Insulator end fitting with non-machined annular attachment flange

Information

  • Patent Grant
  • 6326552
  • Patent Number
    6,326,552
  • Date Filed
    Wednesday, December 1, 1999
    25 years ago
  • Date Issued
    Tuesday, December 4, 2001
    23 years ago
Abstract
An end fitting for an insulator includes a main cast body for securement to an external structure and a non-machined annular flange rigidly attached at an end of the main cast body and defining a hole for receiving an end of a fiberglass rod to secure the annular flange to the fiberglass rod in assembling the insulator. At least a portion of the annular flange is formed of a preformed annular member defining at least an interior diameter of the annular flange. The use of the preformed annular member eliminates the need for two costly secondary machining operations to prepare the annular flange for receiving and crimping on the fiberglass rod of the insulator.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention generally relates to insulators and, more particularly, is concerned with an insulator end fitting with a non-machined annular attachment flange.




2. Description of the Prior Art




Insulators are widely used by the electric utility industry for a variety of applications. Heretofore, Ohio Brass, a subsidiary of Hubbell Incorporated, has manufactured and marketed a number of different types of insulators, sometimes referred to as polymer insulators, for different applications, such as deadend, suspension, transmission, line post and the like.




Referring to

FIGS. 1

to


12


, there is illustrated a typical prior art insulator


10


. The insulator


10


basically includes an elongated fiberglass rod


12


, a plurality of weathersheds


14


disposed end-to-end along the rod


12


and an end fitting


16


attached on each of a pair of opposite ends


12


A of the fiberglass rod


12


. The weathersheds


14


are typically made of rubber and are either molded directly around the rod


12


or slipped thereover with the use of a dielectric grease as a rubber-rod interface. The end fittings


16


are typically of various shapes, as seen in

FIGS. 2

to


6


, to serve a variety of utility applications and are normally made of ductile iron and fabricated by casting and either potted (glued) or crimped onto the ends of the fiberglass rod. Whether potted or crimped to the fiberglass rod, a hole


18


is first bored in one end


16


A of a solid cast body of the end fitting


16


to receive one of the ends


12


A of the rod


12


.




Where a crimp attachment is to be used the end fitting fabrication steps typically employed are as follows. First, a cast of the solid body of the end fitting is made, such as in a sand cast mold. Next, a first machining operation is performed on the end fitting to provide a precise known outside diameter on the one end of the end fitting to use later in boring the hole. Following next, the whole end fitting is hot dip galvanized. Then, a second machining operation is performed on the end fitting by boring the hole in the end thereof to accept the end of the fiberglass rod. By employment of the two machining operations, the flange portion left on the end fitting about the hole has the desired thickness appropriate for the crimping operation. Ductile iron is usually used for the cast portion of the end fittings and, if ductile iron is used, then low carbon steel is used for the annular attachment flange. However, cast aluminum could be used for an end fitting and then the annular attachment flange would also be aluminum.




The above-described fabrication steps, though effective in producing an end fitting having a suitable end flange portion adapted to receive an end of the fiberglass rod, are nonetheless costly and time-consuming to carry out Consequently, there is a need for innovation in the method of fabricating the end fitting that will overcome these problems without introducing new problems in place thereof.




SUMMARY OF THE INVENTION




The present invention provides an insulator end fitting designed to satisfy the aforementioned need. The end fitting of the present invention involves casting the body of the end fitting with a non-machined annular attachment flange that utilizes a preformed annular member. This provides a more cost-effective and less complicated way of fabricating the end fitting by eliminating the need for the two secondary machining operations and their associated high costs of the prior art method of fabricating the attachment flange portion of the end fitting to prepare the end fitting for receiving and crimping on a fiberglass rod of the insulator.




Accordingly, the present invention is directed to an end fitting for an insulator which comprises: (a) a main cast body for securement to an external structure; and (b) a non-machined annular flange rigidly attached at an end of the main cast body and defining a hole for receiving an end of a fiberglass rod to secure the annular flange to the fiberglass rod in assembling the insulator. At least a portion of the annular flange is comprised of a preformed annular member defining at least an interior diameter of the annular flange.




More particularly, the preformed annular member can take any one of three different embodiments. In a first embodiment, the preformed annular member is a section of pipe. The end of the main cast body has an annular recess receiving an end of the section of pipe such that the main cast body is rigidly attached to the end of the section of pipe. In a second embodiment, the preformed annular member is a precut metal tube disposed at interior diameter of the annular flange. The annular flange includes an annular cast body surrounding the precut metal tube and integrally attached to the main cast body at the end thereof and made of the same material as the main cast body. In a third embodiment, the preformed annular member is a prestamped metal tubular member having interior and exterior annular walls disposed at the interior and exterior diameters of the annular flange. The annular flange includes an annular cast body disposed between the interior and exterior annular walls of the prestamped metal tubular member and integrally attached to the main cast body at the end thereof and made of the same material as the main cast body.




The present invention is also directed to an insulator which comprises: (a) an elongated fiberglass rod having a pair of opposite ends; (b) a plurality of weathersheds disposed along the fiberglass rod between the opposite ends thereof; and (c) a pair of end fittings each crimped to one of the opposite ends of the fiberglass rod, each of the end fittings having the construction as described above.




These and other features and advantages of the present invention will become apparent to those skilled in the art upon a reading of the following detailed description when taken in conjunction with the drawings wherein there is shown and described an illustrative embodiment of the invention.











BRIEF DESCRIPTION OF THE DRAWINGS




In the following detailed description, reference will be made to the attached drawings in which:





FIG. 1

is a foreshortened longitudinal view of a prior art insulator.





FIG. 2

is a side elevational view of one type of end fitting shown disposed at one end of the prior art insulator of FIG.


1


.





FIG. 3

is a side elevational view of another type of end fitting shown disposed at the other end of the prior art insulator of FIG.


1


.





FIG. 4

is a side elevational view of still another type of prior art end fitting.





FIG. 5

is a side elevational view of yet another type of prior art end fitting.





FIG. 6

is a side elevational view of another type of prior art end fitting.





FIG. 7

is a foreshortened longitudinal view of a fiberglass rod employed in the prior art insulator of FIG.


1


.





FIG. 8

is a cross-sectional view of the rod taken along line


8





8


of FIG.


7


.





FIG. 9

is a longitudinal view of a prior art chain eye end fitting employed at the left end of the insulator of FIG.


1


.





FIG. 10

is a cross-sectional view of the end fitting taken along line


10





10


of FIG.


9


.





FIG. 11

is a longitudinal view of the prior art chain eye end fitting similar to

FIG. 9

with the end fitting being partially sectioned to show a hole bored in an end of the end fitting.





FIG. 12

is a fragmentary view of the fiberglass rod of the prior art insulator of

FIG. 1

with the end fitting of

FIG. 11

attached thereto.





FIG. 13

is a longitudinal sectional view of a first embodiment of the insulator end fitting of the present invention utilizing a preformed section of metal pipe, the end fitting being shown before removal of the casting core material.





FIG. 14

is a sectional view of the end fitting of

FIG. 13

after removal of the casting core material.





FIG. 15

is a cross-sectional view of the end fitting taken along line


15





15


of FIG.


14


.





FIG. 16

is another cross-sectional view of the end fitting taken along line


16





16


of FIG.


14


.





FIG. 17

is a longitudinal sectional view of a second embodiment of the insulator end fitting of the present invention utilizing a precut metal tube, the end fitting being shown before removal of the casting core material.





FIG. 18

is a sectional view of the end fitting of

FIG. 17

after removal of the casting core material.





FIG. 19

is a cross-sectional view of the end fitting taken along line


19





19


of FIG.


18


.





FIG. 20

is another cross-sectional view of the end fitting taken along line


20





20


of FIG.


18


.





FIG. 21

is a longitudinal sectional view of a third embodiment of the insulator end fitting of the present invention utilizing a prestamped tubular member, the end fitting being shown before removal of the casting core material.





FIG. 22

is a sectional view of the end fitting of

FIG. 21

after removal of the casting core material.





FIG. 23

is a cross-sectional view of the end fitting taken along line


23





23


of FIG.


22


.





FIG. 24

is another cross-sectional view of the end fitting taken along line


23





23


of FIG.


22


.











DETAILED DESCRIPTION OF THE INVENTION




In the following description, like reference characters designate like or corresponding parts throughout the several views of the drawings. Also in the following description, it is to be understood that such terms as “forward”, “rearward”, “left”, “right”, “upwardly”, “downwardly”, and the like are words of convenience and are not to be construed as limiting terms.




Referring to the drawings and particularly to

FIGS. 13

to


16


, there is illustrated a first embodiment of the insulator end fitting of the present invention, generally designated


20


, for assembling to one end


12


A of the fiberglass rod


12


of the insulator


10


of FIG.


1


. The end fitting


20


includes a main cast body


22


for securement to an external structure (not shown) and a non-machined annular flange


24


rigidly attached at an end


22


A of the main cast body


22


and defining the hole


18


for receiving the one end


12


A of the fiberglass rod


12


to secure the annular flange


24


to the fiberglass rod


12


in assembling the insulator


10


.




In the first embodiment, the annular flange


24


of the end fitting


20


is comprised entirely of a preformed annular member in the form of a section of pipe


26


which defines the hole


18


and both interior and exterior diameters D


1


, D


2


of the annular flange


26


. The end


22


A of the main cast body


22


has an annular recess


22


B receiving an end


26


A of the section of pipe


26


such that the main cast body


22


is rigidly attached to the end


26


A of the section of pipe


26


. The main cast body


22


is made of ductile iron whereas the section of pipe


26


is made of low carbon steel.

FIGS. 13 and 14

show the first embodiment of the end fitting


20


respectively before removal of casting core material


28


. The presence of the core material


28


within the section of pipe


26


supports the pipe


26


during the casting of the main body


22


.




Referring to

FIGS. 17

to


20


, there is illustrated a second embodiment of the insulator end fitting of the present invention, generally designated


30


, for assembling to the one end


12


A of the fiberglass rod


12


of the insulator


10


of FIG.


1


. The end fitting


30


includes a main cast body


32


for securement to an external structure (not shown) and a non-machined annular flange


34


rigidly attached at an end


32


A of the main cast body


32


and defining the hole


18


for receiving the one end


12


A of the fiberglass rod


12


to secure the annular flange


34


to the fiberglass rod


12


in assembling the section insulator


10


.




In the second embodiment, the annular flange


34


of the end fitting


30


is comprised partially of a preformed annular member in the form of a precut metal tube


36


disposed at the interior diameter D


1


of the annular flange


34


which defines the hole


18


and only the interior diameter D


1


of the annular flange


36


. The annular flange


34


includes an annular cast body


34


A surrounding the precut metal tube


36


and integrally attached to the main cast body


32


at the end


32


A thereof and made of the same material as the main cast body


32


, such as ductile iron. The precut metal tube


36


is made of carbon steel.

FIGS. 17 and 18

show the second embodiment of the end fitting


30


respectively before and after removal of casting core material


38


. The presence of the core material


38


within the precut metal tube


36


supports the tube


36


during the casting of the main body


32


.




Referring to

FIGS. 21

to


24


, there is illustrated a third embodiment of the insulator end fitting of the present invention, generally designated


40


, for assembling to the one end


12


A of the fiberglass rod


12


of the insulator


10


of FIG.


1


. The end fitting


40


includes a main cast body


42


for securement to an external structure (not shown) and a non-machined annular flange


44


rigidly attached at an end


42


A of the main cast body


42


and defining the hole


18


for receiving the one end


12


A of the fiberglass rod


12


to secure the annular flange


44


to the fiberglass rod


12


in assembling the insulator


10


.




In the third embodiment, the annular flange


44


of the end fitting


40


is comprised partially of a preformed annular member in the form of a prestamped tubular member


46


having interior and exterior annular walls


46


A,


46


B disposed at both the interior and exterior diameters D


1


, D


2


of the annular flange


44


which defines the hole


18


and both the interior and exterior diameters D


1


, D


2


of the annular flange


46


. The annular flange


44


includes an annular cast body


44


A disposed between the interior and exterior annular walls


46


A,


46


B of the prestamped metal tubular member


46


and integrally attached to the main cast body


42


at the end


42


A thereof and made of the same material as the main cast body


42


. The main and annular cast bodies


42


,


44


A are made of ductile iron whereas the prestamped tubular member


46


is made of steel, however, both could be made of aluminum.

FIGS. 21 and 22

show the third embodiment of the end fitting


40


respectively before and after removal of casting core material


48


. The presence of the core material


48


within the prestamped metal tubular member


46


supports the tubular member


46


during the casting of the main body


42


.




In each of the three embodiments described above, the respective end


22


A,


32


A,


42


A of the main cast body


22


,


32


,


42


takes the form of a transverse solid wall. Each respective main cast body


22


,


32


,


42


has a connection tab


22


C,


32


C,


42


C which is integral with and extends outwardly from a respective first side


22


D,


32


D,


42


D of the transverse solid wall


22


A,


32


,


42


A and is provided with a respective through-hole


22


E,


32


E,


42


E for securement to an external structure (not shown). Furthermore, in each of the above-described embodiments, the respective annular flange


24


,


34


,


44


extends outwardly from a respective second side


22


F,


32


F,


42


F of the solid transverse wall


22


A,


32


A,


42


A in an opposite direction from the respective connection tab


22


C,


32


C,


42


C.



Claims
  • 1. An end fitting for an insulator, comprising:(a) a main cast body having a transverse solid wall and a connection tab integral with said transverse solid wall and extending outwardly from a first side of said transverse solid wall for securement to an external structure; and (b) a non-machined annular flange rigidly attached to said transverse solid wall of said main cast body at a second side of said transverse solid wall opposite from said first side thereof, said annular flange defining a hole for receiving an end of a fiberglass rod to secure said annular flange to said fiberglass rod in assembling an insulator, at least a portion of said annular flange being comprised of a preformed annular member defining an interior diameter of said annular flange.
  • 2. The end fitting as recited in claim 1, wherein said preformed annular member defines an exterior diameter and said interior diameter of said annular flange.
  • 3. The end fitting as recited in claim 1, wherein said main cast body is made of a first metal and said preformed annular member is a section of pipe made of a second metal different from said first metal.
  • 4. The end fitting as recited in claim 3, wherein said second side of said transverse solid wall of said main cast body has an annular recess receiving an end of said section of pipe such that said main cast body is rigidly attached to said end of said section of pipe.
  • 5. The end fitting as recited in claim 1, wherein said preformed annular member is a precut metal tube.
  • 6. The end fitting as recited in claim 5, wherein said annular flange includes an annular cast body surrounding said precut metal tube and integrally attached to said main cast body at said second side of said transverse solid wall and made of the same material as said main cast body.
  • 7. The end fitting as recited in claim 5, wherein said main and annular cast bodies are made of a first metal and said precut metal tube is made of a second metal different from said first metal.
  • 8. The end fitting as recited in claim 1, wherein said preformed annular member is a prestamped metal tubular member having interior and exterior annular walls.
  • 9. The end fitting as recited in claim 8, wherein said annular flange includes an annular cast body disposed between said interior and exterior annular walls of said prestamped metal tubular member and integrally attached to said main cast body at said second side of said transverse solid wall and made of the same material as said main cast body.
  • 10. The end fitting as recited in claim 8, wherein said main and annular cast bodies are made of a first metal and said prestamped metal tubular member is made of a second metal different from said first metal.
  • 11. An insulator, comprising:(a) an elongated fiberglass rod having a pair of opposite ends; (b) a plurality of weathersheds disposed along said fiberglass rod between said opposite ends thereof; and (c) a pair of end fittings each crimped to one of said opposite ends of said fiberglass rod, each of said end fittings including (i) a main cast body having a transverse solid wall and a connection tab integral with said transverse solid wall and extending outwardly from a first side of said transverse solid wall for securement to an external structure, and (ii) a non-machined annular flange rigidly attached to said transverse solid wall of said main cast body at a second side of said transverse solid wall opposite from said first side thereof, said annular flange forming a hole receiving one of said ends of said fiberglass rod, said annular flange being crimped to said one end of said fiberglass rod, at least a portion of said annular flange being comprised of a preformed annular member defining an interior diameter of said annular flange.
  • 12. The insulator as recited in claim 11, wherein said preformed annular member defines an exterior diameter and said interior diameter of said annular flange.
  • 13. The insulator as recited in claim 11, wherein said main cast body is made of a first metal and said preformed annular member is a section of pipe made of a second metal different from said first metal.
  • 14. The insulator as recited in claim 13, wherein said second side of said transverse solid wall of said main cast body has an annular recess receiving an end of said section of pipe such that said main cast body is rigidly attached to said end of said section of pipe.
  • 15. The insulator as recited in claim 11, wherein said preformed annular member is a precut metal tube.
  • 16. The insulator as recited in claim 15, wherein said annular flange includes an annular cast body surrounding said precut metal tube and integrally attached to said main cast body at said second side of said transverse solid wall thereof and made of the same material as said main cast body.
  • 17. The insulator as recited in claim 15, wherein said main and annular cast bodies are made of a first metal and said precut metal tube is made of a second metal different from said first metal.
  • 18. The insulator as recited in claim 11, wherein said preformed annular member is a prestamped metal tubular member having interior and exterior annular walls.
  • 19. The insulator as recited in claim 18, wherein said annular flange includes an annular cast body disposed between said interior and exterior annular walls of said prestamped metal tubular member and integrally attached to said main cast body at said second side of said transverse solid wall and made of the same material as said main cast body.
  • 20. The insulator as recited in claim 18, wherein said main and annular cast bodies are made of a first metal and said prestamped metal tubular member is made of a second metal different from said first metal.
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5389742 Clabburn et al. Feb 1995
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