The present invention relates to a handle for measuring wheel, and more particularly to a length-adjustable handle for measuring wheel having a telescoping section that may be easily adjusted in height relative to a supporting section via control of a locating unit.
While the above-structured measuring wheel 5 provides the function of measuring a distance and has a length-adjustable telescoping section 52, the adjustment of the length of the telescoping section is troublesome. To adjust the telescoping section, the user has to dismount the fastening element 53, and remounts the same when the locating hole 521 on the telescoping section 52 has been aligned with a desired through hole 512 on the supporting section 51. Moreover, since the supporting section 51 and the telescoping section 52 have a predetermined length each, it is uneasy to exactly align the locating hole 521 with the desired through hole 512 for the user to quickly extend the fastening element 53 through the two holes. And, the telescoping section 52 might be separated from the sliding bush 511 in the supporting section 51 when the user applies an excessive force during the adjustment. Therefore, the handle for the conventional measuring wheel 5 is not convenient for use.
A primary object of the present invention is to provide a handle for measuring wheel that is easily adjustable in length via control of a locating unit.
To achieve the above and other objects, the handle for measuring wheel according to the present invention includes a supporting section having a wheel support provided to a lower end thereof; a telescoping section being longitudinally movably connected to a first lateral side of the supporting section, and having a plurality of locating holes longitudinally spaced thereon; a locating unit being provided on the supporting section at a predetermined position thereof, and including an elastic portion attached to a second lateral side of the supporting section opposite to the first lateral side, a pull tab connected to and outward extended from one side of the elastic portion, and a stopper located at the other side of the elastic portion opposite to the pull tab to normally releasably engage with one of the locating holes on the telescoping section; and a wheel rotatably mounted to the wheel support at the lower end of the supporting section. When the pull tab is pulled to disengage the stopper from the locating hole, the telescoping section may be freely slid to a desired height relative to the supporting section.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein
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The supporting section 1 is provided at a lower end with a wheel support 11, and at two opposite longitudinal edges of a first lateral side with a slide channel 12 each.
The telescoping section 2 is provided with a plurality of longitudinally spaced locating holes 21, and has a grip 22 mounted to an upper end thereof. The telescoping section 2 is formed at two longitudinal edges with a guide rail 23 each, so that the telescoping section 2 is connected to the first lateral side of the supporting section 1 with the two guide rails 23 separately slidably received in the two slide channels 12 on the supporting section 1.
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The wheel 4 is rotatably mounted to the wheel support 11 at the lower end of the supporting section 1.
To use the measuring wheel, a user may hold the telescoping section 2 at the grip 22 with the wheel 4 mounted on the wheel support 11 of the supporting section 1 in contact with the ground or a work surface to be measured, and walks while rolling the wheel 4 to measure a distance.
Since different users have different heights and hand lengths, as well as different handling manners, the handle of the measuring wheel may be adjusted in its overall length to satisfy different users by upward or downward sliding the telescoping section 2 to a preferred height or length relative to the supporting section 1. To adjust the overall length of the measuring wheel handle, a user may directly pull the pull tab 32 of the locating unit 3. An elasticity of the elastic portion 31 allows the pull tab 32 to displace outward relative to the second lateral side of the supporting section 1 and thereby brings the stopper 33 to disengage from the locating hole 21 on the telescoping section 2. At this point, the user may pull or push the telescoping section 2 for the two guide rails 23 of the telescoping section 2 to slide in and along the two slide channels 12 of the supporting section 1, so that the telescoping section 2 is adjustable to a desired height relative to the supporting section 1. When the telescoping section 2 has been adjusted to the desired height, the pull tab 32 is released. With the elasticity of the elastic portion 31, the pull tab 32 is automatically moved inward for the stopper 33 to engage with a new locating hole 21 on the telescoping section 2, so that the telescoping section 2 is held to the desired height relative to the supporting section 1.
With the above arrangements, the handle of a measuring wheel may be easily adjusted to a desired overall length, allowing a user to manipulate the measuring wheel in a more comfortable, smooth, and efficient manner. Therefore, the present invention is improved and more practical for use.