The present invention relates to a garden shears, and more particularly to a garden shears with a better structure.
The conventional garden shears are used for gardening work, such as trimming the branches, flowers and plants. When trimming thick branches, large gardening shears requiring both hands holding each handle at one end are used, the longer arms provide greater shearing force, and the larger opening of the cutting blade allows to cut thicker branches. In contrast, the general small garden shears is designed to be held by one hand, it has lighter weight so more convenient to use and carry and it is more suitable for long-term use. Therefore, the small garden shears held by one hand are generally preferred. However, the cutting opening range of conventional small garden shears is not easy to expand and is directly affected by the opening range of the two handles. When the opening range of the two handles is too large, it is impossible to hold and operate the gardening shears with one single hand, resulting in the loss of the original convenient features. Some one-handed gardening shears has enlarged cutting opening range, but requires a complicated mechanism, which results high overall cost increases the weight of the garden shears. Furthermore, the complicated structure is relatively prone to failure.
Therefore, it is desirable to provide a garden shears to mitigate and/or obviate the aforementioned problems.
An objective of present invention is to provide a garden shears, which is capable of improving the above-mention problems.
In order to achieve the above mentioned objective, A garden shears has a handle, a first cutting member, a handgrip, a second cutting member, an intermediate member and at least one driving member. The handle secures the first cutting member and is pivoted to the second cutting member by the second shaft hole, the handgrip secures the intermediate member, the third shaft hole is pivoted to the first shaft hole, the first end of the driving member is connected to the second connecting aperture of the intermediate member, the second end is connected to the first connecting aperture of the second cutting member, therefore, the first shaft hole, the second shaft hole, the first end and the second end form a four-bar linkage state. In addition, the evading groove of the handle is configured for accepting the second end, thereby the expanded swing range increases the maximum opening angle of the blade and the knife anvil.
Other objects, advantages, and novel features of invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
Please refer to
Furthermore, both ends of the elastic member 36 have a securing member 37 connecting to the jointing portion 14 and the securing portion 35. The first cutting member 20 has a lever 24 at an end opposite to the knife anvil 23 engaging with the handle 10, and the intermediate member 50 has a hilt 53 at an end opposite the shaft hole 51 engaging with the handgrip 30. The first cutting member 20 further has a pressing portion 25 between the through hole 22 and the lever 24, the intermediate member 50 further has an abutting portion 54 between the second connecting aperture 52 and the hilt 53, and the securing members 37 of the elastic member 36 respectively make contact with the pressing portion 25 and the abutting portion 54. In addition, the first cutting member 20 and the intermediate member 50 are both made of metal materials, the pressing portion 25 and the abutting portion 54 have higher pressure strength.
Moreover, the handle 10 is provide with a knob 16 having a hook 161 extending into the open slot 11, and the second cutting member 40 further has a cavity 43 configured for accepting the hook 161 of the knob 16. When the hook 161 of the knob 16 is pushed into the cavity 43, the knife anvil 23 and the blade 41 are locked together. The handle 10 has an elongated hole 17, the hook 161 further has a barb 162, and the hook 161 of the knob 16 is inserted in the elongated hole 17 and the barb 162 positions the knob 16 in the elongated hole 17. An elastic rib 18 is disposed on one side of the elongated hole 17 of the handle 10, the knob 16 further has a plurality of positioning slots 163, and the knob 16 is positioned by slipping the elastic rib 18 into the positioning slot 163.
For the structure assembly, please refer to
For the actual operation, please refer to
With the above structure of the embodiment, the following benefits can be obtained: the handle 10 secures the first cutting member 20 and is pivoted to the second cutting member 40 by the second shaft hole 13, the handgrip 30 secures the intermediate member 50, the third shaft hole 32 is pivoted to the first shaft hole 12, the first end 61 of the driving member 60 is connected to the second connecting aperture 52 of the intermediate member 50, the second end 62 is connected to the first connecting aperture 42 of the second cutting member 40, therefore, the first shaft hole 12, the second shaft hole 13, the first end 61 and the second end 62 form a four-bar linkage state. In addition, the evading groove 15 of the handle 10 is configured for accepting the second end 62, thereby increasing the swing range of the driving member 60, and the expanded swing range increases the maximum opening angle of the blade 41 and the knife anvil 23, which effectively increases the applicable pruning range.
Although the present invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of invention as hereinafter claimed.