US2281731A - End former for concrete pipe - Google Patents

End former for concrete pipe Download PDF

Info

Publication number
US2281731A
US2281731A US355214A US35521440A US2281731A US 2281731 A US2281731 A US 2281731A US 355214 A US355214 A US 355214A US 35521440 A US35521440 A US 35521440A US 2281731 A US2281731 A US 2281731A
Authority
US
United States
Prior art keywords
shoe
flange
pipe
core
bracket
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US355214A
Inventor
Tuerck Oscar
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
TUERCK MACKENZIE Co
TUERCK-MACKENZIE Co
Original Assignee
TUERCK MACKENZIE Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by TUERCK MACKENZIE Co filed Critical TUERCK MACKENZIE Co
Priority to US355214A priority Critical patent/US2281731A/en
Application granted granted Critical
Publication of US2281731A publication Critical patent/US2281731A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B21/00Methods or machines specially adapted for the production of tubular articles
    • B28B21/70Methods or machines specially adapted for the production of tubular articles by building-up from preformed elements
    • B28B21/74Producing pipe bends, sockets, sleeves; Moulds therefor
    • 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
    • Y10S425/00Plastic article or earthenware shaping or treating: apparatus
    • Y10S425/218Pipe machine: socket forming apparatus

Definitions

  • This invention relates to molds and machines for forming concrete pipe, and, more specifically, to means for forming tmgue-and-groove end concrete pipe or for forming the female or bell end of concrete pipe.
  • Conventional concrete pipe machines include a central stationary cylindrical inner member or core and a rotatable outer mold spaced from the cylindrical surface of the core.
  • the concrete mixture is gradually fed into the annular space between the rotating outer mold or shell and the core, while reciprocating tamping bars compact the plastic concrete mixture.
  • the mold is outwardly flared at the top in order to form the desired outer surface of the bell end.
  • the end is to be formed, in order to attach the former to the top of the core. Also it is necessary to provide an annular member of exactly the right shape and diameter for the end of the particular pipe being formed. Another obiection is the fact that the withdrawal of the tamping bars, prior to the setting of the end former in place, prevents further proper tamping of the concrete from this point on, with the result that this part of the pipe is weaker thanithe rest, the finished pipe, consequently, being more susceptible to breakage at this'point.
  • the ordinary annular end former is apt to leave the bell end of the pipe rough, and this is particularly true when a high percentage of rock is contained in the concrete mixture, a relatively large amount of rock in the concrete mixture requiring more tamping or the keeping of the mixture during the forming of the pipe under greater pressure in order to prevent the resulting surfaces of the pipe from being too rough.
  • the forming of the pipe end with the usual ring former has not been found to be entirely satisfactory.
  • the object of. this invention is toprovide an improved end former for concrete pipe which will overcome all these objections.
  • This object I accomplish by substituting a shoe-type end former in place of the common annular former, thereby enabling the former to remain on the core during the entire melding of the pipe, and dispensing with the necessity of stopping th machine or withdrawing the tampers prior to forming the end; by adjustahly mounting the shoe former on the core; and by making the shoe or former of a particular shape and design as hereinafter described with reference to the accompanying drawings.
  • Figure 1 is a vertical section of a mold for tongue-and-groove end. concrete pipe, showing also the core for the mold and my improved end former attached thereto;
  • Figure 2 is a plan view corresponding to Figure 1;
  • Figure 3 is a side elevation, drawn to a larger scale, of the end-forming attachment removed from the core, and showing the bracket to which the forming shoe is directly attached;
  • Figure 4 is an end elevation corresponding to Figure 3; s
  • Figure ,5 is a perspective View of the forming shoe alone
  • Figure 6 is a plan view of the forming shoe
  • Figures '7, 8, 9 and 10 are cross-sections of the forming shoe taken progressively along the shoe on the lines 1-'I, 38, 99 and Ill-l9 respectively of Figure 6;
  • Figure 11 is an enlarged fragmentary plan view showing the end-forming attachment at a slightly different position than in Figures 1 and 2;
  • Figure 12 is a fragmentary vertical section of a mold for bell-end concrete pipe showing also 1 a modified form of my improved forming shoe.
  • the mold for the tongueand-groove concrete pipe shown partly in vertical section in Figure 1 comprises the usual stationary core a and the revolvable outer shell b.
  • This outer shell of the mold is supported concentrically with the core a on a flanged base ring 0 which is carried on the circular platform d and is detachably secured thereto by a plurality of clamping blocks e.
  • the platform (1 is provided with a series of teeth d which are engaged by a pinion f driven by suitable means for rotating the outer shell b about the stationary core a.
  • a central trunnion 9 formed on the revolvable platform d extends ,With a sliding fit into the bottom of the core and thus holds the base of the core concentric with the outer shell b, while the top of the core is likewise positioned by a bar h made fast to the flanged hoisting stem 2' of the core and to the frame of the machine.
  • the male or tongue or bottom end of the concrete pipe is formed as the plastic cementitious mixture is fed into the mold by a dished metal pan 7' at the bottom of the mold.
  • the annular flange of the pan 7 is interposed between the base of the shell b of the mold and the supporting base ring at the initial stage of operation and is removed with the completed pipe.
  • the bracket is detachably mounted on the core by means of cap screws 2
  • the slots 22, 22 make it possible to vary the position of the bracket 20, and consequently of the attached forming shoe,
  • the forming shoe is adjustably-mounted on the bracket 20 by bolts 24, 24 (see Figures 3 and 4) -which extend through vertically elongated apertures 25, 25 provided in the upstanding lug 26 of the shoe and extending through holes in the vertical leg 20' of the bracket 20.
  • the forming shoe is an angular member having a horizontal flange 21 (see Figure 4) which is segmental in plan and having a vertical flange 28 correspondingly curved but of varying cross-sectionalform.
  • the curvature of the inside face 29 of the shoe is made to coincide in general with the curvature of the cylindrical core with which it is to be used, but the vertical flange 28 is preferably recessed substantially as shown at 30 in Figures 6 to 10.
  • the horizontal flange 2'! of the shoe is made sufficiently wide to permit the radially curved edge 3
  • the flange 2'! of the shoe is made flat for the major part of its length but is preferably curved upwardly at the forward end 32 slightly as shown in Figures 3, 5, 9 and 10 to facilitate the passage of the rotating concrete mixture in the mold beneath the shoe and to cause the shoe to exert a compressing force on the top of the concrete mixture.
  • the arcuate length of the shoe may vary from that enclosed by an angle of 100, for the smaller sizes of pipe, to that of an angle of 30 for the larger sizes of pipe.
  • the configuration of the vertical flange 28 of the shoe is of special importance in my invention.
  • This flange increases uniformly in thickness from the forward end 32 of the shoe towards the rear end 33 of the shoe, as shown in the progressive crosssectional views, Figures 7, 8, 9 and 10, and is in dicated by the broken lines 28' and 28" of Figure 6 which correspond to the top and bottom edges desired groove in the finished pipe.
  • the outer or actual forming surface 35 of the flange is convexly curved in the manner shown in Figures 7, 8 and 9, so as to provide a smooth transition from the comparatively thin and shallow section at the forward end of the shoe to the desired width and depth illustrated'in Figure 10. At this latter point the convexity has decreased to nil in the flat beveled face 30.
  • I provide a forming shoe which, by virtue primarily of its segmental form, as opposed to the annular form of formers in common use, may be readily attached to the core, adjusted or removed, without disturbing other parts of the assembly, and which shoe covers but a small portion of the annular space between the core and the rotating shell.
  • a shoe covering only a relatively small segmental portion of this annular space the usual interruption in the operation of the machine in order to permit the forming ring for the end of the pipe to be installed is eliminated, and ample space is available for the operation of as many tamping bars as desired.
  • Figure 12 I show a slightly modified form of my improved shoe, which modified form is used in shaping the groove of bell-end pipe.
  • This shoe is similar to that above described except that the horizontal flange 40 is preferably made wider and the vertical flange 4
  • an angular bracket for shaping the groove end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, said horizontal leg attached to the top of said core, a shoe adjustably attached to the vertical leg of said bracket, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, a vertical, wedge-like, curved flange extending below said horizontal flange, said vertical flange increasing in depth from the forward end for a substantial distance towards the rear end of said shoe, whereby the depth of the groove made in said pipe end by the rear end of said vertical flange may be varied by adjusting said shoe on the vertical leg of said bracket.
  • an angular bracket for shaping the bell end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, slots in said horizontal leg, screws attached to the top of said core and extending through said slots and holding said bracket adjustably in place on said core, a shoe, said shoe having a horizontal segmental flange, an upstanding lug on said horizontal flange, a vertical, wedge-like flange extending below said horizontal flange, said vertical flange increasing in depth from the forward end towards the rear end of said shoe, said upstanding lug of said shoe secured to the vertical leg of said bracket, whereby the width of the groove made in said pipe end by said vertical flange may be varied by adjusting said horizontal leg of said bracket on the top of said core.
  • an angular bracket for shaping the bell end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, a shoe attached to the vertical leg of said bracket, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, an upstanding lug on said horizontal flange, a vertical curved flange extending below said horizontal flange, said Vertical flange increasing in depth from the forward end for a substantial distance towards the rear end of said shoe, said upstanding lug of said shoe adjustably secured to the vertical leg of said bracket, wvhereby the depth of the groove made in said pipe end by said vertical flange may be varied by adjusting said upstanding lug on the vertical leg of said bracket.
  • An end former for concrete pipe in a pipe machine having a cylindrical core said former comprising, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, said horizontal leg adjustably attached to the top of said core, open-ended slots in said horizontal leg, screws attached to the top of said core and extending through said slots and holding said bracket adjustably in place on said core, a shoe for shaping the groove end of the pipe, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, an upstanding lug on said horizontal flange, the inside edge of said horizontal flange curved to correspond substantially to the surface of said core, a vertical, wedge-like, curved flanged extending below said horizontal flange, said vertical flange increasing in depth from the forward end for approximately two-thirds of the distance towards the rear end of said shoe, said upstanding lug of said shoe adjustably secured to the vertical leg of said bracket.
  • a shoe In an end former of the character described for concrete pipe, a shoe, said shoe having a horizontal segmental flange extending over the outside perimeter of the pipe end, the bottom face of said horizontal flange curved slightly upward at the forward end, a vertical curved flange extending downwardly from the bottom face of said horizontal flange, said curved vertical flange increasing in depth and width from the forward end of said shoe for a substantial distance towards the rear end of said shoe, whereby the forward end of said horizontal flange and said vertical flange, when encountering pieces of crushed rock in the concrete, will press these further into the concrete mixture by a wedging action and produce a better trowel-like finished surface.
  • an end former for concrete pipe in a pipe machine having a cylindrical core, a bracket attached to said core, a shoe, said shoe having a horizontal segmental flange extending over the outside perimeter of the pipe end, a vertical curved flange extending downwardly from the bottom face of said horizontal flange, said curved vertical flange increasing in depth and width from the forward end of said shoe for a substantial distance towards the rear end of said shoe, adjustable means connecting said shoe to said bracket permitting said horizontal flange to be inclined upwardly from the horizontal if desired, whereby to enable said shoe to exert a greater wedging action on the crushed rock in the concrete surface and also to vary the depth of the groove made by said shoe in the pipe end.

Landscapes

  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Chemical & Material Sciences (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Manufacturing Of Tubular Articles Or Embedded Moulded Articles (AREA)

Description

May 5, 1942. o. TUERCK 2,281,731
END FORMER FOR CONCRETE PIPE Filed Sept. 3, 1940 2 Sheets-Sheet l Inventor A? 15601 7; eys
May 5, 1942. o. TUERCK END FORMER FOR CONCRETE PIPE Filed Sept. 3, 1940 Oscar Tuerc'k 2 Sheets-Sheet 2 In VE'IZ tor fltta neys Patented May 5, 1942 END FORMER FOR CONCRETE PIPE Oscar Tuerck, Portland, Oreg.,
assignor to Tuerck-Mackenzie Company, Portland, Oregn,
a corporation of Oregon Application September 3, 1940, Serial No. 355,214
6 Claims.
This invention relates to molds and machines for forming concrete pipe, and, more specifically, to means for forming tmgue-and-groove end concrete pipe or for forming the female or bell end of concrete pipe.
Conventional concrete pipe machines include a central stationary cylindrical inner member or core and a rotatable outer mold spaced from the cylindrical surface of the core. The concrete mixture is gradually fed into the annular space between the rotating outer mold or shell and the core, while reciprocating tamping bars compact the plastic concrete mixture. In making bell end concrete pipe the mold is outwardly flared at the top in order to form the desired outer surface of the bell end.
In such conventional concrete pipe machines when the poured-in concrete mixture has reached the height at which the forming of the end of the pipe is to begin, the machine is teme porarily stopped, the tamping bars are removed or withdrawn, and a ring or annular forming element for the inside of the end of the pipe is attached to the core. The mold is then caused to rotate again and further concrete is poured in,
the end is to be formed, in order to attach the former to the top of the core. Also it is necessary to provide an annular member of exactly the right shape and diameter for the end of the particular pipe being formed. Another obiection is the fact that the withdrawal of the tamping bars, prior to the setting of the end former in place, prevents further proper tamping of the concrete from this point on, with the result that this part of the pipe is weaker thanithe rest, the finished pipe, consequently, being more susceptible to breakage at this'point. The ordinary annular end former, furthermore, is apt to leave the bell end of the pipe rough, and this is particularly true when a high percentage of rock is contained in the concrete mixture, a relatively large amount of rock in the concrete mixture requiring more tamping or the keeping of the mixture during the forming of the pipe under greater pressure in order to prevent the resulting surfaces of the pipe from being too rough. Thus, for these and other reasons, the forming of the pipe end with the usual ring former has not been found to be entirely satisfactory.
The object of. this invention is toprovide an improved end former for concrete pipe which will overcome all these objections. This object I accomplish by substituting a shoe-type end former in place of the common annular former, thereby enabling the former to remain on the core during the entire melding of the pipe, and dispensing with the necessity of stopping th machine or withdrawing the tampers prior to forming the end; by adjustahly mounting the shoe former on the core; and by making the shoe or former of a particular shape and design as hereinafter described with reference to the accompanying drawings.
In the drawings:
Figure 1 is a vertical section of a mold for tongue-and-groove end. concrete pipe, showing also the core for the mold and my improved end former attached thereto;
Figure 2 is a plan view corresponding to Figure 1;
Figure 3 is a side elevation, drawn to a larger scale, of the end-forming attachment removed from the core, and showing the bracket to which the forming shoe is directly attached;
Figure 4 is an end elevation corresponding to Figure 3; s
Figure ,5 is a perspective View of the forming shoe alone;
Figure 6 is a plan view of the forming shoe;
Figures '7, 8, 9 and 10 are cross-sections of the forming shoe taken progressively along the shoe on the lines 1-'I, 38, 99 and Ill-l9 respectively of Figure 6;
Figure 11 is an enlarged fragmentary plan view showing the end-forming attachment at a slightly different position than in Figures 1 and 2; and
Figure 12 is a fragmentary vertical section of a mold for bell-end concrete pipe showing also 1 a modified form of my improved forming shoe.
The mold for the tongueand-groove concrete pipe shown partly in vertical section in Figure 1 comprises the usual stationary core a and the revolvable outer shell b. This outer shell of the mold is supported concentrically with the core a on a flanged base ring 0 which is carried on the circular platform d and is detachably secured thereto by a plurality of clamping blocks e. The platform (1 is provided with a series of teeth d which are engaged by a pinion f driven by suitable means for rotating the outer shell b about the stationary core a. A central trunnion 9 formed on the revolvable platform d, extends ,With a sliding fit into the bottom of the core and thus holds the base of the core concentric with the outer shell b, while the top of the core is likewise positioned by a bar h made fast to the flanged hoisting stem 2' of the core and to the frame of the machine.
The male or tongue or bottom end of the concrete pipe is formed as the plastic cementitious mixture is fed into the mold by a dished metal pan 7' at the bottom of the mold. The annular flange of the pan 7 is interposed between the base of the shell b of the mold and the supporting base ring at the initial stage of operation and is removed with the completed pipe.
The formation of the receiving or grooved end of the pipe is accomplished in my invention by an improved forming shoe which is adjustably secured to the upper end of the stationary core shoe conforms to the required radial depth of the suggested I have found to be quite satisfactory.
by means of an angular bracket 20., The bracket is detachably mounted on the core by means of cap screws 2|, 2|, which are passed through open- end slots 22, 22 provided in the shorter or horizontal leg of the bracket 20, and these screws 2|, 2| are secured in holes threaded into the top of the core, washers 23, 23 being interposed between the heads of the screws and the horizontal leg of the bracket 20. The slots 22, 22 make it possible to vary the position of the bracket 20, and consequently of the attached forming shoe,
with respect to the core, and the open ends of the slot permit the attaching or removal of the bracket by merely loosening the screws. The importance of providing for the adjustment of the angular bracket with respect to the core will be apparent later on in this description.
The forming shoe is adjustably-mounted on the bracket 20 by bolts 24, 24 (see Figures 3 and 4) -which extend through vertically elongated apertures 25, 25 provided in the upstanding lug 26 of the shoe and extending through holes in the vertical leg 20' of the bracket 20. The forming shoe is an angular member having a horizontal flange 21 (see Figure 4) which is segmental in plan and having a vertical flange 28 correspondingly curved but of varying cross-sectionalform. The curvature of the inside face 29 of the shoe is made to coincide in general with the curvature of the cylindrical core with which it is to be used, but the vertical flange 28 is preferably recessed substantially as shown at 30 in Figures 6 to 10. so as to reduce the amount of material required for making the shoe and, particularly, to reduce the expense of machining this bearing surface. The horizontal flange 2'! of the shoe is made sufficiently wide to permit the radially curved edge 3| to overlap the edge of the shell b as shown in Figures 1 and 2.
The flange 2'! of the shoe is made flat for the major part of its length but is preferably curved upwardly at the forward end 32 slightly as shown in Figures 3, 5, 9 and 10 to facilitate the passage of the rotating concrete mixture in the mold beneath the shoe and to cause the shoe to exert a compressing force on the top of the concrete mixture. The arcuate length of the shoe may vary from that enclosed by an angle of 100, for the smaller sizes of pipe, to that of an angle of 30 for the larger sizes of pipe. The configuration of the vertical flange 28 of the shoe is of special importance in my invention. This flange increases uniformly in thickness from the forward end 32 of the shoe towards the rear end 33 of the shoe, as shown in the progressive crosssectional views, Figures 7, 8, 9 and 10, and is in dicated by the broken lines 28' and 28" of Figure 6 which correspond to the top and bottom edges desired groove in the finished pipe. Variations in these progressive degrees of thickness of the vertical flange might be made but the proportions This curved wedge formation of the vertical downwardly-extending flange is augmented by varying the depth of the flange and the variations in depth, as shown in the sectional views of Figures '7 to 10, and also shown in the side elevation, Figure 3, are obtained by shaping the bottom edge 34 in a curve that commences closely beneath the horizontal flange at the forward end 32 of the shoe and gradually descends until at a point approximately two-thirds of the distance from the forward end of the shoe to the rear, it reaches the full depth of the flange and then continues at this depth for the remainder of the distance forming a bottom edge parallel to the horizontal flange. In conformity with the varying thickness and depth of this vertical flange, as described, the outer or actual forming surface 35 of the flange is convexly curved in the manner shown in Figures 7, 8 and 9, so as to provide a smooth transition from the comparatively thin and shallow section at the forward end of the shoe to the desired width and depth illustrated'in Figure 10. At this latter point the convexity has decreased to nil in the flat beveled face 30.
From the above description of the shape of my forming shoe, it will be apparent that this shoevis designed to afford the least possible resistance to the motion of the mass. of cementitious material which is accumulated and revolved in the mold about the stationary core and beneath the shoe, while the shoe, adjustably secured tovthe core, performs its function of forming the required groove in the end of the pipe. The upturned forward end of the horizontal flange of the shoe and the minimum thickness and depth of the vertical flange of the shoe contribute to facilitate the entrance of the shoe into this plastic mass. A very important result obtained because of the design and shape of this shoe resides in the fact that immediately the cementitious mixture enters the space between the shoe and rotating outer shell of the mold, the increasing thickness and depth of the vertical flange of the shoe cause a compressive force to be exerted gradually to densify and compact the mixture and eliminate the air voids that justment provided through the bolts 24, 24 and the slots 25, 25 in the lug 26 of the shoe, whereby the shoe may be inclined in either direction or raised or lowered bodily with respect to the supporting bracket 20 and the running clearance between the fixed shoe and the top edge of the rotating shell b may also be varied to compensate for wear on the effective face of this horizintal flange.
The open- ended slots 22, 22, in combination with the cap screws 2|, 2 I, by which the horizontal leg of the bracket is secured, afford similar adjustment in a lateral direction and permit a shoe, attached to the bracket, to be moved away from the core, in the manner illustrated in Figure 11, in order to vary the radial depth of the groove in the finished pipe and also to compensate for wear on the outer face of the vertical flange of the shoe.
Thus, through my invention, I provide a forming shoe which, by virtue primarily of its segmental form, as opposed to the annular form of formers in common use, may be readily attached to the core, adjusted or removed, without disturbing other parts of the assembly, and which shoe covers but a small portion of the annular space between the core and the rotating shell. As a result of having a shoe covering only a relatively small segmental portion of this annular space, the usual interruption in the operation of the machine in order to permit the forming ring for the end of the pipe to be installed is eliminated, and ample space is available for the operation of as many tamping bars as desired.
In Figure 12 I show a slightly modified form of my improved shoe, which modified form is used in shaping the groove of bell-end pipe. This shoe is similar to that above described except that the horizontal flange 40 is preferably made wider and the vertical flange 4| is made thicker and deeper at the rearward end 42 in order to form the larger groove which is required in the bell-end type of pipe.
It would of course be possible to make modiflcations in the exact size and shape of different parts of my former without departing from the principle of my invention, and it is not my desire to restrict my pipe-end former to the exact comparative dimensions indicated in this description, such dimensions being given by way of illustration only; and it is not my intention otherwise to limit my invention except as set forth in the appended claims.
I claim:
1. In an end former for shaping the groove end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, said horizontal leg attached to the top of said core, a shoe adjustably attached to the vertical leg of said bracket, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, a vertical, wedge-like, curved flange extending below said horizontal flange, said vertical flange increasing in depth from the forward end for a substantial distance towards the rear end of said shoe, whereby the depth of the groove made in said pipe end by the rear end of said vertical flange may be varied by adjusting said shoe on the vertical leg of said bracket.
2. In an end former for shaping the bell end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, slots in said horizontal leg, screws attached to the top of said core and extending through said slots and holding said bracket adjustably in place on said core, a shoe, said shoe having a horizontal segmental flange, an upstanding lug on said horizontal flange, a vertical, wedge-like flange extending below said horizontal flange, said vertical flange increasing in depth from the forward end towards the rear end of said shoe, said upstanding lug of said shoe secured to the vertical leg of said bracket, whereby the width of the groove made in said pipe end by said vertical flange may be varied by adjusting said horizontal leg of said bracket on the top of said core.
3. In an end former for shaping the bell end of a concrete pipe in a pipe machine having a cylindrical core, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, a shoe attached to the vertical leg of said bracket, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, an upstanding lug on said horizontal flange, a vertical curved flange extending below said horizontal flange, said Vertical flange increasing in depth from the forward end for a substantial distance towards the rear end of said shoe, said upstanding lug of said shoe adjustably secured to the vertical leg of said bracket, wvhereby the depth of the groove made in said pipe end by said vertical flange may be varied by adjusting said upstanding lug on the vertical leg of said bracket.
4. An end former for concrete pipe in a pipe machine having a cylindrical core, said former comprising, an angular bracket, said bracket having a pair of legs, one horizontal and one vertical, said horizontal leg adjustably attached to the top of said core, open-ended slots in said horizontal leg, screws attached to the top of said core and extending through said slots and holding said bracket adjustably in place on said core, a shoe for shaping the groove end of the pipe, said shoe having a horizontal segmental flange, the bottom face of said flange curved slightly upward at the forward end, an upstanding lug on said horizontal flange, the inside edge of said horizontal flange curved to correspond substantially to the surface of said core, a vertical, wedge-like, curved flanged extending below said horizontal flange, said vertical flange increasing in depth from the forward end for approximately two-thirds of the distance towards the rear end of said shoe, said upstanding lug of said shoe adjustably secured to the vertical leg of said bracket.
5. In an end former of the character described for concrete pipe, a shoe, said shoe having a horizontal segmental flange extending over the outside perimeter of the pipe end, the bottom face of said horizontal flange curved slightly upward at the forward end, a vertical curved flange extending downwardly from the bottom face of said horizontal flange, said curved vertical flange increasing in depth and width from the forward end of said shoe for a substantial distance towards the rear end of said shoe, whereby the forward end of said horizontal flange and said vertical flange, when encountering pieces of crushed rock in the concrete, will press these further into the concrete mixture by a wedging action and produce a better trowel-like finished surface.
6. In an end former for concrete pipe in a pipe machine having a cylindrical core, a bracket attached to said core, a shoe, said shoe having a horizontal segmental flange extending over the outside perimeter of the pipe end, a vertical curved flange extending downwardly from the bottom face of said horizontal flange, said curved vertical flange increasing in depth and width from the forward end of said shoe for a substantial distance towards the rear end of said shoe, adjustable means connecting said shoe to said bracket permitting said horizontal flange to be inclined upwardly from the horizontal if desired, whereby to enable said shoe to exert a greater wedging action on the crushed rock in the concrete surface and also to vary the depth of the groove made by said shoe in the pipe end.
OSCAR TUERCK.
US355214A 1940-09-03 1940-09-03 End former for concrete pipe Expired - Lifetime US2281731A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US355214A US2281731A (en) 1940-09-03 1940-09-03 End former for concrete pipe

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US355214A US2281731A (en) 1940-09-03 1940-09-03 End former for concrete pipe

Publications (1)

Publication Number Publication Date
US2281731A true US2281731A (en) 1942-05-05

Family

ID=23396647

Family Applications (1)

Application Number Title Priority Date Filing Date
US355214A Expired - Lifetime US2281731A (en) 1940-09-03 1940-09-03 End former for concrete pipe

Country Status (1)

Country Link
US (1) US2281731A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2559296A (en) * 1947-06-19 1951-07-03 Hansen Augustus Pipe mold
US2863205A (en) * 1953-08-06 1958-12-09 Lock Joint Pipe Co Apparatus for forming concrete pipes
US20150314489A1 (en) * 2012-01-18 2015-11-05 Aircelle Tool assembly, and method for manufacturing a part made of a composite material

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2559296A (en) * 1947-06-19 1951-07-03 Hansen Augustus Pipe mold
US2863205A (en) * 1953-08-06 1958-12-09 Lock Joint Pipe Co Apparatus for forming concrete pipes
US20150314489A1 (en) * 2012-01-18 2015-11-05 Aircelle Tool assembly, and method for manufacturing a part made of a composite material

Similar Documents

Publication Publication Date Title
US4154786A (en) Method for producing a mattress having embedded springs, the implements used and the mattress obtained
US2281731A (en) End former for concrete pipe
US2198634A (en) Molding apparatus
US2014297A (en) Paper dish and method and apparatus of forming
US2717435A (en) Machine for moulding pipes, tubes, and the like from cementitious mixes
US4039642A (en) Method of making concrete pipe
US2198498A (en) Apparatus for forming sprue tube sockets
US3733163A (en) Wear surface for concrete pipe machine long bottoms
US2356860A (en) Mold for hollow bodies and method of constructing the mold
US2283310A (en) Sheet and plate metal forming machine
US2143449A (en) Apparatus for making ducts
US3276092A (en) Apparatus for casting hollow reinforced and pre-stressed members
US3848297A (en) Means for preventing inversion of movable bottom of sliver collection can
US2143448A (en) Core former for making ducts
US1510220A (en) Concrete-pipe-making machine
CN209240595U (en) Process the automatic drawing branch material sawing sheet sawing machine of surgical instrument special irregular material structure
US2214133A (en) Apparatus for centrifugal casting of molten metal
US1750138A (en) Bell-pipe mold
US20110318446A1 (en) Method And An Apparatus For The Manufacture Of Concrete Pipes
US2560426A (en) Machine for forming concrete pipes
SU550109A3 (en) Apparatus for making flaskless molds
WO1985003734A1 (en) A sliding form for casting columns
US2675597A (en) Concrete pipe making apparatus
US3255497A (en) Apparatus for forming foundry molds for casting pipes
CN108818892A (en) A kind of floor structure of novel wall material production mould