Tabletop elevation adjustment mechanism

Abstract

A tabletop elevation adjustment mechanism includes a fixed outer tube, a movable inner tube vertically movable in the fixed outer tube, and a plurality of corrugated sheet members equiangularly fastened to a bottom of the movable inner tube. Each of the corrugated sheet members has a plurality of first and second ridge portions respectively protruding toward two opposite sides thereof. The first ridge portions elastically stopped against an outer surface of the movable inner tube and the second ridge portions elastically stopped against an inner surface of the fixed outer tube.

Claims

1. A tabletop elevation adjustment mechanism, comprising: a fixed outer tube; a movable inner tube having a bottom and an axis, said movable inner tube being movably inserted in said fixed outer tube, said movable inner tube having a top end thereof disposed outside said fixed outer tube and a bottom end thereof disposed inside said fixed outer tube; and a plurality of corrugated sheet members being fastened to said bottom of said movable inner tube and equiangularly arranged around said axis of said movable inner tube, each of said corrugated sheet members comprising a plurality of first ridge portions and a plurality of second ridge portions respectively protruding toward two opposite sides thereof, said plurality of said first ridge portions being elastically stopped against an outer surface of said movable inner tube, said plurality of said second ridge portions being elastically stopped against an inner surface of said fixed outer tube; wherein said movable inner tube comprises a plurality of upper elongated holes and a plurality of lower elongated holes disposed at said bottom of said movable inner tube; said upper elongated holes have a longitudinal axis parallel to the axis of said movable inner tube; said lower elongated holes have a longitudinal axis perpendicular to said axis of said movable inner tube; each of said corrugated sheet members comprises an upper locating rod and a lower locating rod respectively inserted into one of said upper elongated holes of said movable inner tube and one of respective said lower elongated holes of said movable inner tube; wherein a diameter of said upper locating rod is shorter than an elongated length of said upper elongated holes; wherein a diameter of said lower locating rod is shorter than an elongated length of said lower elongated holes.

2. The tabletop elevation adjustment mechanism as claimed in claim 1, wherein each of said corrugated sheet members has a rectangular shape; each of said corrugated sheet members further comprises a center opening cutting through the two opposite sides thereof; said center opening has a long side parallel to said axis of said movable inner tube.

3. The tabletop elevation adjustment mechanism as claimed in claim 1, wherein each said corrugated sheet members has a rectangular shape; each of said corrugated sheet members has a long side parallel to said axis of said movable inner tube; said first ridge portions and said second ridge portions of said corrugated sheet members are alternatively arranged in rows along said axis of said movable inner tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an oblique top elevational view of a tabletop elevation adjustment mechanism in accordance with the present invention.

(2) FIG. 2 is an exploded view of the tabletop elevation adjustment mechanism in accordance with the present invention.

(3) FIG. 3 is an elevational view of a corrugated sheet member for tabletop elevation adjustment mechanism in accordance with the present invention.

(4) FIG. 4 is a longitudinal sectional view of the tabletop elevation adjustment mechanism in accordance with the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(5) The invention will now be described by way of examples with reference to the annexed drawings. In the specification, the terms up, down, inside, outside, top, bottom and so on are merely descriptive terms based on the normal use direction but not intended to limit the scope of the invention.

(6) Referring to FIG. 1, a tabletop elevation adjustment mechanism 10 of the present invention comprises a fixed outer tube 20, a movable inner tube 30, and four corrugated sheet members 40.

(7) The fixed outer tube 20 in this embodiment has a rectangular cross section.

(8) The movable inner tube 30 in this embodiment has a rectangular cross section. The movable inner tube 30 has a bottom 31 and an axis S1. The movable inner tube 30 is vertically and movably inserted in the fixed outer tube 20. The movable inner tube 30 has a top end thereof disposed outside the fixed outer tube 20 and an opposing bottom end disposed inside the fixed outer tube 20. Further, the movable inner tube 30 has an upper elongated hole 32 and two juxtaposed lower elongated holes 34 located on each of four sides thereof at the bottom 31 of the movable inner tube 30. The two lower elongated holes 34 are arranged in parallel. The upper elongated hole 32 has a longitudinal axis S2 parallel to the axis S1 of the movable inner tube 30. The lower elongated holes each 34 have a longitudinal axis S3 perpendicular to the axis S1 of the movable inner tube 30.

(9) The corrugated sheet members 40 are flexible rectangular plastic sheets with a long side S4 parallel to the axis S1 of the movable inner tube 30. As illustrated in FIG. 3, each of the corrugated sheet members 40 comprise a plurality of first ridge portions 41 and second ridge portions 42 protruding toward two opposite sides thereof and alternatively arranged in two rows along the axis S1 of the movable inner tube 30, i.e., each of the first ridge portions 41 is connected between two of the adjacent second ridge portions 42. Further, the corrugated sheet members 40 has a center opening 43 cut through the two opposite sides with a long side S5 parallel to the axis S1 of the movable inner tube 30. The center opening 43 enables the corrugated sheet member 40 to be easily elastically deformed when it is compressed or stretched, and facilitates equal and stable distribution of the applied force in all directions.

(10) Referring to FIG. 2 and FIG. 4, the four corrugated sheet members 40 are respectively attached onto four lateral surfaces of the movable inner tube 30. The four corrugated sheet members 40 each further comprises an upper locating rod 44 and two juxtaposed lower locating rods 45. In installation, the upper locating rod 44 and lower locating rods 45 of the four corrugated sheet members 40 are respectively inserted into the upper elongated holes 32 and lower elongated holes 34 at each of the four lateral surfaces of the movable inner tube 30. The design of the upper and lower elongated holes 32,34 allows the user to install different size of the corrugated sheet members 40 (i.e. the corrugated sheet members 40 with higher or lower ridge height) at the same locating place (i.e. the location of the upper elongated holes 32 and lower elongated holes 34) facilitating installation flexibility, installation convenience and installation applicability. After installation, the four corrugated sheet members 40 are equiangularly arranged around the axis of the movable inner tube 30 with the first ridge portions 41 thereof elastically stopped against the four lateral surfaces of the movable inner tube 30 and the second ridge portions 42 thereof stopped against the inner surface of the fixed outer tube 20.

(11) Thus, the tabletop elevation adjustment mechanism 10 of the present invention uses the corrugated sheet members 40 to fill up the gap between the fixed outer tube 20 and the movable inner tube 30. As the first and second ridge portions 41,42 of the corrugated sheet members 40 are respectively stopped against the movable inner tube 30 and the fixed outer tube 20, the corrugated sheet members 40 can be properly elastically deformed to compensate a size tolerance of the movable inner tube 30, saving the cost. Further, since the corrugated sheet members 40 are mounted on the four lateral surfaces of the movable inner tube 30 and the corrugated sheet members 40 can be moved up and down with the movable inner tube 30, the corrugated sheet members 40 reduces the friction wear of the movable inner tube 30 as the movable inner tube 30 is being moved upward or downward, also facilitating operation with less effort.