JP7299044B2 - Machine Tools - Google Patents

Description

The present disclosure relates to machine tools.

A machine tool is known that includes a coolant tank that stores coolant and a pump that sucks up the coolant stored in the coolant tank and supplies it to a workpiece (see, for example, Patent Document 1).

JP-A-11-333723

A filter is placed at the suction port of the pump to prevent chips and other foreign matter from entering the pump. In particular, it is desirable to prevent chips floating in the coolant from easily entering the suction port during, for example, cleaning of the coolant tank while the pump is stopped.

One aspect of the present disclosure includes a pump disposed in a coolant tank that stores coolant, sucks the coolant and supplies it to a workpiece, the pump includes a casing having a coolant suction port, and an axis line in the casing. a propeller rotatably supported around; a servomotor that rotates the propeller around the axis; and a servomotor that rotates the propeller around the axis so that the suction port can be closed at a predetermined rotational angle position. and a lid.

1 is an overall configuration diagram showing a machine tool according to an embodiment of the present disclosure; FIG. FIG. 2 is a perspective view showing a coolant pump used in the machine tool of FIG. 1; FIG. 3 is a cross-sectional view showing the positional relationship between the suction port and the lid when the coolant pump of FIG. 2 is stopped; FIG. 4 is a cross-sectional view showing a state in which the propeller of the coolant pump of FIG. 3 rotates to open the suction port; FIG. 3 is a vertical cross-sectional view showing a modified example of the coolant pump of FIG. 2 in a stopped state; FIG. 6 is a vertical cross-sectional view showing a state in which the propeller of the coolant pump of FIG. 5 rotates to open the suction port; FIG. 2 is a plan view showing an example of a cleaning nozzle provided in the machine tool of FIG. 1;

A machine tool 1 according to an embodiment of the present disclosure will be described below with reference to the drawings.
As shown in FIG. 1, a machine tool 1 according to the present embodiment includes a coolant tank 3 capable of storing coolant X and a coolant pump for sucking up the coolant X in the coolant tank 3 at the bottom of an openable and closable housing 2. (pump) 4 , a nozzle 5 for discharging the sucked coolant X, and a control unit 6 for controlling the coolant pump 4 .

The coolant tank 3 is arranged at a position where the coolant X that has cooled the workpiece W being processed by being sucked up by the coolant pump 4 and discharged from the nozzle 5 can be recovered.
The coolant pump 4 includes a vertically extending cylindrical casing 41, a propeller 42 rotatably supported around a vertical axis (axis) A within the casing 41, a lid 43 fixed to the propeller 42, and a propeller. and a servomotor 44 that drives 42 to rotate. The servomotor 44 is equipped with an encoder (not shown).

The casing 41 is arranged on the bottom surface of the coolant tank 3 , and has a plurality of suction ports 45 opening at its lower portion for sucking in the coolant X stored in the coolant tank 3 .
The propeller 42 has six blades that are circumferentially spaced and fixed to a shaft 46 that is connected to a servo motor 44 . A shaft 46 of the propeller 42 is arranged along the vertical axis A. As shown in FIG.

When the coolant pump 4 is driven, the propeller 42 is rotated around the vertical axis A, whereby the coolant X is sucked into the casing 41 through the suction port 45, flows upward in the casing 41, and is connected to the upper part of the casing 41. It is discharged from the nozzle 5 arranged at the tip of the pipe 50 via the pipe 50 .

In this embodiment, the suction ports 45 of the casing 41 are provided at six locations at equal intervals in the circumferential direction. The cover 43 is an arc plate-shaped member that is fixed at a position that connects adjacent blades to the outer peripheral edges of the blades of the propeller 42 and that is arranged with a small gap in the radial direction with respect to the inner surface of the casing 41 . . The lids 43 are also provided at six locations at equal intervals in the circumferential direction, and can close the suction port 45 when arranged at the rotational angle position corresponding to the suction port 45 as shown in FIG. have a shape.

The control unit 6 controls the rotation speed and rotation angle position of the servo motor 44 based on the rotation angle of the servo motor 44 detected by the encoder.
In particular, the controller 6 controls the number of revolutions of the servomotor 44 to achieve the rotational speed of the propeller 42 for achieving the required discharge pressure of the coolant X from the nozzle 5 . Further, when the coolant pump 4 is stopped, the control unit 6 controls the rotation angle of the servomotor 44 to stop the propeller 42 at a rotation angle in which the six lids 43 match the six suction ports 45. .

According to the machine tool 1 according to the present embodiment configured as described above, the necessary discharge pressure of the coolant X by the coolant pump 4 is achieved by controlling the servomotor 44 to a desired number of revolutions. Cooling, lubrication and cleaning of the coolant tank 3 can be efficiently performed. In this case, when the servomotor 44 is driven, the propeller 42 and the lid 43 are rotationally driven by the servomotor 44, and the lid 43 opens and closes the suction port 45 at high speed. Thereby, as shown in FIG. 4, the coolant X is sucked into the casing 41 and discharged from the nozzle 5 when the suction port 45 is opened.

On the other hand, when the coolant pump 4 is stopped, the rotation angles of the propeller 42 and the cover 43 are controlled by the servomotor 44, and as shown in FIGS. It is stopped at the rotation angle corresponding to 45. As a result, all the suction ports 45 are closed when the coolant pump 4 is stopped. Therefore, even if chips rise up in the coolant X stored in the coolant tank 4 when cleaning the coolant tank 4, the chips are reliably prevented from entering the casing 41 through the suction port 45. has the advantage of being able to

In the present embodiment, the rotation of the propeller 42 causes the cover 43 fixed to the propeller 42 to rotate, and when the coolant pump 4 is in operation, the cover 43 rotating together with the propeller 42 opens and closes the suction port 45 at high speed. Although the case where it is used has been exemplified, it is not limited to this.

For example, as shown in FIG. 5, the cover 43 and the propeller 42 are separated, and the connecting member 47 connecting the six covers 43 is vertically moved in the slit 48 provided in the shaft 46. It may be attached to the shaft 46 if possible. As a result, the lid 43 and the propeller 42 are prevented from rotating relative to each other about the vertical axis A, and the rotation causes the lid 43 to move along the vertical axis A of the shaft 46 .

In this way, when the coolant pump 4 is operated, the driving force of the propeller 42 moves the cover 43 in the direction of the vertical axis A of the shaft 46 and displaces it from the suction port 45 in the direction of the vertical axis A. , and the suction port 45 can be maintained in an open state.

Further, in this embodiment, the coolant pump 4 employs the servomotor 44 as a drive source for driving the propeller 42, so that the machine tool 1 monitors the drive current of the servomotor 44. ), the load on the propeller 42 can be detected. Therefore, the control unit 6 compares the drive current with a predetermined threshold value, and if it is larger than the upper threshold value or smaller than the lower threshold value, it indicates that an excessive load is applied or an excessively small load is applied. A notification unit 7 may be provided to notify that the user is present.

By notifying that the coolant pump 4 is heavily loaded by the notification unit 7, the user can recognize that the coolant pump 4, the pipe 50, or the nozzle 5 may be clogged.
In addition, since the notification unit 7 notifies that the load applied to the coolant pump 4 is too small, the user can recognize that the discharge pressure may have decreased due to wear of the propeller 42 or the like. can be done.

As the notification unit 7, a display device such as a monitor or a lamp, a notification device using sound such as a buzzer, or any notification device such as vibration may be employed.

The machine tool 1 may also include a cleaning nozzle 8 that discharges the coolant X sucked by the coolant pump 4 into the coolant tank 3 .
As shown in FIG. 7, the cleaning nozzle 8 is supported at the tip of the pipe 10 so as to be rotatable about, for example, a vertical axis, and is biased in one direction (in the direction of arrow Z) by a spring (not shown). It is

By changing the rotation speed of the servomotor 44 to increase the discharge pressure of the coolant X, the cleaning nozzle 8 is rotated about the vertical axis in a direction opposite to the biasing direction of the spring, thereby changing the discharge direction of the coolant X. can do. For example, when cleaning the inside of the coolant tank 3, the rotation speed of the servomotor 44 is switched to change the discharge pressure of the coolant X from the cleaning nozzle 8, thereby changing the position of the cleaning nozzle 8. Therefore, the coolant W may be discharged to various positions of the coolant tank 3 . As a result, chips that tend to remain at specific positions in the coolant tank 3 can be sufficiently washed and removed from the coolant tank 3 .

1 machine tool 3 coolant tank 4 coolant pump (pump)
7 notification unit 8 cleaning nozzle 41 casing 42 propeller 43 lid 44 servo motor 45 suction port A vertical axis (axis)
W Work X Coolant

Claims (5)

Equipped with a pump that is arranged in a coolant tank that stores coolant and that sucks in the coolant and supplies it to the workpiece,
The pump comprises a casing having a coolant suction port, a propeller rotatably supported in the casing about an axis, a servomotor rotating the propeller about the axis, and a shaft driven by the servomotor. A machine tool, comprising: a cover body that is rotationally driven to close the suction port at a predetermined rotational angle position. the lid body is supported so as to be movable in a direction along the axis;
2. A machine tool according to claim 1, wherein said lid and said propeller are locked against relative rotation about said axis. 3. A machine tool according to claim 2, wherein said cover is supported by said propeller so as to be movable in a direction along said axis by a propulsive force due to rotation of said propeller . a load detection unit that monitors the drive current of the servomotor;
4. The machine tool according to any one of claims 1 to 3, further comprising a notification section that notifies when the drive current detected by the load detection section exceeds a predetermined threshold. A cleaning nozzle for discharging the coolant sucked by the pump into the coolant tank,
5. The machine tool according to any one of claims 1 to 4, wherein the cleaning nozzle changes the discharge direction according to the discharge pressure of the coolant.

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