JP5929448B2 - Spew cutting device - Google Patents

Description

The present invention relates to a disconnect device spew occurring in vulcanization step of the pneumatic tire.

In order to exhaust air and gas between the mold and the green tire during the vulcanization process of the tire, a vent that connects the inside and outside of the mold to the part of the mold corresponding to the tread part and sidewall part Many holes are provided.
After venting air and gas in the vulcanization process, the rubber is pushed out to the vent holes, and when the tire is taken out of the mold after the vulcanization process, spews made of rubber extruded into the vent holes are formed on the tire surface. A large number of protrusions will be provided. And if many spews are projected, the appearance of the tire is impaired.

  Conventionally, as an apparatus for cutting such a spew, a mold having a V-groove is arranged close to the outer peripheral surface of the tire, the spew is sandwiched between the V-groove by rotating the tire, and the spew is cut by the V-groove. (Patent Document 1) and an apparatus (Patent Document 2) that holds a spew by a pair of rotating bodies and pulls and breaks the spew has been proposed.

Japanese Patent Publication No.3-50696 Patent No. 4194198

However, any of the conventional spew cutting devices cannot cut the spew from its root, and as shown in FIG. 10 (B), the spew root remains on the surface of the tire.
If the spew root remains on the surface of the tire, the appearance is impaired, which is disadvantageous in increasing the commercial value of the tire.
In addition, if the spew root remains on the surface of the tire, the spew root will be scraped off from the tire surface when the vehicle is running, resulting in a defective portion on the tire surface, which is also disadvantageous in increasing the product value of the tire. Arise.
The present invention was devised in view of the above circumstances, an object of the present invention is to provide a disconnect device spew you can reliably and efficiently cut the spew from the root.

The present invention for achieving the above object, a cutting device spew projecting from tire surface, the tilted portion defeat spew on the surface of the tire, and a cutting unit for cutting the spews, the tilted portion and the cutting A frame that supports a portion, and the tilted portion has a front portion that contacts the spew while moving and has a front portion that tilts the spew on the surface of the tire, and a rear portion that maintains the state of the spew tilted by the front portion. A member and a drive part for moving the contact member, the cutting part being arranged at a position facing the rear part of the contact member and capable of cutting the root of the spew maintained by the rear part It is characterized by having a cutter.
Further, the present invention is a spew cutting device that is attached to a tire rotating device that supports and rotates a tire so as to be able to move up and down, and protrudes from the surface of the tire. A cutting portion for cutting, and a frame that supports the tilting portion and the cutting portion and is attached to the tire rotating device, and the tilting portion is in the same direction as the moving direction of the surface of the tire rotated by the tire rotating device A contact member having a front part that contacts the spew while moving to a position where the spew is brought down in the moving direction of the surface of the tire, and a rear part that maintains the state of the spew brought down by the front part, and the contact member is a tire And a drive part that moves at a speed faster than the moving speed of the surface of the tire, the cutting part is opposed to the rear part of the contact member and close to the tire surface And a cutter that cuts the root of the spew located between the spew and the surface of the tire that is maintained in a state of being tilted by the rear by moving the tire surface. It is characterized by that.

According to Supyu over disconnecting device of the present invention, beat spew the cutter direction at the front of the contact members, while maintaining the state in which tilting the spew at the rear of the contact member, the base of the spew just below the rear portion of the contact member Cut with a cutter.
Therefore, the spew does not escape, and the spew can be easily and reliably cut from the root.

It is explanatory drawing of the spew cutting device of 1st Embodiment, (A) is a perspective view of a spew cutting device, (B) is a figure of the cutter and attachment member seen from the B arrow of FIG. 1 (A). . It is explanatory drawing which cut | disconnects a spew with the spew cutting device of 1st Embodiment, (A) is a front view, (B) is a B arrow view of FIG. 2 (A). It is explanatory drawing which cut | disconnects a spew with the spew cutting device of 2nd Embodiment. It is explanatory drawing which cut | disconnects a spew with the spew cutting device of 3rd Embodiment. It is explanatory drawing which cut | disconnects a spew with the spew cutting device of 4th Embodiment. It is explanatory drawing which cut | disconnects a spew with the spew cutting device of 5th Embodiment. It is explanatory drawing of the spew cutting device of 6th Embodiment installed in the tire rotating apparatus, (A) is a front view of a spew cutting device, (B) is a B arrow line view of FIG. 8 (A). It is explanatory drawing of the spew cutting device of 7th Embodiment installed in the tire rotating apparatus, (A) is a front view of a spew cutting device, (B) is a B arrow line view of FIG. 8 (A). It is explanatory drawing of the heating means which heats the guide means and the cutter which hold | maintain a clearance gap between the surface of a tire, and a cutter, (A) is a perspective view of the cutter provided with these means, (B) is provided with these means FIG. (A) is explanatory drawing of the root of a spew after cut | disconnecting a spew with the spew cutting device of embodiment, (B) is explanatory drawing of the root of a spew after cutting a spew by the conventional method.

Hereinafter, a spew cutting method for a tire according to the present invention will be described with a spew cutting device according to the drawings.
(First embodiment)
First, the first embodiment will be described with reference to FIGS.
The spew cutting device 10A includes a tilting portion 12A, a cutting portion 14, and a frame 16A.

The tilted portion 12A is for tilting the spew 2 against the surface 402 of the tire 4, and in this embodiment, tilts the spew 2 toward the cutter 1402 on the surface 402 of the tire 4.
The falling portion 12A includes a contact member 20A that contacts the spew 2 while moving, and a drive unit 22 that moves the contact member 20A.
The contact member 20 </ b> A has a front portion 2002 that contacts the spew 2 and tilts the spew 2 in the direction of the cutter 1402 on the surface 402 of the tire 4, and a rear portion 2004 that maintains the state of the spew 2 that is tilted by the front portion 2002. ing.
In the present embodiment, a rotating member 24 whose outer peripheral portion is formed in a cylindrical surface and is rotationally driven by the driving portion 22 is used as the tilting portion 12A, and the contact member 20A is configured by the outer peripheral portion of the rotating member 24. .
The rotating member 24 may be configured using an elastic material such as rubber, or may be made of synthetic resin or metal.

The front portion 2002 that brings the spew 2 down to the surface 402 of the tire 4 is an upstream side in the rotational direction of the rotating member 24 when viewed from the axial direction of the rotating member 24 in a state where the rotating member 24 is brought close to the surface 402 of the tire 4. The rotation member 24 is opposed to the surface 402 of the tire 4 (a quarter of the outer periphery of the rotation member 24).
Further, the rear portion 2004 that maintains the state of the spewed 2 is closest to the surface 402 of the tire 4 when viewed from the axial direction of the rotating member 24 with the rotating member 24 being brought close to the surface 402 of the tire 4. The rotating member 24 is composed of an outer peripheral portion.
The support shaft 2402 of the rotating member 24 is supported by the frame 16A, and the drive unit 22 includes a motor 2202 and a gear mechanism 2204 provided on the frame 16A. The output shaft of the motor 2202 and the support shaft 2402 are inside the frame 16A. Are connected via a gear mechanism 2204.
In addition, the outer diameter of the rotating member 24 may be formed to have a dimension of 1.2 times or more the protruding height of the spew 2 protruding from the surface 402 of the tire 4 in order to smoothly tilt the spew 2. preferable. Therefore, it is preferable that the rotating member 24 is replaceable with respect to the frame 16A, a plurality of types of rotating members 24 having different outer diameters are prepared, and the rotating member 24 can be replaced corresponding to the tire 4. .

The cutting part 14 has a cutter 1402 for cutting the spew 2.
The cutter 1402 has a length larger than the outer diameter of the spew 2 so that the spew 2 can be cut, and the cutter 1402 is supported by the frame 16 </ b> A via the attachment member 26.
The attachment member 26 has a pair of base portions 2602 attached to the frame 16A, intermediate portions 2604 that stand parallel to each other from the base portions 2602, and tip portions 2606 that connect between the tips of the intermediate portions 2604. ing.
Both ends of the cutter 1402 in the longitudinal direction are attached to the middle portion 2604 near the tip portion 2606 via screws.
The cutter 1402 is disposed at a position facing the rear portion 2004 of the contact member 20A, the blade portion 1402A is directed upstream in the moving direction of the contact member 20A, and the root of the spew 2 maintained in a state of being tilted by the rear portion 2004. Can be cut.

The frame 16A includes a grip 1602 that can be gripped.
A mounting surface 1604 is provided at one end in the longitudinal direction of the grip 1602 in a direction perpendicular to the extending direction of the grip 1602, and the support shaft 2402 of the rotating member 24 projects from the mounting surface 1604. The base of the mounting member 26 is attached to the mounting surface 1604.
The grip 1602 is provided with a switch 2206 for energizing and shutting off the motor 2202.

Next, a method of using the spew cutting device 10A will be described.
The switch 2206 is turned on to rotate the rotating member 24 to grip the grip 1602, and the cutter 1402 is brought close to the surface 402 of the tire 4 and the rotating member 24 is opposed to the surface 402 of the tire 4 as shown in FIG.
The rotating member 24 and the cutter 1402 are placed along the surface 402 of the tire 4 while the cutter 1402 is positioned close to the surface 402 of the tire 4, and is opposite to the rotation direction of the rear portion 2004 of the rotating member 24. The spew cutting device 10A is moved in the X arrow direction.
Then, first, the front part of the spew 2 comes into contact with the front part 2002 of the rotating member 24, and with the movement of the spew cutting device 10 </ b> A, the rotating member 24 moves the spew 2 along the rotating direction of the rotating member 24 and cutters the spew 2. Defeat in 1402 direction.

As the spew cutting device 10A further moves, the spew 2 is maintained in the tilted state at the rear part 2004 of the rotating member 24. In this state, the cutter 1402 is placed between the surface 402 of the tire 4 and the spewed spew 2 To position.
With the further movement of the spew cutting device 10 </ b> A, the root of the spew 2 maintained in the collapsed state is cut by the cutter 1402.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

According to the present embodiment, the spew 2 is tilted in the direction of the cutter 1402 by the rotating member 24, and the root of the spew 2 is cut by the cutter 1402 immediately below the rear portion 2004 while maintaining the state where the spew 2 is tilted.
That is, when the spew 2 is cut, the rear portion 2004 of the rotating member 24 is located immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be easily and reliably cut from the root. It becomes.
When the height of the base of the spew 2 after being cut was measured, in the conventional method, the root remained as shown in FIG. 10 (B) and the height H of the root was 3.0 mm. In the present embodiment, as shown in FIG. 10 (A), the height H of the remaining root with almost no root remaining was 0.3 mm.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

(Second Embodiment)
Next, a second embodiment will be described with reference to FIG.
In the following embodiments, the same parts or members as those in the first embodiment are denoted by the same or similar reference numerals, and the description thereof is omitted.
As in the first embodiment, the spew cutting device 10B for the tire 4 according to the second embodiment includes a tilting part 12B, a cutting part 14, and a frame 16A (not shown) similar to that of the first embodiment. In the second embodiment, the configuration of the tilting part 12B is different from that of the first embodiment.

The tilting part 12B includes a first rotating member 28 and two second rotating members 30.
As for the 1st rotation member 28, the outer peripheral part is formed in the cylindrical surface.
The outer diameters of the two second rotating members 30 are equal, and the outer peripheral portions thereof have a cylindrical surface having a size smaller than that of the first rotating member 28.
The support shaft 2802 of the first rotating member 28 and the support shaft 3002 of the second rotating member 30 are supported on the mounting surface 1604 side of the frame 16A, and via the gear mechanism 2204, as in the first embodiment. It is connected to the output shaft of the motor 2202 and rotates in the same direction with the same peripheral speed or the peripheral speed of the second rotating member 30 is larger than the peripheral speed of the first rotating member 28. Driven.

Therefore, in the second embodiment, the contact member 20 </ b> A includes the outer peripheral portion of the first rotating member 28 and the outer peripheral portion of the second rotating member 30.
Further, the front portion 2002 of the contact member 20 </ b> A is configured by the outer peripheral portion of the first rotating member 28.
Further, the rear portion 2004 of the contact member 20 </ b> A is configured by the outer peripheral portions of the two second rotating members 30.
The cutter 1402 is disposed at a position facing the second rotating member 30 located closer to the first rotating member 28, and the root of the spew 2 maintained in a state of being tilted by the two second rotating members 30. Can be cut.

Next, a method of using the spew cutting device 10B will be described.
The switch 2206 is turned on to rotate the first rotating member 28 and the two second rotating members 30, grip the grip 1602, bring the cutter 1402 close to the surface 402 of the tire 4, and The second rotating member 30 is opposed to the surface 402 of the tire 4.
Then, the spout cutting device 10B is placed along the surface 402 of the tire 4 while the cutter 1402 is positioned close to the surface 402 of the tire 4, and the first rotating member 28 facing the surface 402 of the tire 4 is placed. The spew cutting device 10B is moved in the direction of the arrow X, which is the direction opposite to the rotational direction of the portion and the two second rotating members 30.
Then, first, the tip of the spew 2 comes into contact with the first rotating member 28, and the first rotating member 28 moves the spew 2 along the rotational direction of the first rotating member 28 as the spew cutting device 10 </ b> B moves. Let's kill Spy 2.

With the further movement of the spew cutting device 10B, the spew 2 is maintained in the state of being tilted by the two second rotating members 30, and in this state, the cutter 1402 is connected to the surface 402 of the tire 4 and the spew 2 that has been tilted. Located between.
With the further movement of the spew cutting device 10B, the root of the spew 2 maintained in the tilted state is cut by the cutter 1402 immediately below the second rotating member 30 located near the first rotating member 28.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

According to the present embodiment, the spew 2 is tilted in the direction of the cutter 1402 by the first rotating member 28 and is maintained in a state where the spew 2 is tilted by the two second rotating members 30, closer to the first rotating member 28. The root of the spew 2 is cut with a cutter 1402 immediately below the second rotating member 30 located at the position.
That is, when the spew 2 is cut, the second rotating member 30 is located immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be cut easily and securely from the root. It becomes.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

  In the second embodiment, two rotating members 24 are used. However, the total of the first rotating member 28 and one second rotating member 30 located closer to the first rotating member 28 is used. Although the spew 2 can be easily and reliably cut from the roots even with the two rotating members 24, the use of the two second rotating members 30 as in the second embodiment makes the cutting of the spew 2 smoother. It is advantageous in carrying out.

(Third embodiment)
Next, a third embodiment will be described with reference to FIG.
Similar to the first embodiment, the spew cutting device 10C for the tire 4 of the third embodiment includes a tilting portion 12C, a cutting portion 14, and a frame 16A (not shown) similar to that of the first embodiment. In the third embodiment, the configuration of the tilted portion 12C is different from that of the first embodiment.

The tilting part 12C includes two pulleys 32, a belt 34 that is hooked on the pulleys 32, a driving part 22 (not shown) similar to that of the first embodiment that rotationally drives one pulley 32, and a presser. And a roller 36.
The support shaft 3202 of the pulley 32 and the support shaft 3602 of the pressure roller 36 that are located in the front of the X arrow direction that moves the spew cutting device 10C along the surface 402 of the tire 4 are the same as in the first embodiment. It is supported so as to be rotatable on the side of a mounting surface 1604 (not shown).
Further, the support shaft 3202 of the pulley 32 located in the direction opposite to the X arrow direction in which the spew cutting device 10C is moved along the surface 402 of the tire 4 is supported on the mounting surface 1604 side, and the first Similarly to the embodiment, it is connected to the output shaft of the motor 2202 through the gear mechanism 2204.
Therefore, the pulley 32 positioned in the front of the X arrow direction that moves the spew cutting device 10C is configured as a driven pulley 32B, and the pulley 32 positioned in the opposite direction to the X arrow direction is configured as a drive pulley 32A. ing.
The outer diameters of the two pulleys 32 are formed with a size larger than the protruding height of the spew 2, and the outer diameter of the pressing roller 36 is formed with a size smaller than that of the pulley 32.

The belt 34 moves when the drive pulley 32A is rotationally driven.
The belt 34 has a portion that approaches the surface 402 of the tire 4 while moving, and a portion that moves along the surface 402 of the tire 4.
Therefore, in the present embodiment, the contact member 20 </ b> A is constituted by the belt 34.
Further, the front portion 2002 of the contact member 20 </ b> A is configured by a portion that approaches the surface 402 of the tire 4 while moving in the portion of the belt 34 that is stretched over the driven pulley 32 </ b> B.
Further, the rear portion 2004 of the contact member 20 </ b> A is configured by a portion of the belt 34 that moves along the surface 402 of the tire 4 in a portion of the belt 34 that is stretched over the driven pulley 32 </ b> B and the drive pulley 32 </ b> A.
The pressure roller 36 is disposed at the rear portion 2004 of the contact member 20A, and the pressure roller 36 prevents the belt 34 from being lifted by the spew 2 at the rear portion 2004 of the contact member 20A.
The cutter 1402 is disposed at a position facing the pressing roller 36 with the belt 34 interposed therebetween.

Next, a method of using the spew cutting device 10C will be described.
The switch 2206 is turned on to rotationally drive the drive pulley 32A, the belt 34 is moved, the grip 1602 is gripped, the cutter 1402 is brought close to the surface 402 of the tire 4, and the portion of the belt 34 on the side where the pressing roller 36 is disposed is moved. It is made to oppose the surface 402 of the tire 4. FIG.
Then, while the cutter 1402 is positioned in the vicinity of the surface 402 of the tire 4, the spew cutting device 10 </ b> C is moved along the surface 402 of the tire 4, and the moving direction of the portion of the belt 34 facing the surface 402 of the tire 4 is The spew cutting device 10C is moved in the X arrow direction which is the reverse direction.
Then, first, the tip portion of the spew 2 comes into contact with the front portion 2002 of the contact member 20A, and the belt 34 tilts the spew 2 along the moving direction of the belt 34 as the spew cutting device 10C moves.

With further movement of the spew cutting device 10C, the spew 2 is maintained in the tilted state at the rear portion 2004 of the contact member 20A. In this state, the cutter 1402 is positioned between the surface 402 of the tire 4 and the spewed spew 2 Located in.
With further movement of the spew cutting device 10 </ b> C, the root of the spew 2 maintained in the tilted state is cut by the cutter 1402 immediately below the pressing roller 36.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

According to the present embodiment, the spew 2 is tilted in the direction of the cutter 1402 at the front portion 2002, the spew 2 is tilted down at the rear portion 2004, and the root of the spew 2 is cut by the cutter 1402 directly below the pressing roller 36. .
That is, when the spew 2 is cut, the pressing roller 36 is positioned immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be cut easily and reliably from the root.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

  Since the escape of the spew 2 at the time of cutting can be prevented by the belt 34, the pressing roller 36 can be omitted. However, if the pressing roller 36 is used as in the embodiment, the escape of the spew 2 is more effectively prevented. This is advantageous when the root of the spew 2 is more smoothly cut by the cutter 1402.

(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIG.
The spew cutting device 10D for the tire 4 according to the fourth embodiment is a modification of the third embodiment, and includes a tilting portion 12D, a cutting portion 14, and a frame 16A similar to the first embodiment ( In the fourth embodiment, the configuration of the tilting part 12D is different from that of the third embodiment.

The tilting part 12 </ b> D includes three pulleys 32, a belt 34 hung on the pulleys 32, a driving part 22 that rotationally drives one pulley 32, and a pressing roller 36.
The spindle 3202 of the pulley 32 positioned in the front of the X arrow direction moving the spew cutting device 10D along the surface 402 of the tire 4, the spindle 3202 of the pulley 32 positioned behind the pulley 32, and the pressing roller 36 The support shaft 3602 is rotatably supported on the mounting surface 1604 side similar to the first embodiment.
Further, the support shaft 3202 of the pulley 32 located at the rearmost part with respect to the X arrow direction in which the spew cutting device 10D is moved along the surface 402 of the tire 4 is supported on the mounting surface 1604 side, which is the first implementation. It is connected to the output shaft of the motor 2202 through a gear mechanism 2204 similar to the above.
Accordingly, the two pulleys 32 positioned in the front of the X arrow direction for moving the spew cutting device 10D are configured as driven pulleys 32B, and are located at the rearmost portion with respect to the X arrow direction for moving the spew cutting device 10D. The pulley 32 is configured as a drive pulley 32A.
In the present embodiment, the outer diameters of the three pulleys 32 are formed with the same dimensions that are smaller than the protruding height of the spew 2.
The rotation center of the driven pulley 32B located in the foremost direction in the direction of the arrow X is above the direction in which the driving pulley 32A and the pressing roller 36 are arranged with an interval larger than the protrusion height of the spew 2. It is arranged at a distant place.

The belt 34 moves when the drive pulley 32A is rotationally driven.
The belt 34 has a portion that approaches the surface 402 of the tire 4 while moving, and a portion that moves along the surface 402 of the tire 4.
Therefore, in the present embodiment, the contact member 20 </ b> A is constituted by the belt 34.
Further, the front portion 2002 of the contact member 20A is a portion of the belt 34 that approaches the surface 402 of the tire 4 while moving, and is configured by a portion of the belt 34 that is stretched over the two front driven pulleys 32B.
Further, the rear portion 2004 of the contact member 20A is a portion of the belt 34 that moves along the surface 402 of the tire 4, and is a portion of the belt 34 that spans between the driving pulley 32A and the driven pulley 32B that is positioned in front of the driving pulley 32A. It is configured.
The pressure roller 36 is disposed at the rear portion 2004 of the contact member 20A, and the pressure roller 36 prevents the belt 34 from being lifted by the spew 2 at the rear portion 2004 of the contact member 20A.
The cutter 1402 is disposed at a position facing the pressing roller 36 with the belt 34 interposed therebetween.

Next, a method of using the spew cutting device 10D will be described.
The switch 2206 is turned on to rotationally drive the drive pulley 32A, the belt 34 is moved, the grip 1602 is gripped, the cutter 1402 is brought close to the surface 402 of the tire 4, and the portion of the belt 34 on the side where the pressing roller 36 is disposed is moved. It is made to oppose the surface 402 of the tire 4. FIG.
Then, while the cutter 1402 is positioned in the vicinity of the surface 402 of the tire 4, the spew cutting device 10 </ b> D is placed along the surface 402 of the tire 4, and the moving direction of the portion of the belt 34 facing the surface 402 of the tire 4 is The spew cutting device 10D is moved in the X arrow direction which is the reverse direction.
Then, first, the front portion of the spew 2 comes into contact with the front portion 2002 of the contact member 20A, and the belt 34 moves along the moving direction of the belt 34 in the direction of the cutter 1402 along with the movement of the spew cutting device 10D. Defeat.

As the spew cutting device 10D further moves, the spew 2 is maintained in the tilted state at the rear portion 2004 of the contact member 20A, and in this state, the cutter 1402 is positioned between the surface 402 of the tire 4 and the spewed spew 2. Located in.
As the spew cutting device 10 </ b> D further moves, the root of the spew 2 maintained in the tilted state is cut by the cutter 1402 immediately below the pressing roller 36.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

According to the present embodiment, the spew 2 is tilted in the direction of the cutter 1402 at the front portion 2002, the spew 2 is tilted down at the rear portion 2004, and the root of the spew 2 is cut by the cutter 1402 directly below the pressing roller 36. .
That is, when the spew 2 is cut, the pressing roller 36 is positioned immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be cut easily and reliably from the root.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

  Since the escape of the spew 2 at the time of cutting can be prevented by the belt 34, the pressing roller 36 can be omitted. However, if the pressing roller 36 is used as in the embodiment, the escape of the spew 2 is more effectively prevented. This is advantageous when the root of the spew 2 is more smoothly cut by the cutter 1402.

(Fifth embodiment)
Next, a fifth embodiment will be described with reference to FIG.
As in the first embodiment, the spew cutting device 10E for the tire 4 according to the fifth embodiment includes a tilting part 12E, a cutting part 14, and a frame 16A (not shown) similar to that of the first embodiment. In the fifth embodiment, the configuration of the tilting part 12E is different from that of the first embodiment.

The tilting part 12E includes a rotating member 38 on a disk.
The support shaft 3802 of the rotation member 38 is supported on the mounting surface 1604 side of the frame 16A, is connected to the output shaft of the motor 2202 via the same gear mechanism 2204 as in the first embodiment, and is rotated by the motor 2202. The

In the fifth embodiment, the contact member 20 </ b> A includes an outer peripheral surface portion 38 </ b> A of the rotating member 38 and an end surface portion 38 </ b> B including an end surface in the axial direction of the rotating member 38. The outer peripheral surface portion 38A is formed by an inclined surface that becomes smaller in diameter as it approaches the end surface portion 38B.
Further, the front portion 2002 of the contact member 20 </ b> A that contacts the spew 2 while moving and falls the spew 2 onto the surface 402 of the tire 4 is constituted by the outer peripheral surface portion 38 </ b> A of the rotating member 38.
Further, the rear portion 2004 of the contact member 20 </ b> A that maintains the state of the spew 2 tilted by the front portion 2002 is configured by an end surface portion 38 </ b> B including an end surface in the axial direction of the rotating member 38.
The cutter 1402 is supported by the attachment surface 1604 via the attachment member 26, and extends in the diameter direction of the end surface portion 38B at a location facing the end surface portion 38B. The blade portion 1402A of the cutter 1402 is directed to the upstream side in the rotation direction of the end surface portion 38B, and can cut the root of the spew 2 maintained in the state of being tilted by the end surface portion 38B.

Next, a method of using the spew cutting device 10E will be described.
The switch 2206 is turned on to rotate the rotating member 38, grip the grip 1602, bring the cutter 1402 close to the surface 402 of the tire 4, and make the rotating member 38 face the surface 402 of the tire 4.
Then, the spew cutting device 10E is placed along the surface 402 of the tire 4 while the cutter 1402 is positioned close to the surface 402 of the tire 4, and the spew cutting device in the X arrow direction in which the cutter 1402 faces the spew 2 Move 10E.
Then, first, the tip portion of the spew 2 comes into contact with the outer peripheral surface portion 38A of the rotating member 38, and the outer surface portion 38A of the rotating member 38 moves along the rotation direction of the end surface portion 38B along with the movement of the spew cutting device 10E. Is pushed in the direction of the cutter 1402.

With the further movement of the spew cutting device 10E, the spew 2 is maintained in the tilted state at the end face portion 38B, and in this state, the cutter 1402 is positioned between the surface 402 of the tire 4 and the spew 2 that has been tilted.
Along with the movement of the spew cutting device 10E, the root of the spew 2 maintained in the collapsed state is cut by the cutter 1402.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

According to the present embodiment, the spew 2 is tilted in the direction of the cutter 1402 by the outer peripheral surface portion 38A of the rotating member 38, and the spew 2 is maintained in the tilted state by the end surface portion 38B of the rotating member 38. Is cut with a cutter 1402.
That is, when the spew 2 is cut, the end face portion 38B is located immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be easily and reliably cut from the root.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

(Sixth embodiment)
Next, a sixth embodiment will be described with reference to FIG.
The spew cutting device 10F for the tire 4 according to the sixth embodiment is configured so that the rotating member 24 and the cutter 1402 constituting the spew cutting device 10A for the tire 4 according to the first embodiment maintain the positional relationship between them and the frame 16B. It is installed in the tire rotating device 50 via
That is, in the sixth embodiment, the spew cutting device 10F is kept stationary without being moved, and the root of the spew 2 is cut by rotating the tire 4 with the tire rotating device 50.
The tire rotating device 50 supports the tire 4 so as to be movable up and down and rotatable.
The spew cutting device 10F for the tire 4 according to the sixth embodiment includes a tilting part 12A and a cutting part 14 that are the same as those in the first embodiment, and a frame 16B that is different from the first embodiment. .

The frame 16B extends in the width direction of the tire 4 supported by the tire rotating device 50, and is supported by the tire rotating device 50 so as to be tiltable up and down, and can be moved and adjusted in the longitudinal direction of the guide rod 52. A bracket 54 is provided. The bracket 54 supports the rotating member 24 and the cutter 1402 from both sides in the longitudinal direction.
The configuration of the tilting part 12A and the cutting part 14 is substantially the same as that of the first embodiment, but the motor 2202 and the gear mechanism 2204 that constitute the driving part 22 are attached to the bracket 54.
In the sixth embodiment, the rotating member 24 is rotated at a peripheral speed faster than the speed of the outer peripheral surface of the tire 4 rotated by the tire rotating device 50.
Further, when the guide rod 52 extends in parallel with the outer peripheral surface of the tire 4 and the spew cutting device 10F is moved along the guide rod 52, the tilted portion 12A and the cutting portion 14 are located over the entire tread portion in the tire width direction. To move. Further, when the spew cutting device 10F is moved along the guide rod 52 while the tire 4 is moved up and down and the guide rod 52 is tilted, the tilted portion 12A and the cutting portion 14 move on the shoulder portions on both sides.

Next, a method of using the spew cutting device 10F will be described.
The guide rod 52 extends parallel to the outer peripheral surface of the tire 4, the tire 4 is moved up and down to bring the cutter 1402 close to the outer peripheral surface of the tire 4, and the rotating member 24 is opposed to the surface 402 of the tire 4.
Next, the tire rotating device 50 rotates the tire 4 at a low speed in the direction in which the outer peripheral surface of the tire 4 faces the blade portion 1402A of the cutter 1402, and the rotating member 24 is rotated at a peripheral speed faster than the peripheral speed of the tire 4. The tire 4 is rotated in the direction opposite to the rotation direction.
In this case, it is preferable that the peripheral speed of the outer peripheral surface of the rotating member 24 is 1.5 times or more than the peripheral speed of the outer peripheral surface of the tire 4 in order to smoothly tilt the spew 2.

As the tire 4 rotates, the tip portion of the spew 2 comes into contact with the front portion 2002 of the contact member 20 </ b> A as in FIG. 2A, and the front portion 2002 moves the spew 2 along the rotation direction of the tire 4. Defeat in 1402 direction.
As the tire 4 further rotates, the spew 2 is maintained in the tilted state at the rear portion 2004 of the contact member 20A. In this state, the cutter 1402 is positioned between the surface 402 of the tire 4 and the tilted spew 2. To do.
With further rotation of the tire 4, the root of the spew 2 that has been kept in the tilted state is cut by the cutter 1402 immediately below the rear portion 2004.
That is, when the spew 2 is cut, the rear portion 2004 is positioned immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be easily and reliably cut from the root.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

If the entire spew 2 on the outer peripheral surface of the tire 4 is cut at the place where the spew cutting device 10F is installed, the spew cutting device 10F is moved along the guide rod 52, and the outer periphery of the tire 4 at that point is moved. Cut the spew 2 around the entire surface in the same way.
Further, while the tire 4 is moved up and down and the guide rod 52 is tilted, the spew cutting device 10C is moved along the guide rod 52, and the tire 4 is rotated to cut the entire spew 2 of the shoulder portions on both sides. .
In this way, the spew cutting device 10 </ b> F is moved in the width direction of the tire 4, and all the spews 2 on the entire surface of the tread portion and the shoulder portion of the tire 4 are cut.
Therefore, it is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

  Similarly, the spew cutting devices 10B to 10E of the second to fifth embodiments can also be installed in the tire rotating device 50 and used.

(Seventh embodiment)
Next, a seventh embodiment will be described with reference to FIG.
In the spew cutting device 10G for the tire 4 of the seventh embodiment, the tilted portion 12F and the cutting portion 14 extend in the width direction of the tire 4, and the tire performed in the sixth embodiment The movement of the spew cutting device 10F in the width direction 4 is unnecessary.
That is, the tilted portion 12F includes a rotating member 60 formed in a drum shape along the tread portion of the tire 4 and the surfaces 402 of the shoulder portions on both sides, and a motor 2202 that rotationally drives the rotating member 60.
Therefore, in the seventh embodiment, as in the first embodiment, the contact member 20 </ b> A that contacts the spew 2 while moving is constituted by the outer peripheral portion of the rotating member 60. Further, as shown in FIG. 2, the front portion 2002 of the contact member 20 </ b> A that causes the spew 2 to fall on the surface 402 of the tire 4 is the upstream side of the rotating member 60 in the rotation direction of the rotating member 60. It is composed of an outer peripheral part.
Further, the rear portion 2004 of the contact member 20 </ b> A that maintains the state of the spew 2 tilted by the front portion 2002 is a portion of the outer peripheral portion of the rotating member 60 that is closest to the surface 402 of the tire 4 when viewed from the axial direction of the rotating member 60. It consists of

Both sides of the support shaft 2402 of the rotating member 60 are supported by the frame 16C, and the drive unit 22 includes a motor 2202 and a gear mechanism 2204 supported by the frame 16C. The output shaft of the motor 2202 and the support shaft 2402 are gears. They are connected via a mechanism 2204.
Further, the cutter 1402 of the cutting portion 14 is formed in a bow shape along the surface 402 of the tread portion and the shoulder portions on both sides in the width direction of the tire 4.
Both sides of the cutter 1402 in the longitudinal direction are supported by the frame 16C, and the frame 16C is attached to the frame of the tire rotating device 50.

Next, a method of using the spew cutting device 10G will be described.
The tire rotating device 50 rotates the tire 4 at a low speed in a direction in which the outer peripheral surface of the tire 4 faces the blade portion 1402A of the cutter 1402, and the rotating member 60 is rotated at a peripheral speed faster than the peripheral speed of the tire 4. Rotate in the direction opposite to the direction of rotation.
As the tire 4 rotates, the tip portion of the spew 2 comes into contact with the front portion 2002 of the contact member 20 </ b> A, and the front portion 2002 moves the spew 2 in the direction of the cutter 1402 along the rotation direction of the tire 4.
As the tire 4 further rotates, the spew 2 is maintained in the tilted state at the rear portion 2004 of the contact member 20A. In this state, the cutter 1402 is positioned between the surface 402 of the tire 4 and the tilted spew 2. To do.

With further rotation of the tire 4, the root of the spew 2 maintained in the collapsed state is cut by the cutter 1402 immediately below the rear portion 2004.
That is, when the spew 2 is cut, the rear portion 2004 is positioned immediately above the root of the spew 2, so that the spew 2 does not escape and the spew 2 can be easily and reliably cut from the root.
In the seventh embodiment, a plurality of spews 2 projecting from the surface 402 of the tread portion and the shoulder portions on both sides are cut simultaneously over the entire length of the tire 4 in the width direction.
Then, as shown in FIG. 10A, the root of the spew 2 cut by the cutter 1402 only slightly protrudes from the surface 402 of the tire 4, and the surface 402 of the tire 4 has a substantially continuous curved surface shape. Become.

  In the seventh embodiment, since the rotating member 60 and the cutter 1402 extend over the entire length in the width direction of the tire 4, the spew cutting device 10G is connected in the width direction of the tire 4 as in the sixth embodiment. It is possible to cut all the spews 2 in the entire outer peripheral surface of the tire 4 in a short time without moving the tire, and this is advantageous in improving the appearance of the tire 4 and increasing the commercial value of the tire 4.

In the first to seventh embodiments described above, a guide unit that contacts the surface 402 of the tire 4 and holds a gap between the surface 402 of the tire 4 and the cutter 1402 may be provided.
As such guide means, for example, as shown in FIG. 9, a structure in which a plurality of rotatable rollers 40 are arranged on a cutter 1402 or a guide plate made of a member having a small friction coefficient with respect to the surface 402 of the tire 4 is used. The structure which provides is mentioned.
When such a guide means is provided, the roller 40 rotates on the surface 402 of the tire 4 or the guide plate slides on the surface 402 of the tire 4, so that the gap between the cutter 1402 and the surface 402 of the tire 4 is provided. This is advantageous in maintaining a minute gap, and is advantageous in preventing the tire 4 from being damaged by the cutter 1402.

Further, providing a heating means for heating the cutter 1402 and maintaining the temperature of the cutter 1402 at a high temperature is advantageous in smoothly cutting the root of the spew 2.
In this case, for example, as shown in FIG. 9, the heater 42 may be attached to the cutter 1402. In order to cut the root of the spew 2 smoothly, the temperature of the cutter 1402 is preferably maintained between 60 ° C. and 120 ° C.

  Further, when the spew 2 is cut by the cutter 1402, the distance between the rear portion 2004 of the contact member 20 </ b> A and the surface 402 of the tire 4 is set to a dimension that is 1.0 to 1.5 times the outer diameter of the spew 2. In this case, the contact member 20A is preferably formed of an elastic material.

Further, when an uneven structure that increases the coefficient of friction with respect to the spew 2 is formed on the surface of the contact member 20A that comes into contact with the spew 2, the spew 2 can be tilted down smoothly and the spew 2 can be maintained in a tilted state. This is advantageous in smoothly cutting the root of the slab.
In this case, the concavo-convex structure may have a knurled surface on the contact member 20A, or a large number of V grooves may be formed on the surface of the contact member 20A, or a large number of fine protrusions may be projected on the surface of the contact member 20A. Various well-known concavo-convex structures such as a brush shape can be adopted.

  2 ... Spew, 4 ... Tire, 402 ... Tire surface, 10A, 10B, 10C, 10D, 10E, 10F, 10G .... 14: Cutting unit 1402: Cutter, 16A, 16B, 16C ... Frame, 20A ... Contact member, 2002 ... Front part, 2004 ... Rear part, 22 ... Drive unit, 24 ... Rotating member , 32... Pulley, 34... Belt, 36.

Claims (14)

A spew cutting device protruding from the surface of a tire,
A tilting section that tilts the spew on the surface of the tire, a cutting section that cuts the spew, and a frame that supports the tilting section and the cutting section,
The tilting portion moves the contact member, a contact member having a front portion that contacts the spew while moving, and a rear portion that maintains the state of the spew tilted by the front portion. A drive unit,
The cutting part has a cutter that can be cut at the root of the spew that is arranged at a position facing the rear part of the contact member and maintained in a state of being tilted by the rear part.
A spew cutting device for a tire characterized by that. The frame includes a grippable grip,
The spew cutting device for a tire according to claim 1 . The tilting portion includes a rotating member whose outer peripheral portion is formed of a cylindrical surface and is driven to rotate by the driving portion,
The contact member is configured by an outer peripheral portion of the rotating member.
The spew cutting device for a tire according to claim 1 or 2 . The tilting portion is formed of a first rotating member whose outer peripheral portion is formed of a cylindrical surface and is rotationally driven by the driving portion, and the outer peripheral portion is formed of a cylindrical surface having an outer diameter smaller than the cylindrical surface and is rotated by the driving portion. A second rotating member to be driven,
The contact member includes an outer peripheral portion of the first rotating member and an outer peripheral portion of the second rotating member,
The front part of the contact member is composed of an outer peripheral part of the first rotating member,
The rear part of the contact member is constituted by an outer peripheral part of the second rotating member.
The spew cutting device for a tire according to claim 1 or 2 . The tilting portion includes a plurality of pulleys, a belt hung on the pulleys, and a driving unit that rotationally drives the pulleys,
The belt has a portion that approaches the surface of the tire while the belt moves, and a portion that moves along the surface of the tire,
The contact member is constituted by the belt,
The front part of the contact member is composed of a part that approaches the surface of the tire while the belt moves,
The rear part of the contact member is composed of a portion of the belt that moves along the surface of the tire,
The spew cutting device for a tire according to claim 1 or 2 . A pressing roller for preventing the belt from lifting is disposed at the rear of the contact member,
The cutter is disposed at a location facing the pressing roller across the belt,
The spew cutting device for a tire according to claim 5, wherein The tilting portion includes a disk-shaped rotating member that is rotationally driven by the driving portion,
The contact member includes an outer peripheral surface portion of the rotating member and an end surface portion including an end surface in the axial direction of the rotating member.
The spew cutting device for a tire according to claim 1 or 2 . A spew cutting device that is attached to a tire rotating device that supports and rotates the tire so as to move up and down, and protrudes from the surface of the tire,
A tilting section for tilting the spew on the surface of the tire, a cutting section for cutting the spew, and a frame that supports the tilting section and the cutting section and is attached to the tire rotating device,
The tilting portion includes a front portion that contacts the spew while moving in the same direction as the moving direction of the surface of the tire rotated by the tire rotating device, and a front portion that tilts the spew toward the moving direction of the tire surface, and the front portion. A contact member having a rear portion that maintains the state of the spewed spew, and a drive unit that moves the contact member at a speed faster than the moving speed of the tire surface,
The cutting portion is disposed at a location facing the rear portion of the contact member and close to the surface of the tire, and the spew is maintained in a state of being tilted by the rear portion by moving the surface of the tire. Having a cutter located between the tire surface and cutting the spew root,
A spew cutting device for a tire characterized by that. A guide for movably supporting the frame is provided in the width direction of the tire supported by the tire rotating device,
The frame is attached to the tire rotating device via the guide,
The tire spew cutting device according to claim 8 . The contact member and the cutter extend over the entire length in the width direction of the tire along the outer peripheral surface of the tire supported by the tire rotating device.
The tire spew cutting device according to claim 8 . Further comprising guide means for contacting the surface of the tire and maintaining a gap between the surface of the tire and the cutter,
The spew cutting device for a tire according to any one of claims 1 to 10 , wherein: The contact member has elasticity;
In a state where the guide means is in contact with the surface of the tire, the distance between the contact member and the surface of the tire is set to a size of 1.0 to 1.5 times the outer diameter of the spew.
The spew cutting device for a tire according to claim 11, wherein: On the surface of the contact member, a concavo-convex structure that increases the coefficient of friction against spew is formed,
The spew cutting device for a tire according to any one of claims 1 to 12 , wherein the spew cutting device is a tire cutting device. A heating means for heating the cutter;
The spew cutting device for a tire according to any one of claims 1 to 13 , characterized in that:

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