KR20130002166A - Cooling water measuring tank and the apparatus for measuring cooling water of rail member - Google Patents

Abstract

PURPOSE: A measuring tank of cooling water quantity for a rail member and a measuring device thereof are provided to easily and accurately measure cooling water quantity used in heat treatment for a rail member, and to compare one cooling water quantity contained in one of the divided accommodation spaces with other cooling water quantity in other accommodation spaces. CONSTITUTION: A measuring tank of cooling water quantity for a rail member comprises a water tank(100), a water tank body part(110) and a partition part(120). The water tank body part is provided with an accommodation space for cooling water inside the cross section in the width direction, and stores cooling water separately by classifying the upper space and both sides of a rail member. The water tank body part is formed with a size capable of being mounted inside the cooling bed for a rail member, and a rectangular shape with a rectangular section along the longitudinal direction of a rail member. The water tank body part includes a supporting part(130) more extended and protruded from both ends part of the sides of the bottom. The partition part is protruded upwards from the center of the inside of the water tank body, and provided to divide the accommodation space into a left, right and center isolating spaces.

Description

COOLING WATER MEASURING TANK AND THE APPARATUS FOR MEASURING COOLING WATER OF RAIL MEMBER}

The present invention relates to a rail member cooling water amount measuring tank and a measuring device, and in particular, the amount of rail member cooling water which can grasp nozzle clogging defects by comparing and measuring the amount of cooling water during heat treatment for a rail member protruding upward of the head. A measuring bath and a measuring device.

The heat treatment equipment of the rail member is composed of a preheating section, a heating section and a cooling section. And the necessary heat treatment process is performed while continuously passing through the three sections.

Among them, the cooling section is cooled by injecting cooling water (for example, water) to the member heated to the target temperature. However, the arrangement of the nozzles also varies according to the shape of the member, and a defect frequently occurs in the nozzle at a specific position.

SUMMARY OF THE INVENTION An object of the present invention is to provide a rail member cooling water amount measuring tank capable of measuring the amount of cooling water during heat treatment of a rail member whose head protrudes upward.

Another object of the present invention is to provide a rail member coolant amount measuring device capable of easily and accurately measuring the amount of coolant during heat treatment of a rail member.

According to the idea of the present invention, having a cooling water accommodating space inside the cross section in the width direction, the tank body portion for separating and storing the coolant sprayed to the upper surface and both sides of the rail member; And a partition wall portion protruding upward from the inner center of the water tank body to partition the cooling water receiving space into left, right, and central isolation spaces.

The tank body portion, the tank body portion is formed in a size that can be seated inside the cooling table of the rail member, it may be a rectangular parallelepiped shape having a rectangular cross section along the longitudinal direction of the rail member.

The tank body portion may include a support portion that extends further outward from both end portions of the bottom surface of the tank body portion.

The partition wall, a pair of left and right walls are spaced apart at a predetermined interval in the inner center of the water tank body portion and fixed in a Y shape, partitioning the cooling water receiving space into left, right and central isolation space. have.

In addition, according to another aspect of the present invention, the tank body portion having a cooling water receiving space inside the cross section in the width direction, and separates and stores the coolant injected to the upper surface and both sides of the rail member, and the tank body portion A water tank including a partition wall which protrudes upward from an inner center and partitions the cooling water receiving space into left, right, and central isolation spaces; Cooling water amount detection unit for detecting the amount of cooling water stored in the compartment isolating the interior of the tank; And a coolant amount calculation processor configured to compare the amount of coolant detected by the coolant amount detector to calculate a coolant injection amount deviation for each nozzle.

The display apparatus may further include a display unit configured to notify the user by transmitting information regarding the variation in the cooling water injection amount for each nozzle calculated by the cooling water amount calculating processor.

The coolant amount detecting unit may be a load sensor that calculates and detects the amount of coolant stored in the left, right and central isolation spaces inside the water tank as a weight load for a predetermined time.

The cooling water amount calculation processing unit may include a data input unit configured to receive data about the cooling water amount detected by the cooling water amount detection unit; A data calculation unit comparing the data on the amount of cooling water in each of the left, right, and central isolation spaces in the tank to calculate a difference in the amount of cooling water from each other; And a data processor for identifying a nozzle having a clogging defect by using the amount of cooling water calculated by the data calculator and notifying a user.

According to the present invention, by providing a tank having a shape similar to the shape and size of the rail member and partitioning the inside into a Y-shape, it accurately accommodates the coolant injected to the upper end and both ends of the rail head, partitioned accommodating space There is an effect that can compare the amount of cooling water accommodated by each.

In particular, by measuring and comparing the amount of cooling water stored in the compartment containing space within the tank for a predetermined time, it is possible to accurately determine which section of the nozzle is clogged in the nozzle without disassembly of the equipment.

As a result, when the heat treatment of the rail member, there is an effect that the quality of the rail member may be improved by suppressing a closed end at which cooling deviation is generated for each head part.

1 is a view schematically showing a rail member cooling water amount measuring tank according to an embodiment of the present invention.
2 is a view showing a cross-sectional structure of the rail member cooling water amount measuring tank according to an embodiment of the present invention.
3 is a view illustrating a state in which the coolant is stored differently for each isolation space in the rail member cooling water amount measuring tank according to an embodiment of the present invention.
4 is a view schematically showing a rail member cooling water amount measuring apparatus according to an embodiment of the present invention.
FIG. 5 is a diagram illustrating a state in which the amount of cooling water is calculated when the cooling water is stored for each isolation space in the water tank using the rail member cooling water amount measuring device according to the embodiment of the present invention.

Brief Description of the Drawings The advantages and features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, a rail member cooling water measuring tank and a measuring device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Rail member cooling water quantity measuring tank

1 is a view schematically showing a rail member cooling water amount measuring tank according to an embodiment of the present invention, Figure 2 is a view showing a cross-sectional structure of the rail member cooling water amount measuring tank according to an embodiment of the present invention.

First, with reference to Figure 1, it will be described the rail member cooling water amount measuring tank shown. As shown in the drawing, the rail member cooling water amount measuring tank 100 includes a water tank body 110 having a cooling water receiving space therein, and a partition wall portion that separates the inside into left, right, and center portions in a width cross section ( 120).

The tank body 110 has a coolant accommodating space inside the cross section in the width direction, the outer shape of which is similar to that of the rail member. In other words, in order to determine the variation in the amount of cooling water for each section with respect to the rail member, since the tank body 110 according to the present invention is used as a simulation test tank, the length, width, and cross-sectional size of the rail member are as similar as possible. desirable.

As a result, the cooling water injected to the upper surface and both sides of the rail member can be separated and stored.

In particular, the tank body 110 may be formed in a size that can be seated inside the actual cooling stand of the rail member, it may have a rectangular parallelepiped shape having the same rectangular cross-section along the longitudinal direction of the rail member.

And the tank body 110 is a tool for storing the coolant injected from the outside, and should be able to maintain a stable state between the bottom surface, for this may be further provided with a support 130.

The support 130 is further formed to extend outward from both end portions of the bottom surface of the tank body 110. In addition, the cross-sectional view of the support 130 may be formed such that the upper side is inclined and the lower side is formed in contact with the bottom surface to be flat.

The partition wall part 120 is a wall-shaped member which divides and partitions the space in the tank body part 110. As shown in FIG.

The partition part, in particular, separates the coolant receiving space into the left, right and the center, which is referred to as left isolation space, center isolation space, and right isolation space for convenience of description. In order to divide one coolant receiving space into three isolation spaces as described above, a pair of walls may be used in this embodiment.

The partition wall portion 120 protrudes upward from the inner center of the tank body portion. At the top, a pair of walls are inclined to the left and right to form a Y-shaped structure.

That is, as shown in the partition wall portion 120 is a pair of left and right walls (120a, 120b) are spaced apart at a predetermined interval in the inner center of the tank body portion fixed in a Y shape, thereby receiving the coolant Three spaces are divided into left, right and center containment spaces.

Furthermore, the left and right walls 120a and 120b are more inclined outward from the top to form the bell mouse structures 121a and 121b. A description thereof will be given with reference to FIG. 2.

2 is a view showing a cross-sectional structure of the rail member cooling water amount measuring tank according to an embodiment of the present invention.

Referring to Figure 2, the cooling table (C) for cooling the rail member is provided in three directions from the upper side (that is, left side, right side and upper surface), each cooling table (C) of the same number Cooling water spray nozzles (hereinafter referred to as 'nozzles') (N1, N2, N3) are formed.

Only the coolant sprayed through the nozzles N1, N2, and N3 of the cooling zones is stored as three isolation spaces inside the tank body 110 partitioned by the aforementioned partition wall 120.

That is, the coolant injected through the nozzle N1 (that is, the coolant injected into the upper surface of the rail member) is stored in the central isolation space, and the coolant injected through the nozzle N2 (that is, the coolant injected into the right side of the rail member) It is stored in the right isolation area. The coolant injected through the nozzle N3 (that is, the coolant injected to the left side of the rail member) is stored in the left isolation space. The above-mentioned upper and lower bellows structures 121a and 121b of the left and right walls 120a and 120b are formed to be inclined through repeated experiments for the storage of the cooling water.

3 is a view illustrating a state in which the coolant is stored differently for each isolation space in the rail member cooling water amount measuring tank according to an embodiment of the present invention.

Referring to FIG. 3, when the cooling water injected through the nozzles N1, N2, and N3 is stored for a predetermined period of time, the amount of cooling water stored in each isolation space may be determined.

First, in FIG. 3A, the cooling water injected through the nozzles N1, N2, and N3 is stored by using the cooling water amount measuring tank for the set period. As a result, it was confirmed that the amount of cooling water (W2) stored in the right isolation space is significantly insufficient compared to the left isolation space and the central isolation space.

It can be seen from the experimental results that the amount of cooling water (W2) sprayed through the nozzle N2 was insufficient compared to the nozzles N1 and N3, which means that there may be a clogging defect in the nozzle N2. That is, even in the cooling process of the rail member, the degree of cooling of the right side may be insufficient compared to the degree of cooling of the left side and the top side, thereby causing a cooling variation on the same material, which may adversely affect the product quality.

On the contrary, referring to FIG. 3 (b), the coolant injected through the nozzles N1, N2, and N3 was stored in different isolation spaces in the same manner as described above. As a result, it was confirmed that the amount of coolant (W1) stored as the central isolation space was significantly insufficient compared to the left isolation space and the right isolation space.

It can be seen from the experimental results that the amount of cooling water (W1) sprayed through the nozzle N1 is insufficient compared to the nozzles N1, N2, N3, which means that there may be a clogging defect in the nozzle N1. In this way, it is possible to quickly determine the nozzle clogging defect causing the cooling deviation of the material without disassembling the cooling device.

Rail member cooling water quantity measuring device

4 is a view schematically showing a rail member cooling water amount measuring apparatus according to an embodiment of the present invention.

In addition to the rail member coolant amount measuring tank described above with reference to FIGS. 1 to 3, a device for quickly determining the cause of the cooling deviation due to a nozzle clogging defect, the rail member coolant amount measuring apparatus according to an embodiment of the present invention Explain.

Referring to FIG. 4, the illustrated rail member cooling water amount measuring apparatus includes the above-described cooling water amount measuring tank 100, a cooling water amount detecting unit 140, and a cooling water amount calculating processor 150. The display unit 160 may further include a display unit 160 that visually implements the information derived from the coolant amount calculation processor.

The coolant amount detecting unit 140 provides a function of detecting the amount of coolant stored in the divided isolation space inside the water tank 100.

To this end, the coolant amount detection unit 140 uses a load sensor that calculates and detects the amount of coolant stored in the left, right and central isolation spaces inside the water tank 100 as a weight load for a set time.

In addition, the coolant amount calculating processor 150 compares the amount of coolant detected by the coolant amount detecting unit 140 with each other and provides a function of calculating a coolant injection amount deviation for each nozzle.

To this end, the coolant amount calculation processing unit 150 compares the data input unit 152 that receives data on the detected coolant amount with data about the amount of coolant in each of the left, right, and center isolation spaces inside the tank. And a data calculation unit 154 for calculating the deviation of the amount of cooling water. And a data processor 156 for identifying a nozzle having a blockage defect using the amount of cooling water calculated by the data operator 154 and then notifying the user.

Effects of the rail member cooling water amount measuring apparatus 100 according to an exemplary embodiment of the present invention may be described in detail with reference to FIG. 5.

As shown in FIG. 5, the water tank is divided into a left isolation space, a central isolation space, and a right isolation space through the partition wall, and coolant is injected into the isolation space through the nozzles N1, N2, and N3.

Referring to FIG. 5, it can be seen that the amount of cooling water W1 stored in the central isolation space is insufficient compared to the amount of cooling water W3 stored in the left isolation space and the amount of cooling water W2 stored in the right isolation space.

Each isolation space can be seen that one load sensor (140a, 140b, 140c) is provided.

The amount of cooling water (W1, W2, W3) measured by the three load sensors (140a, 140b, 140c) is calculated by comparing the weight of the cooling water amount processing unit 150, and calculates the flow rate of the cooling water injected through the specific gravity Do it.

As a result, it is determined that the blockage defect is caused in the nozzle N1 compared to the nozzles N2 and N3, and the result is notified to the user through the display unit 160. In this case, the display unit 160 may include both a user's portable PC or various types of wired and wireless terminals, and visually implements a deviation of the cooling water as well as a nozzle defect.

As described above, according to the present invention, by providing a tank similar to the outer shape and size of the rail member, and partitioning the inside into a Y shape to form a partition wall, the head upper part and both end portions of the rail are simulated as it is, by the corresponding parts. Accurately measure the amount of coolant injected.

In particular, by measuring and comparing the amount of cooling water stored in the compartment containing space in the tank for a predetermined time, it is possible to quickly and accurately determine which section of the nozzle is clogged defects without disassembly of the equipment.

Thereby, at the time of the heat processing cooling of a rail member, the closed end which a cooling deviation generate | occur | produces in the head part of a rail member can be suppressed, and product quality can be improved.

It has been described above with respect to the rail member cooling water amount measuring tank and the measuring device according to a preferred embodiment of the present invention.

It is to be understood that the foregoing embodiments are illustrative in all respects and not restrictive, the scope of the invention being indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims and their All changes or modifications derived from equivalent concepts should be construed as being included in the scope of the present invention.

C: cooling stand
N1, N2, N3: nozzle
W1, W2, W3: Cooling water amount
100: cooling water volume measuring tank
110: tank body portion
120: partition wall
130: Support
140: coolant amount detection unit
150: cooling water amount processing unit
152: data input unit
154: data operation unit
156: data processing unit
160: display unit

Claims (8)

A water tank body having a cooling water receiving space in the cross section in the width direction, and separating and storing the cooling water sprayed to the upper surface and both sides of the rail member; And
And a partition wall portion protruding upward from the inner center of the water tank body to partition the cooling water accommodation space into left, right, and central isolation spaces.
The method of claim 1,
The tank body portion,
The tank body portion is formed in the size that can be seated inside the cooling table of the rail member, the rail member cooling water amount measuring tank, characterized in that the rectangular parallelepiped shape having a rectangular cross-section along the longitudinal direction of the rail member.
The method of claim 1,
The tank body portion,
A rail member cooling water amount measuring tank, characterized in that it comprises a support portion that extends further outward from both ends of the bottom surface of the water tank body.
The method of claim 1,
The partition portion,
A pair of left and right walls are spaced apart at a predetermined interval in the inner center of the water tank body part and fixed in a Y shape to form three compartments of the cooling water receiving space into left, right and central isolation spaces. Rail member coolant measuring tank.
A cooling water accommodating space is provided in the cross section in the width direction, and the tank body part separates and stores the cooling water injected into the upper surface and both sides of the rail member, and protrudes upward from the inner center of the water tank body part, thereby providing the cooling water accommodation space. A tank including a partition wall partitioned into left, right and central isolation space;
Cooling water amount detection unit for detecting the amount of cooling water stored in the compartment isolating the interior of the tank; And
And a coolant amount calculation processor configured to compare the amount of coolant detected by the coolant amount detector to calculate a coolant injection amount deviation for each nozzle.
The method of claim 5, wherein
And a display unit configured to visually implement information on the cooling water injection amount deviation for each nozzle calculated by the cooling water amount calculation processing unit.
The method of claim 5, wherein
The coolant amount detection unit,
And a load sensor for calculating and detecting the amount of cooling water stored in the left, right, and central isolation spaces inside the water tank as a weight load for a predetermined time.
The method of claim 5, wherein
The coolant amount calculation processing unit,
A data input unit for receiving data on the amount of cooling water detected by the amount of cooling water detector;
A data calculation unit comparing the data on the amount of cooling water in each of the left, right, and central isolation spaces in the tank to calculate a difference in the amount of cooling water from each other; And
And a data processor for notifying a user after identifying a nozzle in which a clogging defect has occurred by using the deviation of the amount of cooling water calculated by the data calculating unit.

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