The present invention relates to a grip bar for a hexagonal wrench, and more particularly, to a multiple function grip bar for a hexagonal wrench.
The conventional connection device for a hexagonal wrench known to applicant is disclosed in U.S. Pat. No. 9,969,076, and comprises a first part having an insertion section. Two first engaging portions are formed on the first end of the insertion section, and two second engaging portions are formed on the second end of the insertion section. The two first engaging portions each are a hook, and the second engaging portions each are a ridge protruding from the outer surface of the insertion section. The insertion section has a first operation portion formed on the outer surface thereof. Multiple first recesses are defined in the first operation portion and each have a hexagonal shape. The first recesses are defined through the insertion section and are arranged in sequence by sizes. A second operation portion protrudes from the second end of the first part and has multiple second recesses which have a hexagonal shape and different sizes. The first recesses and the second recesses are Matric system and English system. The insertion section has a stepped recess defined axially in the first end thereof. The size of the stepped recess becomes smaller from the first end toward the second end of the insertion section. The first recesses communicates with the stepped recess. A second part has a reception hole defined in the first end thereof. The insertion section is inserted into the reception hole which has two third engaging portions formed in the first end of the second part. Two fourth engaging portions are formed in the second end of the second part. The third engaging portions are defined in the inner surface of the reception hole and are two recesses. The fourth engaging portions are two rectangular holes defined through the wall of the second part. The third and fourth engaging portions are sized to be engaged with the first engaging portions when the insertion section is moved along the reception hole. Two fifth engaging portions are formed in the inner surface of the second end of the reception hole and each of the fifth engaging portion is a groove so as to receive the second engaging portion therein. A protrusion extends from the inner surface of the reception hole and is accommodated in the stepped recess so as to define a gap between the top of the protrusion and the inner surface of the stepped recess. The second part has an opening which communicates with the reception hole. The first operation portion and the first recesses are exposed from the opening which is a rectangle-shaped opening. A third operation portion extends from the second end of the second part and has multiple third recesses which have different sizes. The third recesses are hexagonal recesses which are Matric system recesses and English recesses, and the outer periphery of the reception hole has at least two first limit faces. The inner periphery of the insertion section has at least two second limit faces, and the at least two first limit faces contact the at least two second limit faces so as to restrict the first part rotating with respect to the second part.
The first engaging portions of the first part are engaged with the third engaging portions of the second part, and the second engaging portions are engaged with the fifth engaging portions. However, the first and second parts each are made by plastic injection molding so that when rotating the first and second parts to rotate the hexagonal wrench to rotate an object, the first engaging portions of the first part may be separated from the third engaging portions of the second part, and the second engaging portions may be separated from the fifth engaging portions.
The present invention intends to provide a grip bar for a hexagonal wrench, and the grip bar eliminates the shortcomings mentioned above.
The present invention relates to a grip bar for a hexagonal wrench and comprises a grip, a middle sleeve, an outer sleeve and a rotary member. The grip has an elongate body, a raised portion, multiple first recesses, a head, an elongate slot and a first threaded portion. The middle sleeve includes a first chamber, a first opening, a shoulder and an end hole. The outer sleeve is mounted to the middle sleeve. The rotary member is rotatably inserted in the end hole of the middle sleeve. The first and second threaded portion are connected to each other. The first recesses and the elongate slot respectively accommodate the first section and the second section of a hexagonal wrench. The grip and the rotary member respectively restricted by the shoulder and cannot slip within the middle sleeve so that the hexagonal wrench is firmly combined with the grip and operated efficiently.
The present invention will become more apparent from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A middle sleeve 20 includes a first chamber 21 defined axially in the first end thereof, and an end hole 24 is defined axially in the second end of the middle sleeve 20. A shoulder 23 is formed between the first chamber 21 and the end hole 24. The elongate body 11 is inserted into the middle sleeve 20 from the first chamber 21. Two guide slots 211 are respectively defined in two insides of the first chamber 21. The two first hook portions 111 slidably located within the two guide slots 211. Each of the first hook portions 111 contacts the end shoulder of the guide slot 211 corresponding thereto. A protrusion 212 extends from the inner bottom of the first chamber 21 and is located within the elongate slot 14. The protrusion 212 includes at least one hole 2120 defined through the protrusion 212 and the wall of the middle sleeve 20. A room 140 is defined between the top of the protrusion 212 and the inner periphery of the elongate slot 14. The room 140 accommodates the second section 52 of the hexagonal wrench 50. The middle sleeve 20 has a first opening 22 defined axially from the first end thereof and through the wall of the middle sleeve 20. The first opening 22 is ended before the second end of the middle sleeve 20. The raised portion 12, the top face 120 of the raised portion 12 and the first recesses 121 are exposed from the first opening 22. A ridge 222 and a rail 221 extend from each of two opposite sides of the first opening 22, and the two rails 221 are slidably engaged with the two grooves 122. The middle sleeve 20 includes a cross section of a round and tubular outer periphery at the middle section thereof.
An outer sleeve 30 is a hollow case and mounted to the outside of the middle sleeve 20. The outer sleeve 30 includes a second chamber 31 defined therein and the middle sleeve 20 is received in the second chamber 31. An engaging portion 32 is located in the elongate slot 14 and protrudes from the inner periphery of the second chamber 31 and mounted to the protrusion 212. The top of the engaging portion 32 is located in the first chamber 21. The room 140 is defined between the top of engaging portion 32 and the inner periphery of the elongate slot 14. The outer sleeve 30 includes a second opening 310 defined axially through the wall thereof. Two match portions 33 are respectively formed in two opposite sides of the second opening 310 and contact the two ridges 222. It is noted that the outer sleeve 30 is mounted to the middle sleeve 20 by way of plastic injection molding, so that plastic material is filled in the at least one hole 2120 to form at least one rib 320 filled in the at least one hole 2120.
A rotary member 40 has multiple second hook portions 41 extending from the first end thereof, and the rotary member 40 rotatably received in the end hole 24 of the middle sleeve 20. The second hook portions 41 are located in the first chamber 21 and engaged with the shoulder 23. A second threaded portion 42 extends from the first end of the rotary member 40 and is threadedly connected to the first threaded portion 15 of the body 11 so that the grip 10 and the rotary member 40 are restricted by the two sides of the shoulder 23 and cannot slip relative to the middle sleeve 20. The rotary member 40 has multiple third recesses 431 of different sizes defined in an end face 43 on the second end of the rotary member 40. The end face 43 protrudes beyond the second end of the middle sleeve 20. The second recesses 131 and the third recesses 431 can receive the first section 51 or the second section 52 of the hexagonal wrench 50. In this embodiment, the end face 43 includes a semi spherical face in which the third recesses 431 are defined. The third recesses 431 are hexagonal recesses and can be in Metric system or English system.
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The advantages of the present invention are that the second threaded portion 42 is connected to the first threaded portion 15 to let the grip 10 and the middle sleeve 20 secure the hexagonal wrench 50.
When rotating the grip 10 and the middle sleeve 20, the torque of rotation cannot let the rotary member 40 to be rotated in the end hole 24, and the user's hand does not touch the rotary member 40. The grip 10 is locked by the restriction of the middle sleeve 20, so that the grip 10 is not separate from the middle sleeve 20. The user can stably operate the hexagonal wrench 50.
The rotary member 40 is rotated to separate the second threaded portion 42 from the first threaded portion 15. The grip 10 is not restricted by the rotary member 40, and can be pulled out from the first chamber 21.
The rotary member 40 is rotated in the end hole 24 to separate the second threaded portion 42 from the first threaded portion 15, or to connect the second threaded portion 42 to the first threaded portion 15, so as to control the grip 10 to be slid in the first chamber 21. In other words, the rotation of the rotary member 40 controls the grip 10 to be locked or unlocked relative to the middle sleeve 20.
The two first hook portions 111 slidably located within the two guide slots 211, and the rails 221 move relative to the grooves 122, so that the grip 10 is not rotated relative to the middle sleeve 20.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
Number | Name | Date | Kind |
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6332381 | Vasudeva | Dec 2001 | B1 |
6971291 | An | Dec 2005 | B2 |
7788996 | Johnson | Sep 2010 | B2 |
9463568 | Chen | Oct 2016 | B2 |
9969076 | Tsai | May 2018 | B2 |
10618158 | Liu | Apr 2020 | B2 |
Number | Date | Country | |
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20210001460 A1 | Jan 2021 | US |