WO2017052384A1 - Isolateur - Google Patents
Isolateur Download PDFInfo
- Publication number
- WO2017052384A1 WO2017052384A1 PCT/NZ2016/050153 NZ2016050153W WO2017052384A1 WO 2017052384 A1 WO2017052384 A1 WO 2017052384A1 NZ 2016050153 W NZ2016050153 W NZ 2016050153W WO 2017052384 A1 WO2017052384 A1 WO 2017052384A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- insulator
- stapler
- alignment
- mounting formation
- passage
- Prior art date
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01B—CABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
- H01B17/00—Insulators or insulating bodies characterised by their form
- H01B17/14—Supporting insulators
- H01B17/145—Insulators, poles, handles, or the like in electric fences
Definitions
- the present invention relates to an insulator.
- the present invention relates to an insulator for use with a fence. More particularly the present invention relates to an electric fence insulator for use with a powered stapler.
- Electric fences are in widespread use in a number of applications, including farming and security. Electric fences are a particularly important tool in farming applications due to their flexibility and ease of use.
- An insulator is commonly provided to enable an electric fence barrier element to be secured to a fence post, standard or support.
- the insulator in addition to securing the electric fence barrier element electrically insulates the fence post, standard or support from the electric fence barrier element.
- Fence support fence standard and fence post are used interchangeably throughout. The term is used to refer to an upright or in use a substantially vertical support that is used in a fence to support a barrier element.
- barrier element should be understood as meaning a component of a fencing system .
- the barrier elements may be an electric wire, or an electric fence ribbon, tape, braid or rope.
- An object of the present invention is to provide an insulator that can be used with a powered stapler.
- Each object is to be read disjunctively with the object of at least providing the public with a useful choice.
- the present invention aims to overcome, or at least alleviate, some or all of the aforementioned problems.
- the present invention provides an insulator comprising : an insulator body having a front and back; a formation for supporting a barrier element; and
- At least one mounting formation having a front and a back by which the insulator is attached to a support, the back of the mounting formation in use being proximal to the support, at least one of the at least one mounting formation comprising :
- At least one passage extending transversely through the mounting formation from the front to the back of the mounting formation, at least one of the at least one passage being an arc slot.
- At least one passage is at least two passages and wherein at least two of the at least two passages are aligned on a pitch circle.
- the at least one of the at least one mounting formation has at least three passages.
- the at least one of the at least one mounting formation further comprising at least one alignment member, each at least one alignment member having an axis substantially perpendicular to the front of the mounting formation.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage.
- the alignment member is an aperture in the at least one of the at least one mounting formation.
- the alignment aperture has a first end at the front of the at least one of the at least one mounting formation and the alignment aperture is tapered such that the alignment aperture is wider at the first end.
- the alignment aperture has a first end at the front of the at least one of the at least one mounting formation and the alignment aperture is bevelled at the first end.
- the alignment aperture includes a step.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is a probe and the alignment aperture is a friction fit with the stapler alignment probe.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is a probe, the stapler probe having a ball plunger proximal to the distal end of the probe wherein in use the stapler alignment probe is within the alignment aperture and the ball plunger of the stapler alignment probe is within the alignment aperture step.
- the alignment member is a probe protruding from the front of the at least one of the at least one mounting formation.
- the alignment probe has a first end proximal to the front of the at least one of the at least one mounting formation and the alignment probe is tapered such that the alignment probe is wider at the first end.
- the alignment probe has a second end distal from the front of the at least one of the at least one mounting formation and the alignment probe is bevelled at the second end.
- the alignment probe includes an annular recess proximal to the second end.
- the insulator is for use with a stapler and the alignment probe together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is an aperture and the alignment probe is a friction fit with the stapler alignment aperture.
- the insulator is for use with a stapler and the alignment probe together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is an aperture, the stapler aperture having a ball plunger and wherein in use the alignment probe is within the stapler aperture and the ball plunger of the stapler aperture is within the alignment probe annular recess.
- the alignment member allows the insulator to rotate.
- the insulator can rotate up to 360 degrees.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the alignment member and alignment member of the stapler allow the insulator to rotate.
- the insulator can rotate up to 360 degrees.
- the insulator is for use with a stapler and wherein the at least one of the at least one mounting formation further comprises a securing member for securing the insulator to the stapler.
- the securing member is a slot in the at least one of the at least one mounting formation.
- the securing member is an indent in the at least one of the at least one mounting formation.
- the securing member is a passage in the at least one of the at least one mounting formation.
- the insulator body is elongated and has a mounting formation at each end of the longitudinal axis of the elongated body.
- the formation for supporting a barrier element comprises:
- a forked portion having a pair of limbs extending in a spaced apart relation; a hole set extending transversely through the first and second of the limbs, the hole in each of the first and second limbs being coaxially aligned; and a pin, wherein in use the barrier element is secured between the two limbs by the pin and the pin is secured in the hole set.
- the formation for supporting a barrier element comprises a pair of opposed claws.
- the barrier element is selected from the group comprising fencing wire, fencing tape, fencing braid and fencing rope.
- the insulator is an electric fence insulator.
- the back side of the insulator body has support gripping members.
- the support gripping members are protrusions.
- the support gripping members are ridges.
- the back side of the insulator body is oval in cross section.
- the oval cross section is sized for a support of between 100 mm and 250 mm in diameter.
- the support is wooden.
- each of the passages are tapered being narrower at the back side of the at least one of the at least one mounting formation.
- the present invention provides an insulator comprising :
- an insulator body having a front and back
- At least one mounting formation having a front and a back by which the insulator is attached to a support, the back of the mounting formation in use being proximal to the support, at least one of the at least one mounting formation comprising :
- the at least one of the at least one mounting formation has at least four passages.
- the at least one mounting formation further comprises at least one alignment member, each at least one alignment member having an axis substantially perpendicular to the front of the mounting formation.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage.
- the alignment member is an aperture in the at least one of the at least one mounting formation.
- the alignment aperture has a first end at the front of the at least one of the at least one mounting formation and the alignment aperture is tapered such that the alignment aperture is wider at the first end.
- the alignment aperture has a first end at the front of the at least one of the at least one mounting formation and the alignment aperture is bevelled at the first end.
- the alignment aperture includes a step.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is a probe and the alignment aperture is a friction fit with the stapler alignment probe.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is a probe, the stapler probe having a ball plunger proximal to the distal end of the probe and wherein in use the stapler alignment probe is within the alignment aperture and the ball of the ball plunger of the stapler alignment probe is within the alignment aperture step.
- the alignment member is a probe protruding from the front of the at least one of the at least one mounting formation.
- the alignment probe has a first end proximal to the front of the at least one of the at least one mounting formation and the alignment probe is tapered such that the alignment probe is wider at the first end.
- the alignment probe has a second end distal from the front of the at least one of the at least one mounting formation and the alignment probe is bevelled at the second end.
- the alignment probe includes an annular recess proximal to the second end.
- the insulator is for use with a stapler and the alignment probe together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is an aperture and the alignment probe is a friction fit with the stapler alignment aperture.
- the insulator is for use with a stapler and the alignment probe together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the stapler alignment member is an aperture, the stapler aperture having a ball plunger and wherein in use the alignment probe is within the stapler aperture and the ball of the ball plunger is within the alignment probe annular recess.
- the alignment probe allows the insulator to rotate.
- the insulator can rotate up to 360 degrees.
- the insulator is for use with a stapler and the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage and wherein the alignment probe and alignment member of the stapler allow the insulator to rotate.
- the insulator can rotate up to 360 degrees.
- the insulator is for use with a stapler and wherein the at least one of the at least one mounting formation further comprises a securing member for securing the insulator to the stapler.
- the securing member is a slot in the at least one of the at least one mounting formation.
- the securing member is an indent in the at least one of the at least one mounting formation.
- the securing member is a passage in the at least one of the at least one mounting formation.
- the insulator body is elongated and has a mounting formation at each end of the longitudinal axis of the elongated body.
- the formation for supporting a barrier element comprises:
- a forked portion having a pair of limbs extending in a spaced apart relation; a hole set extending transversely through the first and second of the limbs, the hole in each of the first and second limbs being coaxially aligned; and a pin, wherein in use the barrier element is secured between the two limbs by the pin and the pin is secured in the hole set.
- the formation for supporting a barrier element comprises a pair of opposed claws.
- the barrier element is selected from the group comprising fencing wire, fencing tape, fencing braid and fencing rope.
- the insulator is an electric fence insulator.
- the back side of the insulator body has support gripping members.
- the support gripping members are protrusions.
- the support gripping members are ridges.
- the back side of the insulator body is oval in cross section.
- the oval cross section is sized for a support of between 100 mm and 250 mm in diameter.
- the support is wooden.
- each of the passages are tapered being narrower at the back side of the at least one of the at least one mounting formation.
- the present invention consists in a mounting formation for use with a stapler comprising :
- At least one passage extending transversely through the mounting formation from the front to the back of the mounting formation, at least one of the at least one passage being an arc slot.
- At least one passage is at least two passages and wherein at least two of the at least two passages are aligned on a pitch circle.
- the mounting formation has at least three passages.
- each mounting formation further comprising at least one alignment member, each at least one alignment member having an axis substantially perpendicular to the front of the mounting formation.
- the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage.
- the present invention consists in a mounting formation, for use with a stapler comprising :
- the mounting formation has at least four passages.
- each mounting formation further comprising at least one alignment member, each at least one alignment member having an axis substantially perpendicular to the front of the mounting formation.
- the alignment member together with a passage and at least one alignment member of a stapler cooperate to align the stapler so that at least one leg of a staple is fired through one of the at least one passage.
- the present invention consists in an electric fence having at least one substantially vertical support, and an insulator as described above.
- the present invention consists in an electric fence system having at least one substantially vertical support, and an insulator as described above.
- Figure 1 shows a front perspective view of the insulator according to an embodiment of the present invention
- Figure 2 shows a top view of the view of the insulator according to an embodiment of the present invention
- Figure 3 shows a side view of the insulator according to an embodiment of the present invention
- Figure 4 shows a bottom view of the insulator according to an embodiment of the present invention
- Figure 5 shows an end view of the insulator according to an embodiment of the present invention
- Figure 6 shows a perspective view of the insulator according to another embodiment of the present invention.
- Figure 7 shows the insulator according to an embodiment of the present invention showing the pitched circle alignment of the passages
- Figure 8 shows the insulator according to another embodiment of the present invention showing the pitched circle alignment of the passages
- Figure 9 shows a diagram of part of an example electric fence system
- Figures 10 to 15 show alternative embodiments of an insulator of the present invention
- Figure 16 shows a perspective view of the insulator according to an embodiment of the present invention, with a stapler muzzle attachment and stapler muzzle;
- Figure 17 shows an end view of the insulator according to an embodiment of the present invention, with a stapler muzzle attachment and stapler muzzle;
- Figure 18 shows a cross section of the insulator, stapler muzzle attachment and stapler muzzle of Figure 17 taken along lines A-A;
- Figure 19 shows a perspective exploded view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle;
- Figure 20 shows a side exploded view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle;
- Figure 21 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle;
- Figure 22 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle;
- Figure 23 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle;
- Figure 24 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle, with the insulator connected to the attachment;
- Figure 25 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle, with the insulator connected to the stapler muzzle attachment;
- Figure 26 shows a further exploded perspective view of the insulator of the present invention, a stapler muzzle attachment and stapler muzzle, with the insulator connected to the stapler muzzle attachment;
- Figure 27 shows a further exploded perspective view of an alternative insulator, an alternative stapler muzzle attachment and stapler muzzle, with the insulator connected to the stapler muzzle attachment.
- an insulator 1 is provided for securing a fence barrier element 142 to a fence support 120 such as a fence post or fencing standard.
- the fence barrier element 142 will typically be in an electric fence 141 but the fence may not necessarily be an electric fence.
- the insulator 1 is suitable for use in a non-electric fence.
- FIG. 9 An example of an electric fence system 141 is illustrated in Figure 9.
- An electric fence energizer 140 is connected to electric fence barrier elements 142.
- the electric fence barrier elements 142 are supported by fence supports 120 and the electric fence barrier elements 142 are secured to the fence supports 120 by insulators 1.
- the fence support 120 may be made of wood, plastic, fibreglass, concrete or other suitable material.
- the insulator 1 of the present invention has an insulator body 2, integral with the insulator body 2 is a formation for supporting a barrier element 142 and a mounting formation for mounting or securing the insulator 1 to a fence support 120.
- the formation for supporting the barrier element 142 includes a pair of limbs 12, 13 extending in a spaced apart relation. Each of the limbs 12, 13 has a hole 14, 15 through which a pin 16 can pass. The holes 14, 15 are coaxially aligned.
- a barrier element 142 is secured between the limbs 12, 13 and the pin 16 is secured in the holes 14, 15 with the barrier element 142 secured in a position between the limbs 12, 13 by the pin 16.
- the pin 16 for securing the barrier element 142 is optionally attached to the insulator 1 by a tie 21 and for ease of insertion an insertion assistance member 22 may be provided.
- the insertion assistance member 22 makes it easier for the pin 16 to be inserted using a thumb, a finger, fingers or any combination thereof.
- the pin 16 may have barbs 29 for securing the pin 16 in the holes 14, 15.
- One part of the pin 16 may have a shoulder portion 30 so that the part of the pin 16 with the shoulder portion 30 is a friction fit in at least one of the holes 14, 15.
- the formation for supporting a barrier element 142 may be a pair of opposed claws 45, 46.
- the formation by which the insulator 1 is attached to the fence support 120 has referring again to Figures 1 to 6 at least one mounting formation 40.
- the insulator may have two mounting formations 40, 41.
- Mounting formations 40 and 41 have a front side 43 and a back side 44 by which the insulator 1 is attached to a support 120.
- the back of each mounting formation 44 when the insulator 1 is being used is proximal to the support 120.
- Each mounting formation 40, 41 has a number of passages 50 extending transversely through the mounting formation 40, 41 from the front side 43 to the back side 44 of the mounting formations 40, 41.
- each passage 50 in each mounting formation 40, 41 and the passage 50 is an arc slot.
- At least two of the passages 50 are aligned on a pitch circle 302.
- passages 50 are possible including three or four substantially circular passages, some or all of which may be aligned on a pitch circle 302.
- the end of the passage 50 at the front side 43 of the mounting formations 40, 41 may in one embodiment be bevelled 61.
- the insulator 1 in the preferred embodiment has an alignment member 70 in each mounting formation 40, 41.
- the axis of the alignment member is substantially perpendicular to the front 43 of the mounting formation.
- the alignment member 70 cooperates with a respective first alignment member of a stapler attachment and a passage 50 cooperates with a second alignment member of the stapler muzzle attachment to align a stapler with the mounting formation so at least one leg of a staple is fired though a passage 50.
- each leg of a staple is fired through a passage 50.
- the axis 301 of the pitch circle 302 is in one embodiment the same axis as the axis of the alignment member 70.
- the alignment member 70 is preferably an aperture or passage through the mounting formation 40, 41. Alternatively the alignment member 70 may be a protrusion.
- the alignment member 70 is preferably tapered and has a bevelled opening 71 if a passage or bevelled end if a protrusion
- the alignment member 70 has a step 72 that matches a step on an alignment member of a stapler attachment to assist in securing the insulator 1 to the stapler.
- the alignment member 70 of the insulator 1 and the first alignment member of a stapler muzzle attachment are in the preferred embodiment a friction fit.
- the alignment member of a stapler muzzle attachment if a probe may have a ball plunger proximal the distal end of the probe, in use the ball plunger fits within the alignment passage step 72 of the insulator 1.
- the alignment member of a stapler muzzle attachment may have a split ring in a slot on the probe that fits within the insulator alignment passage step 72.
- the alignment member 70 of the insulator 1 is a protrusion/probe and the alignment member of the stapler attachment is a passage a ball plunger may be located within the passage and the alignment member 70 of the insulator may have a step proximal the distal end into which the ball plunger ball fits.
- a split ring may be located in a slot within the passage and the alignment member 70 may have a slot proximal the distal end into which in use the split ring fits.
- the alignment member 70 is preferably substantially circular and allows the insulator 1 to rotate when the insulator 1 alignment member 70 and the alignment member of a stapler muzzle attachment are mated.
- the insulator can rotate up to 360 degrees.
- the insulator 1 may additionally have a securing member for securing the insulator 1 to a stapler attachment.
- the securing member is a slot 402, 403 in the mounting formation 40, 41.
- the securing member may be an indent or a hole in the mounting formation 40, 41.
- the insulator 1 may have multiple securing members.
- the back or rear side 44 of the insulator 1 is in the preferred embodiment substantially oval 90 in cross section as seen in Figure 5.
- the back side 44 of the insulator 1 may additionally have support gripping members 80.
- the support gripping members 80 may be protrusions or ridges.
- the oval cross section 80 assists the insulator 1 in gripping to round fence posts (including full round, half round and quarter round).
- the oval cross section in one embodiment is sized for a fence post of between 100 mm and 250 mm in diameter.
- the insulator 1 of the present invention is formed using injection moulding techniques that are well known in the art.
- the insulator 1 may be made from polyethylene, or other plastic type materials such as, for example, acetal, polypropylene, nylon, polyurethane and the like having electrical insulation properties.
- Figures 10 to 15 show alternative implementations of the insulator of the present invention.
- the passages 50 may for example be open as shown in Figure 10.
- the passages 50 may be a trefoil of three overlapping substantially circular passages as seen in Figures 11 and 12.
- More than one alignment member 70 may be provided on each mounting formation 40, 41 and the alignment member of the stapler muzzle attachment may be configured to partially surround the shaped mounting formation such as shown in Figures 13 and 14 or fit into indents 402, 403 in the mounting formation as shown in Figure 10.
- Figure 27 shows an alternative muzzle 100 having forks 350, 351. In use the forks 350, 351 fit into ridges 352-359 in the insulator 1.
- FIGs 16 to 26 illustrate the insulator 1 and the staple muzzle attachment with a muzzle of a stapler.
- the insulator 1 is secured to an attachment 100 via a securing member 105.
- the stapler muzzle attachment 100 has a passage 130 into which the muzzle 200 of a stapler may be inserted.
- the staples 400 are aligned by staple alignment member 210.
- the securing member 105 also acts as a first alignment member.
- the staple muzzle attachment 100 has a securing member 105 having a ball plunger 110 and a second alignment member 124.
- the second alignment member 124 is sprung using a spring 121 and is held in a passage 101 of the staple muzzle attachment 100 by a screw 122.
- the second alignment member protrudes from end 123 of the passage 101.
- the securing member 105 is inserted into the alignment member 70 of the insulator 1 and the ball of the ball plunger 110 is located within the step 72 of the insulator alignment member 70.
- the securing member 105 allows the insulator 1 to rotate while being held to the staple muzzle attachment 100. In one embodiment the insulator 1 can rotate 360 degrees while the insulator is attached to the attachment 100.
- the second alignment member 124 of the staple muzzle attachment 100 protrudes into a passage 50 of the insulator 1 such that when that the legs 401 of a staple 400 are fired the legs 401 pass through other passages 50 of the insulator 1.
- a user rotates the attachment 100 with respect to an insulator 1 until the second alignment member 124 is within a passage 50.
- the bevel 61 assists the process.
- a staple 400 when fired will fire each leg 401 of a staple though another passage 50 in the insulator 1.
- the passages 50 are located on the pitched circle 302 such that when the second alignment member 124 is within a passage 50 the legs 401 of a staple 400 are located such that each leg 401 passes through another passage 50 of the insulator 1.
- the passage into which the alignment member 124 is located may be the same passage through which a leg 401 of a staple 400 passes.
- the second alignment member 124 With the securing member 105 centre as the axis of a pitched circle 302, if the second alignment member 124 is located at zero degrees, the legs 401 of the staple 400 fire at 90 degrees and 270 degrees respectively.
- the second alignment member 124 When the securing member/first alignment member 105 is engaged with the securing member 70 of the insulator and the second alignment member 124 is located in a passage 50, the second alignment member 124 may be swept freely within the arc slot passages 50, thereby allowing a limited sweep.
- the second alignment member 124 being spring-loaded, provides a resistance to, but not prevention of, rotation if swept between any two passages 50, to encourage correct alignment between a staple leg and a passage 50.
Landscapes
- Electric Cable Installation (AREA)
Abstract
L'invention porte sur un isolateur, l'isolateur comprenant un corps d'isolateur présentant un avant et un arrière ; une formation destinée à porter un élément barrière ; et au moins une formation de montage présentant un avant et un arrière par laquelle l'isolateur est fixé à un support, l'arrière de la formation de montage, lors de l'utilisation, étant proximale par rapport au support, au moins une desdites formations de montage comprenant : au moins un passage s'étendant transversalement à travers la formation de montage de l'avant à l'arrière de la formation de montage, au moins un desdits passages étant une fente d'arc.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
NZ712549 | 2015-09-21 | ||
NZ71254915 | 2015-09-21 |
Publications (1)
Publication Number | Publication Date |
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WO2017052384A1 true WO2017052384A1 (fr) | 2017-03-30 |
Family
ID=58386630
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/NZ2016/050153 WO2017052384A1 (fr) | 2015-09-21 | 2016-09-21 | Isolateur |
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WO (1) | WO2017052384A1 (fr) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022169372A1 (fr) * | 2021-02-04 | 2022-08-11 | Goldpine Industries Ltd | Isolant |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4771137A (en) * | 1987-10-13 | 1988-09-13 | Thompson Donald G | Electric fence wire insulator |
US6864855B1 (en) * | 2003-09-11 | 2005-03-08 | Dx Antenna Company, Limited | Dish antenna rotation apparatus |
US20070008716A1 (en) * | 2005-07-11 | 2007-01-11 | Glickman Mark F | Light fixture retrofitting apparatus and method |
-
2016
- 2016-09-21 WO PCT/NZ2016/050153 patent/WO2017052384A1/fr active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4771137A (en) * | 1987-10-13 | 1988-09-13 | Thompson Donald G | Electric fence wire insulator |
US6864855B1 (en) * | 2003-09-11 | 2005-03-08 | Dx Antenna Company, Limited | Dish antenna rotation apparatus |
US20070008716A1 (en) * | 2005-07-11 | 2007-01-11 | Glickman Mark F | Light fixture retrofitting apparatus and method |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022169372A1 (fr) * | 2021-02-04 | 2022-08-11 | Goldpine Industries Ltd | Isolant |
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