JPS6133657B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a jig for clamping a workpiece to be machined, for example, in a machining center.

[Technical background of the invention and its problems]

Generally, in automatic machine tools such as machining centers, the workpiece is clamped to a jig, placed on a table, clamped, placed on the table, and the clamped workpiece is subjected to a specified process. It's becoming like that. Conventionally, in order to clamp a workpiece to a jig, the structure and
Due to the variety of shapes and dimensions, clamping was performed manually. For example, a workpiece has been clamped with a jig such as a bolt using a T-groove formed in the jig. However, such manual clamping requires time and effort, is extremely inefficient, and not only causes a decrease in machine operating efficiency, but also makes it difficult to automate the clamping work.

[Purpose of the invention]

The present invention has been made in consideration of the above circumstances, and aims to provide a jig with excellent versatility while making it possible to automate the work of clamping workpieces.

[Summary of the invention] A plurality of swing cylinders driven by hydraulic pressure are buried inside the jig body, and a clamp device is detachably connected to any one of these swing cylinders according to the shape and dimensions of the workpiece. This is how it was done.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

The jig of this embodiment includes a table-shaped jig main body 2 on which a rectangular parallelepiped-shaped workpiece 1 is clamped, and a plurality of swing cylinders 3 provided in the jig main body 2 in the shape of a base grid. And these swing cylinders 3...
Clamp device 4 detachably attached to ......
...... (see Figures 1 and 2). The jig main body 2 consists of a pressure oil plug 5 protruding from the side surface and a hydraulic pipe line 6 that is buried in the jig main body 2 and supplies pressure oil from the pressure oil plug 5 to the swing cylinder 3. ing. The pressure oil plug 5 includes:
A hydraulic hose 5a for supplying pressure oil is connected. This hydraulic hose 5a is connected to a hydraulic pressure supply source (not shown). Furthermore, each of the swing cylinders 3 is screwed into the bottom of a mounting hole 7 formed in the jig main body 2, as shown in FIG. The mounting hole 7 consists of a small diameter portion into which the swing cylinder 3 is screwed and a large diameter portion. The flange 8 of the swing cylinder 3 is engaged with a step 7a that is a boundary between the small diameter portion and the large diameter portion of the mounting hole 7. The swing cylinder 3 is connected to the hydraulic pipe line 6, and has an internal hydraulic pressure (not shown) for introducing pressure oil. A piston (not shown) is moved in the direction of arrow 9a by the pressure oil introduced into this oil chamber. When the hydraulic pressure is released, the elastic body such as a compression spring (not shown) inserted between the bottom of the swing cylinder 3 and the piston presses the piston in the direction of arrow 9b to move the piston to its original position. It is now being brought back to . Furthermore, inside this swing cylinder 3,
A swing mechanism (not shown) is provided, and as the piston moves up and down, the piston itself rotates forward and backward within a range of 90 degrees. A piston rod 10 is coaxially connected to the piston of the swing cylinder 3 (see Figs. 3 and 4).
(see figure). A joint 12 is coaxially connected to the cylinder rod 10 with a cylindrical portion 12a occupying the lower end portion of the joint 12 by a set screw 11. The joint 12 is formed into a rod shape, with both sides of the cylinder axially symmetrical from the upper end being cut halfway in the axial direction (see FIG. 5). In other words, joint 1
2 consists of a columnar part 12a occupying the lower part and a rod-shaped part 12b occupying the upper part. This joint 12
The radius r ₁ of the cylindrical portion 12a is smaller than the radius r ₂ of the large diameter portion of the mounting hole 7, so that a gap of Δr is formed between the two. In addition, at the end of the rod-shaped portion 12b of the joint 12 on the side of the double-curved cylindrical portion 12a,
Recessed portions 13, 13 having a rectangular cross section passing through the axis are provided. Support bodies 14, 14 are fixed to the swing cylinder 3 side of the recessed parts 13, 13, and these parts have the same shape as the rod-shaped part 12b. Therefore, in reality, the recessed portion 13,
13, the remaining portions excluding the supports 14, 14 are recessed portions 13a, 13a. This support 1
Support holes 1 are provided at axially symmetrical positions of 4 and 14, respectively.
5, 15 are drilled, and these support holes 15, 15
Engagement springs 16, 16 are held therein. The engagement balls 17, 17 are fitted into the openings of the support holes 15, 15 so as not to protrude from the openings of the support holes 15, 15. These engaging balls 1
7 and 17 are biased by engagement springs 16 and 16 so that they partially protrude from the openings of support holes 15 and 15, and can be retracted into the support holes 15 and 15 by external force. On the other hand, there is a cylindrical slide between the joint 12 and the outer peripheral surface of the mounting hole 7.
A cover 18 is slidably inserted. At the upper end of the slide cover 18, a pair of semicircular protrusions 18a, 18a are provided at axially symmetrical positions on the inside so as to be inserted closely into the rod-shaped portion 12b of the joint 12. (shaded area in Figure 5). Between this slide cover 18 and the step 7a,
A spring 19 is interposed to bias the slide cover 18 in the direction of arrow 9b when no external force is applied. Further, the protruding piece 18
There is a hemispherical recess 2 in the center of the front end surface of a and 18a.
0 and 20 are recessed, and the rod-shaped portion 12
Engagement balls 21, 21 are fitted into the upper end portions of both side surfaces in close contact with the protrusions 18a, 18a of b by means of springs (not shown) so as to be able to move in and out. Thus, the slide cover 18 biased by the spring 19 is locked and positioned by the engagement balls 21, 21 fitting into the recesses 20, 20, and the top surface of the slide cover 18 and the top surface of the jig main body 2 are fixed. The holes 7 are installed so that they are flush with each other, and the hole 7 is shielded from the outside to prevent foreign matter such as dust from entering. Thus, the clamping device 4...... respectively has support columns 22...... and these support columns 22......
It consists of a fastening plate 23 installed horizontally at the upper end. The support column 22 is formed into a cylindrical shape, and its radius is set so that it can slide closely against the mounting hole 7. And support column 2
A cylindrical hollow portion 24 is coaxially formed at the lower end of the tube 2 . The radius of this hollow part 24 is the radius of the joint 1
The two rod-shaped portions 12b are set so that they can slide closely together. Furthermore, a pair of locking pieces 25, 25 are provided protruding near the opening of the hollow portion 24.
The distance between these locking pieces 25, 25 is
b is set so that it can be inserted. Further, the thickness of the locking pieces 25, 25 is determined by the thickness of the recesses 13a, 13
It is set to be equal to the axial width of a. The lower surfaces of the locking pieces 25, 25 are provided with recesses 26, 26 into which the engaging balls 17, 17 are fitted.

Next, the operation of the jig having the above configuration will be described.

First, the jig of this embodiment is installed at a predetermined position on a setup table (not shown). A jig stand on which clamp devices of various sizes depending on the size of the workpiece are mounted is provided adjacent to the setup table. An assembly robot is installed between the jig table and the setup table. The workpiece 1 is then placed at a predetermined position on the jig main body 2 by a transport mechanism (not shown). Then,
The assembly robot grasps the clamp device 4 of a size corresponding to the workpiece 1 on the jig table and engages it with the swing cylinder 3 at a predetermined position. That is, when the support column 22 is inserted into the mounting hole 7, the slide cover 18 that is in contact with the lower end surface of the support column 22 is also pushed down against the biasing force of the spring 19 (see FIGS. 3 and 4). ). When the slide cover 18 comes into contact with the cylindrical portion 12a of the joint 12, the support column 22 is rotated. At this time, the locking pieces 25, 25 fit into the recesses 13a, 13a, and slide the engaging balls 17, 17 while recessing them into the support holes 15, 15 against the urging force of the engaging springs 16, 16. do. However, when the support column 22 rotates 90 degrees, the engagement balls 17, 17 fit into the recesses 26, 26 of the engagement pieces 25, 25 due to the urging force of the engagement springs 16, 16. Thus, the support column 22 and the joint 12 are integrally connected. In this way, the necessary number of clamp devices 4 . . . are attached to the jig main body 2. Next, the swing cylinder 3...
Supply pressure oil to... At this time, the clamp device 4
The longitudinal direction of the fastening plate 23 is set to be parallel to the ridgeline direction of the workpiece 1. Then, the piston rod 10 moves in the direction of the arrow 9a.
It descends in the direction and rotates 90 degrees. Accordingly, the fastening plate 23... is positioned directly above the workpiece 1. Then, even after turning 90 degrees, the piston rod 10 continues to descend, and the clamping plate 23...
firmly clamps the workpiece 1 to the jig body 2. Thus, the jig with the workpiece 1 clamped thereon is fixed on the table of the machining center by the transport mechanism, and the workpiece 1 undergoes a predetermined process. Next, after the machining of the workpiece 1 is completed, the jig in which the machined workpiece 1 is clamped is returned to the setup table, and the hydraulic line 6 is connected from the swing cylinder 3 to the hydraulic pressure supply source. Pressure oil is discharged via the oil plug 5 and the hydraulic hose 5a. Then, the piston rod 10 is raised in the direction of arrow 9b by the elastic body installed in the swing cylinder 3, and rotated 90 degrees in the opposite direction to the direction of the lowering. Along with this, the clamping plate 23... is also raised while rotating 90 degrees in the opposite direction, returning to the state before clamping. The assembly robot then rotates the support column 22 by 90 degrees in the opposite direction, and then pulls it out in the axial direction.
Along with this, the slide cover 18 also has spring 1.
Due to the urging force of 9, the engaging balls 2 are pushed into the recesses 20, 20.
1 and 21 go up until they fit. The workpiece 1 is thus released from the fastening and transported to another location by the transport mechanism.

In this way, the jig of this embodiment has a plurality of swing cylinders 3 arranged in the shape of a base inside the jig main body 2.
…and these swing cylinders 3……
Since the clamping device 4 is removably connected to any one of these to clamp the workpiece, even if the dimensions and shape of the workpiece change, the clamping device 4 can be attached to any one of the Clamping is possible by using a swing cylinder and an optimal clamping device, resulting in a device with excellent versatility. Furthermore, since multiple swing cylinders can simultaneously clamp a large number of workpieces reliably and quickly, the clamping work can be made more efficient and lighter, and the operating rate of the machine tool can be greatly improved.

Note that the hydraulic pipe line 6 is not limited to the above embodiment.
A directional control valve for maintaining oil pressure may be provided in the hydraulic pressure valve 5, and the hydraulic hose 5a may be detachably attached to the pressure oil plug 5. By doing so, it becomes possible to transport the jig by an automatic guided vehicle or the like to an automatic machine tool located at a considerable distance, and its practicality is dramatically improved. Further, an accumulator may be provided in the hydraulic conduit 6 to ensure that the hydraulic pressure is maintained. Furthermore, as the cylinder part of the swing cylinder 3, a double-acting cylinder (Double-acting cylinder) that can move in either reciprocating direction by fluid pressure is used.
Acting Cylinder) may be adopted. moreover,
The number of pressure oil plugs 5 is not one, but each swing cylinder 3...
...... or one row of swing cylinders 3...
It may be provided for each... Furthermore, the lower end of the support column 22 may be positioned by contacting the upper end surface of the joint 12 and the bottom surface of the hollow portion 24 of the support column 22 before rotating when the support column 22 is inserted. Furthermore, the swing cylinders 3... may be arranged in concentric circles, for example, instead of in a grid pattern. In addition to the above-described embodiment, the engagement between the support column 22 and the joint 12 can be achieved by providing a concave insertion engagement hole in the coupling and a convex insertion portion in the support column 22. You can also do it with Alternatively, a collet chuck may be used as the engaging portion, the insertion portion of the support column 22 may be made cylindrical, the collet chuck may be provided at the joint, and the support column 22 may be inserted into the collet chuck.

〔Effect of the invention〕

The jig of the present invention has a plurality of swing cylinders driven by hydraulic pressure embedded inside the jig main body, and a clamp device of any size can be detachably connected to these swing cylinders, so that the dimensions can be adjusted.
It is possible to clamp various workpieces with different shapes, greatly improving versatility. Furthermore, since a plurality of clamping devices can be operated simultaneously by hydraulic pressure, it is possible to automate the clamping work, increase efficiency, and make the work lighter, and the operating rate of the machine tool can be greatly improved.

[Brief explanation of the drawing]

Fig. 1 is a front view of a jig according to an embodiment of the present invention, Fig. 2 is a plan view of the jig shown in Fig. 1 showing the arrangement of the swing cylinder, and Fig. 3 is a part of the swing cylinder and clamp device. 4th enlarged cross-sectional view of main parts showing
The drawings are a partial side view of FIG. 3, FIG. 5 is a plan view showing the mounting hole portion of the jig body, and FIG. 6 is a bottom view of the support column of the clamp device. 1: Workpiece, 2: Jig body, 3: Swing cylinder, 4: Clamp device, 6: Hydraulic pipe line.

Claims (1)

[Claims] 1 A jig main body on which a workpiece is placed, a plurality of first engaging parts embedded in recesses formed in the jig main body, and a first engaging part formed at the tip end. A swing cylinder that moves up and down and rotates forward and backward in the recess by hydraulic pressure, and a hydraulic pipe line that is provided in the jig body and supplies pressurized oil to these swing cylinders, and the first engagement at one end. A second engaging portion is formed at the other end of the clamping plate for clamping the workpiece placed on the jig main body. a clamp device that moves up and down and rotates forward and backward following the first engaging portion; and a second engaging portion disposed in the recess so as to be movable up and down following the second engaging portion; A jig comprising a slide cover that seals the opening of the recess together with the first engaging portion when not pressed by the mating portion.