Suction device for holding rivets in a riveting tool

Abstract

 The device for suctioning the rivets in a riveting tool involves a hydraulically controlled clamping assembly with a hydraulic piston (2). The device consists of a tube (4) passing through the axial central passage opening of the hydraulic piston (2), the back end (23) of which is fitted in the rear screw joint (15) closing off the body (1) of the riveting tool in the part forming the cylinder (18); into the forward end (22) of the tube (4) there is pressed a small hollow piston (3) between whose inner elongated end (25) and the tube (4) there is a ring-shaped space (17) in which area the tube (4) is provided with at least one opening (5) connected with the supply of pressurized air. The tube (4) has clearance along the whole length of its positioning in the hydraulic piston (2), where the ring-shaped gap (27) thus created between the tube (4) and the body of the hollow hydraulic piston (2) forms a connection between the opening (5) of the tube (4) and the space (6) in the cylinder (18) of the hydraulic piston (2) connected to the supply of pressurized air, while the outer shoulder (7) of the small piston (3) with its radial projection (8) reaches the inner shoulder (29) of the hydraulic piston (2) under pressure from the compression spring (9) of the spacing mandrel (13).

Description

Technical Field

[0001] The invention involves a device for suctioning rivets in a riveting tool.

Background Art

[0002] At the present time hydraulic-pneumatic riveting tools have a passage opening for transfer of the torn-off pins of blind rivets into the catching box. It sometimes happens, during the operation of the riveting tool, that this passage opening becomes clogged. If the inner rivet suctioning device is firmly connected to some part of the tool, for example to the hydraulic piston or the rear screw joint, it is necessary in the event of such trouble, which commonly occurs, to dismantle the riveting tool in a complicated operation and to unblock or change the part. The operator of the tool is often unable to carry out these repairs himself and specialist repairs are necessary.

Disclosure of Invention

[0003] The above defects are eliminated by the arrangement of the tool for suctioning of rivets in a riveting tool according to this invention.
The riveting tool comprises a hydraulically controlled clamping assembly for rivet pins with collets in which the cylinder of the hydraulic piston is provided with a supply of pressurized air from the lower pneumatic part. The suctioning of the rivets by means of pressurized air serves to hold them in position in the tool thus making it possible to carry out the riveting operation in whatever work position is required. The device for suctioning rivets consists of a tube passing through the axial central passage opening of the hydraulic piston, the back end of which is tightly fitted in the rear screw joint closing off the body of the riveting tool in the part forming the cylinder of the hydraulic piston; into the other forward end of the tube there is pressed a small hollow piston, between whose inner elongated end and the tube there is a ring-shaped space. In this area the tube is provided with at least one opening, connected with the supply of pressurized air. The basis of the invention lies in the fact that the tube has clearance along the whole length of its positioning in the hydraulic piston, where the ring-shaped gap thus created between the tube and the body of the hollow hydraulic piston forms a connection between the radial opening of the tube and the space in the cylinder of the hydraulic piston connected to the supply of pressurized air. At the same time, the outer shoulder of the small piston with its radial projection reaches the inner shoulder of the hydraulic piston under pressure from the compression spring of the spacing mandrel of the collets.
Furthermore, the small piston and the tube are removably located within the axial central passage opening of the hydraulic piston and can be withdrawn therefrom in the event of blockage.
During blockage of the passage channel for pins of torn-off blind rivets in the area of the suctioning device, the operator of the riveting tool can easily replace the blocked part himself. The suctioning device is freely positioned as an independent element in the hollow hydraulic piston and is permanently pressed by the spring of the spacing mandrel of the collets against the inner shoulder of the hydraulic piston. The replacement of the suctioning device is simple and does not call for expert intervention by a specialized workshop or the manufacturer of the riveting device.

[0004] The tube has an inner conical recess, narrowing in the direction of the back end of the riveting tool, into which the elongated end of the small piston, whose outer surface is also conical, is partly inserted, so that a suction nozzle is formed. Pressurized air is directed by the nozzle to the space between the elongated end of the small piston and the adjacent inner conical recess of the tube. In that space there is thus effectively created sub-atmospheric pressure which causes air to be drawn, through the inner axial opening in the small piston, from the front part of the riveting tool, into which the blind rivet is inserted.

[0005] The small hollow piston can have at its front end a conical widening of its axial opening, which serves as the entry point for the torn-off pins of the blind rivets.

[0006] The seal of the small piston, for its positioning in the hollow hydraulic piston, is generally formed by means of an O-ring in the hollow hydraulic piston, which obstructs the entrance of air to other parts of the riveting tool.

Brief Description of Drawings

[0007] The invention can be explained in greater detail by means of the attached drawings. Figure 1 shows a section of the device for suctioning rivets in the upper part of the riveting tool and Figure 2 shows in detailed section the arrangement of the tube, into the forward end of which is pressed the small hollow piston, between whose inner elongated end and the tube there is a ring-shaped space. In that area the tube has a radial opening (connected with the supply of pressurized air).

Modes for Carrying Out the Invention

[0008] In the upper part of the body 1 of the riveting tool there is a hydraulically controlled clamping assembly for rivet pins, with collets 11. The cylinder 18 of the hydraulic piston 2 is provided with a supply of pressurized air from the lower pneumatic part of the tool. A tube 4 passes through the axial central passage opening of the hydraulic piston 2, the back end 23 of which is tightly fitted (by means of a tight rubber O-ring 24) in the hollow rear screw joint 15 closing off the body 1 of the riveting tool in the part forming the cylinder 18 of the hydraulic piston 2.
To the rear screw joint 15 there is fastened from the opposite side a plastic catching box 20 for the collection of torn-off rivet pins after riveting. Into the forward end 22 of the tube 4 there is pressed a small hollow piston 3, between whose inner elongated end 25 and the tube 4 there is a ring-shaped space 17. In that area the tube 4 is provided with an opening 5, connected with the supply of pressurized air. The tube 4 has clearance along the whole length of its positioning in the hydraulic piston 2. The ring-shaped gap 27 thus created between the tube 4 and the body of the hollow hydraulic piston 2 forms a connection between the radial opening 5 of the tube 4 and the space 6 in the cylinder 18 of the hydraulic piston 2 connected to the supply of pressurized air. The outer shoulder 7 of the small piston 3 with its radial projection 8 contacts the inner shoulder 29 of the hydraulic piston 2 under pressure from the compression spring 9 of the spacing mandrel 13 of the collets 11. The outer shoulder 7 of the small piston 3 lies closely adjacent (due to its seal 21) to the surface of the central passage opening in the hydraulic piston 2. The seal 21 of the small piston 3, for its positioning in the hollow hydraulic piston 2, is formed by means of a rubber O-ring in the hollow hydraulic piston 2.
The front surface of the spacing mandrel 13 is shaped according to the slant of the collets 11 around it, the two being freely inserted in the casing 26 of the collets screwed to the hydraulic piston 2. This whole clamping arrangement for rivet pins is placed in the front hose 14, which is screwed to the hydraulic piston 2. An interchangeable extension 10, according to the size of the diameters of the rivet pins, is screwed to the forward wall of the front hose 14 and serves to convey the rivet pins.
The tube 4 has an inner conical recess 12, narrowing in the direction of the back end of the riveting tool. The elongated end 25 of the small piston 3, whose outer surface is also conical, is partly inserted into it, so that a suction nozzle 19 is formed. The small hollow piston 3 has, at its forward end, a conical widening 28 of its axial opening facilitating improved suctioning of the air into the small hollow piston 3.

[0009] Pressurized air from the pneumatic part of the riveting tool is brought through channels (not illustrated) to the space 6 in the cylinder 18 of the hydraulic piston 2 beyond the hydraulic piston 2 (on the outer surface of the suctioning system). From here the pressurized air is directed along the outer casing of the tube 4 through the ring-shaped gap 27 between the tube 4 and the body of the hollow hydraulic piston 2 (which forms a connection between the radial opening 5 of the tube 4 and the space 6 in the cylinder 18 of the hydraulic piston 2, connected with the supply of pressurized air) to the radial opening 5 in the tube 4. The pressurized air goes through the opening 5 to the ring-shaped space 17 between the tube 4 and the small piston 3 and is directed to the suction nozzle 19. In the nozzle 19 sub-atmospheric pressure arises under the impact of the flow of pressurized air to the back part of the tool, which causes suctioning of the air in the central operating channel (part of that channel is the central passage opening of the small piston 3 and the tube 4) from the front part of the riveting tool.
This makes possible the suctioning of the torn-off rivets to the opening of the extension 10 in the front part of the tool, without it being necessary to remove them by hand. At the same time the rivet is held fast in the given position regardless of the position of the riveting tool. After riveting the rivet pins are collected and move through the central operating channel in the direction of the back part of the riveting tool to the catching box 20. The suctioning system (the piston 3 with the tube 4) is freely placed as an independent element in the hollow hydraulic piston 2 and is permanently pressed against the inner shoulder 29 of the hydraulic piston 2 by the compression spring 9 of the spacing mandrel 13 of the collets 11. The back end 23 of the tube 4 is led through the inner opening 16 of the back screw joint 15.

[0010] If for no matter what reason the main central operational channel of the riveting tool, and thereby at the same time the suctioning system become obstructed, by a simple dismantling of the front part of the riveting tool (with the unscrewing of the front hose 14 and of the sleeves of the collets, the collets 11, the spacing mandrel 13 and the spring 9 of the spacing mandrel 13 come out, then the connecting screws of the catching box 20 are loosened, the box 20 is removed and the appropriate rod for disengaging the suctioning system is inserted into the central axial passage opening 16 in the rear screw joint 15) it is possible to slide out the tube 4 with the small piston 3 and replace it, or to clear the blocked channel as the case may be. This simple replacement can be carried out easily by the operator of the riveting tool without the need for specialized help.

[0011] The invention can be used in pneumatic hydraulic riveting tools with suctioning of blind rivets.

Claims

1. A device for suctioning the rivets in a riveting tool comprising a hydraulically controlled clamping assembly for rivet pins with collets (11), in which the cylinder (18) of the hydraulic piston (2) is provided with a supply of pressurized air from the lower pneumatic part, and which consists of a tube (4) passing through the axial central passage opening of the hydraulic piston (2), the back end (23) of which is tightly fitted in the rear screw joint (15) closing off the body (1) of the riveting tool in the part forming the cylinder (18) of the hydraulic piston (2); into the other, forward end (22) of the tube (4) there is pressed a small hollow piston (3) between whose inner elongated end (25) and the tube (4) there is a ring-shaped space (17) in which area the tube (4) is provided with at least one opening (5) connected with the supply of pressurized air, characterized by the fact that the tube (4) has clearance along the whole length of its positioning in the hydraulic piston (2), where the ring-shaped gap (27) thus created between the tube (4) and the body of the hollow hydraulic piston (2) forms a connection between the opening (5) of the tube (4) and the space (6) in the cylinder (18) of the hydraulic piston (2) connected to the supply of pressurized air, while the outer shoulder (7) of the small piston (3) with its radial projection (8) reaches the inner shoulder (29) of the hydraulic piston (2) under pressure from the compression spring (9) of the spacing mandrel (13) of the collets (11) and that the small piston (3) and the tube (4) are removably located within the axial central passage opening of the hydraulic piston (2) and can be withdrawn therefrom in the event of blockage.

2. A device for suctioning the rivets in a riveting tool according to claim 1, characterized by the fact that the tube (4) has an inner conical recess (12), narrowing in the direction of the back end of the riveting tool, into which the elongated end (25) of the small piston (3), whose outer surface is also conical, is partly inserted, so that a suction nozzle (19) is formed.

3. A device for suctioning the rivets of a riveting tool according to claims 1 or 2, characterized by the fact that the small hollow piston (3) has, at its forward end, a conical widening (28) of its axial opening.

4. A device for suctioning the rivets of a riveting tool according to any of the preceding claims 1 to 3, characterized by the fact that the seal (21) of the small piston (3) for its positioning in the hollow hydraulic piston (2) is formed by means of an O-ring in the hollow hydraulic piston (2).

Drawing