the sliding measuring rods in each row are sequentially lengthened toward the brick holder. A jig for measuring deposits in a coke oven lid groove, characterized in that slide measuring rods are arranged with different rear end lengths.