1. Field of the Invention
The present invention relates to a socket, more especially to a socket for go-through wrenches.
2. Description of the Prior Art
To operate, a conventional go-through ratchet wrench is connected with a tool via a socket or a connector. To position the socket to the wrench, an elastic element is usually disposed on the inner wall of the sleeve hole of the wrench, and the outer wall of the socket is formed with a notch or a groove corresponding to the elastic element. When the elastic element is received in the notch, the socket can not be moved with respect to the wrench temporally for stability during operation. However, as shown in patents TW 1232150, TW 1245688, and U.S. Pat. No. 5,295,422, the notch of a conventional socket has two symmetrical walls. The two walls are inclined symmetrically. In TW 1245688, the cross-section of the notch is square. That is, the two walls of the notch are also symmetrical and are perpendicular to the axial direction of the socket.
One of the walls of the notch is adapted for blocking the elastic element to prevent it from moving further, and the other wall serves as a guiding face to help the elastic element leaving the notch when the socket is going to be removed from the wrench. That is to say, one of the walls plays a role of blocking, and the other wall plays a role of diminishing blocking. If the walls slope too gently, the wall can not block the elastic element well. However, if the walls are too steep, the elastic element is difficult to be guided to leave the notch.
The main object of the present invention is to provide a socket which is able to be positioned in a go-through wrench without further moving forward and to facilitate removing.
To achieve the above and other objects, a socket of the present invention includes a main body and is adapted for received in a sleeve hole of a go-through wrench wherein the sleeve hole has a receiving portion on an inner wall thereof and a positioning element disposed in the receiving portion.
The main body has a driving portion and a connecting portion at two opposite ends along an axial direction. The driving portion is adapted for connecting a tool. The connecting portion has an external surface which is polygonal, and the external surface includes a plurality of driven faces arranged around the axial direction. A shared edge is formed between every two adjacent driven faces, and at least one shared edge is formed with a notch. When the connecting portion is received in the sleeve hole of the wrench, the positioning element is received in the notch for positioning the socket.
Specifically, a cross-section, which is parallel to a radial direction of the main body, of the notch is substantially triangle. An inner wall of the notch includes a first bottom face and a second bottom face connecting with each other wherein the first bottom face is closer to the driving portion than the second bottom face. An angle between the first bottom face and the adjacent shared edge is defined as a first angle, and an angle between the second bottom face and the adjacent shared edge is defined as a second angle. The first angle is larger than or equal to 90 degrees and smaller than the second angle. Each of the first angle and the second angle is smaller than 180 degrees.
Thereby, the bottom face of the notch facing the driving portion is less steep so as to facilitate removing the socket, and the bottom face of the notch opposite to the driving portion is steeper so as to abut against the positioning element to prevent the socket moving forward. Also, the socket can be prevented from moving with respect to the wrench.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings, which show, for purpose of illustrations only, the preferred embodiment(s) in accordance with the present invention.
Please refer to
Specifically, a cross-section, which is parallel to a radial direction of the main body 10, of the notch 1212 is substantially triangle. The notch 1212 penetrates the two adjacent driven faces 121 to form a triangle opening on each of the driven faces 121. More specifically, an inner wall of the notch 1212 includes a first bottom face 12121 and a second bottom face 12122 which are connected together. Each of the first bottom face 12121 and the second bottom face 12122 is substantially triangle, and the first bottom face 12121 and the second bottom face 12122 share a bottom edge 12123. The first bottom face 12121 is closer to the driving portion 11 than the second bottom face 12122. That is to say, the first bottom face 12121 is opposite to the driving portion 11, and the second bottom face 12122 faces the driving portion 11. Please refer to
In use, please refer to
Because the first bottom face 12121 is steeper, the positioning element 24 abuts against the first bottom face 12121 much more than against the second bottom face 12122 so that the socket is prevented from moving forward further. That is, during operation, the socket is prevented from deviation with respect to the wrench so as to improve stability. On the other hand, the second bottom face 12122 slopes more gently so as to facilitate removing the socket reversely. More specifically, the second bottom face 12122 becomes a guiding face. When the socket is going to be removed from the wrench, the second bottom face 12122 helps the positioning element 24 leave the notch 1212 so that the socket can be removed easily and quickly.
In conclusion, the socket of the present invention provides a notch having special shape so as to prevent the socket from deviation. Also, the socket can be removed from the wrench easily so as to improve operation efficiency.