WO2020030630A1 - Security fencing - Google Patents

Security fencing Download PDF

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Publication number
WO2020030630A1
WO2020030630A1 PCT/EP2019/071097 EP2019071097W WO2020030630A1 WO 2020030630 A1 WO2020030630 A1 WO 2020030630A1 EP 2019071097 W EP2019071097 W EP 2019071097W WO 2020030630 A1 WO2020030630 A1 WO 2020030630A1
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WO
WIPO (PCT)
Prior art keywords
panel
panels
primary
fencing
wire rods
Prior art date
Application number
PCT/EP2019/071097
Other languages
French (fr)
Inventor
Roger Long
Original Assignee
Roger Long
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Roger Long filed Critical Roger Long
Publication of WO2020030630A1 publication Critical patent/WO2020030630A1/en

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H17/00Fencing, e.g. fences, enclosures, corrals
    • E04H17/14Fences constructed of rigid elements, e.g. with additional wire fillings or with posts
    • E04H17/16Fences constructed of rigid elements, e.g. with additional wire fillings or with posts using prefabricated panel-like elements, e.g. wired frames
    • E04H17/161Fences constructed of rigid elements, e.g. with additional wire fillings or with posts using prefabricated panel-like elements, e.g. wired frames using wire panels
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01FADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
    • E01F15/00Safety arrangements for slowing, redirecting or stopping errant vehicles, e.g. guard posts or bollards; Arrangements for reducing damage to roadside structures due to vehicular impact
    • E01F15/02Continuous barriers extending along roads or between traffic lanes
    • E01F15/06Continuous barriers extending along roads or between traffic lanes essentially made of cables, nettings or the like

Definitions

  • This invention relates to fencing and more especially to security fencing assembled from welded wire rod mesh panels. to the invention
  • Security fencing produced from prefabricated panels of welded wire rod mesh is well known.
  • the individual mesh panels are supported and interconnected by structurally rigid upright posts set in relatively deep foundations to form a continuous linear security barrier.
  • the posts are of steel construction and are pitched along a fence line at approximately 2.44 metre centres.
  • horizontal rails are fastened to the posts to provide additional security.
  • security fencing is particularly vulnerable when an aggressor seeks to break through a fence panel at a location substantially mid-way between neighbouring upright posts, or by removing one or more of the supporting posts. This conclusion is particularly relevant for security fencing which comprises a single line of wire rod mesh panels supported at their ends by rigid upright posts.
  • the present invention seeks to provide an improved security fence system by creating a uniform higher level of resistance along the entire fence line and by, essentially, eliminating or minimising intermediate structural posts and their associated deep foundations.
  • the present invention seeks to provide security fencing which lends itself to relatively shallow depth foundations typical of many crash rated barrier designs.
  • the present invention also seeks to provide means by which individual fence panels can be securely attached along their ends to produce security fencing of any required overall length.
  • Security fencing in accordance with the invention also lends itself to many variations to suit a variety of conditions, requirements and threat levels.
  • the invention provides security fencing which comprises at least two spaced apart lines of primary fence panels and one or more lines of secondary fence panels which extend between and are attached to said lines of primary fence panels, wherein each said primary and secondary fence panel comprises a multiplicity of spaced lengthwise extending generally parallel wire rods welded to a multiplicity of generally parallel upstanding spaced wire rods, and wherein the lengthwise extending wire rods of each secondary panel include a fold which extends over the entire height of the panel and is dimensioned to receive a stitching rod to enable said secondary panel to be connected to an adjoining primary panel.
  • the at least two lines of primary fence panels are generally parallel.
  • the lines of secondary panels define a plurality of zig-zag lines, the ends of such zig-zag lines which abut one or other of the lines of primary panels of secondary panels each including an aforesaid upstanding fold which co-operates with an aforesaid upstanding stitching rod to create a unitary security fence.
  • the apices of the fold of each said secondary panel extends through a square or rectangular opening of said primary prefabricated panel, and an upstanding stitching rod is located within said space between the folded wire rods of the secondary panel and the opposed wire rods of the primary panel to secure one panel to the other.
  • the length of the said primary panel may be the same as that of the secondary panel, or may differ from that of said secondary panel .
  • one, several or all said secondary panels may comprise relatively short panels each including said fold dimensioned to receive said upstanding stitching rod.
  • the ground engaging ends of all or a majority of the upstanding stitching rods may be located in shallow foundations.
  • the base of each primary and secondary panel may also locate in shallow foundations.
  • shallow is meant a foundation of a depth not exceeding 45cms.
  • the apertures formed between the wire rods of each panel approximate to 8.7mm in the vertical plane.
  • the invention provides a method of producing security fencing which includes a primary prefabricated panel and a secondary prefabricated panel set an angle to said primary panel, each said primary and secondary panel including a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, said method comprising the steps of providing in lengthwise extending wire rods of said secondary panel a generally vertical fold, projecting the apices of the wire rods which define said fold into and through adjoining vertically spaced openings of the primary prefabricated panel, and locating within the space defined between the folded wire rods of said secondary panel and the opposed wire rods of said primary panel an upstanding stitching rod to join one panel to the other.
  • the fencing preferably comprises generally parallel first and second rows of said primary prefabricated panels, said rows being joined by a plurality of spaced said secondary prefabricated panels.
  • the invention provides security fencing which includes primary and secondary prefabricated panels each having a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, an upstanding fold formed in the lengthwise extending rods of said secondary prefabricated panel, an upstanding open-sided U shaped connecting member formed on its closed side with a series of spaced openings into which the folded lengthwise extending wire rods of said secondary prefabricated panel extend, the open side of the connecting member extending through adjacent apertures of the openings of said primary prefabricated panel, an upstanding stitching rod located within the U shape of the connecting member to secure one prefabricated panel to the other, and a connector for joining two said prefabricated panels along their adjoining sides, the connector comprising a pair of open-sided elongate members each formed with vertically spaced openings through which lengthwise extending wires of both panels can project, and a stitching rod for positioning in each opening to lock the elongate members to the respective fence
  • the invention provides security fencing produced from a plurality of prefabricated panels each of which comprises a multiplicity of spaced lengthwise extending generally parallel wire rods welded to a multiplicity of generally parallel upstanding spaced wire rods, the lengthwise extending wire rods of one such prefabricated panel including a fold which extends over the entire height of the panel to create eyelets through which upstanding stitching rods or the like can pass to enable said one prefabricated panel to be connected to an adjoining prefabricated panel.
  • Figure 1 is a plan view from above of a section of security fencing in accordance with the invention.
  • FIG 2 is a perspective view from above of the fence section shown in Figure 1;
  • FIGS. 3 and 4 are respectively plan and side views to an enlarged scale of the fence section "A" illustrated in Figure
  • Figures 5A and 5B are respectively a plan view from above and a perspective view of an alternative section of fencing in accordance with the invention.
  • Figures 6 and 7 are respectively a plan view from above and a side view to an enlarged scale of the fence section "B" shown in Figure 5;
  • FIGs 8, 9 and 10 are respectively plan, side and end views to an enlarged scale of a fence panel connector for use with security fencing in accordance with the invention, the position of one such connector being indicated by reference "C" in Figures 1 and 5 ;
  • Figures 11 and 12 are plan views of alternative arrangements using apex connectors, for connecting separate rather than folded panels;
  • Figures 13, 14 and 15 are respectively plan front elevation and side elevation views of a further alternative fence panel connector to that illustrated in Figures 8 to 10; and
  • Figure 16 is a plan view from above of a section of security fencing in accordance with the invention.
  • the security fence illustrated in Figures 1 to 4 comprises two spaced generally parallel rows 10, 12 of prefabricated welded wire rod mesh vertical panels (referred to herein as primary panels) joined together by a plurality of spaced generally vertical panels 14 (referred to herein as secondary panels) also of prefabricated welded wire rod mesh.
  • primary panels prefabricated welded wire rod mesh vertical panels
  • secondary panels spaced generally vertical panels
  • the length of each panel is 2.5 meters and the height 4 meters.
  • each panel is coated with a protective layer of zinc and/or aluminium.
  • the lines of secondary panels 14 are each set at an angle to the lines of primary panels 10, 12 and together create a zig-zag path which extends between primary panel lines 10, 12.
  • each line of panels 14 defines an angle which approximates to between 40 and 60 degrees to the adjoining lines of the parallel spans 10, 12.
  • Each panel 10, 12 and 14 comprises a multiplicity of spaced lengthwise extending steel wire rods 16 welded to a multiplicity of upstanding spaced steel wire rods 18 to define a panel which includes a plurality of generally rectangular spaces 20.
  • the wire rods 16, 18 may be produced from materials which have similar properties to those of steel such as stainless steel, high tensile steels and the like.
  • the dimensions and composition of the wire rods, and the dimensions of the spaces 20 defined between the wire rods 16, will to an extent, depend on the function to be served by the panels.
  • the gaps defined by the parallel wires of the assembled panels may be, for example, around 4.7mm inter alia to prevent 0.22 calibre (5.58mm) bullets passing through the fence panels without a high probability of severe deflection, while not preventing a person seeing through the panel assembly for inspection purposes.
  • vertically extending folds 22 are created within the panels 14 at positions "A" (see Figure 1) where the panels 14 join the panels 10 and 12, the individual wires of each fold 22 extending through neighbouring vertically spaced apertures of an adjoining panel 10, 12 to define a vertical space within which is positioned a stitching rod or tube 24 (referred to below as rods for ease of understanding) .
  • rods stitching rod or tube 24
  • the stitching rods are produced from steel or a material having similar properties to steel such as stainless steel or a high tensile steel.
  • the folds 22 are produced simply by folding each panel about a selected vertical line; alternatively, the folds 22 are produced by cutting a panel along a selected vertical line, the cut panels then being welded or otherwise joined together to produce the required fold.
  • the lower ends of the stitching rods 24 and the lower edges of the panels are positioned in relatively shallow foundations.
  • the depth of the foundations will be of the order of 22cms. This compares with a depth typically of around lOOcms for supporting posts of conventional fencing.
  • Each joint member 26 includes a pair of generally parallel vertical arms which extend over the full height of the respective fence panel and a series of spaced arcuate members 30 which project through openings in the respective panels and are shaped to receive a stitching rod 24.
  • individual primary panels 10, 12, 14 are joined along their sides by means of joint members 32. These preferably extend over the full height of the individual panels; alternatively, they may extend over only a portion or portions of the full height of each panel.
  • Each joint member 32 includes a pair of folded sections 34 each formed with a series of slots 36 which enable the joint members 32 to extend into and through the spaces defined between neighbouring lengthwise extending rods 16 of the respective fence panels.
  • the ends of the folded sections which protrude through the fence panels define openings to receive vertically extending stitching rods 38 thereby to connect the adjoining fence panels together.
  • joint members 32 and the stitching rods 38 preferably extend over the full height of the joined panels with the lower ends of the stitching rods set in the foundation.
  • the joint members 32 may extend over only one or more discrete height sections of the panels.
  • FIG. 11 and 12 An alternative to creating folds 22 in the panels 14 is illustrated in Figures 11 and 12.
  • the panels 14 are cut into individual lengths and joined by apex connectors 43 and/or 44.
  • Stitching rods 24 are provided as shown in these figures.
  • the joint members shown in Figures 13 to 15 comprise sheet or wire members 40 each folded to define two generally semi circular channels 42 which project through openings 20 of the adjoining panels to be connected, the joint members being held in place by stitching rods 38.
  • joint members may be employed, all serving essentially the same function as those described above.
  • the secondary panels each comprise a line of panels 14A, 14B each the same or similar to the individual panels 14 illustrated in Figure 1, and each connected one to the other by stitching rods 24 positioned mid way between lines of primary panels 10, 12.
  • the described security fencing provides substantial resistance to, for example, vehicle attack by creating a uniform high resistance to penetration. Also, any attempt to penetrate the fencing by the use of power tools would be drastically inhibited because of the many layers of fencing employed.
  • the voids present between the various lines of fencing can readily be filled with, for example, barbed or razor wire to provide additional resistance to penetration.
  • the zig-zag inner fencing panels need only be of a height of between 2.4 and 3.0 meters with the panels of the two outer fencing lines being considerably higher and supported by stitching rods.
  • Both sides of the described fencing can be considered as potential attack faces.
  • the described fencing creates daunting resistance to attack by hostile vehicles and attack on foot; it also lends itself to ballistic resistance.
  • the fencing panels only leaves a theoretical gap of 4.7mm in the horizontal plane thereby preventing even bullets of .22-calibre (5.58mm) passing from one side of the fencing to the other without serious deflection and without adversely affecting the transparency of the fencing.
  • Typical applications for fencing as described above include military establishments, borders, animal enclosures, nuclear power stations, high security private establishments, rapid development requirements, Governmental establishments, temporary crowd control, airports, prisons, and gate and barrier infills .

Abstract

Fencing produced from a plurality of prefabricated panels each of which comprises a multiplicity of spaced lengthwise extending generally parallel wire rods welded to a multiplicity of generally parallel upstanding spaced wire rods. The lengthwise extending wire rods of one prefabricated panel includes a fold which extends over the entire height of the panel to create eyelets through which upstanding stitching rods can pass to enable the prefabricated panel to be connected to an adjoining prefabricated panel.

Description

SECURITY FENCING
Field of the Invention
This invention relates to fencing and more especially to security fencing assembled from welded wire rod mesh panels.
Figure imgf000003_0001
to the invention
Security fencing produced from prefabricated panels of welded wire rod mesh is well known. Conventionally, the individual mesh panels are supported and interconnected by structurally rigid upright posts set in relatively deep foundations to form a continuous linear security barrier. Typically, the posts are of steel construction and are pitched along a fence line at approximately 2.44 metre centres. On occasions horizontal rails are fastened to the posts to provide additional security.
Examples of such fencing are disclosed in US 4,003,178, DE202004013865U and DE102006024070A1.
It is generally accepted that security fencing is particularly vulnerable when an aggressor seeks to break through a fence panel at a location substantially mid-way between neighbouring upright posts, or by removing one or more of the supporting posts. This conclusion is particularly relevant for security fencing which comprises a single line of wire rod mesh panels supported at their ends by rigid upright posts.
The present invention seeks to provide an improved security fence system by creating a uniform higher level of resistance along the entire fence line and by, essentially, eliminating or minimising intermediate structural posts and their associated deep foundations. In addition, the present invention seeks to provide security fencing which lends itself to relatively shallow depth foundations typical of many crash rated barrier designs.
The present invention also seeks to provide means by which individual fence panels can be securely attached along their ends to produce security fencing of any required overall length.
Security fencing in accordance with the invention also lends itself to many variations to suit a variety of conditions, requirements and threat levels.
Figure imgf000004_0001
of the Invention
In a first aspect, the invention provides security fencing which comprises at least two spaced apart lines of primary fence panels and one or more lines of secondary fence panels which extend between and are attached to said lines of primary fence panels, wherein each said primary and secondary fence panel comprises a multiplicity of spaced lengthwise extending generally parallel wire rods welded to a multiplicity of generally parallel upstanding spaced wire rods, and wherein the lengthwise extending wire rods of each secondary panel include a fold which extends over the entire height of the panel and is dimensioned to receive a stitching rod to enable said secondary panel to be connected to an adjoining primary panel.
Preferably, the at least two lines of primary fence panels are generally parallel.
Preferably, the lines of secondary panels define a plurality of zig-zag lines, the ends of such zig-zag lines which abut one or other of the lines of primary panels of secondary panels each including an aforesaid upstanding fold which co-operates with an aforesaid upstanding stitching rod to create a unitary security fence. Preferably, the apices of the fold of each said secondary panel extends through a square or rectangular opening of said primary prefabricated panel, and an upstanding stitching rod is located within said space between the folded wire rods of the secondary panel and the opposed wire rods of the primary panel to secure one panel to the other.
The length of the said primary panel may be the same as that of the secondary panel, or may differ from that of said secondary panel .
In the latter context, one, several or all said secondary panels may comprise relatively short panels each including said fold dimensioned to receive said upstanding stitching rod.
The ground engaging ends of all or a majority of the upstanding stitching rods may be located in shallow foundations. The base of each primary and secondary panel may also locate in shallow foundations. By "shallow" is meant a foundation of a depth not exceeding 45cms.
Preferably the apertures formed between the wire rods of each panel approximate to 8.7mm in the vertical plane.
In a second aspect, the invention provides a method of producing security fencing which includes a primary prefabricated panel and a secondary prefabricated panel set an angle to said primary panel, each said primary and secondary panel including a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, said method comprising the steps of providing in lengthwise extending wire rods of said secondary panel a generally vertical fold, projecting the apices of the wire rods which define said fold into and through adjoining vertically spaced openings of the primary prefabricated panel, and locating within the space defined between the folded wire rods of said secondary panel and the opposed wire rods of said primary panel an upstanding stitching rod to join one panel to the other.
The fencing preferably comprises generally parallel first and second rows of said primary prefabricated panels, said rows being joined by a plurality of spaced said secondary prefabricated panels.
In a further aspect the invention provides security fencing which includes primary and secondary prefabricated panels each having a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, an upstanding fold formed in the lengthwise extending rods of said secondary prefabricated panel, an upstanding open-sided U shaped connecting member formed on its closed side with a series of spaced openings into which the folded lengthwise extending wire rods of said secondary prefabricated panel extend, the open side of the connecting member extending through adjacent apertures of the openings of said primary prefabricated panel, an upstanding stitching rod located within the U shape of the connecting member to secure one prefabricated panel to the other, and a connector for joining two said prefabricated panels along their adjoining sides, the connector comprising a pair of open-sided elongate members each formed with vertically spaced openings through which lengthwise extending wires of both panels can project, and a stitching rod for positioning in each opening to lock the elongate members to the respective fence panel.
In a still further aspect, the invention provides security fencing produced from a plurality of prefabricated panels each of which comprises a multiplicity of spaced lengthwise extending generally parallel wire rods welded to a multiplicity of generally parallel upstanding spaced wire rods, the lengthwise extending wire rods of one such prefabricated panel including a fold which extends over the entire height of the panel to create eyelets through which upstanding stitching rods or the like can pass to enable said one prefabricated panel to be connected to an adjoining prefabricated panel.
Brief
Figure imgf000007_0001
of the
Figure imgf000007_0002
The invention will now be described by way of example only with reference to the accompanying diagrammatic drawings in which
Figure 1 is a plan view from above of a section of security fencing in accordance with the invention;
Figure 2 is a perspective view from above of the fence section shown in Figure 1;
Figures 3 and 4 are respectively plan and side views to an enlarged scale of the fence section "A" illustrated in Figure
1;
Figures 5A and 5B are respectively a plan view from above and a perspective view of an alternative section of fencing in accordance with the invention;
Figures 6 and 7 are respectively a plan view from above and a side view to an enlarged scale of the fence section "B" shown in Figure 5;
Figures 8, 9 and 10 are respectively plan, side and end views to an enlarged scale of a fence panel connector for use with security fencing in accordance with the invention, the position of one such connector being indicated by reference "C" in Figures 1 and 5 ;
Figures 11 and 12 are plan views of alternative arrangements using apex connectors, for connecting separate rather than folded panels; Figures 13, 14 and 15 are respectively plan front elevation and side elevation views of a further alternative fence panel connector to that illustrated in Figures 8 to 10; and
Figure 16 is a plan view from above of a section of security fencing in accordance with the invention.
Detailed
Figure imgf000008_0001
of the Invention
The security fence illustrated in Figures 1 to 4 comprises two spaced generally parallel rows 10, 12 of prefabricated welded wire rod mesh vertical panels (referred to herein as primary panels) joined together by a plurality of spaced generally vertical panels 14 (referred to herein as secondary panels) also of prefabricated welded wire rod mesh. Typically, the length of each panel is 2.5 meters and the height 4 meters. These are simply typical dimensions which can vary on a case by case basis.
Typically, each panel is coated with a protective layer of zinc and/or aluminium. As will be seen from Figure 1, the lines of secondary panels 14 are each set at an angle to the lines of primary panels 10, 12 and together create a zig-zag path which extends between primary panel lines 10, 12. Typically, each line of panels 14 defines an angle which approximates to between 40 and 60 degrees to the adjoining lines of the parallel spans 10, 12. These quoted angles are simply given by way of example, other angles being able to be selected on a case by case basis.
Each panel 10, 12 and 14 comprises a multiplicity of spaced lengthwise extending steel wire rods 16 welded to a multiplicity of upstanding spaced steel wire rods 18 to define a panel which includes a plurality of generally rectangular spaces 20.
The wire rods 16, 18 may be produced from materials which have similar properties to those of steel such as stainless steel, high tensile steels and the like. The dimensions and composition of the wire rods, and the dimensions of the spaces 20 defined between the wire rods 16, will to an extent, depend on the function to be served by the panels. Thus, if the panels are to be employed as high security fencing to prevent access to or egress from a site, the gaps defined by the parallel wires of the assembled panels may be, for example, around 4.7mm inter alia to prevent 0.22 calibre (5.58mm) bullets passing through the fence panels without a high probability of severe deflection, while not preventing a person seeing through the panel assembly for inspection purposes.
As shown best in Figure 3 of the drawings, vertically extending folds 22 are created within the panels 14 at positions "A" (see Figure 1) where the panels 14 join the panels 10 and 12, the individual wires of each fold 22 extending through neighbouring vertically spaced apertures of an adjoining panel 10, 12 to define a vertical space within which is positioned a stitching rod or tube 24 (referred to below as rods for ease of understanding) . In this way the assembly of the zig-zag panels 14 and the panel lines 10, 12 is completed.
Preferably, the stitching rods are produced from steel or a material having similar properties to steel such as stainless steel or a high tensile steel.
As illustrated the folds 22 are produced simply by folding each panel about a selected vertical line; alternatively, the folds 22 are produced by cutting a panel along a selected vertical line, the cut panels then being welded or otherwise joined together to produce the required fold.
The lower ends of the stitching rods 24 and the lower edges of the panels are positioned in relatively shallow foundations. Typically, the depth of the foundations will be of the order of 22cms. This compares with a depth typically of around lOOcms for supporting posts of conventional fencing. Turning now to the embodiment of the invention illustrated in Figures 5 to 7, the illustrated fencing differs essentially from that described above in the way in which the fencing panels 14 are connected to the panels 10, 12.
As will be seen from Figures 6 and 7, whereas the folds 22 of the panels 14 extend into the openings 20 of the panels 10, 12, they do not extend sufficiently through these openings to enable a stitching post 24 to be positioned as shown in Figure 3. Thus, in the embodiment of Figures 5 to 7 the stitching rods 24 are positioned adjacent the inwardly facing sides of the panels 10, 12 and are retained in place by joint members 26.
Each joint member 26 includes a pair of generally parallel vertical arms which extend over the full height of the respective fence panel and a series of spaced arcuate members 30 which project through openings in the respective panels and are shaped to receive a stitching rod 24.
Turning now to the embodiment of the invention illustrated in Figures 8 to 10, individual primary panels 10, 12, 14 are joined along their sides by means of joint members 32. These preferably extend over the full height of the individual panels; alternatively, they may extend over only a portion or portions of the full height of each panel.
Each joint member 32 includes a pair of folded sections 34 each formed with a series of slots 36 which enable the joint members 32 to extend into and through the spaces defined between neighbouring lengthwise extending rods 16 of the respective fence panels. The ends of the folded sections which protrude through the fence panels define openings to receive vertically extending stitching rods 38 thereby to connect the adjoining fence panels together.
The joint members 32 and the stitching rods 38 preferably extend over the full height of the joined panels with the lower ends of the stitching rods set in the foundation. Alternatively, the joint members 32 may extend over only one or more discrete height sections of the panels.
An alternative to creating folds 22 in the panels 14 is illustrated in Figures 11 and 12. In these embodiments, the panels 14 are cut into individual lengths and joined by apex connectors 43 and/or 44. Stitching rods 24 are provided as shown in these figures.
The joint members shown in Figures 13 to 15 comprise sheet or wire members 40 each folded to define two generally semi circular channels 42 which project through openings 20 of the adjoining panels to be connected, the joint members being held in place by stitching rods 38.
Other forms of joint members may be employed, all serving essentially the same function as those described above.
Turning now to the embodiment of the invention illustrated in Figure 16, it will be seen that the secondary panels each comprise a line of panels 14A, 14B each the same or similar to the individual panels 14 illustrated in Figure 1, and each connected one to the other by stitching rods 24 positioned mid way between lines of primary panels 10, 12.
The described security fencing provides substantial resistance to, for example, vehicle attack by creating a uniform high resistance to penetration. Also, any attempt to penetrate the fencing by the use of power tools would be drastically inhibited because of the many layers of fencing employed. The voids present between the various lines of fencing can readily be filled with, for example, barbed or razor wire to provide additional resistance to penetration.
It is envisaged that the zig-zag inner fencing panels need only be of a height of between 2.4 and 3.0 meters with the panels of the two outer fencing lines being considerably higher and supported by stitching rods.
Both sides of the described fencing can be considered as potential attack faces. The described fencing creates formidable resistance to attack by hostile vehicles and attack on foot; it also lends itself to ballistic resistance. As mentioned, in a preferred arrangement the fencing panels only leaves a theoretical gap of 4.7mm in the horizontal plane thereby preventing even bullets of .22-calibre (5.58mm) passing from one side of the fencing to the other without serious deflection and without adversely affecting the transparency of the fencing.
Typical applications for fencing as described above include military establishments, borders, animal enclosures, nuclear power stations, high security private establishments, rapid development requirements, Governmental establishments, temporary crowd control, airports, prisons, and gate and barrier infills .
It will be appreciated that the foregoing is simply explanatory of security fencing in accordance with the invention and that modifications thereto can readily be made without departing from the invention as claimed in the application.

Claims

1. Security fencing characterised in that it comprises at least two spaced apart lines of primary fence panels (10,12) and one or more lines of secondary fence panels (14) which extend between and are attached to said lines of primary fence panels, in that each said primary and secondary fence panel comprises a multiplicity of spaced lengthwise extending generally parallel wire rods (16) welded to a multiplicity of generally parallel upstanding spaced wire rods (18), and in that the lengthwise extending wire rods of each secondary panel includes a fold (22) which extends over the entire height of each said secondary panel and is dimensioned to receive a stitching rod (24) to enable said one secondary panel to be connected to an adjoining primary panel.
2. Fencing as claimed in claim 1 characterised in that the at least two lines of primary fence panels (10,12) are generally parallel.
3. Fencing as claimed in claims 1 or claim 2, characterised in that the secondary panels (14) define a plurality of zig-zag lines, the ends of such zig-zag lines of secondary panels (14) which abut one or other of the lines of primary panels (10) each including an upstanding fold (22) which co-operates with an upstanding stitching rod (24) to create a unitary security fence.
4. Fencing as claimed in any one of claims 1 to 3 characterised in that each primary and each secondary panel comprises prefabricated welded wire rod mesh.
5. Fencing as claimed in claim 4 characterised in that each primary and each secondary panel is coated with a protective layer of zinc and/or aluminium.
6. Fencing as claimed in any one of the preceding claims characterised in that spaced wire rods of a fold (22) of each secondary panel project into and through the spacing formed between neighbouring wire rods of the primary fence panel to which it is attached.
7. Fencing as claimed in any one of the preceding claims characterised in that the lower end of each stitching rod (24) is, in use, located in a foundation whose depth is of the order of 22cms.
8. Fencing as claimed in claim 7 characterised in that the lower edges of the primary and/or the secondary panels locate in foundations whose depth is of the order of 22cms.
9. Security fencing which includes at least two spaced apart lines of primary fence panels (10,12) and one or more lines of secondary fence panels (14) which extend between and are attached to said lines of primary fence panels, each said primary and secondary prefabricated panels having a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, an upstanding fold formed in the lengthwise extending rods of at least one prefabricated panel of each line of secondary fence panels, an upstanding open-sided U shaped connecting member formed on its closed side with a series of spaced openings into which the folded lengthwise extending wire rods of said at least one secondary fence panel extend, the open side of the connecting member extending through adjacent apertures of the openings of an adjoining primary prefabricated panel, and an upstanding stitching rod (16) located within the U shape of the connecting member to secure one prefabricated panel to the other .
10. Fencing as claimed in claim 9 characterised in that the ground engaging ends of all or a majority of the upstanding stitching rods (16) are, in use, located in foundations whose depth is of the order of 22cms.
11. Security fencing as claimed in claim 9 or claim 10 which comprises two generally parallel rows of primary prefabricated panels and a plurality of rows of secondary prefabricated panels which extend between and are connected to panels of said two generally parallel rows of primary panels, those panels of each said secondary row which adjoin panels of said primary rows including folds in each of which is located a stitching rod.
12. A method of producing security fencing which includes a primary prefabricated panel and a secondary such panel set an angle to said primary panel, each said panel including a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, said method being characterised by the steps of providing in lengthwise extending wire rods of said secondary panel a generally vertical fold, projecting the apices of the wire rods which define said fold into and through adjoining vertically spaced openings of the primary prefabricated panel, and locating within the space defined between the folded wire rods of said secondary panel and the opposed wire rods of said first panel an upstanding stitching rod to join one panel to the other.
13. A method as claimed in claim 12 wherein the fencing comprises generally parallel rows of said primary prefabricated panels joined by a plurality of said secondary prefabricated panels.
14. Security fencing which includes primary and secondary prefabricated panels each having a multiplicity of spaced lengthwise extending wire rods welded to a multiplicity of upstanding spaced wire rods to define a plurality of generally square or rectangular apertures, an upstanding fold formed in the lengthwise extending rods of said secondary prefabricated panel, an upstanding open-sided U shaped connecting member formed on its closed side with a series of spaced openings into which the folded lengthwise extending wire rods of said secondary prefabricated panel extend, the open side of the connecting member extending through adjacent apertures of the openings of said primary prefabricated panel, an upstanding stitching rod located within the U shape of the connecting member to secure one prefabricated panel to the other, and a connector for joining two said prefabricated panels along their adjoining sides, the connector comprising a pair of open-sided elongate members each formed with vertically spaced openings through which lengthwise extending wires of both panels can project, and a stitching rod for positioning in each opening to lock the elongate members to the respective fence panel.
PCT/EP2019/071097 2018-08-07 2019-08-06 Security fencing WO2020030630A1 (en)

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GB1812830.6A GB2576176B (en) 2018-08-07 2018-08-07 Security fencing
GB1812830.6 2018-08-07

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4003178A (en) 1974-05-13 1977-01-18 Robert Charles Douthwaite Open mesh metal panels
US4530622A (en) * 1982-12-23 1985-07-23 P.L.G. Research Limited Retaining fill in a geotechnical structure
DE202004013865U1 (en) 2004-09-07 2005-01-13 Gamma Gmbh Flat element as light protective fence, for example, has vertical side frame section of each lattice element constructed as inwards orientated bend, with bends of two abutting frame sections forming holder for connecting rod
DE102006024070A1 (en) 2006-05-23 2007-11-29 Michael Haas Wire frame with connector e.g. for connecting single wire frame panels, linked adjacent to each other and have wire mesh panels with lattice formed with crossing points of rods firmly linked together which together form grid box
WO2017194977A1 (en) * 2016-05-13 2017-11-16 Zaun Limited Security barrier assemblies

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2804227A (en) * 1956-02-09 1957-08-27 Ernest T Elfgren Wire container structure
BE898624A (en) * 1984-01-06 1984-05-02 Bekaert Sa Nv HOLDER OR CONTAINER FOR COMPOSITE OR THE LIKE

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4003178A (en) 1974-05-13 1977-01-18 Robert Charles Douthwaite Open mesh metal panels
US4530622A (en) * 1982-12-23 1985-07-23 P.L.G. Research Limited Retaining fill in a geotechnical structure
DE202004013865U1 (en) 2004-09-07 2005-01-13 Gamma Gmbh Flat element as light protective fence, for example, has vertical side frame section of each lattice element constructed as inwards orientated bend, with bends of two abutting frame sections forming holder for connecting rod
DE102006024070A1 (en) 2006-05-23 2007-11-29 Michael Haas Wire frame with connector e.g. for connecting single wire frame panels, linked adjacent to each other and have wire mesh panels with lattice formed with crossing points of rods firmly linked together which together form grid box
WO2017194977A1 (en) * 2016-05-13 2017-11-16 Zaun Limited Security barrier assemblies

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GB2576176B (en) 2022-08-31
GB2576176A (en) 2020-02-12

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