KR101905087B1 - Heat dislocation prevention device of machine tool having ball screw and method thereof - Google Patents

Abstract

The present invention relates to a machine tool having a ball screw (10), characterized in that it comprises a bearing (11) provided on the outer periphery of the ball screw (10) 22); A bearing housing (21) for supporting the bearing (22); A space portion 50 formed on one side surface of the upper portion of the bearing housing 21; A heating unit 30 having an external shape corresponding to an internal shape of the space 50; A temperature sensor (40) installed at a position facing the heating unit (30); And a control unit (70) for controlling on / off of a power supply unit (80) for supplying power to the heating unit (30) according to a temperature measured by the temperature sensor (40) And a method of preventing thermal displacement of a machine tool having a ball screw.

Description

TECHNICAL FIELD [0001] The present invention relates to a device for preventing thermal displacement of a machine tool having a ball screw and a method for preventing thermal displacement,

The present invention relates to a device for preventing thermal deformation of a machine tool having a ball screw and a method for preventing thermal deformation of the machine tool. More specifically, the present invention relates to a device for preventing thermal deformation by a heating unit and a temperature sensor mounted on a bearing housing, The present invention relates to a device for preventing thermal deformation of a machine tool and a method for preventing thermal deformation of the machine tool, which are equipped with a ball screw, which can prevent on-off of the power supply device for supplying power to the heating unit.

A wide range of machine tools, including turning centers, machining centers, doormat machining centers, swiss turns, electric discharge machines, horizontal NC boring machines and CNC lathes, are widely used in a variety of industrial applications to suit their application.

As shown in Fig. 1, generally, various kinds of machine tools use ball screws to convert rotational motion into linear motion. The ball screw 10 includes a bearing 22 contacting with the ball screw 10, a bearing housing 21 surrounding the bearing 22, and a power transmitting portion for rotating the ball screw.

Generally, the ball screw 10 is subject to thermal deformation due to heat generated by mechanical friction, that is, expansion or contraction due to thermal deformation. If thermal deformation of the ball screw occurs due to the frictional heat of the ball screw and the bearing, the accuracy of the workpiece is reduced in a machine tool requiring high precision, resulting in a problem of reducing the productivity of the machine tool.

1, in the case of a conventional machine tool using the ball screw 10, in order to minimize thermal deformation due to frictional heat between the ball screw 10 and the bearing 21, air is introduced into the internal cavity of the ball screw 10, So that the ball screw 10 is cooled indirectly to prevent thermal deformation of the bearing 21. However, in such a conventional technique, the bearing 21, which generates the greatest amount of frictional heat, is not directly cooled, but the ball screw 10 is indirectly cooled and the bearing 21 is cooled indirectly by the cooled ball screw So that it is necessary to constantly inject air into the apparatus in order to prevent heat deformation.

Further, when the machine tool is operated in a state in which the machine tool is stopped, that is, the ball screw is cooled, the bearings are maintained in a cooled state. In order to prevent thermal deformation of the workpiece, There is a problem in that it takes a long time to worm up the machine tool by operating the machine tool in advance, thereby wasting electric power and reducing productivity.

Moreover, there has been a problem that a machining error is generated on the heat side during precision machining.

Korean Utility Model Laid Open Publication No. 20-1997-0000673

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a ball screw and a ball screw which are mounted on a bearing housing to warm up the bearing, And an object of the present invention is to provide a device for preventing thermal deformation of a machine tool having a ball screw for preventing a thermal deformation of a machine tool.

It is still another object of the present invention to provide a control apparatus and a control method for controlling a power supply of a power supply unit applied to a heating unit according to a temperature measured by a temperature sensor through a control unit including a temperature storage unit, And it is an object of the present invention to provide a method of preventing thermal deformation that minimizes thermal displacement of a machine tool.

In order to accomplish the object of the present invention, there is provided an apparatus for preventing thermal displacement of a machine tool having a ball skew according to the present invention, comprising: a bearing installed on an outer circumference of the ball screw; A bearing housing for supporting the bearing; A space formed on one side surface of the upper portion of the bearing housing; A heating unit having an outer shape corresponding to an inner shape of the space portion; A temperature sensor installed at a position facing the heating unit; And a control unit for controlling on / off of a power supply unit for supplying power to the heating unit according to the temperature measured by the temperature sensor.

In another preferred embodiment of the device for preventing thermal displacement of a machine tool having a ball skew according to the present invention, the heating unit includes a hot wire pin having a shape corresponding to an inner shape of the space portion; A hot wire coil installed inside the hot wire pin to generate heat; A hot wire insulator provided at an upper end of the hot wire pin to insulate the hot wire coil; And a hot-wire cable having one end inserted into the hot-wire insulator and connected to the hot-wire coil, and the other end connected to a power supply unit to supply power to the hot-wire coil.

In another preferred embodiment of the device for preventing thermal displacement of a machine tool having a ball skew according to the present invention, the control unit includes a temperature storage unit for storing the temperature of the bearing measured by the temperature sensor; A memory unit for storing a predetermined temperature of the bearing; And a control unit for controlling on / off of the power supply by comparing the measured temperature of the bearing stored in the temperature storage unit and the temperature stored in the memory unit.

According to another aspect of the present invention, there is provided a method of preventing thermal displacement of a machine tool having a ball skew, the method comprising: measuring a temperature of a bearing by a temperature sensor; Transmitting the temperature of the measured bearing to a temperature storage unit; Comparing the predetermined temperature value of the bearing stored in the memory unit with the measured temperature of the bearing stored in the temperature storage unit; And controlling on / off of the power supply device according to the compared temperature.

The apparatus and method for correcting a machine tool by static deflection according to the present invention have the effect of improving productivity of a workpiece by correcting a position error of the machine tool due to static deflection in real time.

Further, the apparatus and method for correcting machine tool by static deflection according to the present invention are designed not to determine the correction amount and to determine the correction amount for each measurement position of each structure of the machine tool, So that the productivity can be improved through accurate error correction.

Further, the apparatus and method for correcting a machine tool by static deflection according to the present invention do not need to calculate an expected error according to all the transfer sections of the machine tool, thereby saving time and cost for position correction by static deflection There is an effect that can be.

1 is a cross-sectional view of a device for preventing thermal displacement in a conventional machine tool having a ball screw.
2 is a conceptual diagram of an apparatus for preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention.
3 is a plan view showing a mounting position of a heating unit and a temperature sensor in an apparatus for preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention.
4 is a detailed sectional view of a heating unit in a device for preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention.
FIG. 5 is a flow chart of a method of preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals are used to refer to like elements throughout.

2 is a conceptual diagram of an apparatus for preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention. FIG. 3 is a plan view showing a mounting position of a heating unit and a temperature sensor in an apparatus for preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention, and FIG. 4 is a cross- Fig. 3 is a detailed sectional view of a heating unit in a device for preventing thermal displacement of a machine tool having a ball screw. Fig.

2 to 4, an apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention will be described. The apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention includes a bearing 22, a bearing housing 21, a space 50, a heating unit 30, a temperature sensor 40, 70).

In general, the ball screw 10 is used as a conveying means of a machine tool by converting rotational motion into linear motion. A bearing (22) is provided on the outer periphery of the ball screw (10).

A bearing housing 21 is installed to surround the bearing 22 in order to support the bearing 22 and to couple the bearing 22 to the ballscrew 10.

A space portion 50 is formed on one upper surface of the bearing housing 21 to secure a space in which the temperature sensor 40 and the heating unit 30 are installed. In a preferred embodiment of the apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention, the space 50 is formed to have a length of 90 mm and a diameter of 6?. 3, in a preferred embodiment of the apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention, the space portion 50 is formed in a two-layer structure, It is possible to prevent the sensor 40 and the machine tool from being separated from the space portion 50 even during operation.

The heating unit 30 has an outer shape corresponding to the inner shape of the space portion 50 and is inserted and installed in the space portion 50. [

The temperature sensor 40 is installed on the other upper surface of the bearing housing 21 so as to face the heating unit 30.

The control unit 70 controls the on / off of the power supply unit 80 that supplies power to the heating unit 30 according to the temperature measured by the temperature sensor 40. That is, the temperature of the bearing 22 is measured in real time via the temperature sensor 40, and the on / off state of the power supply device 80 is controlled by comparing the real time temperature of the bearing with a predetermined temperature.

According to a preferred embodiment of the present invention, the predetermined temperature is preferably set to 18 ° C to 20 ° C.

Accordingly, the apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention minimizes the prevention of thermal deformation due to frictional heat generated by mechanical friction between the ball screw and the bearing, thereby reducing machining errors of the workpiece, . ≪ / RTI > It is also possible to prevent the heating unit 30 from performing the warming-up operation of the proper temperature of the equipment for a long time before processing the workpiece of the machine tool through on / off control of the power supply unit 80 for supplying power to the heating unit 30 It is possible to improve the productivity by warming up the equipment for processing the workpiece in a short time. Further, as the apparatus for processing a workpiece is operated at an appropriate temperature, the prevention of thermal deformation is reduced, and the cost for maintaining thermal deformation prevention can be reduced.

4, according to a preferred embodiment of the apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention, the heating unit 30 includes a heat line pin 34, a heat line coil 33, An insulator 32, and a hot wire wire 31.

The heating wire pin 34 has a shape corresponding to the inner shape of the space portion 50. In a preferred embodiment of the apparatus for preventing thermal displacement of a machine tool having a ball screw according to the present invention, the heat-conducting pin 34 protrudes out of the bearing housing 22 so as to correspond to the two-layer structure of the space portion 50 The upper portion of the hot wire pin 34 is formed to have a larger diameter than the lower portion of the hot wire pin 34. [

The hot wire coil 33 is installed on the inner space of the hot wire pin 34. When the power supply unit 80 is turned on by the control unit, the heat coil 33 generates heat by the power supplied through the hot wire 31 to warm up the bearing 21. [

The hot wire insulator 32 is installed at the upper end of the hot wire pin 34. The heating unit 30 is protected from an accident such as a short circuit which occurs when power is applied to the heat coil 33 by the hot wire insulator 32. [

One end of the hot wire 31 is inserted into the hot wire insulator 32 and connected to the hot wire coil 33. The other end of the hot wire 31 is connected to the power supply device 80, Power is supplied to the heating coil 33 when the heating coil 33 is turned on.

2, the control unit 70 includes a temperature storage unit 71, a memory unit 72, and a control unit 72. The control unit 70 controls the temperature of the ball screw 71, And a control unit 73.

The temperature storage unit 71 stores the temperature of the bearing 22 measured in real time by the temperature sensor 40 and transmits the temperature of the bearing 220 stored in real time to the control unit 73.

The memory unit 72 stores the temperature of the bearing 22 in a database in consideration of the length and diameter of the ball screw. The predetermined temperature of the bearing stored in the memory unit 72 of the apparatus for preventing thermal displacement of the machine tool having the ball screw according to the present invention is preferably 18 ° C to 20 ° C, It is most preferable that the preset temperature of the bearing stored at 20 ° C.

The control unit 73 compares the temperature of the bearing measured in real time and stored in the temperature storage unit 71 with the value stored in the memory unit 72 at a predetermined temperature to determine whether the power supply 80 is on / ).

Accordingly, when the prevention of thermal deformation is unnecessary, the power supply of the power supply device is turned off, unnecessary energy is prevented from being wasted, and the cost can be reduced. In addition, it is possible to minimize the prevention of thermal deformation, thereby reducing the machining error and improving the productivity.

FIG. 5 is a flow chart of a method of preventing thermal displacement of a machine tool having a ball screw according to a preferred embodiment of the present invention.

A method of preventing thermal displacement of a machine tool having a ball screw according to the present invention will be described with reference to FIG. A method of preventing thermal displacement of a machine tool having a ball screw according to the present invention includes the steps of measuring a real time temperature of a bearing (S1), transmitting a measured temperature to a temperature storage unit (S2) (S3) of comparing the measured temperature stored in the temperature storage unit with the measured temperature stored in the temperature storage unit (S4), and controlling the on / off of the power supply unit (80).

The temperature of the bearing is measured in real time by the temperature sensor (40). After the temperature measurement step S1 of the bearing, the measured temperature of the bearing is transmitted to the temperature storage unit 71. [ (18 ° C to 20 ° C) of the bearing 22 stored in the memory unit 72 and the temperature of the bearing 22 stored in the temperature storage unit 71 after the step S2, The real-time measurement temperature of the sample is compared. After the step S3 of comparing the preset temperature with the real time measurement temperature, the on / off of the power supply device 80 is controlled through the control unit 73 according to the compared temperature.

The present invention is not limited to the modifications shown in the drawings and the embodiments described above, but may be extended to other embodiments falling within the scope of the appended claims.

10: ball screw, 21: bearing housing,
22: bearing, 30: heating unit,
31: hot wire, 32: hot wire,
33: heat coil, 34: heat pin,
40: temperature sensor, 50: space portion,
70: control unit, 71: temperature storage unit,
72: memory unit, 73: control unit,
80: Power supply,
S1: measuring the real time temperature of the bearing,
S2: transferring the measured temperature to the temperature storage section,
S3: comparing the preset temperature with the measured temperature stored in the temperature storage unit,
S4: controlling on / off of the power supply device 80;

Claims (4)

In a machine tool having a ball screw,
A bearing installed on an outer circumference of the ball screw;
A bearing housing for supporting the bearing;
A space formed on one side surface of the upper portion of the bearing housing;
A heating unit having an outer shape corresponding to an inner shape of the space portion;
A temperature sensor installed at a position facing the heating unit; And
And a control unit for controlling on / off of a power supply for supplying power to the heating unit according to a temperature measured by the temperature sensor. Thermal deflection prevention device.
The method according to claim 1,
The heating unit includes:
A hot wire pin having a shape corresponding to an inner shape of the space portion;
A hot wire coil installed inside the hot wire pin to generate heat;
A hot wire insulator provided at an upper end of the hot wire pin to insulate the hot wire coil; And
And a hot wire which is inserted into the hot wire insulator and connected to the hot wire coil, and the other end is connected to a power supply device to supply power to the hot wire coil. .
3. The method of claim 2,
Wherein the control unit comprises:
A temperature storage unit for storing the temperature of the bearing measured by the temperature sensor;
A memory unit for storing a predetermined temperature of the bearing; And
And a control unit for controlling on / off of the power supply by comparing the measured temperature of the bearing stored in the temperature storage unit with the temperature stored in the memory unit. Device for preventing thermal displacement of machine tool.
Measuring a temperature of the bearing by a temperature sensor;
Transmitting the temperature of the measured bearing to a temperature storage unit;
Comparing the predetermined temperature of the bearing stored in the memory unit with the measured temperature of the bearing stored in the temperature storage unit; And
And controlling on / off of the power supply according to the compared temperature. The method of preventing a thermal distortion of a machine tool according to claim 1,

Images