KR200461557Y1 - Tempcore apparatus - Google Patents

Abstract

The present invention relates to a tempcore device. Specifically, the housing 120 mounted on the upper portion of the cooling water pipe, the male nozzle 130 inserted into the front of the housing and the material flows in, and the rear of the housing are inserted in accordance with the distance from the end of the male nozzle. The female nozzle 140 is adjusted to the amount of cooling water, the housing is coupled to the nut member 150 is formed with a female thread, the nut member is coupled to the adjustment member 160 formed with a male screw moveable adjustable, the adjustment The member 160 has a structure fixed to the male nozzle 130. According to this configuration, by moving the adjusting member in the front and rear direction, the male nozzle is moved forward and backward to adjust the distance from the female nozzle to adjust the amount of cooling water in contact with the material (rebar), so that the degree of quenching can be adjusted. It is possible to reduce the deviation of the mechanical properties of the product produced in.

Description

Tempcore apparatus

The present invention relates to a temp core device for quenching reinforcing bars using cooling water after a hot rolling step in a reinforcing bar manufacturing process.

The reinforcing bar is reheated in the rolling mill to the intermediate product manufactured in the performance equipment, and then finished the shape of the product through the rough rolling, the intermediate rolling, and the finishing rolling process, and then it is packaged and shipped through the cooling process, the cutting process, and the correction process.

When manufacturing the reinforcing bar as described above, in Korea and Europe, a cooling process is performed using a tempcore device. Thus, the hot rolling material of about 850 to 1050 ° C. is quenched by water cooling to 500 to 650 ° C. after the hot rolling process is completed. (Quenching) and then self-tempering by internal latent heat (Tempered Martensite), bainite, pearlite + ferrite (Pearlite +) It is made of ferrite to satisfy the mechanical properties such as tensile strength, yield strength, elongation and bending characteristics with a minimum of alloying components.

1 and 2 show side cross-sectional and top views of a conventional temporal device. As can be seen with reference to this, the temp core device is equipped with a housing 20 through which the coolant flows from the coolant pipe 10 through which the coolant flows, and the male nozzle 30 into which the reinforcing bar flows in front of the housing 20. ) Is inserted, the female nozzle 40 is inserted into the rear of the housing 20 to adjust the amount of cooling water in contact with the reinforcing bar according to the gap with the male nozzle 30, the female nozzle 40 The exhaust pipe 50 is discharged to the cooling water discharged together with the reinforcing bar at the rear of the (). (The actual equipment is configured by repeating a plurality of such parts.)

Therefore, after hot rolling, hot reinforcing bars are introduced through the male nozzle 30 to be quenched by being discharged in contact with water through the female nozzle 40 and the discharge pipe 50.

On the other hand, in order to adjust the amount of cooling water in contact with the reinforcing bar as described above, the male nozzle 30 must be moved back and forth to adjust the separation distance from the female nozzle 40 at the rear end.

However, the current temp core device is configured in such a way that it can simultaneously handle a plurality of rows of rebars, so that all of the plurality of rows of male nozzles are operated in the same manner in order to keep the cooling water inflow conditions constant for each row.

That is, the mounting bracket 60 is installed on the cooling water pipe 10 to provide a lever 70 pivoted around the connecting rod 80, and the coupling mechanism 90 interlocked with the connecting rod 80. The male nozzles 30 of the plurality of rows (three rows or four rows) are configured to bind together, and the lever 70 of the cylinder 95 mounted on the cooling water pipe 10 via the mounting bracket 61. It consists of a configuration connected to the cylinder rod 96 by a pin.

Therefore, the position of the male nozzle 30 is adjusted in the front-rear direction by pushing or pulling the lever 70 according to the operating position of the cylinder rod 96 of the cylinder 95. All the male nozzles 30 are Since it is connected by one binding mechanism 90, as described above, the male nozzles 30 of the plurality of rows are all operated in the same manner.

By the way, in practice, there is a variation in mechanical properties between the bars produced in each row. However, since the male nozzles of the plurality of rows are all integrated and operated in the same state as described above, there is a problem in that it is difficult to control the quenching state of each row through the adjustment of the amount of cooling water, so that it is difficult to reduce the deviation of mechanical properties.

Therefore, the present invention was devised to solve the above problems, and the mechanical properties of the product produced in the required heat can be independently adjusted by adjusting the position of the male nozzle of the required heat in each row where individual rebars are quenched by contact with the cooling water. It is an object of the present invention to provide a temp core device capable of making the quality of a product uniform by reducing the amount of deviation of mechanical properties by appropriately adjusting the amount of cooling water required.

Temporary core device according to the present invention for achieving the above object, the housing is mounted on the upper portion of the cooling water pipe, the male nozzle is inserted into the front of the housing and the material is introduced, the male nozzle is inserted into the rear of the housing And a female nozzle for adjusting the amount of cooling water according to a distance from the end portion, wherein the nut member having a female thread is coupled to the housing, and the nut member having a male thread is coupled to the housing so as to be movable and adjustable. It is characterized in that it is fixed to the male nozzle.

A guide member is coupled to the housing, and the adjustment member is guided by the guide member.

The adjusting member is detachably coupled to the male nozzle.

Temporary core device according to the present invention is selectively installed in the required core core row, by rotating the adjustment member to move in the front and rear direction by advancing the male nozzle back and forth to adjust the distance to the female nozzle to contact the material (rebar) By controlling the quantity, the degree of quenching can be controlled, thereby reducing the variation in the mechanical properties of the product produced in each row.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing a temp core device 100 according to the present invention. As shown, the upper portion of the cooling water pipe 110, the housing 120 is mounted, the housing 120 is coupled to the male nozzle 130 is inserted into the front of the housing and the material (rebar) is introduced, The rear of the housing 120 is inserted and coupled to the female nozzle 140, the amount of cooling water is adjusted in accordance with the interval with the end of the male nozzle (130).

In addition, the nut member 150 having a female thread is fixedly coupled to the outside of the housing 120 through a support part described later, and the nut member 150 has a male screw adjustment member 160 coupled to be movable. One end of the adjustment member 160 is fixed to a flange portion described later of the end of the male nozzle 130.

Such a temp core device 100 is installed in one row, two rows or all rows as necessary in a plurality of rows (four rows) as shown in FIG.

An end of the coolant pipe 110 is coupled to a guide member 170 for guiding a material (rebar) into the male nozzle 130. The guide member 170 may not be installed by the male nozzle 130 is formed long to serve as a guide of the material (rebar).

The housing 120 is generally cylindrical, and is fixed to a flange 111 provided in an outlet pipe portion of the cooling water pipe 110, and a cooling water inflow space 121 is formed at an inner center thereof. The inflow space 121 is in communication with the outlet pipe portion of the coolant pipe 110.

In the outer middle of the housing 120, the support part 122 to which the nut member 150 is fitted and fixed is protruded (integrated by welding). And the flange member 190 is fixed to the outer rear of the housing 120, the guide member 195 for guiding the other end of the adjustment member 160 is detachably fixed to the flange member 190. The flange member 190 may be fixed to the female nozzle 140.

The male nozzle 130 is a long tubular body, the inner diameter surface of the front has a shape that narrows the inner diameter from the entrance toward the rear to serve as a guide of the incoming material (rebar). The male nozzle 130 is inserted through an insertion hole formed in front of the housing 120 and passes through the cooling water inflow space 121 to insert a rear end into the inner diameter of the female nozzle 140. On the outer surface of the front end of the male nozzle 130, a flange portion 131 to which one end of the adjustment member 160 is fixed is integrally formed by welding.

The female nozzle 140 is installed in a state of being inserted into the insertion hole formed in the rear of the housing 120, the inner diameter surface has a shape that narrows the inner diameter toward the outlet from the front to the rear. A discharge pipe 180 is connected to the rear of the female nozzle 140. In addition, a through hole 123 is formed in the partition wall separating the insertion hole of the coolant inlet space 121 and the female nozzle 140, and the coolant flowing into the coolant inlet space 121 from the coolant pipe 110 is formed. Through the through hole 123 can be supplied toward the female nozzle 140.

The nut member 150 is in the form of a bush with a flange, is fitted to the support portion 121 is fixed not to be rotated by the fixing member 151.

A male screw portion 161 is formed in the middle of the adjusting member 160 to be screwed to the nut member 150, and a holding portion 162 having a hexagonal bolt head shape can be easily rotated by a spanner or the like. Is formed.

One end (front) of the adjustment member 160 is a connection bracket 196 and 197 fixed to the flange portion 131, and a washer 194 that is pressed to the connection bracket 197 by the fixing member 198. It is fixed to the flange portion 131 by the (). Therefore, since the adjustment member 160 is detachably coupled to the male nozzle 130, the male nozzle 130 can be easily replaced.

The other end (rear) of the adjustment member 160 is covered by a cover 199 fixed to the flange member 190.

The guide member 170 is detachably fixed to the cooling water pipe 110 to facilitate repair and replacement of the male nozzle 130. The guide member 170 may be installed in various forms.

In the temp core device according to the present invention configured as described above, when holding the holding portion 162 of the adjusting member 160, the male screw portion 161 of the adjusting member 160 is moved back and forth along the nut member 150. Thus, the male nozzle 130 is moved forward or backward through the flange portion 131 to adjust the front and rear positions.

Accordingly, the gap between the end of the male nozzle 130 and the inner diameter surface of the female nozzle 140 is adjusted according to the movement of the front and rear positions of the male nozzle 130 to adjust the amount of cooling water flowing into the outlet of the female nozzle 140. By this, it is possible to change the mechanical properties of the rebar by adjusting the degree of quenching of the material (rebar) by adjusting the amount of cooling water in contact with the material (rebar) introduced through the male nozzle 130, The uniformity can be improved by reducing the variation of mechanical properties of the reinforcing steel products produced in each row of the temp core device.

In addition, the adjustment member 160 is guided by the guide member 195 coupled to the housing 120 to move smoothly, and is detachably fixed to the male nozzle 130 through the flange portion 131. Therefore, it is easy to repair and replace.

1 is a side cross-sectional view of a conventional temp core device;

2 is a plan view of FIG.

Figure 3 is a side cross-sectional view of the temp core device according to the present invention.

<Description of the symbols for the main parts of the drawings>

110: cooling water pipe 120: housing

130: male nozzle 140: female nozzle

150: nut member 160: adjustment member

170: guide member 180: discharge pipe

190: flange member 195: guide member

Claims (3)

delete A housing mounted on an upper portion of the cooling water pipe, a male nozzle inserted into the front of the housing and a material flowing therein, and a female nozzle inserted into the rear of the housing to adjust the amount of cooling water according to a distance from the end of the male nozzle; and, A nut member having a female thread is coupled to the housing, and an adjustment member having a male thread is coupled to the nut member to be moveably adjustable. The adjusting member is fixed to the male nozzle, A guide member is coupled to the housing, The tempering device is characterized in that the guide member is guided by the guide member. The method according to claim 2, The adjustment member is a temp core device, characterized in that detachably coupled to the male nozzle.

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