JP6087637B2 - Tire member supply device and tire member supply method - Google Patents

Description

  The present invention relates to a tire member supply apparatus and a tire member supply method for obtaining a tire member from a long member, and when cutting a long member for a tire into a predetermined length, the load of the festoon is reduced, The present invention relates to a tire member supply apparatus and a tire member supply method provided with a long member support mechanism for preventing elongation of a tire member due to the weight of a festoon.

  Conventionally, in a tire manufacturing process, a strip-shaped long member wound around a winding roll is unwound, and this long member is placed on a conveyor belt conveyor and cut into a predetermined length during transportation. Tire members are supplied. In this tire member supply device, a slack portion of a long tire member called a festoon is provided between the unwinding roll and the conveyor belt conveyor, and deformation due to the tension of the elongated member being conveyed is prevented. It is like that.

  However, if a tire member with a large weight such as a tread or a belt member is used as a festoon, the tire member itself is loaded by the weight of the tire member, and the tire member is stretched and cut by a cutting mechanism so that the tire member has a predetermined length in the stretched state. Then, after cutting, the load on the tire member is removed and the tire member contracts, and due to variations in the amount of contraction, the length of each of the cut tire members varies, and the length of the tire member is reduced. It is difficult to keep the tire constant, and it has been difficult to obtain high uniformity in a tire manufactured using such a tire member.

JP 2010-260316 A

  The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to reduce variations in the length of a tire member formed to have a predetermined length by cutting a long member for a tire member. Another object of the present invention is to provide a tire member supply device and a tire member supply method capable of manufacturing a tire having a high uniformity by manufacturing a tire using a tire member having a stable length.

  In order to solve the above-mentioned object, the invention according to claim 1 is a long member supply mechanism that provides a long member for a tire member, a transport mechanism that transports the tire member, and the long member having a predetermined length. In the tire member supply device including a cutting mechanism for cutting the length, a festoon of the long member is formed between the long member supply mechanism and the transport mechanism, and the long member supply mechanism and the transport mechanism A long member support mechanism is disposed adjacent to each other, and the long member support mechanism supports the long member when the cutting mechanism cuts the long member into a predetermined length. A tire member supply device characterized by the above.

  According to a second aspect of the present invention, in the tire member supply device according to the first aspect, the long member support mechanism includes a long member support portion that supports the long member and the long member support portion up and down. It is characterized by comprising a drive unit for moving.

  According to a third aspect of the present invention, in the tire member supply device according to the first or second aspect, the tire member supply device controls a supply speed of the elongate member supply mechanism and a conveyance speed of the conveyance mechanism. A control mechanism, and a festoon length detection sensor for detecting the length of the festoon, wherein the control mechanism is based on a signal from the festoon length detection sensor and the supply speed of the elongate member supply mechanism and the transport mechanism The conveyance speed is controlled.

According to a fourth aspect of the present invention, there is provided a festoon for the long member between a long member supply unit that supplies a long member for a tire member and a conveying unit that conveys the long member. In a tire member supply method for supplying a tire member by cutting a member into a predetermined length by a cutting means, the tire member supply is characterized in that the festoon is supported by a long member support means when the long member is cut. Is the method.

  According to a fifth aspect of the present invention, in the tire member supply method according to the fourth aspect, the long member support means includes a long member support portion that supports the long member, and the long member support portion that extends vertically. When the long member is cut by the cutting means, the long member support portion is raised to support the festoon with the long member support portion, and the long member is supported by the long member support portion. The long member support portion is lowered to prevent the long member from coming into contact with the festoon except when the long member is cut.

Invention of Claim 6 is the tire member supply method of Claim 4 or Claim 5, The supply speed of the said elongate member supply means and the conveyance speed of the said conveyance means are as follows.
Controlled based on a signal detected by a festoon length detecting means for detecting the length of the festoon.

  A seventh aspect of the present invention is the tire member supply method according to the fifth or sixth aspect, wherein the conveying means feeds the long member by a predetermined length corresponding to the length of the tire member. The transport of the transport means and the supply of the long member supply means are stopped, the long member supply means winds up the long member for a predetermined length, and the drive part of the long member support means is The long member support part of the long member support means is raised, and the long member supply means unwinds the long member until the festoon is supported by the long member support part, The member is cut by the cutting means, the driving unit descends the long member supporting portion, the long member supply unit starts supplying the long member, and the conveying unit starts conveying. It is characterized by that.

  According to the first aspect of the present invention, since the festoon is supported by the long member support mechanism when the long member is cut by the cutting mechanism, the elongation of the long member due to the weight of the festoon is reduced. Can do. Even if the load on the tire member is removed after the long member is cut, the shrinkage amount of the tire member is reduced, the variation in the length of each cut tire member is reduced, and the length of the tire member is reduced. Can be constant. By manufacturing a tire using such a tire member, a tire with high uniformity can be obtained.

  According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, the long member support mechanism includes a long member support portion that supports the long member from below, and a long member support portion. Since the drive unit for moving the upper and lower sides is provided, except when cutting the long member, the long member support unit is moved downward without touching the festoon, so that the function of the festoon is not hindered. At the time of cutting, the long member supporting portion is moved upward to support the long member, the load due to the weight of the festoon is reduced, the elongation of the long member is reduced, and the tire member having a constant length is supplied. be able to.

  According to the invention described in claim 3, in addition to the effect of the invention described in claim 1 or 2, the control mechanism for controlling the supply speed of the long member supply mechanism and the transport speed of the transport mechanism; Since it is equipped with a festoon length detection sensor that detects the festoon length, the supply speed of the long member supply mechanism and the transfer speed of the transfer mechanism are controlled, and the festoon length is changed by the difference between the supply speed and the transfer speed. When the long member is cut, the length of the festoon can be shortened to reduce the weight of the festoon, and the elongation of the long member can be further reduced.

  According to the fourth aspect of the present invention, since the long member is supported by the long member support means when the long member is cut, the elongation of the long member due to the weight of the festoon can be reduced. Even if the load on the tire member is removed after the long member is cut, the amount of shrinkage of the tire member is small, so variation in the length of each cut tire member is reduced, and the length of the tire member is reduced. Can be constant. By manufacturing a tire using such a tire member, a tire with high uniformity can be obtained.

  According to the invention described in claim 5, in addition to the effect of the invention described in claim 4, the long member support means includes a long member support portion that supports the long member, and a long member support portion. When the long member is cut by the cutting means, the long member support portion is raised and the festoon is supported by the long member support portion when the long member is cut by the cutting means. Since the long member support portion is lowered so as not to contact the festoon except when cutting, the lower portion where the long member support portion does not touch the festoon except when the long member is cut. When the long member is cut, the long member support part is moved upward to support the long member, reducing the load due to the weight of the festoon, and extending the long member. Tire part with a constant length It can be supplied.

  According to the invention described in claim 6, in addition to the effects of the invention described in claims 4 and 5, the supply speed of the long member supply means and the transfer speed of the transfer means are the length of the festoon. Is controlled based on the signal detected by the festoon length detecting means, so that the feeding speed of the long member supplying means and the conveying speed of the conveying means are controlled respectively, and the festoon length is determined by the difference between the supplying speed and the conveying speed. When the long member is cut, the length of the festoon can be shortened to reduce the weight of the festoon, and the elongation of the long member can be further reduced.

  According to the invention described in claim 7, in addition to the effects of the invention described in claims 4 to 6, when a long member of a predetermined length corresponding to the length of the tire member is sent, The length of the festoon is shortened, the lower part of the festoon is supported by the long member support part, the long member is cut, and then the long member support part is lowered to bring the festoon into a normal state. Thus, the weight of the festoon at the time of cutting can be reduced without requiring a special operation, and the elongation of the long member can be reduced. Thus, a tire member with little variation in member length can be obtained while preventing an increase in cost.

It is a partial side view of the tire member supply apparatus in one Example of this invention. It is a partial side view of the tire member supply apparatus in one Example of this invention. It is a top view of a part of a tire member supply device in one example of the present invention. It is a side view of the elongate member support apparatus in the state which can convey a elongate member. It is a rear view of a long member support device. FIG. 6 is a view taken along arrow VI-VI in FIG. 4. It is a principal part side view of the tire member supply apparatus in the middle of producing the festoon. It is a principal part side view of the tire member supply apparatus in the state which completed creation of the festoon. It is a side view of the tire member supply apparatus in the state where the elongate member is conveyed by the conveying apparatus. It is a side view of a tire member supply device in the state where a long member is conveyed to a conveyance device. It is a side view of a tire member supply device in the state where supply of a long member supply device and conveyance of a conveyance device were stopped, and winding by a long member supply device of a festoon was started. It is a side view of the tire member supply apparatus in the state where the festoon was wound up by predetermined length by the elongate member supply apparatus. It is a side view of the tire member supply apparatus of the state which raised the elongate member support part of the elongate member support apparatus. It is a side view of the tire member supply apparatus of the state which unwinded the predetermined length long member with the long member supply apparatus, and supported the festoon by the long member support part. It is a side view of a tire member supply device in the state where a long member was cut with a cutting mechanism. It is a side view of the tire member supply apparatus in the state where the unwinding end side end part of a long member is sent to a conveyance device. It is a side view of the tire member supply device in the state where the end material of the long member is discharged. It is a top view of the tire supply apparatus of the state which the unwinding of the unwinding roll was complete | finished and the station was moved.

  An embodiment according to the present invention will be described below with reference to FIGS.

  A tire member supply apparatus 1 according to the present embodiment is an apparatus that supplies a tire member 2 such as a tread member of a tire, and as shown in FIGS. 1 and 2, a tire in which raw rubber is formed in a long belt shape. The long member 4 is supplied from the long member supply device 3 and is conveyed on the conveying device 100, and is cut into a predetermined length by the cutter 131 and the anvil 132 which are cutting mechanisms 130, and the tire member 2 is molded into a tire. The drum 140 is supplied. Hereinafter, in the tire member supply device 1 of the present embodiment, the direction of the member flow refers to the direction from the long member supply device 3 toward the tire molding drum 140, and the upstream side refers to the long member supply device 3 side. The downstream side refers to the tire molding drum 140 side.

  A festoon 51 shown in FIG. 8 serving as a buffer between the supply side and the feed side of the long member 4 is provided between the long member supply device 3 and the conveying device 100. .

  Further, when the festoon 51 is automatically created between the long member supply device 3 and the transport device 100, the long member 4 is supported from below or the long member 4 is cut into a predetermined length. In this case, a long member support device 50 for supporting the festoon 51 of the long member 4 from below is disposed.

  The long member 4 is wound around the unwinding roll 6 a plurality of times with the liner 5 interposed therebetween. The unwinding roll 6 is fixed to both ends of the winding drum 7 to support the cylindrical winding drum 7 around which the long member 4 and the liner 5 are wound, and the long member 4 and the liner 5 wound around the winding drum 7. A pair of disc-shaped flanges 8 and a pair of cylindrical protrusions 9 formed outside the flange 8 are provided.

  As shown in FIGS. 1 and 3, two thin plate-like substrates 13 and 14 are pasted on the floor surface 12 on which the long member supply device 3 is installed at a predetermined interval in the flow direction. A pit 16 that is attached and has a recess formed by the substrates 13 and 14 and the floor surface 12 prevents contact between the unwinding roll 6 and the floor 12 when the unwinding roll 6 is set at a predetermined position. It has become.

  As shown in FIG. 3, three sets of thin plate-like guide members 15 are pasted on the substrate 13 in parallel with the flow direction of the long member 4, and the unwinding roll 6 is supplied to the long member. It plays the role of a guide when setting the device 3. Further, three rails 17, 18, and 19 are laid in parallel on the substrate 14 in a direction perpendicular to the flow direction of the long member.

  As shown in FIG. 1, the long member supply device 3 includes a movable frame 20, and the movable frame 20 has three slide portions 21 that slide on rails 17, 18, and 19 fixed to a lower portion thereof. It is possible to move along the rails 14, 15, 16 at right angles to the member flow direction.

  As shown in FIG. 3, the movable frame 20 includes two sets of stations 22, and the unwinding roll 6 can be set in each station 22.

  The unwinding station 6 carries the unwinding roll 6 around which the long member 4 and the liner 5 are wound, starts unwinding, and waits while the long member 4 is unwound from the unwinding station 10. A new unwinding roll 6 can be carried into the station 22 at the position 11 and set in a state where it can be unwound.

  When the unwinding of the long member of the unwinding roll 6 in the unwinding station 10 is finished, the station 22 at the standby position 11 is moved by moving the movable frame 20 along the rails 14, 15, 16. Is moved to the unwinding position 10 and the unwinding of the long member 4 can be started immediately from the new unwinding roll 6.

  Further, the unwinding roll 6 is unloaded from the station 22 which has been unwound and moved to the standby position 11, and a new unwinding roll 6 is set at the station 22 so as to be ready for unwinding. Can be set.

  As shown in FIGS. 1 and 3, each station 22 includes a set of support rollers 23, rollers 24, cylinders 25, rods 26, links 27, and rollers 28.

  A support roller 23 is rotatably supported on a beam 20c projecting from the support column 20b of the movable frame 20 in the horizontal direction and upstream in the member flow direction. The support roller 23 is supported above the support roller 23 by the support column 23b. The roller 24 is rotatably supported at the downstream side in the flow direction.

  A beam 20d is provided at the upper end of the column 20b in parallel with the beam 20c, a cylinder 25 is fixed to the upper surface of the beam 20d, and one end 27a of a link 27 is rotatable at the tip of the rod 26 of the cylinder 25. A roller 28 is rotatably connected to the other end 27b. Further, the protrusion 27c of the link 27 is rotatably connected to the tip of the beam 20d, and the link 27 is swung around the protrusion 27c by operating the cylinder 25 and moving the rod 26. Yes.

  When the unwinding roll 6 is set in the station 22, when the cylinder 25 is operated and the rod 26 is contracted, the link 27 swings upward and the roller 28 moves upward. Can be brought in. The pair of projecting portions 9 of the unwinding roll 6 carried in are supported in the vertical direction by the pair of support rollers 23 and supported in the horizontal direction by the rollers 24, and then the cylinder 25 is operated to project the rod 26 to link 27. Is swung downward, and the protruding portion 9 of the unwinding roll 6 is pressed by the roller 28 at the link end 27b, so that the unwinding roll 6 can be prevented from moving in the unloading direction.

  The unwinding roll 6 carried into the movable frame 20 is supported by the roller 23, the roller 24, and the roller 28 and is in a rotatable state.

  A drive roller 29 is provided on the base 20 a of the movable frame 20 so as to contact the outer peripheral surface of the flange 8 of the unwinding roll 6 carried into the movable frame 20, and a drive disposed adjacent to the drive roller 29. The driving roller 29 is rotationally driven by the device 30 so that the unwinding roll 6 in contact with the driving roller 29 is rotated. The drive device 30 can be driven to rotate in either the forward or reverse direction. When the drive roller 29 is rotated forward by the drive device 30, the long member 4 is unwound from the unwinding roll 6 and driven. When the driving roller 29 is reversed by the device 30, the long member 4 is wound up by the winding roll 6.

  A plurality of separation rolls 33 are rotatably supported on the upper part of the movable frame 20, and the elongated member 4 and the liner 5 that are overlaid are separated after passing through the separation roll 33. The liner 5 that has passed through the separation roll 33 is wound around a liner winding roll 31 that is positioned below the separation roll 33 and driven by a driving device 32 provided in the movable frame 20. Further, in a state where the unwinding roll 6 is reversely rotated and the long member 6 is wound around the unwinding roll 6, the driving device 32 rotates reversely so that the liner 5 is unwound from the liner winding roll 31. It has become.

  The driving device 30 and the driving device 32 are controlled in rotation direction and winding speed by a control device (not shown), and the unwinding speed of the unwinding roll 6 and the winding speed of the liner winding roll 31; Alternatively, the winding speed of the unwinding roll 6 and the unwinding speed of the liner winding roll 31 are controlled to be the same speed, and the supply speed of the long member 4 is the rotation of the driving roller 29 and the liner winding roll 31. It is controlled by the speed.

  As shown in FIGS. 1, 3, and 4, adjacent to the member flow direction of the separation roll 33, a plurality of free rolls 34 is located at the end of the movable frame 20 in the member flow direction, and the rotation axis is in the member flow direction. Further, the long member 4 is supported from the lower side when the festoon 51 is formed adjacent to the downstream side of the free roll 34 in the member flow direction. A guide portion 35 for guiding is provided.

  In the guide portion 35, two support frames 36 parallel to the member flow direction are supported by the movable frame 20 so as to be swingable around a pin 37, and a free roll 38 is freely rotatable between the two support frames 36. It is something that is intervened. A cylinder 39 is provided below the support frame 36 on the downstream side of the movable frame 20, and the end of the rod 40 of the cylinder 39 is pivoted by a pin 42 to a bracket 41 fixed to the lower part of the support frame 36. The rod 40 is advanced or retracted by driving the cylinder 39, and the guide portion 35 is swung around the pin 37. The radius of curvature of the long member 4 at the end of the festoon 51 changes rapidly by operating the cylinder 39 in accordance with the length of the festoon 51 and changing the angle of the downstream end 35a of the guide portion 35. Is to prevent.

  A long member support device 50 that supports the long member 4 from below is disposed adjacent to the downstream side of the long member supply device 3 in the member flow direction.

  As shown in FIG. 4, the gantry 52 of the long member support device 50 has two struts 54 standing in parallel on a base 53 fixed to the floor 12. Two connecting members 55 are fastened to the column 54 by bolts so as to be connected in parallel vertically.

  As shown in FIGS. 4 and 5, the inner side surfaces 54 a of the pair of support posts 54 are parallel to the support posts 54 via the upper and lower brackets 56 fixed to the support posts 54, and are oriented in the vertical direction. Guide rails 57 are attached, and two carriages 58 are attached to the guide rails 57 so as to be movable along the guide rails 57, and these four carriages 58 are attached to the four corners of the mounting plate 60. Fastened with bolts 59.

  Further, as shown in FIGS. 4 and 6, a rodless cylinder 62 is attached to the connecting member 55 through a bracket 61 so as to be directed in the vertical direction at the center that is equidistant from the two columns 54. The moving element 63 of the rodless cylinder 62 is fixed to the mounting plate 60.

  As shown in FIG. 5, a fixing plate 95 is fastened to the mounting plate 60 with bolts 96, and a support beam 64 protrudes and is fixed to the fixing plate 95 in the horizontal direction. An attachment member 65 for attaching the support portion 70 is attached above the support beam 64. The attachment member 65 is formed in a U-shape in which a metal plate is bent and opened upward, and a hole 65a is formed in the upper part of the pair of bent side walls 65b, and the bottom wall 65c. Are fastened to the support beam 34 by bolts 66.

  The long member support portion 70 supports the long member 4 from below, and includes a main support portion 71 and a retractable support portion 80 as shown in FIG. The main support portion 71 is rotatable between a pair of free roller support members 72 such that a plurality of free rollers 73 are perpendicular to the long member flow direction. A plurality of small free rollers 74 having small diameters are rotatably supported adjacent to the free roller 73 at the downstream end of the free rollers 73.

  As shown in FIGS. 4 and 5, a hole 72a is formed in the lower part on the upstream side in the member flow direction of the pair of free roller support members 72, and the pair of holes 72a and the pair of the pair of free roller support members 72 are formed. A hole 65a provided in each of the side walls 35b of the mounting member 65 is pierced by a shaft 67 through a hollow cylinder 68 and is swingably coupled by a pin 69. The shaft 67 can be swung around.

  As shown in FIG. 4, a cylinder support beam 75 and a bracket support beam 76 are fixed to a lower portion of the free roller support member 72 so as to connect a pair of free roller support members 72.

  A cylinder 77 for moving a retractable support portion 80 that can be retracted adjacent to the downstream side of the main support portion 71 is joined to the lower portion of the cylinder support beam 75, and the tip of the rod 78 of the cylinder 77 The withdrawable support part 80 is supported. The retractable support portion 80 includes a plurality of small free rollers 82 rotatably supported by a set of support members 81, and operates the cylinder 77 to advance the rod 78 as shown in FIG. When the rod 78 is retracted as shown in FIG. 7, the retractable support portion 80 becomes the main support when the retractable support portion 80 protrudes in the flow direction from the downstream end of the main support portion 71. The retracted state is drawn below the portion 71.

  The support surface 70a for supporting the long member 4 is formed by the free roller 73 of the main support portion 71, the small free roller 74, and the small free roller 82 of the retractable support portion 80 in the protruding state of the retractable support portion 80. In the retracted state of the retractable support portion 80, the upper support surface 80 is configured by the upper surfaces of the free roller 73 and the small free roller 74 of the main support portion 71.

  As shown in FIGS. 4 and 6, below the main support portion 71, a cylinder 88 that integrally swings the main support portion 71 and the retractable support portion 80 is disposed. The cylinder 88 is rotatably connected to a lower downstream end portion of an L-shaped cylinder support member 85 fixed to the lower surface of the support beam 64 by a pin 87 via a bracket 86. . The tip of the rod 89 of the cylinder 88 is rotatably connected to a bracket 91 fixed to a bracket support beam 76 of the main support 71 via a pin 90.

  The long member support portion 70 operates the cylinder 88 to advance the rod 89, and the entire long member support portion 70 is swung around the rotation shaft 67 to support the long member 4. Can be set to a substantially horizontal state. Further, as shown in FIG. 17, the long member support portion 70 retracts the rod 89 and lowers the downstream side in the flow direction of the long member support portion 70 around the shaft 67 to support the long member 4. The supporting surface 70a to be inclined can be inclined to the conveying device 100 side.

  As shown in FIGS. 4 to 6, when the rodless cylinder 62 of the long member support device 50 is operated by a control device (not shown) to move the movable element 63 to a predetermined position in the vertical direction, the movable element 63 is fixed. The attached mounting plate 60 moves along the guide rail 57, and the entire long member support portion 70 supported by the mounting plate 60 is moved to a predetermined position. The state in which the long member support portion 70 is moved to the uppermost position is shown by the solid line in FIGS. 5 and 6, and the state in which the long member support portion 70 is moved to the lowermost position is the hypothetical state in FIGS. 5 and 6. Shown with lines.

  The festoon 51 of the long member 4 serves as a buffer between the supply side and the feed side of the long member 4, and the length of the festoon needs to be within an allowable range.

  As shown in FIG. 4, a sensor A 92 and a sensor B 93 for detecting the festoon length are provided on each of the gantry 52 of the long member support device 50 and the gantry 101 of the transport device 100, respectively. Are provided opposite to each other in the horizontal direction. The sensor A is disposed at the same height as the lower end of the shortest festoon 4 within the allowable range of the length of the festoon, and the sensor B93 is equal to the height of the lower end of the longest festoon 4. It is arranged.

  A signal indicating whether the sensor A92 or the sensor B93 is blocked by the festoon 51 is sent from the sensor A92 and the sensor B93 to a control device (not shown).

  When the elongate member supply device 3 supplies the elongate member 4 to the transfer device 100 described later, the supply speed of the elongate member supply device 3 is usually set at the upstream belt conveyor 106 and the downstream side of the transfer device 100. The speed is controlled to be the same as the conveying speed of the belt conveyor 121, and the following control is performed in order to keep the length of the festoon 51 within an allowable range.

  In a state where the sensor A92 and the sensor B93 do not detect the long member 4, it is determined that the length of the festoon is shorter than the shortest length, and the supply speed of the long member supply device 3 is higher than the normal speed. The length of the festoon 51 is controlled to be within an allowable range by the difference between the conveyance speed of the conveyance device 100 and the supply speed of the long member supply device 3.

  In a state where the sensor A92 detects the long member 4 and the sensor B93 does not detect it, the length of the festoon 51 is determined to be within the allowable range, and the supply speed of the long member supply device 3 is set to the normal speed. It is controlled so that the length of 51 is maintained.

  In a state where the sensor A 92 and the sensor B 93 detect the long member 4, it is determined that the length of the festoon 51 is longer than the longest length, the supply of the long member 4 is stopped, and the difference from the transport speed of the transport device 100 The length of the festoon 51 is controlled to be short.

  As shown in FIGS. 1 and 2, a conveying device 100 is installed adjacent to the downstream side in the flow direction of the long member support device 50. The transport apparatus 100 includes an upstream transport unit 102 and a downstream transport unit 120 on a gantry 101, and the long member 4 has a predetermined length between the upstream transport unit 102 and the downstream transport unit 120. A cutter 131 and an anvil 132 are disposed as a cutting mechanism 130 for cutting into two.

  As shown in FIG. 9, the upstream side conveyance unit 102 is adjacent to the small free roller 82 located at the downstream end of the removable support unit 80 of the long member support device 50. A web star 103 for positioning the center is provided, and the web star 103 is driven by a driving device 104. A plurality of guide rollers 105 are rotatably supported adjacent to the downstream side of the web star 103. An upstream belt conveyor 106 is provided adjacent to the guide roller 105 on the downstream end side, and the long member 4 is placed on the upstream belt conveyor 106 and conveyed to the cutting mechanism 130. The upstream belt conveyor 106 is driven by a drive motor 114 that can rotate in the forward rotation direction or the reverse rotation direction based on a signal from the control device so that the long member 4 can be conveyed upstream or downstream. It has become. The drive motor 114 has a mechanism for counting the number of rotations thereof, and can measure the length of the upstream belt conveyor 106 sent based on the number of rotations. The length by which the member 4 was conveyed can be measured. A guide portion 115 is provided on the gantry 101 on the upstream side of the web star 103, and the guide portion 115 rotatably supports a plurality of free rolls 116 and serves to guide the festoon 51 of the long member 4. To fulfill.

  Above and below the guide roller 105, a pair of sensors C112 that detect the presence of the elongated member 4 on the guide roller 105 are provided.

  In the middle of the upstream belt conveyor 106, there is provided a member presser 107 having a roller 108 rotatably provided at the tip. The other end of the member presser 107 is supported so that one end of the link 109 can be rotated together with the member presser 107, and the other end of the link 109 is rotatably supported by the tip of the rod 110 of the cylinder 111. When the cylinder 111 is actuated and the rod 110 is pushed out, the member presser 107 swings downward, and the roller 108 of the member presser 107 is pressed against the surface of the long member 4 on the upstream belt conveyor 106, and the long member 4 can be pressed against the upstream belt conveyor 106. Further, on the downstream side of the member presser 107, a sensor D113 for detecting the presence of the long member 4 is provided.

  When the sensor C112 and the sensor D113 detect the presence of the long member 4, a signal is sent to the control device, the cylinder 111 is operated, the member press 107 is swung downward, and the long member 4 is the roller 108 of the member press 107. By this, it is pressed against the upstream belt conveyor 106.

  As shown in FIG. 2, a downstream transport unit 120 including a downstream belt conveyor 121 is disposed adjacent to the downstream side of the cutting mechanism 130. The downstream side of the downstream side conveyance unit 120 is adjacent to the tire molding drum 140, and the tire member 2 cut by the cutting mechanism 130 is conveyed to the tire molding drum 140.

  Further, as shown in FIG. 1, the end member 4 c of the long member 4 discharged from the upstream side conveyance unit 101 is adjacent to the long member support device 50 at a position below the websta 103 of the upstream side conveyance unit 102. A receiving rod 125 for receiving is disposed on the rail 126 laid on the floor 12 so as to be movable.

  As shown in FIG. 16, all of the long member 4 is unwound from the unwinding roll 6, and the unwinding end side end 4 b of the long member is placed on the sensor C 112 provided in the upstream transport unit 102. When the end material 4c is placed on the upstream belt conveyor 106 of the upstream transport unit 102 after passing through, the sensor C112 does not detect the presence of the long member 4, and the sensor D113 detects the presence of the long member 4. The control device recognizes that the end member 4c of the long member is placed on the upstream belt conveyor 106, and the upstream belt conveyor 106 is switched to reverse rotation by the control device, so that the end member 4c is detected. Is fed back and discharged from the upstream side of the upstream conveying section 102 and sent into the receiving rod 125.

  The tire member supply device 1 in this embodiment supplies the long member 4, automatically creates the festoon 51 of the long member 4, cuts the long member 4 by the cutting mechanism 130, and supplies the tire member 2. Is described below.

  First, a process until the long member 4 is set in the tire member supply apparatus 1 and a festoon of the long member 4 is automatically created will be described.

  As shown in FIGS. 1 and 3, the unwinding roll 6 in a state where the long member 4 and the liner 5 are overlapped and wound into the station 22 of the movable frame 20 of the long member supply device 3 is carried in. To do. That is, the cylinder 25 provided in the movable frame 20 is operated, the link 27 is swung upward and the unwinding roll 6 is loaded, and then the cylinder 25 is operated and the link 27 is swung downward to unwind. The roll 6 is set in the station 22 of the movable frame 20.

  The end portion 5a of the liner 5 wound around the unwinding roll 6 is set to be longer than the end portion 4a of the long member 4, and the end portion 5a of the liner 5 is stretched over the separation roll 33 so that the liner winding is performed. It winds around the take-up roll 31, and further, the end 4a of the long member 4 is placed on the free roll 34 provided on the upper part of the movable frame, so that it can be unwound.

  The movable frame 20 is moved on the rails 17, 18 and 19, the station 22 where the unwinding roll 6 is set is moved to the unwinding position 10, and the long member support device 50 can be transported by the long member. To.

  As shown in FIG. 1, when the long member support portion 70 of the long member support device 50 is positioned at the uppermost position, the retractable support portion 88 is in a protruding state, and an operator presses a start button (not shown). 10, the rotation of the driving roller 29 and the liner winding roll 31 provided on the movable frame 20 of the long member supply device 3 is started, and the unwinding roll 6 unwinds the long member 4. At first, the belt conveyors 106 and 122 of the transport apparatus 100 start to flow. The sensors A92 and B94 do not detect the long member 4, and the long member 4 is supplied at a high speed.

  The long member 4 overlapped with the liner 5 by the unwinding roll 6 is separated from the liner 5 by the separation roll 33. As shown in FIGS. 4 and 9, the free roll 34 of the long member supply device 3 and It passes over the guide part 35, the main support part 71 of the elongate member support part 70 of the elongate member support apparatus 50, and the retractable support part 80, and the center line in the width direction is set at a predetermined position by the webasta 103 of the transport apparatus 100 Are sent out, placed on the upstream belt conveyor 106, and sent downstream.

  As shown in FIG. 10, when the end of the long member 4 passes the position of the sensor C112 and the sensor D113 and the long member 4 is detected, the cylinder 111 is operated and the member presser 107 is swung downward. Therefore, the long member 4 is pressed against the upstream belt conveyor 106 by the roller 108 of the member presser 107.

  When the member presser 107 is swung downward and the roll 108 presses the long member 4, the cylinder 77 of the long member support portion 70 of the long member support device 50 is activated by a signal from a control device (not shown). The retractable support portion 80 is in a retracted state, and the slider 63 of the rodless cylinder 62 starts to move downward as shown in FIG. 7, and the long member support portion 70 is lowered while supporting the long member 4. Begin.

  Since the supply speed of the long member 4 of the long member supply device 3 is higher than the transfer speed of the belt conveyor 106 and the belt conveyor 122 of the transfer device 100, the supply speed between the long member supply device 100 and the transfer device 100 is high. The long member 4 is loosened and the festoon 51 is gradually formed. Since the slider 64 of the rodless cylinder 63 moves downward in accordance with the slack of the festoon 51, the amount of slackness of the festoon 51 increases while the festoon 51 is supported from below by the long member support portion 70.

  Further, as the long member support portion 70 is lowered, the cylinder 39 is actuated to cause the guide portion 35 of the long member supply device 3 to swing downward about the pin 37 so that the long portion is formed at the festoon end when the festoon is created. The flow angle of the member 4 does not change abruptly.

  As shown in FIG. 7, the long member support portion 70 moves downward while supporting the festoon 51 from below, and after the predetermined festoon 51 is created, the long member support portion 70 moves away from the lower end of the festoon 51. It moves to the lowest position as shown in FIG. 5 and does not hinder the flow of the long member 4.

  After the festoon 51 is created, when the stagnation of the festoon 51 becomes large and the sensor A 92 detects the long member 4, the supply speed of the long member supply device 3 becomes the normal speed, which is the same as the transfer speed of the transfer device 100. Therefore, the magnitude of the sag of the festoon 51 is maintained. When the slack of the festoon 51 further increases and both the sensor A92 and the sensor B93 detect the festoon 51, the control device stops the supply of the long member 4 of the long member supply device 3, and the amount of slackness of the festoon 51 decreases. When the slack of the festoon 51 is reduced from a predetermined value and both the sensor A92 and the sensor B93 are in a state in which the festoon 51 is not detected, the supply speed of the long member supply device 3 is increased by the control device, The amount of loosening of the festoon 51 is adjusted to be large, and the length of the festoon 51 falls within an allowable range.

  Next, a process of cutting the long member 4 with the cutting mechanism 130 and supplying the tire member 2 will be described.

  As shown in FIG. 11, when the drive motor 114 of the transport device 100 is rotated by a predetermined number of revolutions and the length of the upstream belt conveyor 106 corresponding to the length of the tire member 4 is sent, a signal is sent from the drive motor 114. Is sent to the control device, and the control device determines that the long member 4 corresponding to the length of the tire member 4 has been transported to the downstream transport section 120, and the drive motor 114 of the upstream belt conveyor 106, the downstream belt conveyor 121, and so on. The rotation of the driving motor 122 and the driving device 104 of the web star 103 is stopped, and the conveyance of the long member 4 is stopped.

  After the conveyance of the conveying device 100 is stopped, the driving roller 29 of the long member supply device 3 and the driving device 32 of the liner take-up roll 31 are reversed to take up the long member 4 to the long member supply device 3 side. To start. As shown in FIG. 12, the long member 4 is wound until the sensor A92 does not detect the lowermost end of the festoon 51, that is, until the lowermost end of the festoon 51 exceeds the height of the sensor A92. . When a signal that the sensor A92 does not detect the festoon 51 is sent to the control device, the rotation of the driving roller 29 and the driving device 32 is stopped, and the winding of the long member 4 is finished.

  Thereafter, as shown in FIG. 13, a signal is sent from the control device to the moving element 63 of the rodless cylinder 62 of the long member support device 50, and the height of the uppermost portion of the long member support portion 70 is determined by the sensor A92. The moving element 63 moves to a predetermined height that is set to be slightly lower than the height, and the long member support portion 70 is raised accordingly.

  When the elongate member support portion 70 is raised to a predetermined position and stopped, a signal is sent from the control device to the elongate member supply device 3, and the drive device 30 and the drive device 32 are driven to rotate forward to drive the drive roller 32 and the liner. The winding roll 31 is rotated forward to unwind the long member 4 for a predetermined length determined in advance.

  When the long member 3 is unwound by a predetermined length, the length of the festoon 51 becomes longer, and the lower portion of the festoon 51 is supported by the upper surface of the long member support portion 70 as shown in FIG. Since the self weight of the festoon 51 is supported by the long member support portion 70, the tensile load due to the self weight of the festoon 51 applied to the long member 4 placed on the transport device 100 is reduced.

  Thereafter, as shown in FIG. 15, the cutter 131 of the cutting mechanism 130 is pressed against the anvil 132 in a state where the elongated member 4 is supported by the elongated member support portion 70, and the elongated member 4 is cut. Since the long member 4 is thus supported from below by the long member support portion 70 on the downstream belt conveyor 121 of the downstream side conveyance portion 1120, the force due to the weight of the long member of the festoon 51 is applied to the conveyance portion. Since it does not apply to the upper long member, the long member 4 is prevented from extending during cutting.

  The cut tire member 2 is sent to the tire molding drum 140 by the downstream conveyance unit 120.

  Next, all the long members 4 are unwound from the unwinding roll 6, and the length of the remaining long members 4 is insufficient for the length of the tire member 2, and the end material 4 c that cannot be used as the tire member 2. In this case, a process of automatically discharging the end material 4c and a process of replacing the unwinding roll 6 after unwinding with a new unwinding roll 6 will be described.

  As shown in FIG. 16, all the long members 4 are unwound from the unwinding roll 6 set at the station 22 at the unwinding position 10, and the final end 4b of the long member 4 passes through the sensor C112. When the sensor D113 detects the long member but the sensor C112 does not detect the long member 4, a control device (not shown) places the end member 4c of the long member 4 on the upstream belt conveyor 106. The end presser 4c placed on the upstream belt conveyor 106 is moved to the upstream side by swinging the member press 107 upward and starting to rotate the upstream belt conveyor 106 in the reverse direction. It is transported in the direction of discharging from the upstream end of the transport unit 102. Further, it is determined that all of the long member 4 has been unwound from the unwinding roll 6, and the rotation of the driving roller 29 and the liner winding roll 31 of the long member supply device 3 is stopped.

  As shown in FIG. 17, almost simultaneously with the upstream belt conveyor 106 starting to rotate in the opposite direction, the cylinder 88 supporting the long member support portion 70 of the long member support device 50 from below is operated. The long member support portion 70 is in an inclined state, and the long member support device 50 is in a state of discharging the end material 4c.

  The end material 4c conveyed in the reverse direction is guided by the free roller 116 of the guide portion 115 provided on the upstream side of the web star 103, and comes into contact with the support surface 70a of the long member support portion 70 which is inclined. Then, it is guided by the free roller 73 and discharged to the receiving rod 125.

  When it is confirmed that the end material 4c has been discharged to the receiving rod 125, the long member support portion 70 is in a horizontal state, the rodless cylinder 62 is operated and moved to the uppermost position, and the retractable support portion 80 is moved. Becomes a protruding state, the guide portion 35 of the long member supply device 3 is swung upward, and the long member support device 50 is in a state in which the long member 4 can be conveyed as shown in FIG. .

  Further, the movable frame 20 of the long member supply device 3 is moved so that the station 22 set in a standby state where the movable frame 20 waits at the standby position comes to the unwinding position 10, and the tire member supply device 1 is long. The supply of the member 4 is started, and the tire member supply device 1 starts the rotation of the driving roller 29 and the liner winding roll 31 and the unwinding of the long member 4 from the unwinding roll 6 to start a new winding. Supply of the tire member 2 by the take-out roll 6 starts.

  The unwinding roll 6 that has been unwound is unloaded from the station 22 that has been unwound and moved to the standby position 11, and a new unwinding roll 6 around which the long member 4 and the liner 5 are wound is transferred to the station 22. Set it to the position where it can be unwound.

  The above process is repeated and the tire member 2 is continuously supplied.

  In the tire member supply device 1 according to this embodiment, when the long member 4 is cut by the cutting mechanism 130, the festoon 4 is supported by the long member support portion 70 of the long member support device 50, so that the festoon 51 The elongation of the long member 4 can be reduced by its own weight. Even if the load on the tire member 2 is removed after the long member 4 is cut, the shrinkage amount of the tire member 2 is reduced, and variations in the length of each cut tire member 2 are reduced. The length of 2 can be made constant.

  Further, the long member support device 50 includes a long member support portion 70 that supports the long member 4 from below, and a rodless cylinder 62 that moves the long member support portion 70 up and down. Except when the long member 4 is cut, the long member support portion 70 is moved downward without touching the festoon 51 so as not to interfere with the function of the festoon 51 as a buffer. The support member 70 is moved upward to support the long member 4, the load due to the weight of the festoon 51 can be reduced, and the elongation of the long member 4 can be reduced.

  Furthermore, since the control mechanism which controls the supply speed of the elongate member supply apparatus 3 and the conveyance speed of the conveying apparatus 100, and the sensor A and sensor B which detect the festoon length are provided, the elongate member supply apparatus 3 The supply speed and the conveyance speed of the conveyance mechanism 100 are controlled, and the length of the festoon 51 can be changed according to the difference between the supply speed of the long member supply device 3 and the conveyance speed of the conveyance mechanism 100. When cutting 4, the length of the festoon 51 can be shortened to reduce the weight of the festoon 51, the load on the long member 4 can be reduced, and the elongation of the long member 4 can be reduced.

  Further, the supply speed of the long member supply device 3 and the transfer speed of the transfer mechanism 100 are controlled, and the length of the festoon 51 is changed by the difference between the supply speed of the long member supply device 3 and the transfer speed of the transfer mechanism 100. Therefore, the length of the festoon 51 can be within an allowable range.

  Further, when the long member 4 of a predetermined length corresponding to the length of the tire member 2 is sent, the length of the festoon 51 is automatically shortened, and the lower portion of the festoon 51 is held by the long member support portion 70. The long member 4 is cut, and then the long member support portion 70 is lowered to bring the festoon 51 into a normal state. Therefore, the weight of the festoon 51 at the time of cutting is not required without requiring any special operation by an operator. Thus, the elongation of the long member 4 can be reduced, and the tire member 2 with less variation in member length can be obtained while preventing an increase in cost.

  Moreover, in the tire member supply apparatus 1, since the festoon 51 is automatically created, manual work by the worker is reduced, the stop time of the tire member supply apparatus 1 is shortened, and the tire manufacturing productivity of the tire manufacturing apparatus is reduced. Can be improved.

  Furthermore, since the long member 4 is supported by the long member support surface 70a from below and the festoon is gradually created automatically and not manually by the worker, the deformation of the long member 4 at the time of creating the festoon is prevented. Thus, it is possible to manufacture a tire product with high accuracy.

  In addition, by setting the downstream side of the long member support portion 70 to be inclined downward, the end material 4c fed back to the upstream side by the upstream belt conveyor 106 is made to be long in the long member support portion 70. Since it is received by the member support surface 70a and sent to the adjacent receiving rod 125, the end material 4c can be easily discharged, the discharge time can be shortened, and tire productivity can be further improved.

DESCRIPTION OF SYMBOLS 1 ... Tire member supply apparatus, 2 ... Tire member, 3 ... Long member supply apparatus, 4 ... Long member, 4a ... Unwinding start side edge part, 4b ... Unwinding end side edge part, 4c ... End material, 5 DESCRIPTION OF SYMBOLS ... Liner, 6 ... Unwinding roll, 7 ... Winding drum, 8 ... Flange, 9 ... Protruding part, 10 ... Unwinding position, 11 ... Standby position, 12 ... Floor, 13 ... Substrate, 14 ... Substrate, 15 ... Guide member , 16 ... Pit, 17 ... Rail, 18 ... Rail, 19 ... Rail,
20 ... movable frame, 20a ... base, 20b ... support, 20c ... beam, 20d ... beam, 21 ... slide part, 22 ... station, 23 ... support roller, 24 ... roller, 25 ... cylinder, 26 ... rod, 27 ... link , 28 ... Roller, 29 ... Drive roller, 30 ... Drive device, 31 ... Liner winding roll, 32 ... Drive device, 33 ... Separation roll, 34 ... Free roller, 35 ... Guide part, 36 ... Support frame, 37 ... Pin , 38 ... Free roller, 39 ... Cylinder, 40 ... Rod, 41 ... Bracket, 42 ... Pin,
50 ... Long member support device, 51 ... Festoon, 52 ... Base, 53 ... Substrate, 54 ... Column, 55 ... Connecting member, 56 ... Bracket, 57 ... Guide rail, 58 ... Carriage, 59 ... Bolt, 60 ... Mounting plate 61 ... Bracket, 62 ... Rodless cylinder, 63 ... Moving element, 64 ... Support beam, 65 ... Mounting member, 66 ... Bolt, 67 ... Shaft, 68 ... Hollow cylinder, 69 ... Pin,
70 ... Long member support portion, 71 ... Main support portion, 72 ... Free roller support member, 73 ... Free roller, 74 ... Small free roller, 75 ... Cylinder support beam, 76 ... Bracket support beam, 77 ... Cylinder, 78 ... rod,
80 ... Withdrawal support part, 81 ... Support member, 82 ... Small free roller,
85 ... Cylinder support member, 86 ... Bracket, 87 ... Pin, 88 ... Cylinder, 89 ... Rod, 90 ... Pin, 91 ... Bracket, 92 ... Sensor A, 93 ... Sensor B,
95 ... fixing plate, 96 ... bolts,
DESCRIPTION OF SYMBOLS 100 ... Conveyance apparatus, 101 ... Base, 102 ... Upstream conveyance part, 103 ... Websta, 104 ... Drive apparatus, 105 ... Guide roller, 106 ... Upstream belt conveyor, 107 ... Member pressing, 108 ... Roller, 109 ... Link, 110 ... Rod, 111 ... Cylinder, 112 ... Sensor C, 113 ... Sensor D, 114 ... Drive motor,
120: Downstream conveying unit, 121: Downstream belt conveyor, 122 ... Drive motor,
125 ... Receiver, 126 ... Rail, 127 ... Roller,
130 ... cutting mechanism, 131 ... cutter, 132 ... anvil,
140 ... Tire molding drum.

Claims (7)

In a tire member supply device comprising: a long member supply mechanism that provides a long member for a tire member; a transport mechanism that transports the tire member; and a cutting mechanism that cuts the long member into a predetermined length.
A festoon of the long member is formed between the long member supply mechanism and the transport mechanism, and a long member support mechanism is disposed adjacent to each of the long member supply mechanism and the transport mechanism. And
The long member support mechanism supports the long member when the cutting mechanism cuts the long member into a predetermined length.   The said elongate member support mechanism is provided with the elongate member support part which supports the said elongate member, and the drive part for moving the said elongate member support part up and down. Tire member supply device. The tire member supply device includes:
A control mechanism for controlling the supply speed of the elongate member supply mechanism and the transport speed of the transport mechanism;
A festoon length detection sensor for detecting the length of the festoon;
The said control mechanism controls the supply speed of the said elongate member supply mechanism, and the conveyance speed of the said conveyance mechanism based on the signal from the said festoon length detection sensor, The Claim 1 or Claim 2 characterized by the above-mentioned. Tire member supply device. A festoon of the long member is provided between a long member supplying means for supplying a long member for a tire member and a conveying means for conveying the long member, and the long member is cut to a predetermined length by a cutting means. In the tire member supply method of supplying the tire member by cutting into
A tire member supply method, wherein the festoon is supported by a long member support means when the long member is cut. The long member support means includes a long member support portion for supporting the long member, and a drive unit for moving the long member support portion up and down.
When cutting the elongate member by the cutting means, the elongate member support portion is raised, and the festoon is supported by the elongate member support portion,
5. The tire member supply method according to claim 4, wherein the long member support portion is lowered so as not to contact the festoon except when the long member is cut. The supply speed of the long member supply means and the transfer speed of the transfer means are as follows:
The tire member supply method according to claim 4 or 5, wherein the tire member supply method is controlled based on a signal detected by a festoon length detecting means for detecting a length of the festoon. After the conveying means sends the long member by a predetermined length corresponding to the length of the tire member,
Stop the conveyance of the conveyance means and the supply of the long member supply means,
The elongate member supply means winds up the elongate member for a predetermined length;
The drive part of the long member support means raises the long member support part of the long member support means;
The long member supply means unwinds the long member until the festoon is supported by the long member support,
Cutting the elongated member with the cutting means;
The drive part descends the elongate member support part;
The tire constituent member supply method according to claim 5 or 6, wherein the elongate member supplying unit starts supplying the elongate member and the conveying unit starts conveying.

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