JPH0692068B2 - Work shaft drive for gyro grinder - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention is a gyroscope in which a loose abrasive is charged into a rotary tank, and the abrasive is placed in a workpiece to finish the surface and edge of the workpiece. The present invention relates to a structure of a shaft for holding a workpiece of a polishing machine, and is used in the field of manufacturing, selling or using a gyro polishing machine.

(Prior Art) The rotation of the shaft of a conventional gyro polishing machine is a constant speed unidirectional rotation because it is rotated by using a motor and a transmission mechanism.

(Problems to be Solved by the Invention) Since the rotating shaft of the conventional gyro polishing machine is a constant speed unidirectional rotation, the rotating speed during one rotation of the polishing shaft cannot be changed. Also, since the rotation direction of the motor had to be changed to reverse the polishing axis, the reverse rotation could not be performed in a very short cycle. Further, when mounting a workpiece on the polishing shaft, there are many problems such as mounting a stop position regulating device for the polishing shaft and adjusting the positional relationship between the workpiece tightening mechanism of the polishing shaft and the workpiece loading device. It was

(Means for Solving Problems) In order to solve the above problems, the present invention is configured such that a gear is fixed to a polishing shaft of a gyro polishing machine, and the gear is rotated by a rack, and the reciprocation of the rack is performed. Since the crank mechanism or the fluid pressure cylinder is used, the polishing shaft reverses every rotation, so the so-called uneven polishing that causes a difference in the polishing amount due to the processed surface does not occur, and the surface that requires the most polishing is It is possible to place the position facing the flow direction of the abrasive at the position where the rotational speed of the shaft is the slowest. That is, since the workpiece can be held at the position requiring polishing for the longest time in one rotation by utilizing the nonuniform rotation speed of the polishing shaft, the polishing efficiency can be improved. Further, when the same reciprocating mechanism is used for position regulation, if the polishing shaft stop position is set to the starting point and the ending point of the reciprocating mechanism, the polishing shaft is slowest to rotate and the reciprocating mechanism stops due to a stop error. Since there is almost no error in the stop position of the shaft, there is an advantage that the positioning is easy.

(Advantageous Effects of the Invention) According to the present invention, the work shaft is supported by the polishing shaft housing that can be moved up and down, and the work shaft is rotated in the normal and reverse directions by the rack installed in the polishing shaft housing and the pinion fixed to the shaft. By doing so, the rotation direction of the workpiece can be changed within an extremely short time, and the polishing position of the workpiece can be easily regulated by moving the rack.

(Embodiment) FIGS. 1 and 2 are schematic views of a gyro polishing machine using the apparatus of the present invention. FIG. 1 shows only one unit of the present invention for easy understanding of the drawing.

Usually, four side columns 2a, 2b, 2c, 2d are provided on the base 1, and the ceiling frame 3 is fixed above them. A bearing is provided on the ceiling frame 3, and the gyro central shaft 37 is rotatably supported. A polishing tank 4 is installed on the base 1, and a shaft 35 of the polishing tank 4 is supported by the base 1, and the polishing tank rotating motor 5 and the speed reducer 6 rotate the polishing tank. The gyro central shaft 37 can be intermittently driven by the geneva device 7. Further, the upper rotary disc 8 and the lower rotary disc 9 are vertically opposed to each other at a predetermined distance on the central shaft 37. , Between the upper rotating disk 8 and the lower rotating disk 9,
It has a plurality of guides 36a, 36b, 36c, 36d (FIG. 2 shows the case of 12). The upper rotary disk 8 has a plurality of cylinders for raising and lowering the work axis (Fig. 2 shows the case of 6 pieces).
10 is fixed, and the tip end 11 of the piston rod is fixed with polishing shaft housings 13a and 13b (6 pieces are shown in FIG. 2). A polishing shaft is attached to each of the polishing shaft housings 13a and 13b, and the polishing shaft is the subject of the present invention. Details of this polishing shaft are shown in FIGS. 3, 4, and 5.

The polishing shaft casings 13a, 13b, ... Are the tips of the piston rods.
It is fixed to 11 and slides up and down in the two guides 36a and 36b. A polishing shaft drive motor 14 is attached to each of the polishing shaft casings 13a, 13b, ... And a drive wheel 15 is fixed to the shaft end thereof. The pin 16 is fixed on the circumference of the drive wheel 15,
A crank arm 17 is attached to 16 so as to be rotatable. A pin 18 is attached to the other end of the crank arm 17, and a rack rod 19 having a rack cut on its upper surface is attached to the pin 18, and the pin is attached to a hole at one end of the rack rod 19. 18 is rotatably fitted, and the rack rod 19 slides in a rack slide 20 fixed to the polishing shaft housing 13a. A pinion 21 meshes with the rack of the rack bar 19, and the pinion 21 is fixed to the polishing shaft 22. As shown in FIG. 5, the polishing shaft 22 can rotate in a bearing 23 fixed to the polishing shaft housing 13a. The polishing shaft 22 is hollow and has a work holding device shaft 24 penetrating therethrough. There is. A pin 25 is fixed to the lower end of the work holding device shaft 24 as shown in FIG. An elliptical hole at one end of the work piece solid arms 26 and 27 configured in a bell crank shape penetrates the pin 25, and the work holding device shaft 24 moves up and down, so that the work fixing arms 26 and 27 are fixed. It is designed to rotate around pins 28 and 29, respectively, for attaching and detaching workpieces. A cylinder 38 (shown in FIG. 1) and a push rod 39 are installed above the workpiece holding device shaft 24 so as to be isolated from the holding device shaft 24. By lowering the push rod 39, the spring 30 is compressed to perform the work. When the object holding device shaft 24 is lowered, the holding work is released, and conversely when the piston is raised, the spring 30
The work holding device shaft 24 is raised by the extension force of the work to hold the work.

The operation of the device of the present invention will be described based on the mechanism described above.

The granular polishing material, that is, water and a compound are charged into the polishing tank 4, and the polishing tank rotating motor 5 is rotated to rotate the polishing tank. The workpiece 31 is the workpiece fixed arm 2
It is gripped by 6, 27 and polished by inserting it into the abrasive. The present invention relates to an apparatus for rotating a workpiece holding the workpiece in a polishing tank and a positioning apparatus for attaching and detaching the workpiece, and the same apparatus can be used for both purposes. Further, from the mounting of the work to the removal of the work after the polishing is completed, it can be automatically performed by the sequence control device, but a part thereof may be manually operated.

When the polishing shaft 22 stops at the workpiece supply position after the polishing end time has elapsed, the workpiece holding device shaft 24 is lowered by the upper fluid pressure cylinder 38. Therefore, the sixth
The pin 25 shown in the figure is lowered to open the workpiece fixing arms 26 and 27. Therefore, the workpiece 31 is detached from the fixed arm and taken out of the system by a separately mounted device.

On the other hand, the unprocessed fresh crop taken out from the separately mounted unprocessed fresh crop transporter is processed and the work fixing arm 26 from which the work is taken out,
When inserted between 27, the piston of the hydraulic cylinder 38 above the pin 25 withdraws and the workpiece holder shaft 24 is raised by the action of the spring 30 to grip the workpiece. When the gripping is completed, the upper rotary plate 8 and the lower rotary plate 9
Is lowered and the workpiece 31 is inserted into the abrasive.

When the workpiece 31 is gripped, the polishing shaft drive motor 14 is driven to drive the drive wheel 15 and the crank arm 17, and the rack 19 reciprocates. Therefore, the pinion 21 also rotates back and forth, and the polishing shaft 23 fixed to the pinion 21 and hence the workpiece
31 also reciprocates.

At this time, for example, if the workpiece has a flat shape as shown in FIG. 6, the dead point of the crank arm (shown in FIG. 4) is when the direction of the drawing is perpendicular to the flow direction of the abrasive. The position of the crank arm is the same as the position of the crank arm. In the movement of the crank mechanism, the sliding speed of the rack is slowest at this position, and therefore the rotational speed of the workpiece is slowest at this position. As a result, the time for which the abrasive material hits at a right angle becomes longer, and the polishing effect can be improved. When the polishing shaft 22 stops at the workpiece supply position as described above after the predetermined polishing time is over, the stop position is regulated as shown in FIG. 4 by attaching the dog 34 attached to the drive wheel 15 to the polishing shaft. This is performed by detection by the proximity switch 33 attached to the housing 13a. Also in this case, if the stop position is set to the crank dead center position as shown in the figure, the stop command is issued at the position where the speed of the drive wheels is the slowest, so not only the stop accuracy is good, but also the stop position is minute. Even if there is such an error, the positions of the workpiece fixing arms 26 and 27 hardly change, and from this aspect, the stopping accuracy is good.

Although the reciprocating motion of the rack is performed by the crank mechanism in the above embodiment, the reciprocating motion by the fluid pressure cylinder may be used without being limited to this. The point is that any mechanism capable of reciprocating the rack belongs to the scope of the present invention.

(Effect of the Invention) As described above, according to the present invention, by mounting this device on the polishing shaft of the gyro polishing device, the direction in which the workpiece is most efficiently polished is set to the start and end positions of the rack movement. By doing so, the holding time in the direction with good polishing efficiency can be extended and the polishing efficiency can be improved, and the workpiece attachment / detachment position for detaching the workpiece to be processed and attaching the unprocessed fresh crop. Positioning accuracy can be improved by setting the start point and the end point of the rack movement as an advantage.

[Brief description of drawings]

FIG. 1 is an overall side view of a gyro polishing machine equipped with a device according to the present invention, FIG. 2 is a plan view of the same, FIG. 3 is a front view of the device according to the present invention, FIG. 4 is a plan view of the same, and FIG. Is also a side view, FIG. 6 is a front view showing the workpiece gripping device, and FIG. 7 is a partial sectional view of the same. 1 ... Base, 3 ... Ceiling frame 4 ... Polishing tank, 8 ... Upper rotating disc 9 ... Lower rotating disc 10 ... Workpiece lifting cylinders 13a, 13b ... Polishing shaft 14 ... Grinding axis drive motor 15 …… Drive wheel, 17 …… Crank arm 19 …… Rack rod, 20 …… Rack slide 21 …… Pinion, 22 …… Prinding axis 24 …… Workpiece holding device axis 26, 27 …… Working Object fixing arm 31 …… Workpiece, 35 …… Polishing tank axis

Claims (3)

[Claims] 1. A gyro polishing machine in which a loose abrasive is loaded into a rotary tank and a workpiece is inserted into the abrasive to finish the surface and edges of the workpiece. , A bearing mounted on a polishing shaft mounted so as to be able to move up and down, and a pinion fixed to the workpiece shaft, a rack that meshes with the pinion, and a reciprocating mechanism that reciprocates the rack are housed in the polishing shaft. A device for driving a work axis for a gyro polishing machine characterized by 2. The reciprocating mechanism has a drive wheel rotated by a motor installed on a polishing shaft, one end rotatably attached to an eccentric position of the drive wheel, and the other end rotatably attached to a rack. 2. A drive device for a work shaft for a gyro polishing machine according to claim 1, wherein the drive device comprises a crank arm. 3. The reciprocating mechanism is a fluid pressure cylinder interposed between a rack and a polishing shaft housing. A work shaft drive for a gyro polishing machine according to claim 1, wherein the reciprocating mechanism is a fluid pressure cylinder. apparatus