1. Field of the Invention
The present invention relates to riveters and more particularly, to a manual hydraulic riveter, which utilizes the characteristics of check valve and relief valve to facilitate the operation.
2. Description of the Related Art
A riveter is a tool for use to fasten plate members with rivets. When the shank of a rivet is inserted through holes on plate members into the riveting mechanism of the riveter with the factory formed head of the rivet stopped at one side of one plate member, the lever of the riveter is operated to pull the shank of the rivet, thereby deforming the plain end of the rivet to form another head at the opposite side of the opposite plate member, and therefore the plate members are fastened together.
Conventional riveters allow adjustment of the riveting mechanism to the desired angle. However, when the lever of a conventional riveter is biased to extend out of the riveting mechanism for securing the shank of a blind rivet, the lever and the transmission rod are aligned in line. Subject to the principle of lever, the user must employ much effort to turn the lever downwardly backwards to further achieve the riveting action.
Therefore, it is desirable to provide a riveter that eliminates the aforesaid drawback.
The present invention has been accomplished under the circumstances in view. It is one object of the present invention to provide a manual hydraulic riveter, which uses the characteristics of check valve and relief valve to facilitate the operation, enabling the user to drive the riveting unit with less effort.
To achieve this and other objects of the present invention, the manual hydraulic riveter comprises a body, which holds a fluid cylinder, a fluid tank and a hydraulic cylinder, a first piston mounted in the fluid cylinder and movable between two opposite ends of the fluid cylinder, a lever pivoted to the body and adapted to move the first piston in the fluid cylinder between the two opposite ends of the fluid cylinder, a first fluid pipe connected between the fluid cylinder and the hydraulic cylinder, a first check valve mounted in the first fluid pipe, a second fluid pipe connected between the fluid tank and the hydraulic cylinder, a second check valve mounted in the second fluid pipe, a third fluid pipe connected between the hydraulic cylinder and the fluid tank, a relief valve mounted in the third fluid pipe, an actuating rod axially movably and rotatably mounted in the body and partially extending out of the body for mounting a riveting unit, a second piston fixedly mounted on the actuating rod in the hydraulic cylinder and movable between two opposite ends of the hydraulic cylinder, and spring means mounted on the actuating rod inside the hydraulic cylinder and stopped between one end of the hydraulic cylinder and the second piston to impart a forward pressure to the second piston. The first check valve is opened, and the second check valve and the relief valve are closed when biasing the lever to move the first piston in the fluid cylinder. On the contrary, the first check valve is closed, and the second check valve and the relief valve are opened when the external biasing force is released from the lever.
Referring to
The internal fluid loop is described hereinafter. A first fluid pipe 34 is connected between the fluid cylinder 28 and the hydraulic cylinder 32. A second fluid pipe 36 is connected between the fluid tank 30 and the fluid cylinder 28. A third fluid pipe 38 is connected between the hydraulic cylinder 32 and the fluid tank 30. These three fluid pipes 34˜38 constitute with the fluid tank 30, the fluid cylinder 28 and the hydraulic cylinder 32 a fluid loop. Further, a first check valve 40 is installed in the first fluid pipe 24, a second check valve 42 is installed in the second fluid pipe 36, and relief valve 44 is installed in the third fluid pipe 38.
The internal structure of the hydraulic cylinder 32 and the front riveting unit of the manual hydraulic riveter 10 are now described hereinafter. The riveting unit can be a nut riveting or rivet riveting unit. For constructing a nut riveting unit, the front extension screw rod 46 of the actuating rod, referenced by 48 is mounted with a nut riveting device. For constructing a rivet riveting unit, the front extension screw rod 46 of the actuating rod 48 is mounted with a rivet riveting device. The actuating rod 48 is inserted through the hydraulic cylinder 32 inside the body 12. A piston 50 is fixedly mounted on the actuating rod 48 and axially movable with the actuating rod 48 within the hydraulic cylinder 32. The piston 50 has an annular groove 52 extending around the periphery. An O-ring 54 is fastened to the annular groove 52 of the piston 50 and disposed in contact with the inside wall of the hydraulic cylinder 32. The front extension screw rod 46 of the actuating rod 48 extends out of the body 12. An O-ring 47 is fastened to the actuating rod 48 to seal the gap between the actuating rod 48 and the body 12, preventing a leakage. As shown in
Further, a connector 68 is threaded onto the front extension screw rod 56 of the actuating rod 48. The connector 68 has a first coupling portion and a second coupling portion. A pull rod 70 and a nut riveting bit 74 are respectively threaded onto the first coupling portion and second coupling portion of the connector 68. The connector 68, the pull rod 70 and the nut riveting bit 74 constitute a nut riveting unit. Alternatively, a rivet clamp 72 may be fastened to the connector 68 to hold a rivet riveting bit 76 with rivet 80, thereby constituting a rivet riveting unit. Therefore, rotating the actuating rod 48 causes rotation of the nut riveting unit or rivet riveting unit with the front extension screw rod 46.
When a nut riveting unit is fastened to the front extension screw rod 46, a blind nut 60 is threaded onto the front extension screw rod 78 of the pull rod 70, and a pad 62 is sandwiched between the blind nut 60 and the nut riveting bit 74, as shown in
When the user holds the body 12 firmly with one hand and pulls the lever 16 with the other hand as shown in
When released the lever 16 after riveting, as shown in FIG. 5, the linear spring 58 pushes the piston 50 to squeeze hydraulic fluid in the hydraulic cylinder. At this time, the first check valve 40 is closed, the second check valve and the relief valve 44 are opened, therefore hydraulic fluid is prohibited from flowing out of the hydraulic cylinder 32 into the fluid cylinder 28, and hydraulic fluid flows from the hydraulic cylinder 32 to the fluid tank 30 and then the fluid cylinder 28. At the same time, the piston 50 moves the actuating rod 48 to its former position (the initial position). Thus, the user can remove the riveted nut 64 from the manual hydraulic riveter.
Referring to
A prototype of manual hydraulic riveter has been constructed with the features of
Although particular embodiments of the inventions have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
3688551 | Alm | Sep 1972 | A |
3713321 | LaPointe | Jan 1973 | A |
4086802 | Ewig, Jr. | May 1978 | A |
4248077 | Gregory | Feb 1981 | A |
4263801 | Gregory | Apr 1981 | A |
4462240 | Yamamoto | Jul 1984 | A |
4750347 | Saarinen | Jun 1988 | A |
5425164 | El Dessouky | Jun 1995 | A |
5682659 | Chang | Nov 1997 | A |