KR101494706B1 - Apparatus for controlling temperature of spindle joint - Google Patents

Abstract

The present invention provides an apparatus for automatically adjusting the temperature of a spindle, comprising: a chamber for receiving a spindle; A temperature sensor for sensing a temperature inside the chamber; An oil supply unit for supplying lubricating oil into the chamber to lower the temperature inside the chamber; And a control unit for receiving information on the temperature inside the chamber from the temperature sensor and controlling the lubricant supply unit to regulate the flow rate of the lubricant flowing into the chamber through the supply unit or the cooling unit, The temperature of the chamber is rapidly lowered, thereby providing an effect of automatically controlling the temperature of the spindle joint.

Description

[0001] APPARATUS FOR CONTROLLING TEMPERATURE OF SPINDLE JOINT [0002]

More particularly, the present invention relates to an apparatus for controlling the temperature of a spindle joint, and more particularly, to an apparatus for controlling the temperature of a spindle joint by sensing the temperature of the spindle, automatically lubricating the spindle with the sensed temperature, And a device for automatically adjusting the temperature of a spindle.

First, FIG. 1 is a schematic view showing the entire equipment for driving a rolling mill and a rolling mill. FIG. 2 is a partial view showing only a spindle, a spindle coupling bearing block and a motor except the rolling mill of FIG. 1; FIG. 3 is a photograph of the spindle coupling and the spindle.

In the manufacturing process of the steel product, the rolling mill 1 includes the upper and lower working rollers 2 and 3 as shown in Fig. 1, and the steel material is rolled between the upper and lower working rollers .

The upper and lower working rollers 2 and 3 are driven by the motor 12 so that the axis of the working rollers 2 and 3 and the motor 12 are moved in the vertical direction The neck 9 of the roller 2 is connected to the upper spindle 4 via the spindle coupling 10 and rotated.

In the spindle coupling 10, two different shafts are connected to each other to generate heat due to mutual friction. When the heat is generated by the generated frictional heat, there is a problem that the portions of the spindle coupling 10 cause thermal damage Respectively.

As shown in Figure 1, the worker 6 manually measures the temperature of these spindle couplings 10 using a thermometer 7, stops the spindle when an abnormality is found in the measured temperature, To check whether the problem occurred. In the process of stopping the rotating spindle from time to time and entering the spindle coupling or the like, problems such as inefficiency of the production process and work delay are frequently caused, and safety accidents of workers may occur.

In addition, since the measurement of the temperature and the monitoring of the abnormality are totally dependent on the operator 7, there is also a problem that the equipment such as the shaft is damaged due to overheating.

As a technique for checking the temperature of the spindle coupling 10 or the spindle 4 as described above, a spindle inspection apparatus and an inspection method for a machine tool (Application No. 10-2007-0021684, Quot;).

The prior art 1 is for measuring the spindle unit 1 to be inspected on the inspection table 15 and fixing the spindle unit 1 to the spindle coupling 10 of the rolling mill 1 in a steel manufacturing process such as a large- There was a problem.

Therefore, a device for automatically adjusting the temperature of the spindle joint, such as the spindle coupling 10 or the bearing block 13, is needed.

The automatic temperature control device for a spindle according to the present invention has been developed to solve the above-described conventional problems, and has the following problems.

First, an apparatus for automatically detecting the temperature of the spindle joint portion without depending on the manual operation of the operator is provided.

Second, it is intended to provide a device capable of automatically controlling these temperatures after detecting the temperature of the spindle joint.

Third, if an abnormality occurs in the temperature change of the spindle joint portion, the temperature abnormality of these spindle joints is automatically canceled, and a device capable of informing the outside of the spindle joint is provided.

The solution of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The automatic temperature control device for a spindle according to the present invention has the following problems to be solved.

A device for automatically adjusting the temperature of a spindle, comprising: a chamber surrounding the spindle and receiving the spindle; A temperature sensor located in the chamber and sensing a temperature inside the chamber; A refueling section for supplying lubricating oil to the inside of the chamber to reduce the frictional force between the inner surface of the chamber and the spindle and to lower the temperature inside the chamber; And a control unit for receiving information on the temperature inside the chamber from the temperature sensor and controlling the refueling unit to regulate an inflow speed of the lubricating oil flowing into the chamber according to the temperature inside the chamber. can do.

The spindle automatic temperature controller according to the present invention may further include a cooling unit for lowering the temperature inside the chamber.

The cooling unit of the spindle automatic temperature control device according to the present invention includes an air supply motor for supplying air for cooling the chamber; An air pipe for supplying air by the air supply motor to the chamber; And an air nozzle positioned at the end of the air pipe and injecting air into the chamber.

A spindle automatic temperature controller according to the present invention includes: a pair of support bars protruding from both outer side surfaces of the chamber; A pair of pillars supporting the supporting bars, respectively, for lifting the chamber; And a pair of cylinders positioned below the pillar and adjusting the height of the pillar, respectively.

The spindle automatic temperature controller according to the present invention may further include a temperature analyzer for receiving the internal temperature information of the chamber from the temperature sensor and analyzing the rate of temperature change of the internal temperature of the chamber; A graphing unit receiving the internal temperature information of the chamber from the temperature sensor, graphically displaying the temperature information through a display, receiving information on the rate of temperature change from the temperature analyzing unit, and displaying the graph through a display; And an alarm unit for generating an alarm to the outside when the temperature change rate is greater than the threshold change rate or the chamber internal temperature is greater than the threshold temperature.

The chamber of the spindle automatic temperature control apparatus according to the present invention is characterized in that a plurality of openings are formed so that air is vented through the openings to lower the temperature inside the chamber.

The spindle automatic temperature controller according to the present invention having the above-described configuration has the following effects.

First, the temperature of the spindle joint is sensed by the automatic temperature sensor, and it does not depend on the manual operation of the operator, thereby providing the effect of eliminating the possibility of the occurrence of a failure of the equipment due to a mistake or mistake of the operator.

Second, the temperature of the chamber is rapidly lowered when a temperature abnormality occurs through the oil supply portion or the cooling portion, thereby providing an effect of automatically controlling the temperature of the spindle joint.

Third, if a sudden temperature change or temperature rise occurs in the spindle joint, it automatically controls the temperature and informs the outside of the spindle joint that the operator can analyze the final check and cause.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the entire equipment for driving a rolling mill and a rolling mill.
FIG. 2 is a partial view showing only a spindle, a spindle coupling bearing block and a motor except the rolling mill of FIG. 1; FIG.
3 is a photograph of a spindle coupling according to a preferred embodiment of the present invention and an oil feed section for lubricating the spindle with lubricant.
4 is a schematic diagram of a spindle joint temperature control system, in accordance with a preferred embodiment of the present invention.
FIG. 5 is an enlarged view of a portion corresponding to the present invention and a chamber portion in FIG.
Fig. 6 is a view showing a column portion for enlarging only the chamber portion in Fig. 5 and lifting these chambers.
FIG. 7 illustrates a wrapping unit according to an embodiment of the present invention.

The spindle automatic temperature control device according to the present invention may have various modifications and various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Hereinafter, a spindle automatic temperature controller according to the present invention will be described in detail with reference to the drawings.

3 is a photograph of a spindle coupling according to a preferred embodiment of the present invention and an oil feed section for lubricating the spindle with lubricant. 4 is a schematic diagram of a spindle joint temperature control system, in accordance with a preferred embodiment of the present invention. FIG. 5 is an enlarged view of a portion corresponding to the present invention and a chamber portion in FIG. Fig. 6 is a view showing a column portion for enlarging only the chamber portion in Fig. 5 and lifting these chambers. FIG. 7 illustrates a wrapping unit according to an embodiment of the present invention.

A spindle thermostatic apparatus according to the present invention includes a chamber 100; A temperature sensor 102; A supply part 115; And a control unit (not shown).

The chamber 100 surrounds the outside of the joint portion to which the spindle 4 is joined and accommodates these spindles 4, as shown in Fig.

The temperature sensor 102 is located in the chamber 100 to sense the temperature of the chamber 100. 4 and 5, temperature sensors 102a through 102h are attached to each of the chambers 100. These temperature sensors 102 are shown attached to the outside of the chamber 100 in the drawings , A sensor hole 109 may be formed in the chamber 100 to be inserted into the sensor hole 109 to sense the temperature inside the chamber 100 as shown in FIG.

The temperature sensor 102 is preferably a digital temperature sensor in a wired or wireless manner so as to be capable of data communication with a control unit (not shown) to be described later.

4 to 7, it is designed to be installed outside the entire apparatus including the spindle coupling 10, as shown in FIG. 3. In this case, the chamber 100 And is designed to supply lubricating oil.

The oil supply portion 115 reduces the friction force between the inner surface of the chamber 100 and the spindle to lower the temperature inside the chamber 100.

A control unit (not shown) is connected to the temperature sensor 102 and the oil supply unit 115, and performs data communication with these configurations to control the oil supply unit 115.

First, the control unit receives information on the temperature inside the chamber 100 from the temperature sensor 102, and controls the inflow speed of the lubricant flowing into the chamber 100 according to the temperature inside the chamber 100.

If it is determined that the temperature is overheated in the temperature information received from the temperature sensor 102, the control unit controls the oil supply unit 115 to increase the supply speed of the lubricating oil flowing into the chamber 100.

The spindle automatic temperature control apparatus according to the present invention may further include a cooling unit 112.

The cooling unit 112 has a separate structure for lowering the temperature inside the chamber 100 in addition to the above-described oil supply unit 115.

Specifically, the cooling unit 112 includes an air supply motor (not shown); An air pipe 114; And an air nozzle (not shown).

The air supply motor is a motor for compressing and supplying cooling air to be supplied to the chamber 100.

The air pipe 114 is connected to the above-described air supply motor to transfer the air for cooling the chamber 100.

An air nozzle (not shown) is located at the end of the air pipe 114 and injects air into the chamber 100 to air-cool the chamber 100.

Here, as shown in FIG. 6, the chamber 100 is preferably formed with an opening 109 so that air for cooling can be introduced through the opening 109.

A spindle automatic thermostat apparatus according to the present invention includes a support bar (108); A pillar portion 106; And a cylinder (11).

6, the supporting bar 108 is formed as a pair in such a manner as to protrude from both outer side surfaces of the chamber 100 and to be attached thereto.

The columnar portion 106 is formed with an induction groove 107 at an upper end thereof to insert the support bar 108 described above and lifting the support bar 108 to support the chamber 100.

The cylinder 11 is located under the column portion 106 and adjusts the height of the column portion 106 so that the spindles 4 and 5 are finally held horizontally.

A spindle automatic temperature controller according to the present invention includes a temperature analyzer (not shown); A grappling unit 101; And an alarm unit (not shown).

The temperature analysis unit receives the internal temperature information of the chamber 100 from the temperature sensor 102 and analyzes the rate of temperature change of the chamber 100.

The temperature analyzer also determines whether the temperature inside the chamber 100 is out of the permissible range of the temperature (critical temperature), as well as the rate of change of the temperature of the chamber 100 with respect to time.

Here, the critical temperature can be arbitrarily set in consideration of the temperature at which thermal damage occurs to other components including the spindle, the boiling point of the lubricating oil, and the combustion temperature.

The grappling unit 101 receives the temperature information from the temperature sensor 102 and displays it on the display through the display. The temperature analyzing unit receives information on the rate of temperature change in the analyzed chamber 100, do.

In the alarm unit (not shown), the temperature change rate analyzed by the temperature analysis abruptly changes, and when the temperature change rate per hour exceeds the allowable range (threshold change rate), an alarm is generated outside. Further, even when the temperature inside the chamber 100 exceeds the critical temperature, it is informed to the outside.

Here, the critical rate of change may also be arbitrarily set in consideration of the temperature at which thermal damage occurs to other components including the spindle, the boiling point of the lubricating oil, and the combustion temperature.

A method of generating an alarm to the outside of the alarm unit may be a method of blinking a lamp or generating an audible alarm.

As used herein, the singular " include "should be understood to include a plurality of representations unless the context clearly dictates otherwise, and the terms" comprises & , Parts or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, components, components, or combinations thereof.

The scope of the present invention is defined by the claims, the parentheses used in the claims are not used for optional limitation but are used for the definite components and the description in parentheses is also interpreted as an essential component .

1: rolling mill
2: upper working roller
3: Lower work rollers
4: Upper spindle
5: Lower spindle
6: Worker
7: Thermometer
8: Segment
9: Neck
10: Spindle coupling
11: Cylinder
12: Motor
13: upper bearing block
14: Lower bearing block
15: Bearings
100: chamber
101:
102: Temperature sensor
103: Cable
104: chamber home
105: idol roll
106:
107: Home
108: support bar
109: Sensor hole
110: Display
112:
113: opening
114: air pipe

Claims (6)

delete delete An apparatus for automatically adjusting the temperature of a spindle, comprising:
A chamber surrounding the spindle and receiving the spindle;
A temperature sensor located in the chamber and sensing a temperature inside the chamber;
A refueling section for supplying lubricating oil to the inside of the chamber to reduce the frictional force between the inner surface of the chamber and the spindle and to lower the temperature inside the chamber;
A control unit for receiving information on a temperature inside the chamber from the temperature sensor and controlling the refueling unit to regulate an inflow speed of the lubricating oil flowing into the chamber according to a temperature inside the chamber; And
And a cooling unit for lowering the temperature inside the chamber,
The cooling unit includes:
An air supply motor for supplying air for cooling the chamber;
An air pipe for supplying air by the air supply motor to the chamber; And
And an air nozzle located at an end of the air pipe and injecting air into the chamber.
An apparatus for automatically adjusting the temperature of a spindle, comprising:
A chamber surrounding the spindle and receiving the spindle;
A temperature sensor located in the chamber and sensing a temperature inside the chamber;
A refueling section for supplying lubricating oil to the inside of the chamber to reduce the frictional force between the inner surface of the chamber and the spindle and to lower the temperature inside the chamber;
A control unit for receiving information on a temperature inside the chamber from the temperature sensor and controlling the refueling unit to regulate an inflow speed of the lubricating oil flowing into the chamber according to a temperature inside the chamber;
A pair of support bars protruding from both outer sides of the chamber;
A pair of pillars supporting the supporting bars, respectively, for lifting the chamber; And
And a pair of cylinders positioned at the lower portion of the column to control the height of the column.
An apparatus for automatically adjusting the temperature of a spindle, comprising:
A chamber surrounding the spindle and receiving the spindle;
A temperature sensor located in the chamber and sensing a temperature inside the chamber;
A refueling section for supplying lubricating oil to the inside of the chamber to reduce the frictional force between the inner surface of the chamber and the spindle and to lower the temperature inside the chamber;
A control unit for receiving information on a temperature inside the chamber from the temperature sensor and controlling the refueling unit to regulate an inflow speed of the lubricating oil flowing into the chamber according to a temperature inside the chamber;
A temperature analyzer for receiving the internal temperature information of the chamber from the temperature sensor and analyzing a temperature change rate of the internal temperature of the chamber;
A graphing unit receiving the internal temperature information of the chamber from the temperature sensor, graphically displaying the temperature information through a display, receiving information on the rate of temperature change from the temperature analyzing unit, and displaying the graph through a display; And
And an alarm unit for generating an alarm to the outside when the temperature change rate is greater than the threshold change rate or the chamber internal temperature is greater than the threshold temperature.
4. The apparatus of claim 3,
Wherein a plurality of openings are formed to allow air to be vented through the openings to reduce the temperature inside the chamber.

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