The present invention relates to work chairs for use in maintenance works and more particularly, to such a work chair that can be adjusted to change the height of the seat.
Generally, when performing a maintenance work, such as automobile repair, it takes a long time to squat down or to sit on the floor. In order to make the maintenance personnel have a more comfortable posture, the maintenance personnel usually will use a work chair. For example, U.S. Pat. No. 8,596,651 disclosed a work seat that is provided with rollers at the bottom side thereof facilitating movement by the maintenance personnel and can be adjusted to change the height according to different application needs. Further, U.S. Pat. No. 5,451,068 discloses a transformable mechanic's creeper, which is transformable between a horizontal creeper and an upright seat. Of course, there are some work chairs that use a pneumatic actuator to change the height of the seat cushion. However, this work chair is limited by the length of the pneumatic actuator, so it cannot be lowered to a very low level.
The present invention has been accomplished under the circumstances in view. It is the main object of the present invention to provide a work chair that can be adjusted to change the height of the seat by a simple folding operation.
To achieve this and other objects of the present invention, a work chair comprises a base frame including a transverse portion, a longitudinal portion vertically located on the transverse portion and a plurality of rollers provided at a bottom side thereof, a first pivoting frame pivotally connected to the transverse portion and biasable between a horizontal position and a vertical position, a second pivoting frame including a bottom support portion and a top support portion, and two seat cushions respectively mounted on the top support portion and bottom support portion of the second pivoting frame. The top support portion has one end thereof pivotally connected to the longitudinal portion of the base frame such that the second pivoting frame can be biased to move the top support portion from a vertical position to a horizontal position where the second pivoting frame is placed across the first pivoting frame.
Other advantages and features of the present invention will be fully understood by reference to the following specification in conjunction with the accompanying drawings, in which like reference signs denote like elements, components, objects, structures, systems, architectures, devices, processes, methods, or steps.
Referring to
The base frame (100) comprises a transverse portion (110) and a longitudinal portion (120). The transverse portion (110) includes two Outer frame (111) and three X bars (112). The three X bars (112) are respectively connected to the outer frame (111) with their two ends. The bottom surface of the transverse portion (110) of the base frame (100) is provided with a plurality of rollers (113), so that the base frame (100) can be placed on a support surface, such as a floor, and can be moved by scrolling of the rollers (113). The longitudinal portion (120) is erected on the transverse portion (110), comprising two Y bars (121) and two X bars (122). The two X bars (122) are respectively connected to the two Y bars (121) with their two ends. The two Y bars (121) of the longitudinal portion (120) have respective one ends thereof respectively affixed to the outer frame (111) of the transverse portion (110).
The first pivoting frame (200) is pivotally connected to the transverse portion (110) of the base frame (100), comprising two Y bars (201) and two X bars (202). The two X bars (202) are respectively connected to the two Y bars (201) with their two ends. The two Y bars (201) of the first pivoting frame (200) have respective one ends thereof respectively pivotally connected to the outer frame (111) of the transverse portion (110) of the base frame (100) so that the two Y bars (201) of the first pivoting frame (200) are disposed within the outer frame (111) of the transverse portion (110) of the base frame (100) and the first pivoting frame (200) can be rotated with the two pivot points (J1) as a rotating shaft from an original horizontal position to an vertical position.
The second pivoting frame (300) is pivotally connected to the longitudinal portion (120) of the base frame (100) with one end thereof, comprising a bottom support portion (310) and a top support portion (320). The bottom support portion (310) and the top support portion (320) define therebetween a contained angle such that the lateral side of the second pivoting frame (300) exhibits a L-shaped profile. The bottom support portion (310) comprises an outer frame (311) and an X bar (312). The top support portion (320) comprises an outer frame (321) and an X bar (322). Further, a M bar (323) is disposed in the junction between the bottom support portion (310) and the top support portion (320). In the present preferred embodiment, the M bar (323) is located on the top support portion (320). The M bar (323) is connected to the outer frame (321) of the top support portion (320) with the two ends thereof. However, this mounting arrangement is not a limitation. Alternatively, the M bar (323) can be mounted to the outer frame (311) of the bottom support portion (310). The second pivoting frame (300) is pivotally connected to the Y bars (121) of the longitudinal portion (120) of the base frame (100) with one end of the top support portion (320) so that the second pivoting frame (300) can be rotated with the two pivot points (J2) as a rotating shaft and then supported on the first pivoting frame (200).
The two seat cushions (400) are respectively mounted on the top support portion (320) and bottom support portion (310) of the second pivoting frame (300).
With the above structure, the work chair can provide two different heights of use. The first height of use is as shown in
When changing the height of use, first turn the second pivoting frame (300) upwardly from the original vertical position to the horizontal position, as shown in
In order to further improve the stability of use, the X bar (202) of the first pivoting frame (200) near the longitudinal portion (120) of the base frame (100) is provided with a groove (203) so that this X bar (202) is shaped like a channel bar having a substantially U-shaped cross section for accommodating the M bar (323) of the second pivoting frame (300). Further, the second pivoting frame (300) is provided with a first locating member (301), and the first pivoting frame (200) is provided with a first locating portion (204). Engagement between the first locating member (301) and the first locating portion (204) can make the second pivoting frame (300) more stable when it is placed on the first pivoting frame (200). In this embodiment, the first locating member (301) is a screw bolt, and the first locating portion (204) is a screw hole. By means of threading the screw bolt into the screw hole, the second pivoting frame (300) is locked to the first pivoting frame (200) to enhance the positioning stability, as shown in
There is more than one way to fix the first pivoting frame (200) and the second pivoting frame (300). In the second embodiment of present invention, the location of the first locating member (301) and the first locating portion (204) can switch as shown in
Further, the base frame (100) is provided with a second locating member (101); the second pivoting frame (300) is provided with a second locating portion (302) for the fastening of the second locating member (101). In this embodiment, the second locating member (101) is a locating pin provided at an upright (130) of the longitudinal portion (120) of the base frame (100), and the second locating portion (302) is a pin hole located on the outer frame (321) of the top support portion (320) of the second pivoting frame (300), as shown in
Number | Date | Country | Kind |
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107200090 | Jan 2018 | TW | national |