KR20100084221A - Pinch roll rotary joint assembly - Google Patents

Abstract

PURPOSE: A pinch roll rotary joint structure is provided to absorb by refrigerant which absorbs heat with circulating a hollow part of a pinch roll and to improve cooling efficiency by uniformly heat-exchanging on the entire surface of the hollow part. CONSTITUTION: A pinch roll rotary joint structure comprises a rotary shaft(31) wherein a penetration hole(33) is formed inside the rotary shaft and passes through the center area of the rotary shaft to the longitudinal direction, a cooling water inlet pipe(37) wherein an external channel(39) is formed in the outer circumference of the cooling water inlet pipe and flows cooling water, a cooling water outlet(35) which is connected to one end of the external channel of the cooling water inlet pipe, and a fixing cover(53) wherein a through-hole(55) is formed In the center of the fixing cover. The through-hole is communicated with the inside of the cooling water inlet pipe.

Description

Pinch roll rotary joint assembly

The present invention relates to a pinch roll rotary joint structure, and more particularly, to a pinch roll rotary joint structure having a coolant inlet pipe for pinch roll cooling of a player.

In the process of manufacturing cast steel in the machine, the molten steel supplied from the ladle is injected into the mold through the immersion nozzle, and the molten steel is first solidified in the mold into a solidified shell having a solid surface layer. While passing through the end to repeat the quenching process to produce a cast.

The player has a pinch roll for drawing a solidification shell at the bottom of the mold and a plurality of guide rolls for guiding roles, which rolls are embedded in a plurality of segments supporting respective rolls.

The pinch roll is provided with an upper roll and a lower roll, and the solidification shell is pulled by the friction force between the rotating pinch roll and the slab by entering the solidification shell therebetween so that smooth drawing can be performed.

However, cast steel produced in the machine is a high temperature of 900 ~ 1200 ℃ average, so if the cooling performance of the pinch roll is insufficient, the surface temperature of the roll rises, the hardness decreases, and accordingly the surface wear of the roll increases and the gap between the rolls is different It will cause the internal defect of cast steel.

 Therefore, the pinch roll of the player is equipped with a rotary joint for supplying cooling water therein to prevent deterioration by high temperature cast steel.

Referring to FIG. 1, the pinch roll 1 has a hollow portion 3 constituting a cooling water inlet at the center of the roll, and at the end of the hollow portion 3, the hollow portion 3 is formed even when the pinch roll 1 is rotated. The rotary joint 10 is coupled to the cooling water supply.

The rotary joint 10 has a coolant inlet tube 13 at the tip of the rotary shaft 11 coupled with the hollow part 3, so that the coolant portion 3 of the pinch roll 1 along the coolant inlet tube 13. The coolant introduced into and returned to the outside of the coolant inlet pipe 13 cools the pinch roll 1, and then through the coolant outlet pipe 15 of the rotary joint 10 located on the same line as the coolant inlet pipe. Allow to be discharged to the outside.

The rotary joint 10 has a bushing 17 coupled to the rotary shaft 11 to prevent abrasion, and a seal 19 is provided between the bushing 17 and the rotary shaft 11 to provide the inside of the rotary shaft 11. The leakage of the cooling water flowing to the cooling water inflow pipe 13 is prevented.

However, the above-described conventional techniques have the following problems.

The conventional rotary joint 10 has a configuration in which the bushing 17 is integrally fixed to the rotary shaft 11 by welding in order to prevent wear of the rotary shaft 11 and to prevent cooling water leakage. If abrasion occurred, there was a problem in that the entire rotary joint 10 had to be replaced.

In addition, in the conventional rotary joint 10, since the coolant inlet pipe 13 and the coolant outlet pipe 15 are located on the same line in the rotary shaft 11, heat exchange is concentrated in the direction in which the coolant flows in compared to the direction in which the coolant flows out. There was a problem that the overall cooling efficiency of the roll (1) is lowered.

The present invention is to solve the problems of the prior art as described above is an object of the present invention to provide a pinch roll rotary joint structure to minimize the repair cost of the rotary joint due to the wear of the bushing.

Another object of the present invention is to provide a pinch roll rotary joint structure which prevents leakage of cooling water and enables the pinch roll to be cooled quickly.

According to a feature of the present invention for achieving the above object, the present invention is installed on one end of the pinch roll, the inside of the rotating shaft is formed through the through hole penetrating the center portion in the longitudinal direction, and the One end of the pinch roll protrudes through the through hole, and a cooling water inlet pipe forming an external flow path to allow the cooling water to flow through the outer circumference thereof, and the rotary shaft connected to one end of the external flow path of the cooling water inlet pipe. And a fixed cover having a through hole communicating with the inside of the coolant inlet tube to fix the coolant inlet tube formed at an end of the rotary shaft and to fix the coolant inlet tube to the through hole at the center thereof, and the coolant to be injected therein.

A portion of an outer surface of the coolant inlet pipe is formed with a male thread, and the through hole is formed with a female screw part so that the coolant inlet pipe is screwed into the through hole and fixed to the rotating shaft.

The rotating shaft or the fixing cover is provided with a connecting portion for guiding coupling at one end connected to each other, and the connecting portion corresponds to an inner diameter of the through hole so as to closely contact the through hole of the rotating shaft.

A coupling member and a bushing are coupled to an outer surface of the rotating shaft, and a sealing member is provided between the coupling member and the bushing to prevent leakage of cooling water.

According to the pinch roll rotary joint structure which concerns on this invention, the following effects can be anticipated.

In the present invention has a configuration in which the coupling and the bushing in turn coupled to the outer diameter of the rotary shaft to prevent the leakage of cooling water has a high cooling efficiency.

In addition, in the present invention, since the cooling water circulates through the hollow portion 3 of the pinch roll 1 to directly absorb heat, the cooling efficiency is excellent. That is, heat exchange occurs equally on all surfaces of the hollow part, so that the cooling efficiency is higher than that of the conventional rotary joint in which heat exchange is biased to one side.

In addition, in the present invention, since the rotary joint is made up of a plurality of detachable parts, it is possible to easily replace the wear of the bushing, thereby minimizing the repair cost of the rotary joint and minimizing the time required for replacement inspection. .

Hereinafter, a preferred embodiment of the pinch roll rotary joint structure according to the present invention will be described in detail with reference to the accompanying drawings.

The pinch roll rotary joint structure of the present invention includes a pinch roll (1) for drawing the cast steel, the rotary joint (30) serves to cool the pinch roll (1) by supplying the cooling water to the pinch roll (1) to rotate do.

The pinch roll 1 is rotatably installed by coupling the drive shaft 5 protruding to one side to the bearing housing 7, and connecting the drive shaft 5 to a speed reducer (not shown) to apply rotational force from a motor (not shown). It has a structure that receives and rotates. The bearing housing 7 includes a bearing member 9 through which the drive shaft 5 is coupled and supported.

The pinch roll 1 has a hollow portion 3 constituting a cooling water inlet at the center of the body. The hollow portion opens to the end of the drive shaft 5 of the pinch roll 1 and extends toward the central portion of the pinch roll 1 so that the cooling water cools the pinch roll 1 more efficiently.

The rotary joint 30 is coupled to the hollow portion 3 of the pinch roll so that the cooling water may be supplied to the hollow portion 3 even when the pinch roll 1 is rotated. The rotary joint 30 circulates the cooling water into the pinch roll 1 to prevent a problem in which the pinch roll 1 is unweared or thermally deformed due to the high heat generated from the hot cast.

As shown in FIG. 2, the rotary joint 30 has one end of the rotary shaft 31 fitted to the hollow portion 3, and a cooling water inflow pipe communicating with the hollow portion 3 inside the rotary shaft 31 ( 37) has an installed configuration. More specifically, the rotary joint 30 is composed of a plurality of parts in order to be able to replace only the parts that wear or damage a lot.

The rotating shaft 31 has a through hole 33 penetrating the central portion in the longitudinal direction therein, and a cooling water discharge hole 35 is formed at the end to discharge the cooling water.

The coolant inlet pipe 37 is installed to penetrate the through hole 33 so as to protrude into the hollow portion of the pinch roll 1. Accordingly, the coolant may be distributed to the outside of the coolant inlet pipe 37 in the through hole 33. An external flow path 39 is formed. The external passage 39 communicates with the cooling water outlet 35 formed in the rotary shaft 31 so that the cooling water cooling the pinch roll 1 can be discharged.

In the above-described configuration, after the coolant is introduced into the hollow portion of the pinch roll 1 along the coolant inlet pipe 37, the drawn coolant returns to the outside of the coolant inlet pipe 37 to cool the pinch roll 1. It is to be discharged to the cooling water outlet 35 through the external passage (39). Arrows show the flow of coolant through the rotary joint 30.

One end of the rotating shaft 31 is fixed to the bearing housing 7 by a thread 41 or the like. That is, the male threaded portion of the outer surface of the screw 41 fastened to the fastening hole 43 of the rotary shaft 31 is screwed to the female threaded portion formed inside the bearing housing 7 to fix the rotary shaft 31 to the bearing housing 7. .

On the other hand, the coupling 45 and the bushing 47 to prevent the wear of the rotary shaft 31 is coupled to the outer diameter of the rotary shaft 31 fitted to the hollow portion (3) in turn. A sealing member 50 is provided between the coupling 45 and the bushing 47 to prevent leakage of the cooling water. As the seal member 50, a circular ring is employed.

As shown in FIG. 4, the bushing 47 is configured to have an airtight groove 49 recessed to couple the seal member 50 to its outer and inner diameters, thereby forming a gap between the coupling 45 and the bushing 47. To increase the confidentiality of the A fastening hole 51 is formed at the end of the bushing 47. A bolt or the like for fastening the bushing 47 to the pinch roll 1 is fastened to the fastening hole 51.

The cooling water inlet pipe 37 is formed with a hole to allow the cooling water to flow therein. The outer diameter of the coolant inlet pipe 37 is formed smaller than the through hole 33 of the rotating shaft 31 so that the coolant introduced through the coolant inlet pipe 37 is formed between the through hole 33 and the coolant inlet pipe 37. It flows out to the external passage 39.

The cooling water inflow pipe 37 is fixed to the through hole 33 of the rotation shaft 31 by a fixing cover 53 mounted at the end of the rotation shaft 31. In the center of the fixing cover 53 is formed a through-hole 55 in communication with the inside of the cooling water inlet pipe 37 so that the cooling water is injected. This through-hole 55 becomes an inlet which coolant flows in substantially.

A female screw portion is formed in the through hole 55, and a male screw portion is formed in a portion of the outer diameter of the cooling water inflow pipe 37 so that the cooling water inflow pipe 37 is fixed to the through hole 55 of the fixing cover 53 by screwing.

The fixing cover 53 is formed with a connection portion 57 extending in the direction in which the through hole 33 of the rotation shaft 31 is coupled. The connecting portion 57 guides the coupling between the rotary shaft 31 and the fixed cover 53 and forms an external flow passage 39 which is a moving space through which the coolant circulated through the hollow portion 3 can flow out through the through hole 33. do.

The connection portion 57 has an outer diameter corresponding to the inner diameter of the through hole 33 so as to be in close contact with the through hole 33, and the inner diameter corresponds to the outer diameter of the coolant inflow pipe 37. The sealing member is provided at a portion where the fixing cover 53 and the rotation shaft 31 are coupled to each other to prevent leakage of the cooling water.

Reference numeral 59 is a spacer for fixing the cooling water inlet pipe 37 to maintain a constant interval to the hollow portion 3, the spacer is fixed at a constant isometric in a rib form to enable the flow of the cooling water.

Hereinafter, the action of the pinch roll rotary joint structure according to the present invention having the configuration as described above will be described in detail.

The coupling shaft 45 and the bushing 47 are coupled to the rotary shaft 31 and installed in the hollow part 3 of the rotary shaft 31, and the cooling water inlet pipe 37 having the fixed cover 53 coupled to the end thereof is rotated on the rotary shaft 31. ) Is inserted into the through hole (33). Then, the connection portion 57 serves to guide the coupling position of the fixing cover 53 and at the same time forms an external flow path 39 through which the coolant can flow between the coolant inlet pipe 37 and the through hole 33.

Next, the cooling water flows into the cooling water inlet pipe 37 through the through hole 55 of the fixing cover 53 to cool the pinch roll 1.

The cooling water introduced into the cooling water inlet pipe 37 is introduced into the hollow part 3 to absorb the heat of the pinch roll 1 to an external flow path 39 formed between the through hole 33 and the cooling water inlet pipe 37. At the same time, heat is transferred to the cooling water introduced into the hollow part 3 to exchange heat.

In this manner, the pinch roll 1 is cooled. The cooling water having cooled the pinch roll 1 is moved to the external flow passage 39 in communication with the cooling water discharge port 35. At this time, since the coupling portion between the coupling 45 and the bushing 47 and the rotation shaft 31 and the fixing cover 53 is sealed by the seal member 50, no cooling water leak occurs.

In addition, the cooling water circulates through the hollow portion 3 of the pinch roll 1 to directly absorb heat, thereby providing excellent cooling efficiency. That is, since heat exchange occurs equally on all surfaces of the hollow part 3, the efficiency is higher than that of the conventional rotary joint 10 in which heat exchange is biased to one side.

In addition, when the rotary joint 30 is formed of a plurality of parts and wear of the bushing 47 occurs, the bushing 47 has a configuration in which the coupling 45 is fitted to the rotary shaft 31 through the coupling 45. 47) It is possible to replace only.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. will be.

1 is a cross-sectional view showing a conventional pinch roll rotary joint.

Figure 2 is a cross-sectional view showing a preferred embodiment of the pinch roll rotary joint structure according to the present invention.

3 is a cross-sectional view and a front view of a rotating shaft according to an embodiment of the present invention.

4 is a cross-sectional view and a front view of the bushing according to the embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

1: pinch roll 3: hollow part

5: drive shaft 7: bearing housing

9: bearing member 30: rotary joint

31: rotating shaft 33: through hole

35: outlet 37: cooling water inlet pipe

39: Outside euro 41: Mount screw

43: fastener 45: coupling

47: Bushing 49: Confidential Home

50: seal member 51: fastener

53: fixing cover 55: through

57: connector 59: spacer

Claims (4)

A rotating shaft installed at one end of the pinch roll and having a through hole penetrating the central portion thereof in the longitudinal direction; A coolant inflow pipe having one end protruding into the hollow of the pinch roll and penetrating the through hole of the rotary shaft, and forming an external flow path so that the coolant can be distributed on an outer circumference thereof; A cooling water discharge port formed in the rotating shaft to be connected to one end of an external flow path of the cooling water inlet pipe; A pinch roll rotary joint structure, characterized in that it is mounted to the end of the rotating shaft to fix the cooling water inlet pipe to the through hole and the center has a through-hole communicating with the inside of the cooling water inlet tube so that the coolant is injected. The method according to claim 1, A pinch roll rotary joint structure, characterized in that a male screw portion is formed in a portion of an outer surface of the cooling water inlet pipe, and a female screw portion is formed in the through hole so that the cooling water inlet pipe is screwed into the through hole and fixed to the rotating shaft. The method according to claim 2, A pinch roll rotary joint structure, wherein the rotary shaft or the fixing cover is provided with a connecting portion for guiding coupling at one end thereof connected to each other, and the connecting portion corresponds to an inner diameter of the through hole so as to closely contact the through hole of the rotating shaft. . The method according to any one of claims 1 to 3, A coupling member and a bushing are coupled to an outer surface of the rotating shaft, and a pinch roll rotary joint structure is provided between the coupling and the bushing to prevent leakage of cooling water.

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