US1710786A - Method and means for producing insulating sleeves - Google Patents

Method and means for producing insulating sleeves Download PDF

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Publication number
US1710786A
US1710786A US41227A US4122725A US1710786A US 1710786 A US1710786 A US 1710786A US 41227 A US41227 A US 41227A US 4122725 A US4122725 A US 4122725A US 1710786 A US1710786 A US 1710786A
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United States
Prior art keywords
sleeving
tank
cotton
insulating sleeves
machine
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Expired - Lifetime
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US41227A
Inventor
Vernon B Pike
John Everett St
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AT&T Corp
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American Telephone and Telegraph Co Inc
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Application filed by American Telephone and Telegraph Co Inc filed Critical American Telephone and Telegraph Co Inc
Priority to US41227A priority Critical patent/US1710786A/en
Priority to US137083A priority patent/US1710787A/en
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Publication of US1710786A publication Critical patent/US1710786A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B13/00Apparatus or processes specially adapted for manufacturing conductors or cables
    • H01B13/06Insulating conductors or cables
    • H01B13/16Insulating conductors or cables by passing through or dipping in a liquid bath; by spraying
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S118/00Coating apparatus
    • Y10S118/19Wire and cord immersion

Definitions

  • This invention relates to a method and means for producing sleeves used for insulating electrical conductors, the said method and means being characterized by the impregnation of a sleevin or tubing .formed of cotton or other suita le material to render it moistu re proof, expanding the sleeving nto cylindrical form and cutting it into seet1ons of desired length.
  • the length of the sleeving 1mpregnated at any one time depends upon various factors such as the number of conductors to be spliced and the rate ofv splicing.
  • the splicers helper After the sleeving has cooled it is cut into sections of desired length, by the splicers helper. These sections, which are in a flattened condition and not unlike in appearance a piece of cotton tape must be punched in order to render them substantially cylindrical, thereby making them readily usable by the splicer.
  • the helper employs a cotton sleeve punch which, when inserted into the tubing expands it, thus forming a cyhndrical tube of such diameter as will permit it to slip readily over the twisted joint to be insulated thereby.
  • Figure 1 is a plan view of the machine embodying our invention
  • Fig. 2 is a side view of the machine drawn to the same scale as Fig. 1
  • Fig. 3 is a view upon slightly larger scale of the machine from the right hand end of Fig. 2
  • Fig. 4 is a view of the central portion of Fig. 1 upon an enlarged scale in order to bring out the details of the expanding and cuttin mechanisms
  • Fig. 5 is a similarly. en arged view of the mid-section of Fig. 2.
  • the tank 1 at the left hand end thereof serves to hold the material for impregnating the sleeving, whichmay be kept at the desired temperature by an source of heat, such as a gas flame.
  • an source of heat such as a gas flame.
  • WhlCh the purpose of WhlCh is to su port the spool-holding devices. While on ytwo of these devices are shown in the figure,
  • the number may be varied, de ending upon -two telescopic tubes 3 and 4, tube 4 fitting into the spool will be cal supports the tube 3.
  • the tube?) is mounted upon a base 5 and the tube 4 is similarly mounted upon the base 6.
  • the spring 7, of which only the ends are shown is, in reality, .continuous throughout the tubes, and the ends are connected effectively with the tubes at the end members 5 and 6. It will thus be seen that the spring tends to. pull together the members 5 and 6, the tube 4 moving downward within Zyth the outer end of the member 6 is a coni al support 8 which is rotatably mounted upon the member 6, the
  • a similar support 9 is mounted upon the member 5.
  • a spool of cotton sleeving may supporting deviceby lifting the upper member 6 and inserting the conica supports 8 and 9 in the holes in the ends of the spool. The member 6, when released, will be drawn by the spring 7 toward the member 5, and
  • Y Rotatably mounted upon the bottom of the tank 1 are the inverted'conical guides 16 and 11 by means of which the cotton sleeving (indicated by dot and dash lines) maybe led from the spool through the impregnating liquid within the tank 1, and thence to the end of one of a plurality of mandrels such will be possible with the impregnating liquid.
  • the punching mech'anism comprises one or more S-shaped mandrels which lie within the grooves of a plurality of rollers which coact so as to hold the mandrels securely in position and at the same time to .force the sleeving over the said mandrels.
  • two of the rollers 14 and 15 are in vertical alignment.
  • a third roller16 is in horizontal alignment with the roller '14 and a fourth roller 17 is in similar alignment with roller 15.
  • Roller 14 is connected with a shaft to which is also connected the driving pulley 18, and a sprocket wheel 19 (see Fig. L) by means of which the cutting mechanism is operated.
  • roller 15 which is supported by suitable bearings, is geared to the roller 14 to which also the roller 16 is geared.
  • the roller 17 is geared to the roller 15. Rollers 16 and 17 are each supported by members which are hinged at the points 20 that rollers having other sizes of grooves may be put in position.
  • the cutting mechanism comprises two blades which may be seen clearly in Figs. 3, 4 and 5.
  • One of these blades 24 is fixed and the other blade 25 is movable vertically within the guides 26.
  • the blade 24 has therein a single hole opposite the end of each mandrel and in close 1uxtaposition to the said end.
  • the movable blade 25 has therein two holes for each mandrel so arranged that when the blade is in either position-viz, at the bottom or at the top of itsstroke (as will later. be described)-'a hole in the saidmovable blade will always be opposite thehole in the fixed blade.
  • the punched sleeving which is is sting from the mandrel at a uniform rate, will pass through the holes in the fixed and the movable blades and will be out by the sharp edge of the corresponding hole in the movable blade as the latter moves upwards or downwards.
  • the blade 25, as will be seen clearly from Fig. 5, is'detachably connected with a member 27, which carries two rollers 28 and 29 with which coacts thecam 30.
  • This cam is carried by a shaft 31 to which the sprocket wheel 32 is attached. This sprocket (this blade coincide with the holes in the fixed blade. With the blades in this position, the
  • the shaft 31 also carries 'a sprocket wheel 34 which is connected by the chain 35 with a similar wheel 36 which serves to rotate the roller '37.
  • a belt conveyer 38, supported by rollers 37 and 39 serves to carry away the sections of cotton sleeving from the cutting mechanism. It is desirable to make the conveying system, which may comprise a plurality of belts, of such length that the cotton sleeves will be sufficiently cooled at the end of the conveyer to be placed in packages with a minimum chance of distorting their shape. W
  • one or more spools of cotton sleeving may be readily inserted in their supporting devices and the sleeving may be fed therefrom with a mini mum of friction, or, as stated before, the sleeving may be fed directly from cans or other containers in which it is loosely held.
  • the sleeving may be readily threaded through the guides of the impregnating tank with a minimum of difficulty and of possible injury to thefoperator.
  • the sleeving may be more readily controlled in the course of its passage over the S-shaped mandrels by means of the spring-controlled device which holds together the lateral rollers.
  • the invention furthermore reduces the probability of closing the ends of the sleeves impre ,the, said [said guiding means comprising a plurality of inverted cones rotatably mounted within June, 1925. V
  • a 1 In a machine for producing insulating sleeves, the combination with means for holding a spool of sleeving, of a tank for holding atmg material, and means to guide sleeving through the said tank, the
  • the combination with means for holding a spool of sleeving, of a tank for holding impregnating materlal, means to guide the said sleeving through the said tank, the said guiding means comprising a plurality of inverted cones rotatably mounted within said tank, and means to substantially expand the saidsleeving.
  • the combination with a tank for holding impregnating material, of a source of cotton sleeving, and means to guide the said sleeving through the said tank, the said guiding means comprising a plurality of inverted cones rotatably mounted within the said tank.
  • the combination with a tank for bolding impregnating material, of a service of cotton sleeving means to guide the said sleeving through the said tank, comprising a plurality of inverted cones rotatably mounted upon the cally expand the said sleeving.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Treatment Of Fiber Materials (AREA)

Description

Al 0, 1929. v. B.PIKE ET AL 1,710,786
METHOD AND MEANS FOR PRODUCING INSULATING SLEEVES Original Filed July 2, 1925 5 Sheets-Sheet 1 INVENTORS Val/m 52 BY E 54 Jokm ATTORNEY April 30, 1929. v. B. PIKE ET AL.
METHOD AND MEANS FOR PRODUCING INSULATING SLEEVES Original Filed July 1925 5 Sheets-Sheet 2 V. B. BIKE ET AL April 30, 1929.
METHOD AND MEANS FOR PRODUCING INSULATING SLEEVES Original Filed July 2, 1925 5 Sheets-Sheet INVENTOR5 Vfllkke 1 1. saw
ATTORNEY Patented Apr. 30, 1929.
UNITED 'STATES PATENT OFFICE.
VERNON IB. PIKE, OF GHELTENHAM, PENNSYLVANIA, AND EVERETT ST. JOHN, OF
BROOKLYN, NEW YORK, ASSIGNORS TO AMERICAN TELEPHONE AND TELEGRAPH OOMPAN Y, A CORPORATION OF NEW YORK.
METHOD AND MEANS FOR PRODUCING INSULATING SLEEVES.
Application filed July 2, 1925, Serial No. 41,227. Renewed 0ctober 17, 1928. p
This invention relates to a method and means for producing sleeves used for insulating electrical conductors, the said method and means being characterized by the impregnation of a sleevin or tubing .formed of cotton or other suita le material to render it moistu re proof, expanding the sleeving nto cylindrical form and cutting it into seet1ons of desired length.
In the slicing of electrical conductors, particularly those used in telephone cables, wh ch are of relatively fine wire insulated with paper, it is customary to insulate the bare section of twisted wire by means of a sleeve or tube of cotton. The sleeve employed for this purpose is usually about three inches long and the method heretofore employed for preparing such tube is as follows: in order to drive off the moisture that the cottonin its natural state has absorbed, and also to prevent the absorption of moisture after the sleeve has been employed in the splicing of a cable, the cotton sleeving is impregnated by dlpping it into melted parafiin at a fairly high temperature, the sleeving being kept in the parafiin until all moisture has been driven irom the sleeving and thorough impregnation has taken place. The length of the sleeving 1mpregnated at any one time depends upon various factors such as the number of conductors to be spliced and the rate ofv splicing. After the sleeving has cooled it is cut into sections of desired length, by the splicers helper. These sections, which are in a flattened condition and not unlike in appearance a piece of cotton tape must be punched in order to render them substantially cylindrical, thereby making them readily usable by the splicer. For thispurpose the helper employs a cotton sleeve punch which, when inserted into the tubing expands it, thus forming a cyhndrical tube of such diameter as will permit it to slip readily over the twisted joint to be insulated thereby.
Usually this preliminary work on the sleeving is done by the splicers helper during the time when he must. remain on the street to guard the open manhole in which the splicer is working. Where local conditions are such that the helper can assist the splicer in a manhole a considerable saving in labor cost may be effected if the sleeving is impregnated, cut, and punched at some central point, and is thus furnished to the sphcer on each material to render them yob. By so doing, e em loyed more the sp ice.
In the copending application of Reed and ODell, Serial N 0. 40,615 filed June 30, 1925, is disclosed a machine for the automatic production of cotton sleeves of any desired length, impregnated with paraffin or other moisture proof, and expanded to the desired diamthe helpers services may directly in the making of cylindrically eter.
@ne of the objects of the present invention which is an improvement upon that disclosed in the said application of Reed and ODell is to provide an arrangement whereby the pressure of the grooved rollers upon the cotton sleeving as it passes over the S shaped mandrel may be readily controlled. Another object of this invention is to provide better lateral support for the syshaped mandrel whereby itmay be held more securel in the desired position. A further object 0% the invention is to render. the rollers more readily accessible in order to facilitate the placing of the mandrels thereon, or for removing the said rollers from the machine. Another object of this invention resides in an improved type of guide by means of which the sleeving is kept submerged in the impregnating liquid. A further object of this invention resides in an improved type of cutting device for sectionalizing cotton sleeving.
Other objects of this invention will be apparent from the following'description when read in connection, with the attached drawing, of which Figure 1 is a plan view of the machine embodying our invention; Fig. 2 is a side view of the machine drawn to the same scale as Fig. 1; Fig. 3 is a view upon slightly larger scale of the machine from the right hand end of Fig. 2; Fig. 4 is a view of the central portion of Fig. 1 upon an enlarged scale in order to bring out the details of the expanding and cuttin mechanisms; and Fig. 5 is a similarly. en arged view of the mid-section of Fig. 2.
In Fig. 1, the tank 1 at the left hand end thereof serves to hold the material for impregnating the sleeving, whichmay be kept at the desired temperature by an source of heat, such as a gas flame. For t e purpose of illustrating and describing the invention it will be assumed that the sleeving to be impregnated is wound upon spools. .Accord- -ingly, at the left hand end of-the tank a supporting member 2 is aflixed to the end wall of the tank, the purpose of WhlCh is to su port the spool-holding devices. While on ytwo of these devices are shown in the figure,
the number may be varied, de ending upon -two telescopic tubes 3 and 4, tube 4 fitting into the spool will be cal supports the tube 3. Connected tube 3. The tube?) is mounted upon a base 5 and the tube 4 is similarly mounted upon the base 6. The spring 7, of which only the ends are shown is, in reality, .continuous throughout the tubes, and the ends are connected effectively with the tubes at the end members 5 and 6. It will thus be seen that the spring tends to. pull together the members 5 and 6, the tube 4 moving downward within Zyth the outer end of the member 6 is a coni al support 8 which is rotatably mounted upon the member 6, the
friction of rotation being reduced by means of a ballbearing. A similar support 9 is mounted upon the member 5. A spool of cotton sleeving may supporting deviceby lifting the upper member 6 and inserting the conica supports 8 and 9 in the holes in the ends of the spool. The member 6, when released, will be drawn by the spring 7 toward the member 5, and
firmly held within the coni- 8 and 9, but adapted to rotate readily thereon. In the event of the sleeving beingl'impregnated, and cut into sleeves 'at the factory where the sleeving is manufactured, it would normally be supplied to the impregnating machine from cans or other similar containers .into which the sleeving falls from the braiding machine. Under such condition a spool-holding device would of course, be unnnecessary inasmuch as the sleeving would pass directly from the said cans or similar container to the impregnating tank.
Y Rotatably mounted upon the bottom of the tank 1 are the inverted'conical guides 16 and 11 by means of which the cotton sleeving (indicated by dot and dash lines) maybe led from the spool through the impregnating liquid within the tank 1, and thence to the end of one of a plurality of mandrels such will be possible with the impregnating liquid.
is of importance whenever itis necessary to,
- as 12. If the liquid within the tank 1 is kept at a level below the upper sideof the conical the dot and dash line :22), it to place the cotton sleeving under the guideswithout comin in contact his feature represented by place a new spool of sleeving upon the machine or when a defect on the .sleeving necessitates a stoppage of the machine and an ad:
justment of-the sleeving. In doing so, the
be readily inserted in the;
sleeving is extended from the spool to the guide 11, thence backwards to guide 10, and thence upward to the lower end .of the mandrel 12. As soon as the sleeving is put under tension it will tend to pull downwards on the guides, thus bringing it below the level of the impregnating liquid.
The punching mech'anism comprises one or more S-shaped mandrels which lie within the grooves of a plurality of rollers which coact so as to hold the mandrels securely in position and at the same time to .force the sleeving over the said mandrels. Aswill be seen clearly in Figs. 2 and 5, two of the rollers 14 and 15 are in vertical alignment. A third roller16 is in horizontal alignment with the roller '14 and a fourth roller 17 is in similar alignment with roller 15. Roller 14 is connected with a shaft to which is also connected the driving pulley 18, and a sprocket wheel 19 (see Fig. L) by means of which the cutting mechanism is operated. The roller 15, which is supported by suitable bearings, is geared to the roller 14 to which also the roller 16 is geared. The roller 17 is geared to the roller 15. Rollers 16 and 17 are each supported by members which are hinged at the points 20 that rollers having other sizes of grooves may be put in position.
- The cutting mechanism comprises two blades which may be seen clearly in Figs. 3, 4 and 5. One of these blades 24 is fixed and the other blade 25 is movable vertically within the guides 26. The blade 24 has therein a single hole opposite the end of each mandrel and in close 1uxtaposition to the said end. The movable blade 25 has therein two holes for each mandrel so arranged that when the blade is in either position-viz, at the bottom or at the top of itsstroke (as will later. be described)-'a hole in the saidmovable blade will always be opposite thehole in the fixed blade. The punched sleeving, which is is sting from the mandrel at a uniform rate, will pass through the holes in the fixed and the movable blades and will be out by the sharp edge of the corresponding hole in the movable blade as the latter moves upwards or downwards. The blade 25, as will be seen clearly from Fig. 5, is'detachably connected with a member 27, which carries two rollers 28 and 29 with which coacts thecam 30. This cam is carried by a shaft 31 to which the sprocket wheel 32 is attached. This sprocket (this blade coincide with the holes in the fixed blade. With the blades in this position, the
cotton sleeving, being forced over the man drel 12, will pass through the hole in-the1 blades opposite the end of the said mandrell As soon as the shaft 31 is rotated sufiieiently to bring the eccentric part of thecam ao'in contact with the roller 29, the ember 27will be pulled down. This pulls down the blade 25 and thus cuts off a section of the punched cotton tubing which extended through the holes in the said blades, and it brings the upper holes of the movable blade in line with the holes in the fixed blades, thus making ready for the next sleeve from each mandrel. The shaft 31 also carries 'a sprocket wheel 34 which is connected by the chain 35 with a similar wheel 36 which serves to rotate the roller '37. A belt conveyer 38, supported by rollers 37 and 39 serves to carry away the sections of cotton sleeving from the cutting mechanism. It is desirable to make the conveying system, which may comprise a plurality of belts, of such length that the cotton sleeves will be sufficiently cooled at the end of the conveyer to be placed in packages with a minimum chance of distorting their shape. W
It will be seen that by meansof afiiaclnne of the type herein disclosed, one or more spools of cotton sleeving may be readily inserted in their supporting devices and the sleeving may be fed therefrom with a mini mum of friction, or, as stated before, the sleeving may be fed directly from cans or other containers in which it is loosely held. The sleeving may be readily threaded through the guides of the impregnating tank with a minimum of difficulty and of possible injury to thefoperator. Furthermore, the sleeving may be more readily controlled in the course of its passage over the S-shaped mandrels by means of the spring-controlled device which holds together the lateral rollers. This serves not only to prevent lateral 'displacement of the S-shaped mandrel but also serves to maintain the proper pressure upon the cotton sleeving in order to propel it over the mandrel at the desired speed and to make complete contact with the knurled grooves. The invention furthermore reduces the probability of closing the ends of the sleeves impre ,the, said [said guiding means comprising a plurality of inverted cones rotatably mounted within June, 1925. V
at the time of cuttin ,whrchbeneficial result is obtained not only y means of the type of cutter employed but also by virtue of its bem laced close to the ends of the mandrels. W%ile this invention has been disclosed as embodied in a particular form and arrangement of parts, it is to be understood that it is capable of embodiment in other and different forms without departing from the spirit and scope of the appended claims.
What is claimed is: a 1. In a machine for producing insulating sleeves, the combination with means for holding a spool of sleeving, of a tank for holding atmg material, and means to guide sleeving through the said tank, the
said tank. v
2. In a machine for producing insulating sleeves, the combination with means for holding a spool of sleeving, of a tank for holding impregnating materlal, means to guide the said sleeving through the said tank, the said guiding means comprising a plurality of inverted cones rotatably mounted within said tank, and means to substantially expand the saidsleeving.
3. In a machine for producing insulatin sleeves, the combination with means for hol ing a'spool of sleeving, of a tank for-holding impregnating material, means to guide the said sleeving through the said tank, the said cylindrically A guiding means comprising a'plurality of inverted cones rotatably mounted within said tank, means to substantially cylindrically expand the said sleeving, .and means to cut the said sleeving into sections'of predetermined lenth.
4. In a machine for producing insulating sleeves, the combination with a tank for holding impregnating material, of a source of cotton sleeving, and means to guide the said sleeving through the said tank, the said guiding means comprising a plurality of inverted cones rotatably mounted within the said tank.
5. In a machine for producing insulating sleeves, the combination with a tank for bolding impregnating material, of a service of cotton sleeving, means to guide the said sleeving through the said tank, comprising a plurality of inverted cones rotatably mounted upon the cally expand the said sleeving.
In testimony whereof, I have signed 111 name to this specification, this 29th day of VERNON B. PIKE.
In testimony whereof, I' have signed my name to this specification this 25th day of June 1925.
EVERETT ST. JOHN.-
US41227A 1925-07-02 1925-07-02 Method and means for producing insulating sleeves Expired - Lifetime US1710786A (en)

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US41227A US1710786A (en) 1925-07-02 1925-07-02 Method and means for producing insulating sleeves
US137083A US1710787A (en) 1925-07-02 1926-09-22 Method and means for producing insulating sleeves

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