KR100983848B1 - Dual type cooling system for caterpillar roller - Google Patents

Abstract

PURPOSE: A roller cooling system for an endless track of dual type, which supplies a pair of roller to a cooler at a time, is provided to cool a roller for endless track by simultaneously supplying a pair of roller to the cooler. CONSTITUTION: A roller cooling system for an endless track of dual comprises a cooler(100), a main transferring stand(200), an auxiliary transferring stand(300) and a transfer member(400). The cooler comprises a holder(110) and a coolant injection nozzle. A first sitting area and a second sitting area of the main transferring stand are arranged in the arrangement direction of the holder. The main transferring stand is up and down move toward the arrangement direction of the holder. The auxiliary transferring stand comprises a deferment domain.

Description

Dual type cooling system for caterpillar rollers {Dual type cooling system for caterpillar roller}

The present invention relates to a cooling system for cooling a crawler roller, and more particularly, to a crawler roller cooling system configured to transfer and cool two or more crawler rollers to a cooling device at a time. will be.

A caterpillar is a device that connects the plate in a chain shape and drives it by rotating it with power on the front and rear wheels like a belt. The caterpillar has the advantage of being able to travel freely even on uneven roads or mud because the ground area is larger than the normal wheels and the friction with the ground is greater. Because of these advantages, the caterpillar is used for agriculture, civil vehicles or military tanks, armored vehicles.

The caterpillar typically includes a track link in which a plurality of track shoes are connected in a caterpillar, and a lower part in which a traveling device including a sprocket and the like is mounted at the front and an idler for adjusting the tension of the track link and inducing a driving direction is mounted at the front. And a lower roller mounted below the lower frame to distribute the weight of the equipment evenly to the ground through the track link, and an upper roller mounted above the lower frame to facilitate the sagging and rotation of the track link. .

In this way, a variety of rollers are applied to one caterpillar, and these rollers have to withstand a very large load, and thus a heat treatment process is required to improve strength. The heat treatment process consists of a heating process for heating the roller above a set temperature and a cooling process for cooling the heated roller. In the heating method, the roller is seated on the conveyor belt and formed in one side of the heating chamber. The way that the roller is heated by passing through is mainly used. When the roller is heated in this manner, it takes some time to heat one roller, but since the heated roller can be continuously obtained, a large number of rollers can be heated within a unit time.

On the other hand, as a method of cooling the rollers, a method of spraying coolant onto the rollers is generally used. However, the cooling water spraying method can cool only one roller at a time. Even if it does not take much time, cooled rollers cannot be obtained continuously. Therefore, a large number of rollers cannot be cooled in a unit time.

Therefore, in order to heat-treat a large number of rollers within a unit time, a method of supplying heated rollers one by one with a plurality of cooling devices in one heating chamber has been proposed. However, in this case, it is disadvantageous that it takes not only a lot of time to supply the rollers to each cooling device but also a lot of power for conveying the rollers.

In particular, when a plurality of rollers are discharged through the heating chamber in two rows, there is a problem that a number of additional devices are required in order to select the rollers rowed in two rows one by one and transfer them to the cooling apparatus.

The present invention has been proposed in order to solve the above problems, after rearranging a pair of crawler rollers supplied in two rows in a single row, it can be supplied at a time to the cooling device, a pair of rollers cooling is completed It is an object to provide a crawler roller cooling system configured to be discharged at one time.

The crawler roller cooling system according to the present invention for achieving the above object includes a cradle on which the crawler roller is mounted, and a coolant spray unit for injecting coolant into the crawler roller, wherein the cradle has two Chillers arranged in parallel; Arrangement of the cradle so that the first seating area and the second seating area on which the crawler roller is seated are arranged in the arrangement direction of the holder, and the first seating area and the second seating area are positioned at a point corresponding to the holder. A main carriage movable in a reciprocating direction; A mounting area on which the roller for caterpillar is mounted is provided, and is located on one side in the width direction of the main carriage to move back and forth in an arrangement direction of the first seating area and the second seating area. An auxiliary transport station that can be stopped at a point corresponding to the first seating area and the second seating area; And a conveying means for pushing the crawler roller mounted on the mounting area to the second seating area when the auxiliary feeder is transported such that the mounting area is located at one side of the second seating area.

When the main carriage and the subcarrier is moved to one end, the mounting region is arranged in a line with the first seating region in a horizontal direction perpendicular to the arrangement direction of the mounting bracket.

The auxiliary carriage is reciprocated by a cylinder having a stroke by the separation distance between the first seating area and the second seating area.

When the main carriage is moved to one end, the first seating area and the second seating area are located at a point outside one side of the cooling apparatus.

A transport rail and an auxiliary rail extending in a direction parallel to the arrangement direction of the cradle are further provided. The main transport platform is moved along the transport rail, and the auxiliary transport platform is transported along the auxiliary rail.

The separation distance between the first mounting region and the second mounting region is set equal to the separation distance between two neighboring cradles.

When the main carriage is moved so that the first seating area and the second seating area are located at a point corresponding to the holder, the rollers for crawling on the track seat mounted on the first seating area and the second seating area are pushed to the holder. A retracting means for moving and a caterpillar roller seated on the cradle when the main carriage is moved so that the first seating area and the second seating area are positioned at a point corresponding to the cradle; It further includes a withdrawal means for pushing and moving to the second seating area.

The main carriage is located at a point where the first seating area and the second seating area are not adjacent to the cooling device when moved to the other end.

A conveyor belt installed at one point in the width direction of the main transport table moved to the other end; When the main carriage is moved to the other end, the discharge means for pushing and moving the roller for the crawler seated on the first seating area and the second seating area on the conveyor.

The cradle is provided with four or more even numbers.

The cradle has a through space formed in a portion where the crawler roller is seated, and the coolant spray unit has an inner space to allow the crawler roller to enter therein and corresponds to an outer circumferential surface of the crawler roller. Cooling water jet hole is formed in the portion to be formed, the cooling jacket located on the upper side of the cradle, and when the crawler roller is drawn into the cooling jacket is located inside the crawler roller and the inner peripheral surface of the crawler roller and And a cooling water jetting rod having a cooling water jetting hole formed at a corresponding portion, and the cooling device includes a seating table positioned below the through space, and the seating table penetrating the through space to push up the crawler roller. And elevating means for elevating and mounting the seating table.

By using the caterpillar roller cooling system according to the present invention, a pair of caterpillar rollers supplied in two rows can be rearranged in one row, so that the caterpillar roller can be more easily transported, and a pair of infinity Since the orbital rollers can be simultaneously supplied to the cooling device, there is an advantage that a large number of crawler rollers can be cooled at a time.

1 is a plan view of a crawler roller cooling system according to the present invention.
Figure 2 is a vertical cross-sectional view of the cooling device included in the crawler roller cooling system according to the present invention.
3 is a plan view of the main carriage included in the crawler roller cooling system according to the present invention.
4 is a plan view of an auxiliary feeder included in the crawler roller cooling system according to the present invention.
5 to 9 sequentially show the operation of the crawler roller cooling system according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of a crawler roller cooling system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view of a crawler roller cooling system according to the present invention, Figure 2 is a vertical cross-sectional view of the cooling apparatus included in the crawler roller cooling system according to the present invention, Figure 3 is a crawler for 4 is a plan view of the main carriage included in the roller cooling system, and FIG. 4 is a plan view of the sub carriage included in the roller cooling system for crawling tracks according to the present invention.

The crawler roller cooling system according to the present invention includes a cooling device 100 for cooling the crawler roller 10 by spraying cooling water onto the crawler roller 10 drawn inwardly, and the crawler roller. A main carriage 200 for transferring the 10 to the cooling device 100 side, and an auxiliary carriage for arranging the rollers 10 for the caterpillar supplied in two rows in one row on the main carriage 200 ( 300) and the transfer means 400 is configured.

The cooling device 100 is a cradle 110 is mounted to the crawler roller 10 and the through-space 112 is formed in a portion of the track roller 10 is seated, and the crawler Cooling water injection unit 120 for injecting the coolant to the roller 10, the seating table 130 located below the through space 112, and the seating table 130 through the through space 112 It comprises a lifting means 140 for elevating the seating table 130 to push up the crawler roller 10. The cooling water spraying unit is formed in a ring shape having an inner space to allow the crawler roller 10 to be drawn inward, and a coolant spray hole is formed at a portion corresponding to the outer circumferential surface of the crawler roller 10. The cooling jacket 122 positioned above the cradle 110 and the crawler roller 10 are positioned inside the crawler roller 10 when the crawler roller 10 is introduced into the cooling jacket 122. It consists of a coolant spray rod 124 is formed with a coolant spray hole in a portion corresponding to the inner peripheral surface of the crawler roller 10. Therefore, as shown in FIG. 2, when the hoisting roller 10 pushes up the seating table 130 upward in the state in which the crawler roller 10 is seated on the holder 110, the seating table 130 is infinite. After contacting the bottom surface of the raceway roller 10, the crawler roller 10 is pushed upward and drawn into the cooling jacket 122. When the coolant is supplied to the cooling jacket 122 and the coolant jet rod 124 while the crawler roller 10 is drawn into the cooling jacket 122, the coolant is an outer circumferential surface of the crawler roller 10. And it is injected into the inner peripheral surface to cool the crawler roller 10. As such, when the crawler roller 10 is introduced into the cooling jacket 122 having a fixed position, the cooling water supply pipe 126 for supplying the cooling water to the cooling jacket 122 does not need to move, and thus the cooling jacket The connection between the 122 and the cooling water supply pipe 126 has an advantage that there is no risk of loosening or damage.

At this time, the cradle 110, the cooling water injection unit and the seating table 130 are located in the cooling chamber 104 so that the cooling water sprayed to the crawler roller 10 does not splash outwardly, and the lifting means 140 Is mounted to the base member 102 located below the cooling chamber 104. At this time, the door (at the side where the main carriage 200 is located) on one side of the cooling chamber 104 so that the crawler roller 10 can enter and exit into the cooling chamber 104. 106 is provided.

In addition, the cooling device 100 is not provided with only one cradle 110 and the coolant spray unit 120, respectively, the two or more cradle 110 and the coolant spray unit 120 at least two rollers for infinite tracks ) Are arranged in parallel along the direction in which they are supplied (horizontal in FIG. 1). As such, when two or more cooling water and spraying units are provided in one cooling device 100, the plurality of crawler rollers 10 may be cooled at a time, thereby improving productivity.

The main carriage 200 has a first seating area 210 and a second seating area 220 on which the crawler roller 10 can be mounted, and is provided on the upper surface, and the first seating area 210. The second seating area 220 is arranged in the arrangement direction of the holder 110, that is, in the movement direction of the main carriage 200. In this case, the main carriage 200 is reciprocated in the arrangement direction of the cradle 110 such that the first seating area 210 and the second seating area 220 are located at a point corresponding to the cradle 110. The separation distance between the first seating area 210 and the second seating area 220 is set equal to the distance between two neighboring cradles 110. Therefore, when the main carriage 200 is transferred to one side of the cooling apparatus 100 so that the first seating area 210 corresponds to any one cradle 110, the second seating area 220 is adjacent to another cradle. Corresponding to 110, the two crawler rollers 10 can be drawn into the different cradle 110 at a time.

On the other hand, when the crawler rollers 10 are supplied in two rows, the crawler rollers 10 cannot be drawn into the cradle 110 arranged in parallel along the supply direction of the crawler rollers 10. Therefore, the crawler roller 10 is to be rearranged in one row and then transferred to the cooling apparatus 100. Thus, the components provided to rearrange the crawler roller 10 supplied in two rows in one row. The auxiliary carrier 300 and the transfer means 400.

The auxiliary carriage 300 is provided with a mounting area 310 in which the crawler roller 10 can be mounted, and is positioned on one side in the width direction of the main transport table 200 so as to mount the first seating area 210. ) And the second seating area 220 are configured to reciprocate in a direction parallel to the direction of movement of the main carriage 200. Therefore, when the auxiliary carriage 300 is transported to one side, as shown in FIG. When transferred to the side, the mounting area 310 is located at a point corresponding to the second seating area 220.

In addition, the conveying means 400 is for the endless track mounted on the mounting area 310 when the auxiliary carriage 300 is transferred so that the mounting area 310 is located on one side of the second seating area 220. The roller 10 is a component for pushing and moving the second seating area 220. The conveying means 400 may not only be configured to push the crawler roller 10 by the force of the cylinder as shown in this embodiment, but also push the crawler roller 10 by the rotational force of the electric motor. If the structure including the rack and pinion, the structure to push the crawler roller 10 in a linear direction by using a linear motor, such as a structure that can push and transport the crawler roller 10 is replaced with any structure Can be.

Therefore, when receiving the crawler roller 10 supplied in two rows, as shown in FIG. 1, the mounting area 310 and the first seating area 210 are horizontal to form a right angle with the arrangement direction of the mounting base 110. The subcarrier 300 is positioned to be arranged in a direction. In this state, the pair of crawler rollers 10 supplied in two rows are seated in the mounting area 310 and the first seating area 210, respectively. When the pair of caterpillar rollers 10 are seated in the mounting area 310 and the first seating area 210, respectively, the auxiliary carriage 300 has a mounting area 310 and the second seating area 220. In other words, the mounting area 310 and the second seating area 220 are moved to be arranged in a horizontal direction perpendicular to the arrangement direction of the cradle 110 to be positioned at a corresponding point, and the transfer means 400 is mounted. The pair of rollers are arranged in one row by pushing the crawler roller 10 seated in the area 310 onto the second seating area 220.

As described above, the crawler roller cooling system according to the present invention not only rearranges the crawler rollers 10 supplied in two rows in one row, but also neighbors a pair of crawler rollers rearranged in one row. Since it can be accurately spaced apart by the separation distance between the two cradles 110, there is an advantage that can be accurately seated the rollers for crawler 10 one by one on each cradle 110 arranged in parallel. Therefore, the cooling device 100 has the advantage that productivity can be improved because the two crawler rollers 10 can be cooled at a time. In addition, since the caterpillar rollers 10 are transported by two each time the main carriage 200 is moved once, the time required to transport the caterpillar rollers 10 is greatly reduced, and the caterpillar rollers ( Compared to the case where 10) is transported one at a time, the power consumption can be reduced.

Meanwhile, the first seating area 210 when the main carriage 200 and the auxiliary carriage 300 are moved to one end (left side in FIG. 1) to receive the crawler roller 10 supplied in parallel. When the second seating area 220 is located on one side of the cooling apparatus 100, when the auxiliary carrier 300 is moved or the transfer means 400 is operated, the auxiliary carrier 300 and the transfer means 400 are It may interfere with other components to prevent normal operation. Therefore, when the main carriage 200 is moved to one end in order to seat the supplied crawler roller 10 on the upper end, the first seating area 210 and the second seating area 220 are the cooling device. It is preferably configured to be located at a point outside one side of the (100).

In addition, the caterpillar roller cooling system according to the present invention, the main carriage 200 and the auxiliary carriage 300 is seated so that the main carriage 200 and the auxiliary carriage 300 is reciprocated in a predetermined direction It further includes a transport rail 510 and the auxiliary rail (520). The conveying rail 510 and the auxiliary rail 520 is installed so that the longitudinal direction is parallel to the arrangement direction of the cradle 110, the main conveyer 200 moves on the conveying rail 510, The auxiliary carrier 300 moves on the auxiliary rail 520. In this case, since the main carriage 200 reciprocates a relatively long distance, the main carriage 200 is preferably configured to be moved by a separate power device such as an electric motor, and the auxiliary carriage 300 reciprocates a relatively short distance, so that the cylinder is simple in structure. It is preferably configured to reciprocate by. In addition, when the cylinder for reciprocating the auxiliary carriage 300 is applied to the cylinder having a stroke by the separation distance between the first seating area 210 and the second seating area 220, a separate stopper or control device is not provided. If not, there is an advantage that the mounting area 310 can be accurately positioned at the point corresponding to the first seating area 210 and the point corresponding to the second seating area 220.

In addition, the caterpillar roller cooling system according to the present invention, the apparatus for cooling the caterpillar roller 10 seated in the first seating area 210 and the second seating area 220 of the main carriage 200. Retracting means (600) for transferring to the holder 110 of the) and the endless track roller 10 on the holder 110 is completed cooling the first seating area 210 and the first of the main carriage 200 It further comprises a take-out means 700 for transferring to the two seating area (220). When the drawing means 600 and the drawing means 700 are further provided as described above, the operation of pushing the crawler roller 10 into the cooling device 100 or cooling the crawler roller 10 in which the cooling is completed is completed. There is an advantage in that it is possible to automate the work of drawing out the device 100. Compared with the transfer means 400, the inlet means 600 and the withdrawal means 700 are different only in the mounting position, but the operation principle and the internal structure thereof are substantially the same as the transfer means 400. Detailed description will be omitted.

On the other hand, when the endless track roller 10 is cooled in the cooling device 100 is seated on the main carriage 200 by the drawing means 700, the main carriage 200 is the endless track The roller 10 is configured to be transported to a point far from the cooling device 100. That is, when the main carriage 200 is moved to the other end (the right side in FIG. 1), the first seating area 210 and the second seating area 220 are not adjacent to the cooling device 100. It is configured to be located in.

In addition, the crawler roller cooling system according to the present invention, the conveyor belt 800 is installed at one side of the width direction of the main carriage 200 when the main carriage 200 is moved to the other end, and the main carriage It may be configured to further include a discharge means 900 for pushing the crawler roller 10 seated on the 200 on the conveyor. In this case, the conveyor belt 800 is used in various types of production lines, and the discharge means 900 has a structure substantially the same as the drawing means 600 and the drawing means 700, the detailed description thereof Is omitted. When the conveyor belt 800 and the discharge means 900 are additionally provided as described above, the rollers 10 for the crawler, which have been cooled, can be transported farther.

Meanwhile, four cradles 110 provided in the cooling device 100 may be provided in one cooling device 100 as shown in this embodiment. When four cradles 110 are provided in one cooling device 100 as described above, the main feeder 200 supplies the crawler roller 10 to the first and second cradles 110 from the right side. Afterwards, the roller moves to the left end again and receives the new crawler roller 10 and supplies the crawler roller 10 to the third and fourth cradles 110 from the right. When the crawler roller 10 is seated on all four cradles 110, the cooling device 100 operates the coolant spray unit 120 to cool the four crawler rollers 10 at once. Can be. At this time, the main carriage 200 is configured to supply two crawler rollers 10 to the cooling device 100 side at a time, the cradle 110 is four, six, eight, etc. It is preferred to be provided in even numbers.

5 to 9 sequentially show the operation of the crawler roller cooling system according to the present invention.

As shown in FIG. 1, when the main carriage 200 and the auxiliary carriage 300 are moved to the left side, the rollers 10 for endless tracks 10 are respectively seated in the first seating area 210 and the mounting area 310. As shown in FIG. 5, the auxiliary carriage 300 is positioned at a point corresponding to the second seating area 220, that is, the mounting area 310 is arranged in the arrangement direction of the holder 110. It moves to the right to be aligned with the first seating area 210 in a horizontal direction perpendicular to the horizontal direction, the transfer means 400 is a main carriage to move the crawler roller 10 seated in the mounting area (310) Push to the (200) side to be seated in the second seating area (220).

As such, when the two caterpillar rollers 10 are both mounted on the main carriage 200, the main carriage 200 may have a first seating area 210 and a second seating area as shown in FIG. 6. 220 is moved to the right so as to be located at a point corresponding to the first and second cradle 110 from the right, the retracting means 600 to the first seating area 210 and the second seating area (220) The rollers for crawling track 10, which are seated, are pushed toward the cooling device 100 and seated on the respective holders 110.

When the caterpillar roller 10 is seated on the first and second cradles 110 from the right, the main carriage 200 and the auxiliary carriage 300 are moved to the left side as shown in FIG. The process of receiving the roller 10 and repeating the process of moving the roller for the crawler 10 supplied to the auxiliary carriage 300 to the second seating area 220 of the main carriage 200. At this time, the operation of each component for moving the crawler roller 10 supplied to the auxiliary carriage 300 to the second seating area 220 of the main carriage 200 and the operation described with reference to FIG. Since the same, detailed description thereof will be omitted.

When the two newly supplied crawler rollers 10 are seated on the main carriage 200, the main carriage 200 may be formed of the first seating area 210 and the first as shown in FIG. 7. 2 The seating area 220 is moved to the right so as to be located at a point corresponding to the third and fourth cradle 110 from the right, the retracting means 600 is the first seating area 210 and the second seating area ( The crawler roller 10 seated on the 220 is pushed toward the cooling device 100 and seated on each cradle 110. When the crawler roller 10 is seated on all four cradles 110, the cooling apparatus 100 performs an operation of cooling the crawler roller 10.

When cooling of the crawler roller 10 is completed, as shown in FIG. 8, the withdrawal means 700 pushes the crawler roller 10 seated on the holder 110 toward the main carriage 200. It is seated in the first seating area 210 and the second seating area 220, the main carriage 200 is moved to the right as shown in Figure 9 is located on one side in the width direction of the conveyor belt (800). . When the main carriage 200 on which the caterpillar roller 10 is seated is located at one side in the width direction of the conveyor belt 800, the discharge means 900 is a caterpillar roller seated on the main carriage 200. By moving the 10 toward the conveyor belt 800 side, the crawler roller 10 is discharged to the outside.

As described with reference to FIGS. 5 to 9, when using the crawler roller cooling system according to the present invention, two crawler rollers fed in parallel to the main carriage 200 and the auxiliary carriage 300 ( Since 10) can be rearranged in series on the main carriage 200, there are advantages that the two crawler rollers 10 can be supplied to the cooling apparatus 100 at a time. As such, when the plurality of crawler rollers 10 are fed to the cooling apparatus 100 at a time, productivity can be improved by reducing the time required for supplying the crawler rollers 10, and for crawlers Compared to the case of supplying the rollers 10 one by one, there is an advantage that the required power can be reduced.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: cooling device 110: holder
120: cooling water injection unit 130: seating table
140: lifting means 200: the main transport
300: auxiliary transport table 400: transfer means
510: transfer rail 520: auxiliary rail
600: withdrawal means 700: withdrawal means
800: conveyor belt 900: discharge means

Claims (11)

A cradle on which a crawler roller is mounted, and a coolant spray unit for injecting coolant into the crawler roller, wherein the cradle is arranged in parallel with two or more;
Arrangement of the cradle so that the first seating area and the second seating area on which the crawler roller is seated are arranged in the arrangement direction of the holder, and the first seating area and the second seating area are positioned at a point corresponding to the holder. A main carriage movable in a reciprocating direction;
A mounting area on which the roller for caterpillar is mounted is provided, and is located on one side in the width direction of the main carriage to move back and forth in an arrangement direction of the first seating area and the second seating area. An auxiliary transport station that can be stopped at a point corresponding to the first seating area and the second seating area;
Transfer means for pushing the crawler roller mounted on the mounting area to the second seating area when the auxiliary feeder is transported such that the mounting area is located at one side of the second seating area;
Caterpillar roller cooling system characterized in that comprises a.
The method of claim 1,
When the main carriage and the sub-carrier is moved to one end, the mounting area is arranged in a row with the first seating area in a horizontal direction perpendicular to the arrangement direction of the mounting zone roller cooling system for tracks .
The method of claim 1,
The spaced distance between the first seating area and the second seating area, the roller space cooling system for the track, characterized in that the same as the distance between two neighboring cradle.
The method of claim 3,
The auxiliary carriage is a crawler roller cooling system, characterized in that the reciprocating movement by the cylinder having a stroke by the separation distance between the first seating area and the second seating area.
The method of claim 1,
And the first seating area and the second seating area are located at a point away from one side of the cooling device when the main carriage is moved to one end.
The method according to any one of claims 1 to 5,
Further provided with a transport rail and an auxiliary rail extending in a direction parallel to the array direction of the cradle,
The main carriage is moved along the conveying rail, the auxiliary conveying roller is a crawler roller cooling system, characterized in that conveyed along the auxiliary rail.
The method according to any one of claims 1 to 5,
When the main carriage is moved so that the first seating area and the second seating area are located at a point corresponding to the holder, the rollers for crawling on the track seat mounted on the first seating area and the second seating area are pushed to the holder. Moving means for moving,
When the main carriage is moved so that the first seating area and the second seating area are located at a point corresponding to the holder, the rollers for crawling on the holder are pushed to the first seating area and the second seating area. Drawing means for moving;
Caterpillar roller cooling system characterized in that it further comprises.
The method according to any one of claims 1 to 5,
And the main carriage is positioned at a point where the first seating area and the second seating area are not adjacent to the cooling device when moved to the other end.
The method of claim 8,
A conveyor belt installed at one point in the width direction of the main carriage moved to the other end, and an endless roller seated at the first seating area and the second seating area when the main carriage is moved to the other end; Endless roller cooling system further comprises a discharge means for moving upward.
The method according to any one of claims 1 to 5,
The cradle is a crawler roller cooling system, characterized in that provided with an even number of four or more.
The method according to any one of claims 1 to 5,
The cradle has a through space formed in a portion of the track roller is seated,
The cooling water spraying unit includes a cooling jacket having an inner space to allow the crawler roller to be drawn inward and a coolant spray hole formed at a portion corresponding to an outer circumferential surface of the crawler roller and positioned above the cradle; When the crawler roller is drawn into the cooling jacket is located inside the crawler roller and consists of a coolant spray rod is formed in the cooling water jet hole in a portion corresponding to the inner peripheral surface of the crawler roller,
The cooling apparatus further includes a seating table positioned below the through space, and lifting means for elevating the seating table so that the seating table penetrates the through space to push up the roller for crawler. Caterpillar roller cooling system.

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