Tool hanger

Abstract

A slot tool hanger is provided, including: a base, configured to be slidably assembled within a track slot and including a wide section and at least one narrow section in a first direction, the wide section defining a first length dimension in a second direction, each narrow section defining a second length dimension in the second direction, the base further including two end portions at opposite ends in the first direction, at least one of the two end portions including a resilient convex surface on the wide section and a compression structure corresponding to the resilient convex surface; a combination portion, disposed on the base; wherein the first length dimension is greater than the second length dimension and greater than the short side dimension, and the second length dimension is less than or equal to the short side dimension.

Claims

1. A tool hanger, configured to be slidably engaged within a track slot defining a side dimension, the tool hanger including: a base, configured to be slidably assembled within the track slot and including a wide section and at least one narrow section which are arranged in a first direction, the wide section and the at least one narrow section being integrally formed of one piece, the at least one narrow section being narrower than the wide section in a second direction from side to side, the first direction being transverse to the second direction, the wide section defining a first length dimension in the second direction, each of the at least one narrow section defining a second length dimension in the second direction, the base further including two end portions at opposite ends of the base in the second direction, at least one of the two end portions including a resilient convex surface on the wide section and projecting outwardly in the second direction and a compression structure corresponding to and overlapping with the resilient convex surface in the second direction, the at least one of the two end portions being partially hollowed to formed the compression structure, as viewed in the second direction, the resilient convex surface and the compression structure being on a same plane, the resilient convex surface having an outmost point of the base in the second direction so that the resilient convex surface being resiliently and continuously slidably abuttable against a slot wall of the track slot; a combination portion, configured to be assembled to a tool outside the track slot, extending from the base in a third direction, the third direction being transverse to the first and second directions; wherein the first length dimension is greater than the second length dimension and greater than the side dimension which is in the second direction, and the second length dimension is less than or equal to the side dimension which is in the second direction.

2. The tool hanger of claim 1, wherein the compression structure includes a compression space.

3. The tool hanger of claim 1, wherein the compression structure includes a through hole.

4. The tool hanger of claim 1, wherein an extent of the compression structure is less than or equal to that of the resilient convex surface in the first direction.

5. The tool hanger of claim 1, wherein the base includes two of said narrow sections at two sides in the first direction, and the wide section is connected between the two said narrow sections.

6. The tool hanger of claim 1, wherein the resilient convex surface is an arched convex surface.

7. The tool hanger of claim 1, wherein the base is shaped as a generally square body.

8. The tool hanger of claim 1, wherein the resilient convex surface being configured to be entirely covered within the track slot.

9. The tool hanger of claim 1, wherein the compression structure includes a through hole which is enclosed by the wide section and the at least one narrow section.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view according to a preferred embodiment of the present invention;

(2) FIG. 2 is a perspective view showing a tool hanger assembled to a track slot according to a preferred embodiment of the present invention;

(3) FIG. 3 is a partial cross-sectional view of FIG. 2;

(4) FIG. 4 is an enlarged drawing of FIG. 3;

(5) FIG. 5 is a cross-sectional view of FIG. 3, taken along the line A-A, according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(6) FIGS. 1-5 show a tool hanger according to a preferred embodiment of the present invention. The tool hanger 1 is configured to be assembled to a track slot 2, the track slot 2 defines a short side dimension d. Specifically, the track slot 2 includes two slot wall 3 disposed on opposite sides, and the short side dimension d is the interval between the two slot walls 3. The tool hanger 1 includes a base 10 and a combination portion 20.

(7) The base 10 is configured to be slidably assembled within the track slot 2, the base 10 includes a wide section 11 and at least one narrow section 12 which are arranged in a first direction S1, the wide section 11 and at least one narrow section 12 are integrally formed of one piece, the at least one narrow section 12 is narrower than the wide section 11 in a second direction S2 from side to side, the wide section 11 defines a first length dimension L1 in a second direction, and each of the at least one narrow section 12 defines a second length dimension L2 in the second direction. The base 10 further includes two end portions 15 at opposite ends of the base 10 in the second direction S2, and at least one of the two end portions 15 includes a resilient convex surface 13 on the wide section 11 and projecting outwardly in the second direction and a compression structure 14 corresponding to and overlapping with the resilient convex surface 13 in the second direction S2, wherein the first direction S1 is transverse to the second direction. The combination portion 20 is disposed on the base 10. In this embodiment, the combination portion 20 is integrally formed as a part of the base 10, the at least one of the two end portions 15 is partially hollowed to formed the compression structure 14, as viewed in the second direction S2, the resilient convex surface 13 and the compression structure 14 are on a same plane, and the resilient convex surface 13 has an outmost point P1 of the base 10 in the second direction S2 so that the resilient convex surface 13 is resiliently and slidably abuttable against the slot wall 3 of the track slot 2. The combination portion 20 is configured to be assembled to a tool head and extends from the base 10 in a third direction S3, wherein the third direction S3 is transverse to the first and second directions S1, S2. The first length dimension L1 is greater than the second length dimension L2 and greater than the short side dimension d, the second length dimension L2 is less than or equal to the short side dimension d. Whereby, the tool hanger 1 is slidably assembled within the track slot 2 and movable toward the second direction to positionably abut against the two slot walls 3.

(8) In this embodiment, the base 10 is shaped as a generally square body and configured to be stably inserted into the track slot 2. In other embodiment, the base may be shaped as a cylinder or polygonal body. The resilient convex surface 13 is an arched convex surface, for stable elastic deformation and tight positioning. In other embodiment, the resilient convex surface may be provided in a waved shape, toothed shape, angled shape or other polygonal shape.

(9) The compression structure 14 is a compression space and configured for compressed deformation of the resilient convex surface 13. In other embodiment, the compression structure may be made of an elastic material having elasticity different from that of the base 10. In this embodiment, the compression structure 14 is a hole extending in a thicknesswise direction of the end portion 15, and the hole may be a blind hole. In this embodiment, the hole penetrates the end portion 15, for providing sufficient space for deformation of the resilient convex surface 13. In this embodiment, the hole is elongate oval; however, the hole may be polygonal, circular or the like. Preferably, an extent of the compression structure 14 is less than or equal to the resilient convex surface 13.

(10) A number of the at least one narrow section 12 is two, and the wide section 11 is disposed between the two narrow sections 12 so that it is optional to insert any of the two narrow sections 12 into the track slot 2 smoothly, and the base can be stably positioned and is uneasy to displace relative the track slot 2. In other embodiment, a number of the wide section may be plural, providing multi-point abutment with the track slot.

(11) In this embodiment, the two end portion 15, includes the resilient convex surfaces 13 on the wide section 11 extending in opposite directions and each include the compression structure 14, thus improving positioning effect. Preferably, the two end portions 15 are symmetrically arranged, thus achieving stable positioning. In other embodiment, the resilient convex surfaces of the two end portions 15 may be asymmetrically arranged.

(12) In use, with the at least one narrow section 12 inserted into the track slot 2, the resilient convex surface 13 of the wide section 11 presses the slot wall 3 of the track slot 2 in the second direction; as the tool hanger 1 moves, the resilient convex surface 13 deforms toward the compression structure 14, thus allowing movement of the base so that the position is adjustable.

(13) Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.