US3574972A - Method and apparatus for forming fitting covers - Google Patents

Method and apparatus for forming fitting covers Download PDF

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US3574972A
US3574972A US734017A US3574972DA US3574972A US 3574972 A US3574972 A US 3574972A US 734017 A US734017 A US 734017A US 3574972D A US3574972D A US 3574972DA US 3574972 A US3574972 A US 3574972A
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Prior art keywords
shaping
shaping element
support
template
opening
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US734017A
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Dillard Breeding
Frieda J Breeding
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BREEDING INSULATION CO Inc
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BREEDING INSULATION CO Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B19/00Single-purpose machines or devices for particular grinding operations not covered by any other main group

Definitions

  • Abrasive means are employed to shape covers for conduit fittings from blocks of insulation material, illustratively foam plastic or fiberglas. The covers are formed in half sections and are employed in pairs; and
  • Apparatus for use in a system of forming insulation for pipe fittings such as elbow and T-sections including a work support and a rotatable shaping element projecting thereabove, in which a block of insulation material is moved against the shaping element in a controlled path of travel.
  • FIG. 1 A first figure.
  • blocks of insulation material are formed on cutting equipment, preferably of the abrading type, in a sequence of operation which lends itself to rapid production and to product uniformity.
  • the invention as embodied in its method of manufacture, relates to the formation of interior cavities in desired orientation and configuration corresponding to the shape of a fitting to be covered, and to subsequent outer formation of the element to correspond to a general, enlarged outline form of the fitting consistent with the dimensional characteristics of related insulation on straight sections of conduit.
  • a basic objective of the invention therefore resides in providing means for the shaping of plastic materials wherein the finished product is of a form corresponding to the shape of an article to be associated therewith.
  • Related to this basic objective is that of supplying apparatus for the formation of blocks of material into fitting covers for conduit fittings and the like.
  • a curved or angular channel is formed in a rectangular block in an abrading operation.
  • this channel formation involves the formation of sequential linear abrasions in one face of a block of raw material, with appropriately angled rotation of the block intermediate the formation of the individual abrasions.
  • the block is moved arcuately over an abrading means in said operation.
  • the invention further comprehends the forming of outer configurational requirements through abrasion, the blocks being mounted in templates during such operation.
  • Another significant feature of the present invention concerns the provision of new and novel abrading assemblies, including spindles, frames and template means for the controlled formation of materials in the manner aforesaid.
  • Still another objective relates to the provision of means for movement of a block of raw material over an abrading surface for the purpose of forming an angular or curved channel therein, the means including a pivoted guide template.
  • FIG. I is a perspective view showing a portion of first FIG. 4 is a plan view of a finished section half fabricated from the blank of FIG. 3;
  • FIG. 5 is a plan view showing a different type of cover made from a blank of the type shown in FIG. 3',
  • FIG. 6 is a sectional view through a medial section of the product of FIG. 5;
  • FIG. 7 is a plan view of second apparatus within the scope of this invention.
  • FIG. 8 is an elevational view showing the apparatus of FIG. 7 in a first operating position
  • FIG. 9 is a second elevational view showing said apparatus in a different operating position
  • FIG. I0 is a perspective view of a guide tempt template of the present invention.
  • FIG. 11 is a top plan view similar to FIG. 7, illustrating the 7 operation of the invention in a second sequence, movement of the template with respect to the remaining portions of the apparatus being illustrated in the full-to-phantom line portions thereof;
  • FIG. 12 is a further perspective view of the template shown in FIG. 10;
  • FIG. I3 is a top plan view of a third type of apparatus hereof;
  • FIG. 14 is a side elevational view of the FIG. 13 apparatus
  • FIG. 15 is a view similar to FIG. I4, showing a different operating position of the apparatus
  • FIG. 16 is an enlarged perspective view of further template means hereof;
  • FIG. I7 is an enlarged elevational view of a shaping element as associated with the support means hereof.
  • FIG. 18 is a perspective view of the finished product made on the apparatus of FIGS. I3 through I7.
  • FIGS. 3 and 4 of the drawings illustrate sequential steps of operation on a block of material 20 leading to formation of a cover for a fitting in a conduit system-the fitting here being illustratively of T-form. It will be understood that the method of formation and the apparatus employed therein are readily adaptable to other and different forms of fitting without substantial change or modification.
  • FIGS. 5 and 6 show the formation of a cover for a shaped L- fitting.
  • the initial blank 20 of insulation material is of rectangular or square form and has been cut or otherwise preshaped to a selected size.
  • the blank as thus formed has sides 22 and front and rear faces 24.
  • FIGS. 1 and 2 disclose first apparatus employed in the system of this invention
  • Such apparatus comprises a work table 26 or a similar support having a top surface 28 with an opening 30 formed therein.
  • a spindle 32 Projecting through the opening 30 is a spindle 32 which is constantly rotating when the apparatus is in operation, being powered by a suitable energy source of any known type.
  • the spindle has a cutting element 34 fixed to that portion thereof which projects above the top surface 28 of the table.
  • the cutting element is preferably of the abrasive type having a plurality of cutting means thereon, and is shaped to conform to the configuration of a selected portion of the fitting to be covered.
  • the cutting element is of substantially cylindrical form, having an enlarged top portion 36 tapering to an apex 38, and a reduced skirt 40.
  • the skirt 40 corresponds to the diameter of the conduit per se, while the maximum diameter portion 36 is equivalent to that of the fitting.
  • the curvature of the taper leading to the apex 38 is generally akin
  • a housing 42 consisting 'of a top wall 44 and a sidewall 46 is supplied. Opposite wall 46 the top wall is connected to an upstanding stop assembly 48.
  • the assembly 48 includes a forward panel section 50 with a base abutment 52, aligned laterally with substantially the midpoint of the cutting element 34.
  • a work holding bracket 54 comprises a vertical plate 56 having a base member 58 and inner rigidifying structural members 60 and 62.
  • the bracket has hinge sleeves 64, 66
  • a further hinge sleeve 68 extends from the housing sidewall 46 and is vertically in line with the sleeves 64 and 66.
  • a hinge pin 70 extends through the aligned sleeves, thereby hingedly connecting the bracket 54 to the housing.
  • a screw-type connection means secures the bracket in its mount, and an actuating handle 72 may be supplied for the changing or adjustments of the bracket.
  • the inward dwell or extent of movement of the bracket with respect to the cutting element is controlled by contact of the innermost edge 74 of the base member 58 with the abutment 52.
  • a changeable screw means (not shown) may be interposed between the stop assembly 48 and the bracket for adjustment of the dwell.
  • the plate 56 is secured to the base member 58 intermediate the leading and trailing edges of the latter.
  • the leading or intennost edge 74 has a semicircular recess 76 formed therein, and a plate 56 has a slot 78 positioned over the recess.
  • the slot 78 is of a size such that the cutting element 34 is extendable therethrough.
  • the block 20 of fiberglas, polystyrene, or the like is placed in a first position on the bracket, resting on the ledge 80. formed thereby rearwardly of the plate 56. lndicia or other suitable lateral positioning means on the plate may be employed to ensure uniformity of the positioning of the block.
  • the bracket, with a block positioned thereon, is pivoted in the direction of the cutting element, whereby the cutting element forms a first indentation 82 therein of a shape approximately one-half that of the element.
  • the bracket is then pivoted outwardly, and the block rotated substantially 90 in either direction, the procedure being thereafter repeated resulting in a second cut 84 which extends into or intercepts the first cut. Then, the block is rotated substantially l80 and a third cut 86 is formed.
  • the result is the formation of the T-cavity shown in FIG. 4. It will be observed that these areas of cut intercept at substantially the areas of taper of the cutting element or indentation indicated thereby the apex 38, whereby the shape of the finished cavity is a function of the form of the cutter.
  • the cutter is changeable in the apparatus where it is desired to alter the cavity shape, and a further example of this is shown in FIGS. and 6.
  • the block is formed to a half section of cover for a fitting known as a shaped-L.
  • a first cut 88 is initially formed followed by the imposition of a second cut 90 related to the first at substantially a right angle.
  • the tapered sections of the cutter and the resulting indentations in the block are formed to intercept one another at a degree of curvature substantially equal to that of the fitting to be covered.
  • FIGS. 7 through 12 of the drawings disclose preferred means for accomplishing the latter purpose.
  • the exterior shaping means hereof is generally identified by reference numeral 100.
  • the means 100 comprises a second support 102 having an upper surface 104. (This may, in practice, be the same support and surface as that described above, at a different location thereon).
  • Extending through an opening 106 in the support is a rotatable shaft 108.
  • the shaft projects upwardly from the surface and has a second shaping element 110 mounted on its outer end portion.
  • the shaping element 110 has a top 112 and an inwardly disposed cutting area 114, preferably coated with an abrasive substance.
  • Mounted on the shaft between the surface 104 and a bottom 116 of the shaping element 110 is an annular bearing 1 18.
  • a housing 120 comprising sidewalls 122, 124 is disposed partially above the element 110, and has a top wall 126.
  • the housing provides the means to avoid scattering of scraps during the cutting or shaping operation.
  • the apparatus is concerned with the formation of a half section of fitting cover after the initial operations on the blank effected by the first apparatus described above.
  • the blank 20 shaped to the form shown in FIG. 5 for covering a shaped-L fitting will be discussed. It will be clear from this description that other forms of fittings will be accommodated by modifications of the configuration of the shaping element 110, and a novel guide template 128.
  • the template 128 will be seen to comprise a curvilinear base 130 having flat upper and lower faces 132, I34.
  • Positioning ears I36, 138 extend from the upper face 132 at spaced intervals and substantially 90 angular relation to one another.
  • Mounted between these ears is a half section of pipe fitting, in the illustrated example a shaped-L with an enlarged central section 140 and reduced ends 142.
  • the blank 20 has cuts 88 and 90 therein collectively forming a recess to receive and frictionally grip the fitting portion 140 and 142.
  • the side edges 22 of the blank fit between the positioning ears.
  • the template base 130 has guide edges 144, 146, and the blank 20, when mounted on the template as suggested by the foregoing, has its corner portions extendedoutwardly thereof as shown at 148 and 150 in FIG. 7.
  • the template and blank are brought into contact with the element 110-the lower face 134 being held in flush relation to the upper surface 104.
  • the inner guide edge 144 when in contact with the housing 118, limits the inward movement of the template and therefore the action of the cutting or abrading surface 114 on the blank 20. This limitation is such that the blank is altered by removal of the corner portion 148.
  • the template is then reversed and brought into contact with the abrading surface I I4 in an are like motion (FIG. 11) again to the depth of the guide edge 146. This causes removal of the comer portion 150, as a consequence of which the outer surface is 'formed in a semicircular form approximating the outer form of the L.
  • FIGS. 13 through 18 in the drawings illustrate the second form of means for the interior shapingof a half section of fitting cover.
  • This form of the invention is particularly applicable to the formation of a smooth L covering, that is, one in which the curvature is of uniform sectional dimension throughout.
  • apparatus 200 comprises a support 202 of suitable type.
  • the support 202 has a flat working surface 204 with an opening 206 therein.
  • the rotating shaft 208 mounted in a collet 210 projects through and above the surface 204.
  • a cutting or shaping head 212 is fixed on the shaft, and has an abrasive outer surface 214 or the equivalent thereof.
  • the head 212 is of a diametric sectional shape and dimension substantially equal to the area to be cut or removed from a blank of material in the formation of a smooth L, or the like.
  • the bracket Secured on the support 202 adjacent the head 212 is a bracket 216.
  • the bracket includes a pedestal 218 extending from a base 220.
  • the base 220 is connected on the surface 204 by fastening means 222.
  • An arm 224 projects outwardly from the distal extremity of the pedestal, and has an opening 226 formed in its outer end.
  • a pin 228 having an enlarged head 230 extends through said opening.
  • the pin is of a length such that it is extendable into a bore or opening 232 in the support 202.
  • Guide template means 234 is shown disassembled from the remainder of the apparatus in FIG. 16.
  • the means includes a pivot member 236 of generally triangular form having an apex section 238 with an aperture 240 formed therein.
  • the member 236 has a rounded edge 242.
  • spaced apart bridging 'members 244 extend from pivot including angularly intersecting channel portions comprising:
  • a first support avlng a substantially planar upper surface
  • the support having an opening formed therein;
  • Each of the bridging members is of arcuate, 5 a p f p j f p y through Said Opening and semicircular form, having a concave lower edge 246 and a havlnsashapms elemFm thereon; convex outer edge 248.
  • An outer arcuate brace member 250 the shapmg element g of a form approxlmatlng the extends between the outer ends of the bridging members, the h of the channel Pomohs; brace member having a concave edge 252 facing the edge 242 means the PP hl' l f h Shapmg of the pivot member and parallel therewith.
  • the outer edge l0 e m to control the pp of the msulatlon mater- 2 4 f the brace is convex ml in respect to the shaping element;
  • the pivot member is Exterior Shapmg h t connected to the pin 228 in such manner that the guide aseeehd Support hevhg ah epehthg 'h template is pivotal about the pin as its axis.
  • the spacing rotat'hg Shaft ⁇ mans extending through 531d Opening; between the edges 252 and 252, and the form and height of 5 a second shapthg element eh Shaft eta fehh to shape the edges 246 is such that the template is pivotal over and Substahhahy ehe'hatt of e outer Surtaee of the half about the shaping element head 212.
  • a blank of material 256 9 upon contact lherewltht (the outer surface 258 of which is shaped to desired beefing means oh the Shaft the beahhg means behg configuration, H0. 18, either before or after the operation mterpesed et the Second Shaplhg element and thereon by the apparatus 200) is mounted in the guide theseeehd Support; and template, with its ends 260, 262 engaged between the bridging m A gthde template: members 244.
  • the assembly is then pivoted over the head a e t havthg a base portlon wtth upper and lower 212, resulting in formation of an arcuate channel 264 in the Stdest blank a half section of the fitting cover pro ecting from the
  • the various section halves formed as described above are PP h related at the time of manufacture in matched pairs, and may peslttehthgears extehd'hg upwatdty m the be temporarily prejoined in such pairs by the application of a on eppostte ends of the half Seettoh of the fitt'hg cover; removable tape or mastic thereto.
  • exterior shaplng means lncludmg a support havlng an claim; openlng therein;
  • Channel shaping means including: bearing means on the shaft, the bearing means being a first support having a substantially planar upper surface, 'hterpoeed Y h Shap'hg element and the suppet'ti the support having an opening formed therein; a gu de template including a template having a base portlon a spindle projecting upwardly through said opening and e and lower ,Stdesi having a shaping element thereon; a half section of the fittlng cover pro ectlng from the upper the shaping element being of a form approximating the 'tt form of the channel pomons; posltlon ng ears extending upwardly from the upper side on Stop means on the upper Surface adjacent Said Shaping opposlte ends of thehalf section of the fitting cover; and
  • Exterior shaping means including: Apparatus m a system for the shaping of covers for asecond Support having an openingtherein; fittlngs of conduit assemblles, the covers comprising half rotating shaft means extending through said opening; e h termed e engage m Paths about th httthgs and a second shaping element on said shaft of a form to shape thelud'hg thtehseetthg ehehhe] pehttohs eemphsthg:
  • substantially one-half of the outer surface of the half channel shapthg means 'heluthhg first Support t' a Section upon Contact therewith; substantlally planar upper surface, the support havlng an bearing means on the shaft, the bearing means being epemhg fehhedthetelhi interposed between the second shaping element and a spthdte preleehhg upwardly through Sate epehhg and the second Suppon; and v v havlng a shaping element thereon; m
  • the shaping element belng of a form approxlmatlng the form a template having a base portion with upper and lower of the ehahhel portlon;
  • the covers comprising half sections fon'ned to engage in pairs about the fittings and

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Abstract

Abrasive means are employed to shape covers for conduit fittings from blocks of insulation material, illustratively foam plastic or fiberglas. The covers are formed in half sections and are employed in pairs; and Apparatus for use in a system of forming insulation for pipe fittings such as elbow and T-sections, the apparatus including a work support and a rotatable shaping element projecting thereabove, in which a block of insulation material is moved against the shaping element in a controlled path of travel.

Description

United States Patent lnventors Dillard Breeding deceased, late of Nashville, Tenn.
by Frieda J. Breeding, Executrix Nashville, Tenn.
June 3, 1968 Apr. 13, 1971 Breeding Insulation Company, Inc. Nashville, Tenn.
Appl. No. Filed Patented Assignee METHOD AND APPARATUS FOR FORMING FITTING COVERS 4 Claims, 18 Drawing Figs.
us. Cl 51/3, 5 1/72. 51/96 Int. Cl B24b 7/00, B24b 9/00 Field of Search 51/3, 72, 96, 98.5
References Cited UNITED STATES PATENTS Hanrahan et al.
Hunziker Maddox Cooney Beugler Primary Examiner-James L. Jones, Jr. Attorney-Robert G. McMorrow ABSTRACT: Abrasive means are employed to shape covers for conduit fittings from blocks of insulation material, illustratively foam plastic or fiberglas. The covers are formed in half sections and are employed in pairs; and
Apparatus for use in a system of forming insulation for pipe fittings such as elbow and T-sections, the apparatus including a work support and a rotatable shaping element projecting thereabove, in which a block of insulation material is moved against the shaping element in a controlled path of travel.
Patented April 13, 1971 3 Sheets-Shoot 1 INVENTOR. BQEED/NG,
D/LLAED A TTOE/VEY.
Patented A ril 13, 1971 3,574,972
5 Shuts-Shoot 2 IN V EN TOR. 0/1 A 410 52550//\/ 6:
W WW.
Patented April 13, 1971 3 Shuts-Shoat 3 PIC-F. 14.
FIG.
zza 240 232 INVENTOR. BREED/(VG,
D/L L 420 FIG. 18.
METHOD AND APPARATUS FOR FORMING FITTING COVERS BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to the fabrication of insulating covers for pipe fittings of various forms, to an improved method of making such covers, and to preferred apparatus for practice of the method.
2. Statement of the Prior Art In prior US. Pat. No. 3,350,816, issued Nov. 7, I967, a machine for the fabrication of straight half sections of insulation covering for pipes and the like is shown. That machinery, and improved adaptations of it, has proven of great utility in the fabrication of foam plastic and similar cellular materials into insulation covers. Heretofore, however, it was necessary to cover nonlinear fittings and sections with covers either formed in molding operations or by wrapping procedures. These methods are not amendable to mass production practices and greatly increase production and installation costs.
SUMMARY OF THE INVENTION In the present method, blocks of insulation material are formed on cutting equipment, preferably of the abrading type, in a sequence of operation which lends itself to rapid production and to product uniformity. The invention as embodied in its method of manufacture, relates to the formation of interior cavities in desired orientation and configuration corresponding to the shape of a fitting to be covered, and to subsequent outer formation of the element to correspond to a general, enlarged outline form of the fitting consistent with the dimensional characteristics of related insulation on straight sections of conduit.
A basic objective of the invention therefore resides in providing means for the shaping of plastic materials wherein the finished product is of a form corresponding to the shape of an article to be associated therewith. Related to this basic objective is that of supplying apparatus for the formation of blocks of material into fitting covers for conduit fittings and the like.
Among the objectives of importance to the present invention is that of providing a. method of manufacture wherein a curved or angular channel is formed in a rectangular block in an abrading operation. In one instance, this channel formation involves the formation of sequential linear abrasions in one face of a block of raw material, with appropriately angled rotation of the block intermediate the formation of the individual abrasions. In another instance, the block is moved arcuately over an abrading means in said operation. The invention further comprehends the forming of outer configurational requirements through abrasion, the blocks being mounted in templates during such operation.
Another significant feature of the present invention concerns the provision of new and novel abrading assemblies, including spindles, frames and template means for the controlled formation of materials in the manner aforesaid.
Still another objective relates to the provision of means for movement of a block of raw material over an abrading surface for the purpose of forming an angular or curved channel therein, the means including a pivoted guide template.
Other and further objects and advantages of the invention will become apparent to those skilled in the art from a consideration of the following specification when readin conjunction with the annexed drawings.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. I is a perspective view showing a portion of first FIG. 4 is a plan view of a finished section half fabricated from the blank of FIG. 3;
FIG. 5 is a plan view showing a different type of cover made from a blank of the type shown in FIG. 3',
FIG. 6 is a sectional view through a medial section of the product of FIG. 5;
FIG. 7 is a plan view of second apparatus within the scope of this invention;
FIG. 8 is an elevational view showing the apparatus of FIG. 7 in a first operating position;
FIG. 9 is a second elevational view showing said apparatus in a different operating position;
FIG. I0 is a perspective view of a guide tempt template of the present invention;
FIG. 11 is a top plan view similar to FIG. 7, illustrating the 7 operation of the invention in a second sequence, movement of the template with respect to the remaining portions of the apparatus being illustrated in the full-to-phantom line portions thereof;
FIG. 12 is a further perspective view of the template shown in FIG. 10;
FIG. I3 is a top plan view of a third type of apparatus hereof;
FIG. 14 is a side elevational view of the FIG. 13 apparatus;
FIG. 15 is a view similar to FIG. I4, showing a different operating position of the apparatus;
FIG. 16 is an enlarged perspective view of further template means hereof;
FIG. I7 is an enlarged elevational view of a shaping element as associated with the support means hereof; and
FIG. 18 is a perspective view of the finished product made on the apparatus of FIGS. I3 through I7.
DESCRIPTION OF THE PREFERRED EMBODIMENTS FIGS. 3 and 4 of the drawings illustrate sequential steps of operation on a block of material 20 leading to formation of a cover for a fitting in a conduit system-the fitting here being illustratively of T-form. It will be understood that the method of formation and the apparatus employed therein are readily adaptable to other and different forms of fitting without substantial change or modification. For further example, FIGS. 5 and 6 show the formation of a cover for a shaped L- fitting.
The initial blank 20 of insulation material is of rectangular or square form and has been cut or otherwise preshaped to a selected size. For purposes of description, the blank as thus formed has sides 22 and front and rear faces 24.
FIGS. 1 and 2 disclose first apparatus employed in the system of this invention Such apparatus comprises a work table 26 or a similar support having a top surface 28 with an opening 30 formed therein. Projecting through the opening 30 is a spindle 32 which is constantly rotating when the apparatus is in operation, being powered by a suitable energy source of any known type. The spindle has a cutting element 34 fixed to that portion thereof which projects above the top surface 28 of the table. The cutting element is preferably of the abrasive type having a plurality of cutting means thereon, and is shaped to conform to the configuration of a selected portion of the fitting to be covered. In the illustration, the cutting element is of substantially cylindrical form, having an enlarged top portion 36 tapering to an apex 38, and a reduced skirt 40. The skirt 40 corresponds to the diameter of the conduit per se, while the maximum diameter portion 36 is equivalent to that of the fitting. The curvature of the taper leading to the apex 38 is generally akin to the curve of the fitting to be covered.
It is desirable that the discharge area adjacent to cutting area be covered. To this end, a housing 42, consisting 'of a top wall 44 and a sidewall 46 is supplied. Opposite wall 46 the top wall is connected to an upstanding stop assembly 48. The assembly 48 includes a forward panel section 50 with a base abutment 52, aligned laterally with substantially the midpoint of the cutting element 34.
A work holding bracket 54 comprises a vertical plate 56 having a base member 58 and inner rigidifying structural members 60 and 62. The bracket has hinge sleeves 64, 66
fixed to the member 60 and to the base member 58, respectively. A further hinge sleeve 68 extends from the housing sidewall 46 and is vertically in line with the sleeves 64 and 66. A hinge pin 70 extends through the aligned sleeves, thereby hingedly connecting the bracket 54 to the housing. A screw-type connection means secures the bracket in its mount, and an actuating handle 72 may be supplied for the changing or adjustments of the bracket.
The inward dwell or extent of movement of the bracket with respect to the cutting element is controlled by contact of the innermost edge 74 of the base member 58 with the abutment 52. If desired, a changeable screw means (not shown) may be interposed between the stop assembly 48 and the bracket for adjustment of the dwell.
As indicated in the drawings, the plate 56 is secured to the base member 58 intermediate the leading and trailing edges of the latter. The leading or intennost edge 74 has a semicircular recess 76 formed therein, and a plate 56 has a slot 78 positioned over the recess. The slot 78 is of a size such that the cutting element 34 is extendable therethrough.
In operation, assuming that a cover for a T-fitting is to be made, of the type indicated in FIG. 4, the block 20 of fiberglas, polystyrene, or the like is placed in a first position on the bracket, resting on the ledge 80. formed thereby rearwardly of the plate 56. lndicia or other suitable lateral positioning means on the plate may be employed to ensure uniformity of the positioning of the block. The bracket, with a block positioned thereon, is pivoted in the direction of the cutting element, whereby the cutting element forms a first indentation 82 therein of a shape approximately one-half that of the element. The bracket is then pivoted outwardly, and the block rotated substantially 90 in either direction, the procedure being thereafter repeated resulting in a second cut 84 which extends into or intercepts the first cut. Then, the block is rotated substantially l80 and a third cut 86 is formed. The result is the formation of the T-cavity shown in FIG. 4. It will be observed that these areas of cut intercept at substantially the areas of taper of the cutting element or indentation indicated thereby the apex 38, whereby the shape of the finished cavity is a function of the form of the cutter. The cutter is changeable in the apparatus where it is desired to alter the cavity shape, and a further example of this is shown in FIGS. and 6. There, the block is formed to a half section of cover for a fitting known as a shaped-L. A first cut 88 is initially formed followed by the imposition of a second cut 90 related to the first at substantially a right angle. Here the tapered sections of the cutter and the resulting indentations in the block are formed to intercept one another at a degree of curvature substantially equal to that of the fitting to be covered.
The foregoing relates to a first method and apparatus for fabrication of the inside portion of the half section of fitting cover. For the sake of appearance, and also for other functional reasons, it is often necessary to shape the outside of the cover halves to a form approximately that of the fitting. FIGS. 7 through 12 of the drawings disclose preferred means for accomplishing the latter purpose.
In FIGS. 7 through 9, the exterior shaping means hereof is generally identified by reference numeral 100. The means 100 comprises a second support 102 having an upper surface 104. (This may, in practice, be the same support and surface as that described above, at a different location thereon). Extending through an opening 106 in the support is a rotatable shaft 108. The shaft projects upwardly from the surface and has a second shaping element 110 mounted on its outer end portion. The shaping element 110 has a top 112 and an inwardly disposed cutting area 114, preferably coated with an abrasive substance. Mounted on the shaft between the surface 104 and a bottom 116 of the shaping element 110 is an annular bearing 1 18.
A housing 120, comprising sidewalls 122, 124 is disposed partially above the element 110, and has a top wall 126. The housing provides the means to avoid scattering of scraps during the cutting or shaping operation.
The apparatus is concerned with the formation of a half section of fitting cover after the initial operations on the blank effected by the first apparatus described above. For purposes of illustration of this second operation, the blank 20 shaped to the form shown in FIG. 5 for covering a shaped-L fitting will be discussed. It will be clear from this description that other forms of fittings will be accommodated by modifications of the configuration of the shaping element 110, and a novel guide template 128.
In the drawings, the template 128 will be seen to comprise a curvilinear base 130 having flat upper and lower faces 132, I34. Positioning ears I36, 138 extend from the upper face 132 at spaced intervals and substantially 90 angular relation to one another. Mounted between these ears is a half section of pipe fitting, in the illustrated example a shaped-L with an enlarged central section 140 and reduced ends 142. The blank 20 has cuts 88 and 90 therein collectively forming a recess to receive and frictionally grip the fitting portion 140 and 142. The side edges 22 of the blank fit between the positioning ears. The template base 130 has guide edges 144, 146, and the blank 20, when mounted on the template as suggested by the foregoing, has its corner portions extendedoutwardly thereof as shown at 148 and 150 in FIG. 7.
In the completion of the shaping operation on the blank 20, the template and blank are brought into contact with the element 110-the lower face 134 being held in flush relation to the upper surface 104. The inner guide edge 144, when in contact with the housing 118, limits the inward movement of the template and therefore the action of the cutting or abrading surface 114 on the blank 20. This limitation is such that the blank is altered by removal of the corner portion 148. The template is then reversed and brought into contact with the abrading surface I I4 in an are like motion (FIG. 11) again to the depth of the guide edge 146. This causes removal of the comer portion 150, as a consequence of which the outer surface is 'formed in a semicircular form approximating the outer form of the L. This semicircular form approximating closely that of the positioning ears 136 and 138, and ti will be noted that the sections of the base exterior of the positioning ears provides handle means for the manual imposition of the template into cutting relation to the element 110. The ears further limit the cut and avoid unwanted removal of material.
FIGS. 13 through 18 in the drawings illustrate the second form of means for the interior shapingof a half section of fitting cover. This form of the invention is particularly applicable to the formation of a smooth L covering, that is, one in which the curvature is of uniform sectional dimension throughout.
As in the previously described forms of the invention, the
apparatus 200 comprises a support 202 of suitable type. The support 202 has a flat working surface 204 with an opening 206 therein. The rotating shaft 208 mounted in a collet 210 projects through and above the surface 204. A cutting or shaping head 212 is fixed on the shaft, and has an abrasive outer surface 214 or the equivalent thereof. The head 212 is of a diametric sectional shape and dimension substantially equal to the area to be cut or removed from a blank of material in the formation of a smooth L, or the like.
Secured on the support 202 adjacent the head 212 is a bracket 216. The bracket includes a pedestal 218 extending from a base 220. The base 220 is connected on the surface 204 by fastening means 222. An arm 224 projects outwardly from the distal extremity of the pedestal, and has an opening 226 formed in its outer end. A pin 228 having an enlarged head 230 extends through said opening. The pin is of a length such that it is extendable into a bore or opening 232 in the support 202.
Guide template means 234 is shown disassembled from the remainder of the apparatus in FIG. 16. The means includes a pivot member 236 of generally triangular form having an apex section 238 with an aperture 240 formed therein. The member 236 has a rounded edge 242. Two right angularly arranged,
spaced apart bridging 'members 244 extend from pivot including angularly intersecting channel portions comprising:
l Channel shapin means including:
a first support avlng a substantially planar upper surface,
the support having an opening formed therein;
member. Each of the bridging members is of arcuate, 5 a p f p j f p y through Said Opening and semicircular form, having a concave lower edge 246 and a havlnsashapms elemFm thereon; convex outer edge 248. An outer arcuate brace member 250 the shapmg element g of a form approxlmatlng the extends between the outer ends of the bridging members, the h of the channel Pomohs; brace member having a concave edge 252 facing the edge 242 means the PP hl' l f h Shapmg of the pivot member and parallel therewith. The outer edge l0 e m to control the pp of the msulatlon mater- 2 4 f the brace is convex ml in respect to the shaping element;
As best illustrated in FIG. 13, the pivot member is Exterior Shapmg h t connected to the pin 228 in such manner that the guide aseeehd Support hevhg ah epehthg 'h template is pivotal about the pin as its axis. The spacing rotat'hg Shaft {mans extending through 531d Opening; between the edges 252 and 252, and the form and height of 5 a second shapthg element eh Shaft eta fehh to shape the edges 246 is such that the template is pivotal over and Substahhahy ehe'hatt of e outer Surtaee of the half about the shaping element head 212. A blank of material 256 9 upon contact lherewltht (the outer surface 258 of which is shaped to desired beefing means oh the Shaft the beahhg means behg configuration, H0. 18, either before or after the operation mterpesed et the Second Shaplhg element and thereon by the apparatus 200) is mounted in the guide theseeehd Support; and template, with its ends 260, 262 engaged between the bridging m A gthde template: members 244. The assembly is then pivoted over the head a e t havthg a base portlon wtth upper and lower 212, resulting in formation of an arcuate channel 264 in the Stdest blank a half section of the fitting cover pro ecting from the The various section halves formed as described above are PP h related at the time of manufacture in matched pairs, and may peslttehthgears extehd'hg upwatdty m the be temporarily prejoined in such pairs by the application of a on eppostte ends of the half Seettoh of the fitt'hg cover; removable tape or mastic thereto. ln permanent installations, and amore lasting type of tape or mastic is employed in joining the the baeehavthg 'e edges ether thereof section heads together about the fitting'to be covered. eehtaehhg, beefing meahs' Having described and illustrated several embodiments of Apparatus h a system for the shepmg of PY for this invention in some detail, it will be understood that these 'h of eehdtht assembhes'. the eovers eomphsmg h descriptions and illustrations have been offered mainly by way seetlohs, formed to engage Pat's about the htthgs of example, and that the invention is to limited in scope only eomphemgt by the appended claims. exterior shaplng means lncludmg a support havlng an claim; openlng therein;
1. Apparatus in a system for the shaping of covers for retatthg Shaft meahs'extehdlhg through Satd epehmg; fittings of conduit assemblies, the covers comprising half a element on Send shaft of a form to Shape Sections formed to engage in pairs abom the fittings and substantially one-half of the outer surface of the half including angularly intersecting channel portions comprising: 40 seettoh upon contact therew'th;
1 Channel shaping means including: bearing means on the shaft, the bearing means being a first support having a substantially planar upper surface, 'hterpoeed Y h Shap'hg element and the suppet'ti the support having an opening formed therein; a gu de template including a template having a base portlon a spindle projecting upwardly through said opening and e and lower ,Stdesi having a shaping element thereon; a half section of the fittlng cover pro ectlng from the upper the shaping element being of a form approximating the 'tt form of the channel pomons; posltlon ng ears extending upwardly from the upper side on Stop means on the upper Surface adjacent Said Shaping opposlte ends of thehalf section of the fitting cover; and
element to limit the positioning of insulation material in the e 'h gthde edges on I ether thereof respect to the Shaping element; contacting said bearlng means. Exterior shaping means, including: Apparatus m a system for the shaping of covers for asecond Support having an openingtherein; fittlngs of conduit assemblles, the covers comprising half rotating shaft means extending through said opening; e h termed e engage m Paths about th httthgs and a second shaping element on said shaft of a form to shape thelud'hg thtehseetthg ehehhe] pehttohs eemphsthg:
substantially one-half of the outer surface of the half channel shapthg means 'heluthhg first Support t' a Section upon Contact therewith; substantlally planar upper surface, the support havlng an bearing means on the shaft, the bearing means being epemhg fehhedthetelhi interposed between the second shaping element and a spthdte preleehhg upwardly through Sate epehhg and the second Suppon; and v v havlng a shaping element thereon; m A guide tempate: the shaping element belng of a form approxlmatlng the form a template having a base portion with upper and lower of the ehahhel portlon;
Sides; a template plvotally mounted on the support and havlng a half section of the fitting cover projecting from the gagg d for hotdmg a block of mammal to be u r g ears extending upwardly from the upper Side 5 the template belngplvotal on sald support to a posltlon on opposite ends of the half Section of the fining cover; ad acent the shaplng element so that theshaplng element and is arranged to lie wlthln the path of pivoting movement of the base having guide edges on either side thereof the template; and 1 contacting said hearing means stop means on the uppe r su rface ad acent said shaplng Apparatus in a system for the Shaping of covers for element to llmlt the positioning of the material in respect to the shaping element.
fittings of conduit assemblies, the covers comprising half sections fon'ned to engage in pairs about the fittings and

Claims (4)

1. Apparatus in a system for the shaping of covers for fittings of conduit assemblies, the covers comprising half sections formed to engage in pairs about the fittings and including angularly intersecting channel portions comprising: I Channel shaping means including: a first support having a substantially planar upper surface, the support having an opening formed therein; a spindle projecting upwardly through said opening and having a shaping element thereon; the shaping element being of a form approximating the form of the channel portions; stop means on the upper surface adjacent said shaping element to limit the positioning of insulation material in respect to the shaping element; II Exterior shaping means, including: a second support having an opening therein; rotating shaft means extending through said opening; a second shaping element on said shaft of a form to shape substantially one-half of the outer surface of the half section upon contact therewith; bearing means on the shaft, the bearing means being interposed between the second shaping element and the second support; and III A guide template: a template having a base portion with upper and lower sides; a half section of the fitting cover projecting from the upper side; positioning ears extending upwardly from the upper side on opposite ends of the half section of the fitting cover; and the base having guide edges on either side thereof contacting said bearing means.
2. Apparatus in a system for the shaping of covers for fittings of conduit assemblies, the covers comprising half sections formed to engage in pairs about the fittings and including angularly intersecting channel portions comprising: I Channel shaping means including: a first support having a substantially planar upper surface, the support having an opening formed therein; a spindle projecting upwardly through said opening and having a shaping element thereon; the shaping element being of a form approximating the form of the channel portions; limit means on the upper surface adjacent the shaping element to control the position of the insulation material in respect to the shaping element; II Exterior shaping means, including: a second support having an opening therein; rotating shaft means extending through said opening; a second shaping element on said shaft of a form to shape substantially one-half of the outer surface of the half section upon contact therewith; bearing means on the shaft, the bearing means being interposed between the second shaping element and the second support; and III A guide template: a template having a base portion with upper and lower sides; a half section of the fitting cover projecting from the upper side; positioning ears extending upwardly from the upper side on opposite ends of the half section of the fitting cover; and the base having guide edges on either side thereof contacting said bearing means.
3. Apparatus in a system for the shaping of covers for fittings of conduit assemblies, the covers comprising half sections formed to engage in pairs about the fittings comprising: exterior shaping means including a support having an opening therein; rotating shaft means extending through said opening; a shaping element on said shaft of a form to shape substantially one-half of the outer surface of the half section upon contact therewith; bearing means on the shaft, the bearing means being interposed between the shaping element and the support; a guide template including a template having a base portion with upper and lower sides; a half section of the fitting cover projecting from the upper side; positioning ears extending upwardly from the upper side on opposite ends of the half section of the fitting cover; and the base having guide edges on either side thereof contacting said bearing means.
4. Apparatus in a system for the shaping of covers for fittings of conduit assemblies, the covers comprising half sections formed to engage in pairs about the fittings and including intersecting channel portions comprising: channel shaping means including a first support having a substantially planar upper surface, the support having an opening formed therein; a spindle projecting upwardly through said opening and having a shaping element thereon; the shaping element being of a form approximating the form of the channel portion; a template pivotally mounted on the support and having means thereon for holding a block of material to be shaped; the template being pivotal on said support to A position adjacent the shaping element so that the shaping element is arranged to lie within the path of pivoting movement of the template; and stop means on the upper surface adjacent said shaping element to limit the positioning of the material in respect to the shaping element.
US734017A 1968-06-03 1968-06-03 Method and apparatus for forming fitting covers Expired - Lifetime US3574972A (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1153479A (en) * 1914-10-19 1915-09-14 E & B Holmes Machinery Co Sandpapering-machine.
US1667719A (en) * 1925-06-24 1928-05-01 Keystone Grinder And Mfg Compa Grinding machine
US1701815A (en) * 1926-09-10 1929-02-12 William J Maddox Spindle sanding machine
US2425469A (en) * 1946-08-16 1947-08-12 Emery M Hanrahan Polishing machine for tableware
US2762170A (en) * 1954-06-21 1956-09-11 Louis A Hunziker Apparatus for reconditioning chain saw bars

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1153479A (en) * 1914-10-19 1915-09-14 E & B Holmes Machinery Co Sandpapering-machine.
US1667719A (en) * 1925-06-24 1928-05-01 Keystone Grinder And Mfg Compa Grinding machine
US1701815A (en) * 1926-09-10 1929-02-12 William J Maddox Spindle sanding machine
US2425469A (en) * 1946-08-16 1947-08-12 Emery M Hanrahan Polishing machine for tableware
US2762170A (en) * 1954-06-21 1956-09-11 Louis A Hunziker Apparatus for reconditioning chain saw bars

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