Double-surface contact tray loading base

Abstract

A double-surface contact tray loading base comprises a loading surface (4) and a hook (1) arranged on an outer end of the loading surface (4), the hook (1) comprises a hook lug (1-2) and a support plate (6), the hook lug (1-2) is arranged on an upper side of the outer end of the loading surface (4), and the support plate (6) is arranged on a lower side of the outer end of the loading surface (4), thus forming the double-surface contact tray loading base.

Claims

1. A double-surface contact tray loading base, comprising a generally planar horizontal loading surface that is configured to store items thereon, wherein the horizontal loading surface has a top, a bottom, a front edge, a rear edge, and side edges; a hook defining a hook lug that has a horizontal portion and a vertical portion extending upwardly from the horizontal portion, wherein the vertical portion has an inner surface and an outer surface, and the horizontal portion of the hook lug is attached to and extends directly from the rear edge arranged on an outer end of the loading surface; a support plate that is attached to and extends downwardly from the bottom of the loading surface, wherein the support plate has an inner surface and an outer surface; a longitudinal stopper wall extending upwardly from the loading surface; and a transversal stopper wall extending upwardly from the loading surface and generally perpendicularly from the longitudinal stopper wall; wherein a gap is defined between the vertical portion of the hook lug and the longitudinal stopper wall; wherein the loading surface, the hook lug, the support plate, the longitudinal stopper wall, and the transversal stopper wall form a unitary one-piece structure; wherein the vertical portion of the hook lug is configured to be inserted within a mounting hole of a vertical support structure to suspend the double-surface contact tray loading base from the vertical support structure with the vertical support structure being wedged between the inner surface of the vertical portion of the hook lug and the outer surface of the support plate.

2. The double-surface contact tray loading base according to claim 1, wherein a bottom of the horizontal portion of the hook lug defines a mounting surface.

3. The double-surface contact tray loading base according to claim 1, further comprising a reinforcement rib extending between the bottom of the loading surface and the inner surface of the support plate.

4. The double-surface contact tray loading base according to claim 1, wherein the loading surface is tilted upwards at an angle of 3-45 degrees relative to the horizontal portion of the hook lug.

5. The double-surface contact tray loading base according to claim 1, wherein the longitudinal stopper wall is tilted towards the vertical portion of the hook lug at an angle of 2-30 degrees.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 schematically shows a structure of a base of the present invention;

(2) FIG. 2 is a front view of a base of the present invention;

(3) FIG. 3 is a using state of the present invention;

(4) FIG. 4 is partially enlarged sectional view of a using state of the present invention;

DETAILED DESCRIPTION OF THE INVENTION

(5) The Embodiment 1

(6) Referring to FIG. 1 and FIG. 2, the present embodiment comprises a loading surface 4 and a hook 1 arranged on the outer end of the loading surface 4, and is characterized in that the hook 1 comprises a hook lug 1-2 and a support plate 6, the hook lug 1-2 is arranged on an upper side of the outer end of the loading surface, the support plate 6 is arranged on a lower side of the outer end of the loading surface, thus forming the double-surface contact tray loading base. The hook lug 1-2 has a mounting surface 7 at the lower end, which is connected to an upper side of the outer end of the loading surface, and the hook lug has an inner contact surface 1-1 at the upper end. The support plate 6 has an outer contact surface 6-1 at the lower end.

(7) The Embodiment 2

(8) The present embodiment comprises a loading surface 4 and a hook 1 arranged on an outer end of the loading surface 4, and is characterized in that the hook 1 comprises a hook lug 1-2 and a support plate 6, the hook lug 1-2 is arranged on an upper side of the outer end of the loading surface, the support plate 6 is arranged on a lower side of the outer end of the loading surface, thus forming the double-surface contact tray loading base. The hook lug 1-2 has a mounting surface 7 at the lower end, which is connected to the upper side of the outer end of the loading surface, and the hook lug has an inner contact surface 1-1 at the upper end. The support plate 6 has an outer contact surface 6-1 at the lower end. A longitudinal stopper 2 and a transversal stopper 3 are arranged at the adjacent edges of the loading surface 4, respectively.

(9) The Embodiment 3

(10) The present embodiment comprises a loading surface 4 and a hook 1 arranged on an outer end of the loading surface 4, and is characterized in that the hook 1 comprises a hook lug 1-2 and a support plate 6, the hook lug 1-2 is arranged on an upper side of the outer end of the loading surface, the support plate 6 is arranged on a lower side of the outer end of the loading surface, thus forming the double-surface contact tray loading base. The hook lug 1-2 has a mounting surface 7 at the lower end, which is connected to the upper side of the outer end of the loading surface, and the hook lug has an inner contact surface 1-1 at the upper end. The support plate 6 has an outer contact surface 6-1 at the lower end. A longitudinal stopper 2 and a transversal stopper 3 are arranged at the adjacent edges of the loading surface 4, respectively. A reinforcement rib 5 is arranged at the bottom of the loading surface 4.

(11) The Embodiment 4

(12) The present embodiment comprises a loading surface 4 and a hook 1 arranged on an outer end of the loading surface 4, and is characterized in that the hook 1 comprises a hook lug 1-2 and a support plate 6, the hook lug 1-2 is arranged on an upper side of the outer end of the loading surface, the support plate 6 is arranged on a lower side of the outer end of the loading surface, thus forming the double-surface contact tray loading base. The hook lug 1-2 has a mounting surface 7 at the lower end, which is connected to the upper side of the outer end of the loading surface, and the hook lug has an inner contact surface 1-1 at the upper end. The support plate 6 has an outer contact surface 6-1 at the lower end. A longitudinal stopper 2 and a transversal stopper 3 are arranged at the adjacent edges of the loading surface 4, respectively. A reinforcement rib 5 is arranged at the bottom of the loading surface 4. The outer end of the loading surface 4 is tilted upwards with an angle of 3-50 degrees, and the longitudinal stopper 2 is tilted towards the direction of the hook with an angle of 2-30 degrees.

(13) When in use, as shown in FIG. 3 and FIG. 4, the base is mounted in a seat form on a bracket 8 which is mounted on the side wall of a compartment, with the mounting surface 7 of the hook lug being pressed on a square hole 9 of the bracket, the inner contact surface 1-1 of the hook lug being in contact with the inner surface on the upper side of the bracket, the outer contact surface 6-1 of the support plate being in contact with the inner surface on the lower side of the bracket, in this manner, the base is mounted in place and then a tray is mounted on the base.