JPS63123667A - Mechanical process device - Google Patents

Abstract

PURPOSE:To prevent to produce an uneven processing or a deformation of a work to process, by forming the inner peripheral surface in a continuous surface, in an accomodation jar in which abrasives and works are entered and a burr removing work is carried out by rotations and revolutions. CONSTITUTION:When processing materials such as abrasives, grinding materials, and grinding edges, and work to process are entered from inlet 16 into an accomodation jar 10, lids 17 and 17 are closed, and a motor 6 is rotated, the accomodation jar 10 rotates through sprockets 12 and 13 and a chain 15 while a passive turret 5 is rotated, as well as the jar 10 revolves around an axis 3 by the rotation of a driving turret 4, and a process of grinding and the like is carried out. Since the accomodation jar 10 is cylindrical and the inner peripheral surface is formed in a continuous surface, works and processing materials are never caught inside the jar, but mixed evenly, so that a uniform processing can be carried out. In such a way, an uneven processing or generation of defects such as deformation and the like is prevented, and the working efficiency is also improved.

Description

[Detailed Description of the Invention] [Industrial Application Field 1] This invention involves putting a processing material such as an abrasive or abrasive material and a workpiece into a storage tank that rotates once, and rotating the storage tank around its axis. The present invention relates to a machining device that performs machining such as deburring and deburring of parts.

[Prior Art] Conventionally, as shown in FIG. 5, for example, a machining device of this type has a removable lid 52 provided around the periphery of a cylindrical or polygonal cylindrical storage tank 51. Processed materials and workpieces were taken in and out of the storage tank 51. 53 is a storage tank 51
These are a pair of rotating disks that are provided on both sides of the storage tank 51 and rotatably hold the storage tank 51.

[Problems to be Solved by the Invention] In order to homogeneously process the workpiece placed in the storage tank, the workpiece and the workpiece must move uniformly within the storage tank. However, as mentioned above, since the conventional machining device provided the lid 52 around the circumference of the storage tank 51, the presence of seams etc. on the inner peripheral surface of the storage tank 51 is unavoidable, resulting in a discontinuous surface. The workpiece may get caught in the joints, resulting in uneven machining, or fluid may leak from the joints due to rotational centrifugal force, or in some cases, the workpiece may become deformed, resulting in defective products. There were drawbacks that occurred.

The object of the present invention is to eliminate such conventional drawbacks and provide a machining device that does not produce defective products due to uneven machining or deformation.

[Means for Solving the Problems] In order to solve the above-mentioned problems, a machining device according to the present invention includes a storage tank for storing workpieces and workpieces, and a holding tank that rotatably holds the storage tank. and a tank holding means which is also rotationally driven, and which rotates the storage tank with respect to the tank holding means and rotates the storage tank by rotationally driving the tank holding means, The inner circumferential surface of the storage tank is characterized by being formed as a continuous surface without any divisions, cutouts, seams, etc.

Further, a second invention related to this invention is characterized in that, in addition to the structure of the above invention, a lid body that can be opened and closed is provided at the end of the storage tank. A third invention related to this invention In the configuration of this invention,
Furthermore, an opening for taking the workpieces and workpieces into and out of the storage tank is formed at an end of the storage tank, and a charging means for introducing the workpieces or workpieces into the mouth is provided. do.

[Function] When the workpiece and workpiece are placed in the storage tank and the storage tank is rotated and revolved, the inner circumferential surface of the storage tank is formed as a continuous surface, so the workpiece and workpiece will be removed during processing. The materials do not get caught in the storage tank and are always mixed uniformly, so that the workpiece is processed uniformly.

In the second invention related to the present invention, a lid body is further provided at the end of the storage tank in the direction of the rotation axis, from which workpieces and the like are introduced into and discharged from the storage tank.

Further, in the third invention related to the present invention, the workpieces and the like are charged into the storage tank by the charging means, and the charging operation can be performed without manual intervention.

[Example] A first example of the present invention will be described based on FIGS. 1 and 2.

Reference numeral 1 denotes a base that supports the entire device, and 2 a pair of columns erected integrally with the base 1 at both ends thereof, and both ends of a shaft 3 are supported between the tops of these columns. A pair of turrets (drive turret 4.
A driven turret 5) is rotatably supported at intervals. A motor 6 is installed on the base l, and a drive belt 8 is passed around the outer circumference of the drive turret 4 and a pulley 7 attached to its output shaft, and the rotation of the motor 6 causes the drive turret 4 to move the shaft 3. It is designed to rotate around the center. Incidentally, instead of such a belt drive, a chain, gears, or other drive means may be used.

A pair of holes 9 are bored in each of the two turrets 4.5, and two cylindrical storage tanks 10 (10a, 10b) for storing workpieces and materials are inserted into the holes 9. It is fitted in such a way that it can rotate freely. In this way, two storage tanks 10a
, 10b are each rotatably held near both ends by turrets 4 and 5, one storage tank 10a is provided parallel to the axis 3, and the other storage tank 10b is provided at an angle with respect to the axis 3. . The mounting angle of such a storage tank 10 is
The angle of inclination can be freely selected by changing the position of the hole 9 of the turret 4.5, and the most convenient inclination angle can be determined depending on the processing purpose.

Reference numeral 11 denotes a flange that projects from the storage tank 10 and loosely contacts the turret 4.5 to restrict movement of the storage tank 10 in the axial direction. Further, sprockets) 12.13 are fixed to each of the storage tanks 10a, 10b and the drive turret 4, and a chain 15 is attached to each of the sprockets 12.13.
is wound around the sprocket 12, 13 and the chain 15 as the drive turret 4 rotates.
Each storage tank 10a, 10b rotates (rotates) via
The number of rotations (autorotation) of each storage tank 10a, lOb can be freely selected by changing the number of teeth of each sprocket 12, 13, and can be set to the most convenient number of rotations depending on the processing purpose etc. Alternatively, the rotation of the storage tank 10 may be driven by another motor or the like.

The storage tank 10 is formed in a cylindrical shape as described above, but both ends thereof, that is, both ends in the direction of the rotation axis, are open and have an opening for introducing or discharging workpieces and processed materials. 16 are formed.

On the other hand, no openings or the like are formed in the circumferential portion of the storage tank 10, and the inner circumferential surface thereof is formed of a continuous surface.

Each opening 16 formed at the end of the storage tank IO is provided with a lid 17 that can be opened and closed. This lid body 17 is hinged to the storage tank 10 so as to be openable and closable by a hinge 18 protruding from the side of the end of the storage tank 10. 16 can be blocked with strong force.

When processing a workpiece using the above-described embodiment configured in this way, first open the lid 17 at one end of the storage tank 10, close the lid at the other end, and close the opening 16 at the open end. Processing materials such as abrasives, abrasives, or grinding blades and workpieces are then put into the storage tank 10. After all lids 17 are closed, when the motor 6 is rotated, the drive turret 4 rotates, thereby causing the storage tank to revolve around the shaft 3, and following this, the driven turret 5 also rotates. At the same time, the storage tank 1O rotates relative to the turret 4.5 via the sprocket 12.13 and the chain 15.

By maintaining such a state for several minutes to several hours, the workpiece and the workpiece are mixed in the storage tank IO, and the workpiece and workpiece or the workpieces are brought into contact with each other, flowed, or The workpiece is subjected to processing such as polishing or grinding while sliding. Since the inner peripheral surface of the storage tank 10 of the present invention is formed by a continuous surface, the workpieces and materials will not get caught inside the storage tank 10 during processing, and these will always be mixed uniformly. The workpiece is processed uniformly.

When the machining is completed, the motor 6 is stopped and the lid 1 is removed.
7 is opened to discharge the workpiece and processed material from the storage tank 10. During this discharge, the workpieces, etc. are discharged from the opening 16 at the end of the storage tank 10, so it is very easy to collect the discharged materials into the box or the like directly or through guides. The workpiece can be discharged and collected by simply tilting the machine 10. In addition, in the above embodiment, since the lids 17 are provided at both ends of the storage tank IO, the work flow is controlled by loading the workpiece etc. through one of the lids and discharging it from the other. By making it unidirectional,
Input and discharge operations can also be automated easily.

FIG. 3 shows a second embodiment of the present invention.
Parts common to those in the embodiment are given the same numbers and their explanations are omitted. In this embodiment, the base l is
A portion thereof is rotatably supported by a frame 31. A telescopic cylinder 32 that expands and contracts by, for example, hydraulic pressure is interposed between the base 1 and the pedestal 31, and both ends of the cylinder 32 are attached to the base 1 and the pedestal 31. 1. Turret 4
. In addition, the above-mentioned telescopic cylinder 32
Alternatively, a pantograph, telescopic screw mechanism, or other mechanism may be used.

Further, a hopper 33 is provided at the upper part of the device, and is a charging means for storing and charging the workpieces and materials into the storage tank 10.
When O is in a tilted state, as shown in FIG. 3, the input port 34 provided at the bottom of the hopper 33 aligns with the mouth 16 of the storage tank, and the workpieces in the hopper 33 are connected to each other. The material is put into the storage tank to.

In this embodiment, the storage tank 1o can be tilted freely, so when loading and unloading workpieces and materials, the storage tank 1o is tilted and the upper lid 17 is opened. Workpieces and the like are introduced into the storage tank 10 through the opening and discharged from the lower opening after processing, thereby making it possible to easily perform loading and unloading. Further, by using the hopper 33, the loading operation can be performed automatically without using human hands.

In each of the above embodiments, the lid 17 is opened and closed by the hinge 18, but as shown in FIG. The mouth part 16 may be closed by forming the mouth part 16 so that the mouth part opens when the hole 42 drilled in the one-rotation disk 41 matches the mouth part 16, or it may be opened and closed by screwing or other method. In addition, although the tank holding means is constituted by a pair of turrets 4.5, they may be formed integrally into a block shape or other shapes, and the storage tank IO may be formed by one or more turrets. Any number of two or more may be provided, and the shape may be a polygonal cylinder or the like.

[Effect of the invention J] According to the machining apparatus of the present invention, the inner circumferential surface of the storage tank is formed by a continuous surface, so that the workpiece or workpiece does not get caught in the storage tank during machining, and the workpiece does not get caught in the storage tank. Uniform processing is added, and the excellent effect of significantly reducing the occurrence of defective products during processing can be obtained.

Further, according to the second aspect of the present invention, in addition to the above-mentioned effects, the workpieces and the like are loaded and discharged from the lid provided at the end of the storage tank in the direction of the rotation axis.

Emissions can be collected in one place and easily collected.
Further, by making the flow of loading and discharging work unidirectional, the loading and discharging operations can be automated easily and inexpensively, and the workability is extremely excellent.

Further, according to the third aspect of the invention, since the loading means for loading the workpiece into the storage tank is provided, the loading operation does not require manual labor.
2. It has the effect of being able to easily increase work efficiency and reliability through automation.

[Brief explanation of the drawing]

Fig. 1 is a partially cutaway front view of the first embodiment of the present invention, Fig. 2 is a sectional view taken along the line ■-■, and Fig. 3 is a front view of the second embodiment of the present invention. 4 is a perspective view of another embodiment of the lid, and FIG. 5 is a perspective view of a storage tank of a conventional machining device. 3... Axis, 4... Drive turret, 5... Driven turret 3... Axis, 4... Drive turret, 5...
Driven turret, 6...Motor, 7...Pulley, 8
...Drive belt. lO... Storage tank, 12.13... Tin rocket, 1
5... Chain, 16... Mouth part, 17... Lid body,
18... Hinge, 32... Telescopic cylinder, 33...
Hopper, 34... Input port.

Claims (1)

[Claims] 1. A storage tank that accommodates workpieces and processed materials, and a tank holding means that rotatably holds the storage tank and is also rotatably driven; A machining device in which the storage tank is rotated by rotationally driving the tank holding means while rotating relative to the holding means, characterized in that the inner circumferential surface of the storage tank is formed by a continuous surface. Device. 2. The machining apparatus according to claim 1, wherein the storage tank is cylindrical. 3. The machining apparatus according to claim 1 or 2, wherein the tank holding means is a pair of turrets provided facing each other. 4. Claims 1 to 3, wherein the rotation axis of the storage tank and the rotation axis of the tank holding means are provided in parallel.
Machining equipment as described in any of the paragraphs. 5. The machining device according to any one of claims 1 to 3, wherein the rotation axis of the storage tank and the rotation axis of the tank holding means are provided at an angle. 6. The machining device according to any one of claims 1 to 5, wherein the inclination of the tank holding means is adjustable. 7. It is equipped with a storage tank that accommodates the workpiece and the processed material, and a tank holding means that rotatably holds the storage tank and is also rotationally driven, and the storage tank is rotated relative to the tank holding means. In the machining device, the storage tank is rotated by rotationally driving the tank holding means while the storage tank is rotated, and the inner circumferential surface of the storage tank is formed by a continuous surface, and at the end of the storage tank in the direction of the rotation axis, A machining device characterized by having a lid that can be opened and closed. 8. The machining device according to claim 7, wherein the lid is hinged to an end of the storage tank. 9. A storage tank that accommodates the workpiece and the processed material, and a tank holding means that rotatably holds the storage tank and is also rotationally driven, and the storage tank is rotated relative to the tank holding means. In the machining device, the storage tank is rotated by rotationally driving the tank holding means while the storage tank is rotated, and the inner peripheral surface of the storage tank is formed by a continuous surface, and the workpiece and the workpiece are placed in the storage tank. An opening for introducing the liquid is formed at the end of the storage tank,
A machining device characterized in that it is provided with a charging means for charging a workpiece or a workpiece into its mouth. 10. The machining apparatus according to claim 9, wherein the inclination of the tank holding means is adjustable.