The fastener drive tool is a hand powered drive device that is used to drive fasteners around an axis. The fastener tool device is formed in the shape of a cylinder. The first end of the fastener drive tool is designed to receive driver bits designed for use with power drills, including, but not limited to, 6 point, 12 point, flat head, Phillips head, and star driver bits and driver bit sets. The second end of the cylinder is designed to receive a square driver bits commonly used for driver sockets. Optionally, the first end and the second end can be fitted with a ratchet device. The fastener drive tool comprises a flexible steel wire, a rubber covering, a woven steel lube, a first driver port, and a second driver port.

A push-pull bit detaching and mounting tool including a casing is described herein. A ratchet wheel seat having a conveying passage is disposed at an end portion of the casing. A ratchet wheel head having bit mounting holes is disposed on the ratchet wheel seat. A ratchet wheel control mechanism is disposed between the ratchet wheel head and the ratchet wheel seat. An accommodating groove is formed on the casing. A bit storage seat is disposed in the accommodating groove. A plurality of storage holes are formed on the bit storage seat in the circumferential direction. A positioning structure is disposed between the bit storage seat and the accommodating groove. The casing has a mounting seat. A push-pull rod having a first permanent magnet at an end portion is disposed on the mounting seat, and an axial positioning mechanism is disposed between the push-pull rod and the mounting seat.

A driving shank assembly includes a tube, a drive head, a connector, and two quick release nuts. The tube has two enlarged portions each having a mounting recess and an external thread. Each of the enlarged portions has a plurality of slits and a plurality of elastic clamping pieces between the slits. The drive head has a driving recess and a mounting shaft. The mounting shaft of the drive head is inserted into the mounting recess of the tube. The connector has a mounting shaft and a connecting shank. The mounting shaft of the connector is inserted into the mounting recess of the tube. The connecting shank of the connector has a retaining groove for mounting an actuating tool. Each of the quick release nuts has an internal thread screwed onto the external thread of the tube.

A driving shank assembly includes a tube, a drive head, a connector, and two quick release nuts. The tube has two enlarged portions each having a mounting recess and an external thread. Each of the enlarged portions has a plurality of slits and a plurality of elastic clamping pieces between the slits. The drive head has a driving recess and a mounting shaft. The mounting shaft of the drive head is inserted into the mounting recess of the tube. The connector has a mounting shaft and a connecting shank. The mounting shaft of the connector is inserted into the mounting recess of the tube. The connecting shank of the connector has a retaining groove for mounting an actuating tool. Each of the quick release nuts has an internal thread screwed onto the external thread of the tube.

A replaceable magnetic screw-locking depth positioning head includes a main body formed by a rod, a positioning sleeve, a buckling ring, a cushioning member and a magnetic member. The positioning sleeve has a stepped slot, so that the buckling ring can be installed into the stepped slot more conveniently, and the stepped slot contains a cushioning member and a magnetic member. The cushioning member provides a buffering/shock absorbing effect and a better manufacture precision of the main body, and the magnetic member provides a better positioning effect for locking the screw, and a first slot is formed at a free end of the stepped slot for accommodating debris. The positioning head of the present invention has the advantages of high manufacturing efficiency, production efficiency and manufacturing precision.

A replaceable magnetic screw-locking depth positioning head includes a main body formed by a rod, a positioning sleeve, a buckling ring, a cushioning member and a magnetic member. The positioning sleeve has a stepped slot, so that the buckling ring can be installed into the stepped slot more conveniently, and the stepped slot contains a cushioning member and a magnetic member. The cushioning member provides a buffering/shock absorbing effect and a better manufacture precision of the main body, and the magnetic member provides a better positioning effect for locking the screw, and a first slot is formed at a free end of the stepped slot for accommodating debris. The positioning head of the present invention has the advantages of high manufacturing efficiency, production efficiency and manufacturing precision.

A wrench combination device includes three open-jawed wrench sockets. A first open jawed wrench socket is at one end of the device, and a second open jawed wrench socket, which is substantially identical to the first, is at an extreme opposite end. A third open jawed wrench socket is centered between and is inline with the first and second open-jawed wrench sockets, and has two portals. The first portal is open at two opposite ends and extends normal to a plane passing through the first and second open jawed wrench sockets. The second portal opens on one side of the third socket and extends in the plane passing through the first and second open jawed wrench sockets.

A wrench combination device includes three open-jawed wrench sockets. A first open jawed wrench socket is at one end of the device, and a second open jawed wrench socket, which is substantially identical to the first, is at an extreme opposite end. A third open jawed wrench socket is centered between and is inline with the first and second open-jawed wrench sockets, and has two portals. The first portal is open at two opposite ends and extends normal to a plane passing through the first and second open jawed wrench sockets. The second portal opens on one side of the third socket and extends in the plane passing through the first and second open jawed wrench sockets.

The screwing accessory device comprises a receiving box, a rack and a pushing component. The receiving box is for receiving the screwed component. The rack is connected to the receiving box. The pushing component is disposed within the receiving box and is used for pushing the screwed component.

The screwing accessory device comprises a receiving box, a rack and a pushing component. The receiving box is for receiving the screwed component. The rack is connected to the receiving box. The pushing component is disposed within the receiving box and is used for pushing the screwed component.