Anti-disengagement structure of a tool head for a fastener

Abstract

An anti-disengagement structure of a tool head for insertion into an insertion recess of a fastener is provided. Abutting faces extend from a periphery of an end face of a working portion. At least one abutting face is partly formed with a groove filled with an elastic member which is partly protrusive out of the groove and beyond the surface of the abutting face. The largest extent between the protruded-out part of the elastic member and the abutting face of another elastic member is larger then the largest inner extent of the insertion recess. Thereby, with the stretchable characteristic of the elastic member, the fastener can be smoothly inserted into the insertion recess and abutted against an inner surface of the insertion recess to achieve anti-disengagement effect.

Claims

1. An anti-disengagement structure of a tool head for a fastener, for insertion into an insertion recess of the fastener to fasten or unfastening the fastener, the tool head including a main body, the main body having an operation portion and a working portion, the working portion axially integrally extending from one end of the operation portion, a top end of the working portion having an end face, at least two abutting faces extending from a periphery of the end face toward the operation portion, a depth of each of the abutting faces corresponding to one said insertion recess being defined as a working inserting section, the largest outer extent of the working inserting section being smaller than or equal to the largest inner extent of the insertion recess, at least one said abutting face corresponding to the working inserting section being formed with at least one groove, the groove being entirely filled with an elastic member, part of the elastic member being protrusive outside the groove and exposed beyond the abutting face, the largest extent from the exposed part of the elastic member to another abutting face being greater than the largest inner extent of the insertion recess; wherein the groove has a rugged surface, and the elastic member is fixedly attached to the rugged surface.

2. The anti-disengagement structure of a tool head for a fastener of claim 1, wherein the groove extends and terminates at the end face, part of the elastic member is protrusive outside and beyond the end face, the tool head is a flat tool head, the flat tool head includes a first abutting face and a second abutting face symmetrical with each other, and a first side face and a second side face, the first and second side faces are connected with the first and second abutting faces, the groove is formed on one of the first abutting face and the second abutting face, a shape of the groove is shaped as slotted, and the slotted groove is filled with the elastic member.

3. The anti-disengagement structure of a tool head for a fastener of claim 1, wherein the groove extends and terminates at the end face, part of the elastic member is aligned with the end face, the tool head is a flat tool head, the flat tool head includes a first abutting face and a second abutting face symmetrical with each other, and a first side face and a second side face, the first and second side faces are connected with the first and second abutting faces, the groove is formed on one of the first abutting face and the second abutting face, a shape of the groove is shaped as slotted, and the slotted groove is filled with the elastic member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a drawing of an assisting tool;

(2) FIGS. 1A to 1C are drawings of fasteners each having different insertion recesses;

(3) FIG. 2 is a view of a flat tool head;

(4) FIG. 2A is an enlarged view of FIG. 2;

(5) FIG. 2B is a top view of FIG. 2;

(6) FIG. 2C is a cross-sectional view of FIG. 2;

(7) FIG. 2D is a drawing showing a flat tool head inserted into a fastener;

(8) FIG. 3 is a view of a Phillips tool head;

(9) FIGS. 3A and 3B are partial views of FIG. 3;

(10) FIG. 3C is a drawing showing a Phillips tool head inserted into a fastener;

(11) FIG. 3D is a view of another Phillips tool head;

(12) FIG. 3E is a top view of FIG. 3D;

(13) FIG. 4 is a view of a hexagonal tool head;

(14) FIG. 4A is an enlarged view of FIG. 4;

(15) FIG. 4B is a view of an extension rod tool;

(16) FIG. 5 is a view of a ball-shaped tool head;

(17) FIG. 5A is a view showing a ball-shaped tool head perpendicularly inserted into a fastener;

(18) FIG. 5B is a view showing a ball-shaped tool head non-perpendicularly inserted into a fastener;

(19) FIG. 6 is a view of a slotted screwdriver according to a preferred embodiment of the present invention;

(20) FIG. 7 is a view of a Phillips screwdriver according to a preferred embodiment of the present invention; and

(21) FIG. 8 is a view of a T-shaped tool according to a preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(22) An anti-disengagement structure of a tool head for a fastener according to a preferred embodiment of the present invention is provided. The tool head may be a flat tool head, Phillips tool head, hexagonal tool head (or extension rod), ball-shaped tool head, Torx tool head et al. Besides, a driver or hexagonal tool (but is not limited thereto) may include the aforementioned tool head.

(23) According to a preferred embodiment of the present invention, the anti-disengagement structure is for connection of a driving end 102 of an assisting tool 100 (working end 1) so that a working end of the tool head can be inserted into a slotted insertion recess 202A (working end 1A), crossed insertion recess 202B (working end 1B) or hexagonal insertion recess 202C (FIG. 1C) of a fastener 200 to fasten or unfastening the fastener.

(24) FIGS. 2 and 2A-2D show an anti-disengagement structure of a tool head for a fastener according to a first embodiment of the present invention. The flat tool head 1 includes a main body 10 made of metal and having an operation portion 12 and a working portion 14. The working portion 14 axially integrally extends from one end of the operation portion 12, and the operation portion 12 is inserted in the driving end 102 of the assisting tool. The operation portion 12 has a polygonal cross section, and a top end of the working portion 14 has an end face 142. From a periphery of the end face 142 toward the operation portion extends to form symmetrical first abutting face 144 and second abutting face 144 and symmetrical first side face 146 and second side face 146. The first and second side faces are connected with the first and second abutting faces. a depth of first and second abutting faces corresponding to the slotted insertion recess 202A of the fastener 200 is defined as a working inserting section W. The largest outer extent of the two abutting faces within the working inserting section W is smaller than or equal to the largest inner extent of the slotted insertion recess 202A. The first abutting face 144 corresponding to the working inserting section is formed with a groove 1442, and the groove 1442 is filled with an elastic member 300. Part of the elastic member 300 is protrusive outside the groove 1442 and exposed beyond the first abutting face 144. The largest extent from the exposed part of the elastic member 300 to another abutting face is greater than the largest inner extent of the slotted insertion recess 202A. Preferably, the groove extends and terminates at the end face 142, and the groove is filled with the elastic member in a manner that the elastic member is substantially aligned with the end face. Preferably, the elastic member is partially protrusive from and beyond the end face. Preferably the abutting face and the groove are designed according to various requirements, for example, to avoid degradation of structure due to lots of arrangements of the working inserting section W. Preferably, the groove of the abutting face or/and the end face may correspond to the flat tool head 1 in shape and is filled with the elastic member, for user to recognize the function and type of the tool head via visual observation. The slotted elastic member may be provided with various or gradient colors so as to facilitate recognizing the size and application of the flat tool head.

(25) FIGS. 3, 3A and 3B show an anti-disengagement structure of a tool head for a fastener according to a second embodiment of the present invention. The tool head is a Phillips tool head 2. The Phillips tool head has a main body 20 having an operation portion 22 and a working portion 24. The working portion 24 has an end face 241. From a periphery of the end face toward the operation portion extends to form symmetrical first abutting face 242 and second abutting face 242 and to form symmetrical third abutting face 244 and fourth abutting face 244. The third and fourth abutting faces and the first and second abutting faces are shaped as crossed, for facilitating insertion into the crossed insertion recess 202B of the fastener Phillip A depth of each of the abutting faces corresponding to the crossed insertion recess 202B (FIG. 3C) is defined as a working inserting section W. The largest extent of the working inserting section (referring to an extent from the first abutting face to the second abutting face or from the third abutting face to the fourth abutting face) is smaller than the largest inner extent of a corresponding portion of the crossed insertion recess 202B. Each abutting face corresponding to the working inserting section W is formed with a groove 26. Preferably, the groove extends and terminates at the end face. Preferably, the groove 26 may correspond to the crossed insertion recess of the Phillips tool head in shape (FIGS. 3D, 3E) and is filled with an elastic member 300. The elastic member is partially protrusive outside the groove 26 so that the diameter of the elastic member 300 between the first and second abutting faces (or between the third and fourth abutting faces) is greater than the largest inner extent of the crossed insertion recess.

(26) FIGS. 4 and 4A show an anti-disengagement structure of a tool head for a fastener according to a third embodiment of the present invention. The tool head 3 is a hexagonal tool head. The hexagonal tool head has a main body 30 having an operation portion 32 and a working portion 34. The working portion 34 has an end face 342. From a periphery of the end face toward the operation portion extends six abutting faces 346 sequentially connected and forming a hexagonal shape. A depth of each abutting face inserted into a hexagonal insertion recess 202C of the fastener is defined as a working inserting section. At least two corresponding abutting faces 346 which are located on the largest extent of corresponding portion of the working inserting section each is provided with a groove. Preferably, the groove extends on the abutting face and the end face 342 and is shaped as an L-shape. The L-shaped groove is filled with an elastic member 300, and the elastic member 30 is partially protrusive outside the groove and beyond the abutting face (part of the elastic member 30 on the end face may be optionally aligned with or protrusive outside the groove). The largest extent of two corresponding parts of the elastic member between two corresponding abutting faces is greater than the largest inner extent of the hexagonal insertion recess 202C. Preferably, the groove may be provided to be hexagonal and filled with the elastic member, in which the elastic member may be protrusive outside the groove (to have a polygonal profile) to enable an user to recognize the size and type of the tool head. In an alternative embodiment, an extension rod tool 700 as shown in FIG. 4B, wherein four abutting faces 704 extend from a periphery of an end face 702 of the extension rod tool 700 toward the operation portion, for connection with a socket.

(27) FIGS. 5, 5A and 5B show an anti-disengagement structure of a tool head for a fastener according to a fourth embodiment of the present invention. The tool head is a substantially ball-shaped tool head 4. Compared to the third embodiment, the ball-shaped tool head is provided with a necked portion 43 between an operation portion 42 and an working portion 44 of the main body 40. Six -shaped abutting faces 444 which are sequentially connected extend from a periphery of an end face 442 of the working portion toward the operation portion. The -shaped here may be similar to boomerang-shaped. The -shaped abutting face has an upper ramp and a lower ramp which extend oppositely. Outmost parts of two corresponding -shaped abutting faces 444 is defined as a working inserting section W. The largest outer extent of the working inserting section W is smaller than or equal to the largest inner extent of the hexagonal insertion recess 202C, at least one said -shaped abutting face 444 corresponding to the working inserting section W is formed with a groove running through a transition interface of the at least one -shaped abutting face 444. Preferably, the groove continuously extends on the upper ramp and the lower ramp and travels through the transition interface of the upper ramp and the lower ramp, and the groove is filled with an elastic member 300. The elastic member 300 is partially protrusive outside the groove and beyond the -shaped abutting face. The largest extent from the protrusive part of the elastic member to one said -shaped abutting face opposite to the protrusive part of the elastic member is greater than the largest inner extent of the hexagonal insertion recess 202C. Preferably, each -shaped abutting face may be provided with the groove, or either of two corresponding -shaped abutting faces located on the largest extent of the working inserting section W may be formed with one said groove.

(28) It is noted that, in the aforementioned four embodiments, each groove has a rugged surface, whereby improving adhesion of the elastic member to the rugged surface; the groove may be formed as a text or number (for example, ) which can represent the size corresponding to that of the tool head, and so does the elastic member. In the second to fourth embodiments, the elastic member is preferably colored. In the present invention, the operation portion of the tool head not only can be provided as polygonal for connection with a driving end of an assisting tool but also can be provided as a handle of a screwdriver 400 as shown in FIG. 6, or as a handle of a screwdriver 500 as shown in FIG. 7, or as a handle of an T-shaped tool 600 as shown in FIG. 8.

(29) In the anti-disengagement structure of a tool head of the present invention, the working inserting section is at least partially formed with the groove, the groove is filled with the elastic member, and the elastic member is partially protrusive outside the groove. The above structure can provide the following advantageousness.

(30) With the elastic member partially protrusive outside the groove, the largest extent of the working inserting section is greater than the largest inner extent of an insertion recess of a fastener. Additionally, the elastic member has elastic characteristic and can therefore be easy to insert into the insertion recess and urges against the inner surface of insertion recess, thus avoiding disengagement of the fastener from the tool head.

(31) Compared to either of DE 4416268 and U.S. Pat. No. 6,302,001 in which the working end is formed with an annular slot, the groove is partially arranged so that the working inserting section has better structural strength and rigidity and this enhances the output torque of the tool head.

(32) Compared to U.S. Pat. No. 6,302,001, two -shaped grooves may be selectively disposed on two corresponding -shaped abutting faces of a ball-shaped tool head, as described in the fourth embodiment, the transition interface of the -shaped is not thinned or weakened and the elastic member is protrusive outside the groove, so that it can ensure that the elastic member can eventually abut against the inner surface of the insertion recess to avoid disengagement of the fastener from the tool head no matter when the ball-shaped tool head is perpendicularly (FIG. 5A) or non-perpendicularly (FIG. 5B) inserted into the hexagonal insertion recess.

(33) The elastic member can not only avoid disengagement of the fastener from the tool head fastener unfastening but also serve as a recognizing mark (such as being colored) of size, type or application of a tool head. Compared to a conventional tool head with a color sleeve or annular flange, the invention requires no additional processing or fabrication procedures, thus being of low-cost.

(34) The groove may be formed as slotted, crossed, hexagonal or ball-shaped according to various requirements of tool heads, and the elastic member is partially protrusive outside the groove and can be shaped to have a shape corresponding to the shape of the tool head (for example, the tool head is a hexagonal wrench and the protrusive portion of the elastic member is of hexagonal), such that an user can obtain the size, type and application of the tool head through touch in a dark environment. Alternatively, the groove may be formed as a text or number which can represent the size corresponding to that of the tool head, and the elastic member can enable an user to obtain the size, type and application of the tool head through touch.

(35) Generally, to drive a fastener, a slotted, Phillips tool head is pressed and inserted into the insertion recess, and the tool head is then rotated to drive the fastener. However, the abutting faces can be damaged to form burrs, and the burrs can hurt the user when the tool head is exchanged. Besides, the burrs can cause that the largest extent of the working inserting section is greater than the largest inner extent of the insertion recess, which affects insertion of the working inserting section into the insertion recess. Turning to the invention, the elastic member extends and terminates at the end face and is protrusive outside the groove, and the elastic member abuts against the bottom surface of the insertion recess (FIG. 2D, FIG. 3C). As a result, the end face of the tool head can be avoided to directly contact the bottom surface of the insertion recess, thus ensuring that no burr can be formed on the working inserting section.

(36) Compared to U.S. Pat. No. 5,259,280 and U.S. Pat. No. 6,883,405, since the elastic member which has elastic characteristic is protrusive outside the groove, it needs not to reduce the dimension of the working inserting section and the working inserting section therefore has better structural strength and rigidity, and the elastic member can be elastically contracted inwardly for insertion of the working inserting section into the insertion recess easily.

(37) Although particular embodiments of the invention 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.