JP3016318B2 - Vacuum suction device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum suction apparatus used for transferring a work such as an IC device (integrated circuit element) by suction without applying a shock or a large load.

[0002]

2. Description of the Related Art For example, when testing and measuring the electrical characteristics of an IC device, it is necessary to transfer the device from one part (transfer position) to another part (receive position). In order to transfer such a work such as an IC device, a robot equipped with a vacuum suction means is conventionally used. That is,
The robot is placed at the transfer position of the work, the suction pad of the vacuum suction means is brought into contact with the work, sucked and taken out, moved to the receiving position, and detached from the suction pad to transfer the device. .

[0003] Here, as a vacuum suction means mounted on a robot, one having a configuration shown in FIG. 2 has been conventionally known. In the figure, reference numeral 1 denotes a suction pad, and the suction pad 1 is mounted on the tip of an operating rod 2. Inside the working rod 2, a suction passage 3 connected to a suction source such as a vacuum pump is formed. The operating rod 2 is connected to the robot so as to be able to move up and down, and has a cylinder 4 for this purpose. The operating rod 2 is slidably inserted through the inside of the cylinder 4.

The operating rod 2 functions as a piston in the cylinder 4. For this purpose, a large-diameter piston portion 2a is provided at an intermediate position of the operating rod 2, and an outer periphery of the piston portion 2a is provided. Seal member 5
Is mounted, and the inside of the cylinder 4 is divided into two chambers 4a and 4b by the seal member 5. Air supply / discharge ports 6a, 6b are formed in these two chambers 4a, 4b, respectively, and supply / discharge pipes (not shown) for pressurized air are connected to the respective supply / discharge ports 6a, 6b. Have been. Further, a step is formed in the operating rod 2 so that a portion up to a position vertically separated from the piston portion 2a by a predetermined interval has a larger diameter than other portions. Are configured to function as stopper portions 2b and 2c that regulate the sliding stroke range of the operating rod 2.

In the vacuum suction device constructed as described above, a portion of the cylinder 4 is mounted on a robot, and the robot is operated to be mounted on an appropriate jig at a transfer position of the suction pad 1. By disposing the pressurized air into the chamber 4a from the upper supply / discharge port 6a and exhausting from the chamber 4b via the supply / discharge port 6b, the operation rod 2 is lowered by being disposed at the upper position of the work 7. Then, the suction pad 1 is brought into contact with the upper surface of the work 7 and the suction passage 3 of the operating rod 2 is made to have a negative pressure, so that the work 7 is vacuum-sucked. Then, when the pressurized air is supplied into the chamber 4b and the air is exhausted from the chamber 4a, the work 7 is taken out by adsorbing and raising the work 7 by the suction pad 1. The work 7 is transported by the robot to the upper part of the jig arranged at the receiving position,
By operating the cylinder 4 in the same manner as described above, the work 7 sucked and held by the suction pad 1 is arranged at the corresponding position, and the connection between the suction passage 3 and the suction source is cut off. It can be transferred to a location.

[0006]

As the work 7, a lead 9 is extended from the side of the package portion 8 like a QFP type IC device as shown, for example. When the package unit 8 is placed on the jig 10, the package unit 8 is in a floating state. When the work 7 is sucked by the suction pad 1, it comes into contact with the upper surface of the package section 8. At this time, if the suction pad 1 is pressed against the package portion 8 with an excessive pressing force, there is a problem that the lead 9 is deformed. Therefore, it is necessary to hold the work 7 by the suction pad 1 so that no load acts on the work 7 when the work 7 is sucked or desorbed.

From the above, it is necessary to position the suction pad 1 by the robot with high accuracy and to make the suction pad 1 come into contact with the work 7 in a non-load state.
However, considering the transfer position and the dimensional error of the jig arranged at the receiving position, the height position of the upper surface of the package portion 8 of the work 7 is minute but varies, so that the work 7 cannot be adsorbed. Therefore, the suction pad 1 must be pressed against the work 7 to some extent in order to surely suck the suction pad 1. Of course, the load can be reduced by forming the contact surface of the suction pad 1 on the work 7 with an elastic member such as rubber and reducing the air pressure of the cylinder 4. In the case of a device that can be deformed very easily, such as the lead 9 of a device, there is a problem in that protection cannot be sufficiently achieved only by such a measure for reducing the load.

The present invention has been made in view of the above points, and an object of the present invention is to make it possible to transfer a workpiece by vacuum suction without applying an impact or a large load to a workpiece. is there.

[0009]

SUMMARY OF THE INVENTION In order to achieve the above-mentioned object, the present invention provides a cylinder and a sliding member in the cylinder.
And the interior of this cylinder is divided into two chambers.
Piston body sectioned into two sections and both ends of the cylinder
And a small-diameter part protruding from the part, and penetrate in the axial direction.
A piston having an insertion hole formed therein, and a piston inserted through the insertion hole.
Operating rod with a suction passage formed inside
Suction pad consisting of an elastic member connected to the tip of the rod
And provided between the operating rod and the piston,
The direction in which the suction pad protrudes from the insertion hole of the piston
And a regulating member provided on the piston,
Formed on the operating rod and engaged with the regulating member,
Stroke end of the suction pad protruding from the piston
Restricts position and restricts relative rotation to piston
And an engaging member that performs the operation.

[0010]

[Action] By lowering the piston, the operating rod inserted through the piston is lowered in conjunction with this,
The suction pad attached to the tip is brought into contact with the work.
Here, the air pressure in the cylinder acts only on the piston,
Since the operating rod is elastically supported by the piston via the spring, no air pressure in the cylinder acts on the operating rod at all. Therefore, even if the suction pad is brought into contact with the work and pressed to some extent, the load hardly acts on the work, and there is no possibility that the work is deformed. As a result, during suction, the suction pad can be reliably sucked without dropping the work, and at the time of desorption, the work can be securely held by the suction pad until it comes into contact with the jig. In addition, the positioning accuracy when attaching and detaching the work is improved.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 11 denotes a suction pad. The suction pad 11 is formed of an elastic member such as rubber, and is attached to a tip of an operation rod 12, and a suction passage 13 is formed in the operation rod 12. . And the operating rod 1
No. 2 is not particularly different from the above-mentioned prior art in that it is moved up and down by the cylinder 14.

However, the air pressure in the cylinder 14 does not directly act on the operating rod 12, and the cylinder 1
Air pressure is applied to a piston 15 provided so as to penetrate through the cylinder 4, so that the piston 15 is slidably displaced in the cylinder 14, and the operating rod 12 is configured to be displaced following the piston 15. I have.

That is, the interior of the cylinder 14 is divided into chambers 14a,
The central portion of the piston 15 defined in the axial direction in the axial direction is a piston main body 15a, and upper and lower portions of the piston main body 15a are provided with large-diameter portions 15b, 15b having a predetermined length. This large diameter part 1
The small diameter portions 15c, 15c are continuously provided in the extension direction of 5b. The lengths L ₁ and L ₁ ′ of the small diameter portions 15 c are
From the axial length inside the cylinder 14, the large diameter portion 15b,
It is longer than the dimension obtained by subtracting the length L ₂ across the 15b. Therefore, these small diameter portions 15c are maintained in a state of penetrating the cylinder 14 during the entire stroke of the piston 15. The piston body 15a and the cylinder 1
4 between the inner surface and both ends of the cylinder 14 and the small-diameter portion 15.
Seal members 16 and 17 are interposed between c and 15c. In the cylinder 14, chambers 14a and 14b defined by a piston 15 have air supply / discharge ports 18 for supplying and discharging pressurized air, respectively.
a, 18b are formed.
A supply / discharge pipe (not shown) for pressurized air is connected to a and 18b.

The piston 15 is provided with an insertion hole 19 penetrating in the axial direction thereof.
Are slidably inserted into the insertion holes 19. The insertion hole 19 of the piston 15 has its diameter increased by a predetermined length at a lower portion, and the enlarged diameter portion serves as a spring receiving portion 20. The operating rod 12 is formed with a circumferential ridge 12a.
A compression spring 21 is elastically mounted between the ridge 12a and the ridge 12a.

Further, the operating rod 12 is formed with a long groove 22 in the axial direction at a portion projecting upward.
Further, the cylinder 14 in the small diameter portion 15c of the piston 15
A positioning pin 23 is attached to a portion protruding from the position. Therefore, the positioning pin 23 is
A regulating part for regulating the position of the lowest position and the rotation direction
This positioning pin 23 serves as a material.
The long groove 22 with which the is engaged functions as an engagement member,
The positioning pin 23 and the long groove 22 constitute a positioning member. Then, at all times, the positioning pin 23 abuts on the groove end above the long groove 22 by the urging force of the compression spring 21 so that the protruding stroke end position of the suction pad 11 is regulated. The distance between the rods is relatively determined in the axial direction.
Is prevented from rotating relative to the piston 15. Further, an axial stroke of the operating rod 12 in the piston 15 is regulated by the entire length of the long groove 22.

This embodiment is constructed as described above. In this vacuum suction apparatus, the cylinder 14 is mounted on a robot or the like, and the work 7 composed of an IC device or the like is
It is used for vacuum suction at the transfer position, taking out, transferring to the receiving position, and arranging the receiving position in a state where the position is controlled to some extent accurately.

Thus, pressure is supplied to the lower chamber 14b side of the cylinder 14, the robot is operated with the operating rod 12 raised, and the suction pad 1 is operated.
Positioning is performed so that 1 is positioned at the delivery position on the work 7. In this state, pressurized air is supplied to the upper chamber 14a of the cylinder 14,
4b is connected to exhaust. As a result, the piston 15 is lowered, and the operating rod 12 is lowered together with this, so that the suction pad 11 comes into contact with the package portion 8 of the work 7.

Here, the force of the pressurized air acts directly on the piston 15, but the operating rod 12 provided with the suction pad 11 at its tip is supported on the piston 15 via a compression spring 21. The operating rod 12
, The pressure in the cylinder 14 does not act. Then, by making the inside of the suction passage 13 a negative pressure, the work 7 is sucked to the suction pad 11. In order to surely suck the work 7 by the suction pad 11 at this time, the suction pad 11 is pressed to the work 7 to some extent. There must be. At this time, the forces acting on the work 7 are only the own weight of the operating rod 12 and the suction pad 11 and the spring force of the compression spring 21, so that the load on the work 7 can be significantly reduced. Here, when the work 7 is sucked, the height position of the suction pad 11 can be controlled to some extent accurately by a robot, so that a stroke enough to absorb the dimensional tolerance of the jig on which the work 7 is placed is provided. Since there is no need to interpose a sealing member or the like between the operating rod 12 and the piston 15, the movement is smooth without any resistance. 7 can be surely vacuum-adsorbed. As a result, there is no inconvenience that the work 7, especially the lead 9 thereof, is deformed at the time of suction.

When the work 7 is sucked, the work 7 can be lifted by supplying pressurized air to the lower chamber 14b of the cylinder 14 and connecting the upper chamber 14a to exhaust air. Is operated to shift to the transfer position. Then, the pressurized air is again supplied to the chamber 14a, and the state in which the chamber 14b is connected to the exhaust is switched, so that the work 7 sucked by the suction pad 11 is moved to the jig arranged at this transfer position. Is placed. In this state, the suction force by the suction passage 13 is released and the pressurized air is switched, whereby the operation rod 12 and the suction pad 11 are switched.
Is raised, the work 7 is transferred onto the jig at the transfer position. Even at this time, even if the workpiece 7 is slightly stroked even after the workpiece 7 comes into contact with the jig, the force for pressing the workpiece 7 onto the jig hardly acts, and the lead 9 is not deformed. And positioning of the piston 15 side
Rotated by female pin 23 and long groove 22 on operating rod 12
Since the position in the direction is regulated, the workpiece 7 can be transferred onto the jig in a state where it is accurately positioned.

As described above, the operating rod 12 provided with the suction pad 11 is held in a substantially floating state in the axial direction with respect to the piston 15, but if the movement in the rotating direction is not restricted, the operating rod 12 is moved from the transfer position. Take it out,
Before the transfer to the receiving position, the operation rod 11 may rotate and the direction of the work 7 may shift. However, the piston 15 has a long groove 21 of the operating rod 12.
Is provided, there is no possibility that the operating rod 11 is displaced in the rotational direction with respect to the piston 15.

[0021]

As described above, according to the present invention, a piston that slides in a cylinder extends from both ends of the cylinder and extends so that the piston penetrates the insertion hole. A suction pad is provided at the tip, and an operating rod having a suction passage formed inside is inserted slidably only in the axial direction through this insertion hole, and the suction pad is inserted between the operation rod and the piston through the piston insertion hole. A spring is provided to urge the suction pad to protrude.
The stroke end position is regulated and the piston
The positioning member that regulates relative rotation
The regulating member provided is engaged with the engaging portion formed on the operating rod.
Since a configuration in which, no longer acts the pressure in the cylinder is in operation rod is suction pad formed of an elastic member is coupled, an impact force or excessive pressure is not to act upon the transfer of the workpiece, the the deformation can be reliably prevented, also is actuated rod stroke in the piston to press the suction pad to the workpiece during the adsorption of the work, he is between the piston and the actuating rod seal member or the like is interposed And the restriction member on the piston side and the operating rod side
The upper and lower of the suction pad
By restricting the position in the
The structure of the pad can be made extremely simple and lightweight,
In addition, the movement can be smoothly performed without any resistance, and further, the work can be quickly and reliably taken out, and various effects such as the work can be reliably positioned at a predetermined position even after the transfer are achieved.

[Brief description of the drawings]

FIG. 1 is a sectional view of a vacuum suction device showing one embodiment of the present invention.

FIG. 2 is a sectional view of a vacuum suction device according to the related art.

[Explanation of symbols]

 7 Work 11 Suction pad 12 Operating rod 13 Suction passage 14 Cylinder 15 Piston 20 Spring receiving part 21 Compression spring

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-83999 (JP, A) JP-A-4-63689 (JP, A) Japanese Utility Model Application No. 61-191381 (JP, U) Japanese Utility Model Application No. Sho 62- 81588 (JP, U) Japanese Utility Model Showa 64-30900 (JP, U) Japanese Utility Model Application Hei 2-126792 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) B25J 15/06

Claims (1)

(57) [Claims] A cylinder and a cylinder are slidably disposed in the cylinder.
A piston body that defines the interior as two chambers
And a small-diameter portion protruding from both ends of the cylinder.
Piston with an insertion hole penetrating in the axial direction
And an operation inserted into the insertion hole to form a suction passage therein.
Suction consisting of a rod and an elastic member connected to the tip of this operating rod
A pad , provided between the operating rod and the piston,
Insert the pad in the direction to make it protrude from the insertion hole of the piston.
A biasing spring, a regulating member provided on the piston, and formed on the operating rod, and engaged with the regulating member,
Stroke end of the suction pad protruding from the piston
Restricts position and restricts relative rotation to piston
A vacuum suction device comprising: