TH54019B - Method and Chord Manufacturing Machine of Spiral Circles - Google Patents

Abstract

DC60 (17/07/56) Method for producing the chords of an annular corrugated inner tube. where, while rotating the circular axis The ring at a fixed position in the direction of movement around it, the winder where the winding side wires are wrapped, swings. The body is a pendulum clock repeatedly. each other and will move perpendicular to the annular axis in order to wind the wire The sides are coiled with an annular core to form a sheath. When the sheath layer is created, the pivot point of The pendulum oscillation of the coil is determined in such a way that, relative to the tangent of the sphere, of the annular axis through the winding point at the point where the lateral wire is wound against the annular axis. The side wire is winded to the winding point of the annular core within 15 degrees at the north position. tangent and within a range of 55 degrees at the position below the tangent Method for producing the chord of an annular corrugated inner tube where, while rotating the figure axis The ring at a fixed position in the direction of movement around it, the winder where the winding side wires are wrapped, swings. It is a pendulum that repeats and moves perpendicular to the annular axis. in order to wind the wire The sides are coiled with an annular core to form a sheath. When the sheath layer is created, the pivot point of The pendulum oscillation of the coil is determined in such a way that, relative to the tangent of the sphere, of the annular axis through the winding point at the point where the lateral wire is wound against the annular axis. The side wire is winded to the winding point of the annular core within 15 degrees at the north position. tangent and within a range of 55 degrees at the position below the tangent

Claims (8)

Claims (all) which will not appear on the classifieds page : 1. The method for producing the chords of the inner ring strands, consisting of The repetitive winding motion that results from the lateral roll movement. and pulling back and forth while the ring axis is rotated in the direction of movement around where by this method Will cause the side wire to be wrapped by the movement will move against the surface of the ring axis. on the inside and outside of the ring body of the ring axis and move the coil sideways in such a way that the deflection angle in the fold (formula)s of the side wire acting on the surface of the ring axis shall not exceed 29 degrees, and by this method This allows the side wires drawn from the coil to be coiled continuously against the ring core to form one or more sheath layers. where the same plane of the coil and the surface of the ring axis is oscillating movement of a pendulum, and where, when the side wire that was pulled from the coil was wrapped in a coil like continuity with the ring axis by repeatedly moving the roll side to side with the surface of the ring axis to the side In and out of the ring of the annular axis as a result of moving the roll to a position at which the winder moves transversely with the inside of the ring body of the ring axis at one end point. of the swing and to a position where the coil will move against the outer side of the ring body. Ring-shaped axis at the other end of the swing range the position of the pivot point of the movement The pendulum swing of the coil is determined in such a way that The angle between the side wires drawn from the winding body and the tangent of the circle of the ring axis through the winding point at the point where the side wire is Bring the winding to the ring axis is within 15 degrees on the side opposite the ring axis. along the tangent and will be in the range of 55 degrees on the side of the ring axis along the tangent line where the diameter of the winding of the side wire winding with the winding body is adjusted. in advance to satisfy one of the following equations: 0.90DR(formula)DSO(formula)3.3 DR, or 0.55DC(formula)DSO(formula)2.0DC, where DR is the outer diameter of the coil,DSO is the diameter of The adjusted winding of the side wire and DC is the diameter at the center of the ring-shaped core. 2. The method for producing the chords of the inner ring strand strand as specified in Claim 1, where the transverse wire temporarily pulls the starting end of the wire transverse winding by using This is due to the effect of temporary fixation of the initial end of the transverse winding of the wire using unvulcanized or semi-vulcanized rubber sheets. arrived 3. Methods for producing the chords of the rubber rims in a ring-shaped stranded reel as specified in Claim 1 or 2. where the diameter of the winding of the transverse wire winding with The coil is pre-adjusted to satisfy one of the following equations: 0.99DR<=DSO<=3.3DR or 0.55DC<+DSO<=2.0DC DR is coil outer diameter,DSO is the diameter of the adjustable coil then of the wire along the path and Dc is the diameter at the center of the annular axis. 4. Methods for producing the chords of the rubber rims in a ring-shaped stranded reel as specified in one of claims 1 to 3 where the direction of curvature of the transverse wire drawn from the winding will go in the direction of curvature of the ring axis at the winding point. 5. The machine produces the chords of the rubber rim in the ring-shaped stranding roll consisting of The drive is a ring-shaped spindle in the direction it moves around; The winding that transmits the wire transversely to the folded section of the ring core; A pendulum mechanism that causes the coil to move in a pendulum-like motion along the surface of the ring-shaped rod. The ring of the ring axis at the end of the oscillation of the winder and to its position at the point of the winder. moving transversely with the outer ring of the ring axis at the other end of the oscillation; and the forward-facing roll delivery mechanism rests on the sides. of the surface of the ring-shaped core by it are positioned at a distance that does not prevent rotation of the ring axis in the direction of movement around which the wire crosses. Pulled from the coil will be rolled up and dig into a circle. Continuing with the ring axis by repeatedly moving the roll crosswise. together with the surface of the ring axis with On the inside and outside of the ring of the ring axis and the position of the pivot point of displacement The pendulum slewing type of the winder is determined by the angle between the wires along the drawn transverse lines. from the winding body and the tangent of the sphere of the ring axis passing through the winding point at the point where the wire follows The transverse winding on the ring axis is within 15 degrees on the side opposite the ring axis. along the tangent line and will be in the range of 55 degrees on the side of the ring axis along the tangent 6. The rim chord machine in the form of a stranded, ring-shaped reel as specified in Claim 5, where the drive consists of two gripping wheels forming a ring-shaped pivot. and where the machine will It is further assembled with a gripper that is positioned on the wire supply side along the cross-section of the two gripping reels, where it loosely guides the ring-shaped axes. and it will act as a winding point when winding the wire along Transverse with ring-shaped axis 7. Machine for producing the chords of the rubber rims in the form of stranded, ring-shaped coils as specified in Claim 5 or 6. where the two face-to-face roll carrier mechanisms are positioned at a distance. minimal In order to make the coil move around the surface of the ring hole axis. 8. Machine for producing the chords of the rubber rims in the form of stranded, ring-shaped coils as specified in Claims 5 to 7. where the coil, where the wire along the folded path is to be supported, is supported. The rotatable type is available in an envelope containing a cylindrical outer perimeter wall of dimensional tolerances. with the inner width of the coil and the diameter is larger than the outer diameter of the coil a little The wall surrounding the outside of the storage case has a hole that is used to pull it out and a wire along it. The transverse will be pulled out through the ejection hole.