CA2910378C

CA2910378C - Adjustable fence

Info

Publication number: CA2910378C
Application number: CA2910378A
Authority: CA
Inventors: Chun-Yin Wu
Original assignee: Hudson Hardware and Plastics Co Ltd
Current assignee: Hudson Hardware and Plastics Co Ltd
Priority date: 2015-08-20
Filing date: 2015-10-27
Publication date: 2017-10-24
Anticipated expiration: 2035-10-27
Also published as: GB2541473B; GB201518992D0; GB2541473A; AU2016100827A4; CA2910378A1; JP2017040156A; JP3205872U; PL125254U1; RU170040U1; TW201708674A; CN106468114A

Abstract

An adjustable fence (1) comprises two opposite posts (10), a slat assembly (20), and two buffering elements (40). The slat assembly (20) has multiple detachable slats (21) detachably mounted between the posts (10). The buffering elements (40) are respectively mounted in the mounting slots (12) of the posts (10), and each of the buffering elements (40) is disposed between the post body (11) of each of the posts (10) and the slat assembly (20). Increasing or decreasing the detachable slats (21) of the slat assembly (20) adjusts the height of the adjustable fence for different applications. The pushing force resulting from the thermal expansion or/and contraction of the slat assembly (20) or/and the post body (11) is absorbed by the buffering element (40), so that the bottom bracket (23) of the slat assembly (20) and the post body (11) do not push each other and deform.

Description

2 BACKGROUND OF THE INVENTION

3 1. Field of the Invention

4 The present invention relates to a fence; especially relates to an adjustable fence.
6 2. Description of the Prior Art(s) 7 Fences are freestanding structures designed to restrict or prevent any 8 transgression of strangers or animals across a boundary Fences are generally 9 distinguished from a wall by the lightness of its construction made by wood instead of solid bricks or concrete.
11 A conventional fence has multiple wooden slats. The wooden slats are 12 arranged in a column or row and assembled together by fasteners such as nails.
13 However, the fence with the fasteners tightly holding the wooden slats does not 14 allow quick attachment or removal of wooden slats for height adjusting purposes. Attaching wooden slats to or removing wooden slats from the fences 16 needs hand tool to mount or detach fasteners thereon, which wastes too much 17 time and lowers the efficiency of adjusting the height of the fence.
18 To overcome the shortcomings, the present invention provides an 19 adjustable fence to mitigate or obviate the aforementioned problems.
SUMMARY OF THE INVENTION
21 One aspect of the present invention is to provide an adjustable fence.
22 The adjustable fence comprises two posts separated from each other at 23 an interval, a slat assembly slidably and detachably mounted between the posts, 24 and two buffering elements. Each of the posts has a post body having a top end and a bottom end, and a mounting slot formed transversely in and extending longitudinally along the post body. The slat assembly has multiple detachable slats slidably and detachably mounted in the mounting slots of the posts. The buffering elements are respectively disposed in the mounting slots of the posts. Each of the buffering elements is disposed between the post body of each of the posts and the slat assembly.
Increasing or decreasing the detachable slats of the slat assembly adjusts the height of the adjustable fence for different applications. The pushing force resulting from the thermal expansion or/and contraction of the slat assembly or/and the post body is absorbed by the buffering element, so that the bottom bracket of the slat assembly and the post body do not push each other to be deformed.
According to another aspect of the invention, there is provided an adjustable fence comprising: two posts separated from each other at an interval, each of the posts having: a post body having: a top end; and a bottom end; and a mounting slot formed transversely in and extending longitudinally along the post body, and the mounting slot having: a top opening connected with the top end; and a bottom opening connected with the bottom end;
a slat assembly slidably and detachably mounted between the posts and having:
multiple detachable slats slidably and detachably mounted in the mounting slots of the posts, and each of the detachable slats having: two opposite ends respectively detachably connected with the mounting slots of the posts; a top edge connected with the opposite ends; a bottom edge connected with the opposite ends; a top positioning element formed on the top edge;
and a bottom positioning element formed on the bottom edge and engaged selectively with the top positioning element of an adjacent detachable slat; and a bottom bracket mounted detachably and slidably in the mounting slots of the posts, located under the detachable slats, and having: a top edge; a top positioning member formed on the top edge of the bottom bracket and selectively engaged with the bottom positioning element of an adjacent detachable slat; and two opposite terminals connected with the top edge of the bottom bracket, and the terminals detachably connected with the mounting slots of the posts respectively; and two buffering elements respectively disposed in the mounting slots of the posts, and each of the buffering elements disposed between the post body of each of the posts and each of the terminals of the bottom bracket, wherein the buffering elements are respectively embedded in the terminals of the bottom bracket.

2a Other advantages, and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is a perspective view of an embodiment of an adjustable fence in accordance with the present invention;
Fig. 2 is an exploded perspective view of the adjustable fence in Fig. 1;
Fig. 3 is an enlarged perspective view of the adjustable fence in Fig. 2;
Fig. 4 is a partially enlarged exploded perspective view of the adjustable fence in Fig.
1;
Fig. 5 is an enlarged top view of the adjustable fence in Fig 1, wherein a limit and a cap are omitted;

1 Fig. 6 is an enlarged exploded perspective view of the post of the 2 adjustable fence in Fig. 1;
3 Fig. 7 is a perspective view of another embodiment of an adjustable 4 fence in accordance with the present invention;
Fig. 8 is a perspective view of still another embodiment of an 6 adjustable fence in accordance with the present invention;
7 Fig. 9 is an enlarged cross sectional side view of the detachable slats of 8 the adjustable fence in Fig. 1;
9 Fig. 10 is a partially enlarged view of the detachable slat in Fig. 9;
Fig. 11 is a partially enlarged cross sectional side view of the adjustable 11 fence in Fig. 1;
12 Fig. 12 is a schematic view of a fence assembly combined by multiple 13 adjustable fences in Fig. 1; and 14 Fig. 13 is a partially enlarged top view of the fence assembly in Fig.
12, wherein limits and caps are omitted.

17 With reference to Figs. 1 to 4, an adjustable fence 1 in accordance with 18 the present invention has two posts 10, a slat assembly 20, two limits 30, and 19 two buffering elements 40.
With reference to Figs. 1 to 5, the posts 10 are separated from each 21 other at an interval. Each of the posts 10 has a post body 11, a mounting slot 12, 22 two expanding slots 13, two side strips 14, a foot 15, and a cap 16.
23 With reference to Figs. 2 to 5, the post body 11 has a top end, a bottom 24 end, an inner surface 111, and two inside surfaces 112. The inner surface 111 is 1 connected with and extends between the top end and the bottom end. The inner 2 surface 111 defines two opposite mounting slits 1111 distributed longitudinally 3 along the post body 11. Each of the inside surfaces 112 defines two opposite 4 mounting grooves 1121 distributed longitudinally along the post body 11.
The inside surfaces 112 and the inner surface 111 are disposed at intervals with each 6 other. In an embodiment, the post body 11 is made of wood, plastic, or metal, 7 such as aluminum.
8 With reference to Figs. 2 to 5, the mounting slot 12 is formed 9 transversely in the post body 11 and extends longitudinally along the post body 11. The mounting slot 12 is defined by the inner surface 111 and is disposed 11 between the mounting slits 1111. Also, the mounting slot 12 has a top opening 12 connected with the top end and a bottom opening connected with the bottom 13 end.
14 With reference to Figs. 2 to 5, each of the expanding slots 13 is formed transversely in the post body 11 and extends longitudinally along the post body 16 11. The expanding slots 13 are defined by the inside surfaces 112 respectively.
17 Each of the expanding slots 13 is deposed between the mounting grooves 18 of each of the inside surfaces 112. Each of the expanding slots 13 has a top 19 opening connected with the top end and a bottom opening connected with the bottom end.
21 With reference to Figs. 2, 3, and 5, the side strips 14 selectively close 22 the expanding slots 13 respectively to prevent dust from accumulating in the 23 expanding slots 13. Each of the side strips 14 has a strip body 141 and two 24 opposite mounting tabs 142. The strip body 141 of each of the side strips 14 selectively closes each of the expanding slots 13. The mounting tabs 142 of 2 each of the side strips 14 are detachably engaged with the mounting grooves 3 1121 of the corresponding inside surface 112 respectively.
4 With reference to Figs. 1, 2, 5, and 6, the foot 15 is mounted on the

5 bottom end of the post body 11 by multiple screws. The foot 15 has a

6 connecting element 151 connected to the bottom end of the post body 11, and a

7 mounting element 152 formed on the connecting element 151. In an

8 embodiment, as shown in Figs. 2, 5, and 6, the connecting element 151 is a

9 connecting plate. The mounting clement 152 comprises multiple mounting holes 1521 formed through the connecting element 151, so that fasteners such 11 as nails or screws may penetrate through the mounting holes 1521 of the 12 mounting element ,152 to fasten the foot 15 on a cement floor. In an 13 embodiment, as shown in Fig. 7, the mounting element 152A is a flat mounting 14 tab formed on and protruding radially out from the connecting element 151A, so that the mounting element 152A is embedded in the cement or soil for 16 locating the foot 15A in the cement or soil. In an embodiment, as shown in Fig.
17 8, the mounting element 152B is a mounting awl formed on and protruding 18 downward from the connecting element 151B, so that the foot 15B is capable 19 of standing stably on the soil or the ground with the mounting element stabbing the soil or the ground.
21 With reference to Figs. I to 3, the cap 16 is mounted on the top end of 22 the post body 11 by fasteners such as bolts and nails for selectively closing the 23 top openings of the mounting slot 12 and of the extending slots 13.
24 With reference to Figs. 1 to 3, the slat assembly 20 is slidably and =

1 detachably mounted between the posts 10. The slat assembly 20 has multiple 2 detachable slats 21, a bottom bracket 22, and a top bracket 23.
3 With reference to Figs. 1 to 4, and 9, the detachable slats 21 are 4 slidably and detachably mounted in the mounting slots 12 of the posts 10.
The detachable slats 21 are arranged in a column. Each of the detachable slats 21 6 has a top edge, a bottom edge, two opposite ends, a top positioning element 211, 7 a bottom positioning element 212, and two beveled notches 213. Each of the 8 opposite ends of each of the detachable slats 21 is connected between the top 9 edge and the bottom edge of each of the detachable slats 21. The opposite ends are respectively detachably connected with the mounting slots 12 of the posts 11 10. The top positioning element 211 of each of the detachable slats 21 is 12 formed on the top edge of each of the detachable slats 21. The bottom 13 positioning element 212 of each of the detachable slats 21 is formed on the 14 bottom edge of each of the detachable slats 21. The bottom positioning element 212 of each of the detachable slats 21 is engaged selectively with the top 16 positioning element 211 of an adjacent detachable slat 21. The beveled notches 17 213 of each of the detachable slats 21 are formed oppositely on the bottom 18 edge of each of the detachable slats 21. Increasing or decreasing the detachable 19 slats 21 of the slat assembly 20 adjusts the height of the adjustable fence for different applications. In an embodiment, the detachable slats 21 are made of 21 wood, plastic, or metal, such as aluminum.
22 With reference to Figs. 1 to 4, 9, and 10, the bottom bracket 22 is 23 mounted detachably and slidably in the mounting slots 12 of the posts

10. The 24 bottom bracket 22 is located under the detachable slats 21. The bottom bracket 1 22 has a top edge, a top positioning member 221, two alignment protrusions 2 222, and two opposite terminals 223. The top positioning member 221 is 3 formed on the top edge of the bottom bracket 22. The top positioning member 4 221 is selectively engaged with the bottom positioning element 212 of an adjacent detachable slat 21. The alignment protrusions 222 are formed 6 oppositely on the top edge of the bottom bracket 22 and are selectively and 7 respectively engaged with the beveled notches 213 of the adjacent detachable 8 slat 21. The terminals 223 are connected with the top edge of the bottom 9 bracket 22. The terminals 223 are detachably connected with the mounting slots 12 of the posts 10 respectively. In an embodiment, the bottom bracket 22

11 is made of wood, plastic, or metal, such as aluminum.

12 With reference to Figs. 1 to 3, and 9, the top bracket 23 is mounted

13 detachably and slidably in the mounting slots 12 of the posts 10. The top

14 bracket 23 is located above the detachable slats 21 and has a bottom edge and a bottom positioning member 231. The bottom positioning member 231 is 16 formed on the bottom edge of the top bracket 23 and is selectively engaged 17 with the top positioning element 211 of an adjacent detachable slat 21.
In an 18 embodiment, the top bracket 23 is made of wood, plastic, or metal, such as 19 aluminum.
With reference to Figs. 1 to 3, and 9, in an embodiment, the top 21 positioning element 211 is a positioning protrusion protruding upward from the 22 top edge of each of the detachable slats 21. The bottom positioning clement 23 212 is a positioning notch defined in the bottom edge of each of the detachable 24 slats 21. With reference to Fig. 10, the top positioning member 221 is a 1 positioning protrusion. With reference to Fig. 9, the bottom positioning 2 member 231 is a positioning notch.
3 With reference to Figs. 1 to 3, and 11, the limits 30 are respectively 4 mounted on the posts 10. The limits 30 are detachably mounted in the mounting slots 12 of the posts 10 respectively and press against the slat 6 assembly 20 to prevent the slat assembly 20 from being disassembled from the 7 posts 10 inadvertently. Each of the limits 30 has a mounting plate 31, a 8 threaded hole 32, a pressing plate 33, a first fastener 34, and a second fastener 9 35. The mounting plate 31 of each of the limits 30 is mounted slidably in the mounting slits 1111 of each of the posts 10. The threaded hole 32 is formed 11 through the mounting plate 31. The pressing plate 33 is formed on and 12 protrudes from the mounting plate 31. The pressing plate 33 is pressed against 13 the top bracket 23 of the slat assembly 20. The first fastener 34 of each of the 14 limits 30 is mounted through the threaded hole 32. The first fasteners 34 of the limits 30 press tightly against the inner surfaces 111 of the posts 10 respectively.
16 The second fastener 35 is mounted through the pressing plate 33 and the top 17 bracket 23 of the slat assembly 20 to force the pressing plate 33 to press against 18 the slat assembly 20 tightly. In an embodiment, the first fastener is a bolt and 19 the second fastener is a screw.
With reference to Fig. 4, the buffering elements 40 are resilient. The 21 buffering elements 40 are disposed in the mounting slots 12 of the posts 22 respectively. Each of the buffering elements 40 is disposed between the inner 23 surface 111 of the post body 11 of each of the posts 10 and the terminals 223 of 24 the bottom bracket 22 of the slat assembly 20. The buffering elements 40 are 1 embedded in the terminals 223 of the bottom bracket 22 respectively. When the 2 bottom bracket 22 and/or the post body 11 expand with heat and/or contract 3 with cold, the pushing force between the bottom bracket 22 and the post body 4 11 is absorbed by the buffering elements 40. As such, the bottom bracket and the post body 11 do not push each other to be deformed. In an embodiment, 6 the buffering elements 40 are made from foaming material.
7 With reference to Figs, 1, 11, and 12, multiple adjustable fences 1 of 8 the present invention can be combined together to form a fence assembly or an 9 enclosure. The slat assemblies 20 of two neighboring adjustable fences 1 are mounted on one post 10. The detachable slats 21, the bottom bracket 22, and 11 the top bracket 23 of one of the two neighboring adjustable fences 1 are 12 mounted in the mounting slot 12. The detachable slats 21, the bottom bracket 13 22, and the top bracket 23 of another adjustable fence 1 are mounted in one of 14 the expanding slots 13. As such, combining multiple adjustable fences 1 of the present invention together for a fence assembly or an enclosure as desired is 16 achieved.
17 Based on the above, the adjustable fence 1 has the following 18 advantages.
19 The height of the adjustable fence 1 can be quickly changed by increasing or decreasing the detachable slats 21 of the slat assembly 20 for 21 different applications. Therefore, adjusting the height of the adjustable fence 1 22 is easy and efficient.
23 The bottom bracket 22 guides the lowest detachable slat 21 to easily fit 24 the bottom bracket 22 and prevents the detachable slats 21 from bending at an 1 intermediate section due to a heavy total weight of the slat assembly 20.
2 Therefore, the bottom bracket 22 plays an important role that guides and 3 supports the slat assembly 20 to prevent any inadvertent deformation.
4 The top bracket 23 holds the detachable slats 21 to prevent the 5 detachable slats 21 from being detached inadvertently.
6 The limits 30 with the first fastener 34 and the second fastener 35 7 securely hold and press against the slat assembly 20 to prevent the detachable = 8 slats 21 from being detached inadvertently and enhance an overall structural 9 strength of the adjustable fence 1.
10 The pushing force resulting from the thermal expansion or/and 11 contraction of the bottom bracket 23 or/and the post body 11 is absorbed by the 12 buffering element 40, so that the bottom bracket 23 and the post body 11 do not 13 push each other to be deformed.

Claims

11

1. An adjustable fence comprising:
two posts separated from each other at an interval, each of the posts having:
a post body having:
a top end; and a bottom end; and a mounting slot formed transversely in and extending longitudinally along the post body, and the mounting slot having:
a top opening connected with the top end; and a bottom opening connected with the bottom end;
a slat assembly slidably and detachably mounted between the posts and having:
multiple detachable slats slidably and detachably mounted in the mounting slots of the posts, and each of the detachable slats having two opposite ends respectively detachably connected with the mounting slots of the posts;
a top edge connected with the opposite ends;
a bottom edge connected with the opposite ends, a top positioning element formed on the top edge; and a bottom positioning element formed on the bottom edge and engaged selectively with the top positioning element of an adjacent detachable slat;
and a bottom bracket mounted detachably and slidably in the mounting slots of the posts, located under the detachable slats, and having:
a top edge;
a top positioning member formed on the top edge of the bottom bracket and selectively engaged with the bottom positioning element of an adjacent detachable slat; and two opposite terminals connected with the top edge of the bottom bracket, and the terminals detachably connected with the mounting slots of the posts respectively; and two buffering elements respectively disposed in the mounting slots of the posts, and each of the buffering elements disposed between the post body of each of the posts and each of the terminals of the bottom bracket, wherein the buffering elements are respectively embedded in the terminals of the bottom bracket.

2. The adjustable fence as claimed in claim 1, wherein.
each of the detachable slats has two beveled notches formed oppositely on the bottom edge; and the bottom bracket has two alignment protrusions formed oppositely on the top edge of the bottom bracket and selectively and respectively engaged with the beveled notches of the adjacent detachable slat.

3. The adjustable fence as claimed in claim 1 or 2, wherein the slat assembly further has a top bracket mounted detachably and slidably in the mounting slots of the posts, located above the detachable slats, and having:
a bottom edge; and a bottom positioning member formed on the bottom edge of the top bracket and selectively engaged with the top positioning element of an adjacent detachable slat.

4. The adjustable fence as claimed in any one of claims 1 to 3, wherein one of the posts has an expanding slot formed transversely in and extending longitudinally along the post body, and the expanding slot having:
a top opening connected with the top end; and a bottom opening connected with the bottom end.

5. The adjustable fence as claimed in claim 4, wherein.
the post body of the post having the expanding slot further has:
an inside surface connected with and extending between the top end and the bottom end, and defining two opposite mounting grooves respectively distributed longitudinally along the post body;
the expanding slot is defined by the inside surface and is disposed between the mounting grooves, and the post having the expanding slot further has:
a side strip selectively closing the expanding slot and having:
a strip body selectively closing the expanding slot; and two opposite mounting tabs mounted on the strip body and respectively engaged with the mounting grooves.

6. The adjustable fence as claimed in any one of claims 1 to 5 wherein:

the post body of each of the posts further has:
an inner surface connected with and extending between the top end and the bottom end, and defining two opposite mounting slits respectively distributed longitudinally along the post body;
the mounting slot is defined by the inner surface and is disposed between the mounting slits;
the adjustable fence further has two limits mounted detachably in the mounting slots of the posts respectively; and each of the limits presses against the slat assembly and has:
a mounting plate mounted slidably in the opposite mounting slits of the post;
a threaded hole formed through the mounting plate;
a pressing plate formed on and protruding from the mounting plate, and pressing against the slat assembly;
a first fastener mounted through the threaded hole and pressing tightly against the inner surface; and a second fastener mounted through the pressing plate and the slat assembly.

7. The adjustable fence as claimed in any one of claims 1 to 6, wherein each of the posts has a foot mounted on the bottom end of the post body and having:
a connecting element connected to the bottom end of the post body; and a mounting element formed on the connecting element

8. The adjustable fence as claimed in claim 7, wherein the mounting element is a flat mounting tab formed on and protruding radially out from the connecting element

9. The adjustable fence as claimed in claim 7, wherein the mounting element is a mounting awl formed on and protruding downward from the connecting element.

10. The adjustable fence as claimed in claim 7, wherein the mounting element comprises multiple mounting holes formed through the connecting element.

11. The adjustable fence as claimed in any one of claims 1 to 10 wherein each post further has a cap mounted detachably on the top end of the post body and selectively closing the top opening of the mounting slot.