JP5933422B2 - Tire valve unit - Google Patents

Description

  The present invention relates to a tire valve unit formed by integrating a tire valve mounted on a vehicle wheel and a sensor unit that is disposed in a tire mounted on the vehicle wheel and detects a state in the tire. .

  2. Description of the Related Art Conventionally, a tire condition monitoring device that monitors a condition in a tire such as air pressure in a vehicle tire in a vehicle cabin is known. The tire valve unit used in the tire condition monitoring device is formed by integrating a tire valve and a sensor unit (see, for example, Patent Document 1). In the valve device disclosed in Patent Document 1, a valve body (tire valve) and a housing (sensor unit) are coupled and integrated by a holding means. The holding means fixes the valve body to the housing in the locked state. On the other hand, in the unlocked state of the holding means, the valve body can move relative to the housing and is separated from the housing.

  In the tire valve unit, the tire valve includes a metal valve stem and a rubber body part integrated with the outer peripheral surface of the valve stem, and a mounting groove is provided in the circumferential direction on the outer peripheral surface of the body part. It is formed over the entire circumference. The tire valve unit inserts the tire valve from the inside of the vehicle wheel into the mounting hole formed in the rim of the vehicle wheel, and pulls the tire valve with a jig from the outside of the vehicle wheel to form the mounting groove. By being engaged with the inner peripheral surface of the mounting hole of the rim, it is mounted on the rim of the vehicle wheel.

Special table 2012-512093 gazette

  By the way, when the wheel rotates, the tire valve unit receives a centrifugal force. At this time, in the tire valve unit, the weight of the sensor unit is large, and the center of gravity is located near the sensor unit. For this reason, in a tire valve unit that has received a centrifugal force, the centrifugal force increases as the center of gravity moves away from the rim, and the tire valve may be bent. Therefore, in the tire valve unit, the center of gravity is preferably close to the rim of the vehicle wheel, and the sensor unit is preferably as close to the body portion as possible. However, when the tire valve unit is mounted on the rim, if the tire valve is pulled from the outside of the vehicle wheel, the body portion remaining inside the vehicle wheel without passing through the mounting hole is extended. Then, there exists a possibility that the extended trunk | drum part may contact a sensor unit and a sensor unit may be damaged.

  An object of the present invention is to provide a tire valve unit that can prevent contact between the body portion and the sensor unit when mounted on the rim and can be mounted in a state where the center of gravity is close to the rim.

In order to solve the above problem, a tire valve unit according to claim 1 is disposed in a tire valve mounted on a rim of a vehicle wheel, a tire mounted on the vehicle wheel, and A tire valve unit that is integrated with a sensor unit that detects a state in a tire, the tire valve including a valve stem and a rubber body portion mounted on an outer peripheral surface of the valve stem, the outer peripheral surface of the body portion, have a mounting groove which is mounted in the mounting hole formed in the rim, the tip end side outer peripheral surface of the projecting portion projecting from the body portion, along the axial direction of the valve stem as well as have a plurality of engagement portions, the base end side outer peripheral surface of the projecting portion has a flat surface on the opposite side of the plurality of engagement portions along the axial direction of said valve stem, said sensor unit ,Previous Provided with a insertion portion protruding portion is inserted, the insertion passage part, and the gist one, further comprising an elastically deformable engaging claw to be engaged with one of said plurality of engagement portions.

  According to this, the position of the projecting portion at the insertion portion changes depending on the position of the engaging portion with which the engaging claw is engaged, and the sensor unit and the body portion are integrated when the sensor unit and the tire valve are integrated. The distance can be changed. Then, when the engaging portion that is located on the most distal side of the protruding portion and is farthest from the body portion and the engaging claw of the sensor unit are engaged, the tire valve is in a state where the sensor unit is farthest from the body portion. And sensor unit can be integrated. For this reason, when the tire valve unit is mounted on the rim, the sensor unit is prevented from coming into contact with the sensor unit even if the body portion extends, and the sensor unit can be prevented from being damaged.

  After the mounting groove of the body part is mounted in the mounting hole of the rim, when the engaging part that is located closest to the body part and is closest to the body part is engaged with the engaging claw of the sensor unit The tire valve and the sensor unit can be integrated in a state where the sensor unit is closest to the body portion, that is, the rim. For this reason, the sensor unit having the heaviest weight among the tire valve units can approach the rim, and the center of gravity of the tire valve unit can be brought close to the rim. As a result, even if the tire valve unit receives centrifugal force, the tire valve can be prevented from bending.

  The engaging portion is formed in a part of the protruding portion in the circumferential direction. In the protruding portion, both side surfaces sandwiching the engaging portion face the inner surface sandwiching the protruding portion in the insertion portion. You may touch.

  According to this, even if the tire valve unit receives a force in the tire rotation direction, both side surfaces of the protruding portion are in surface contact with the inner surface of the insertion portion, and the tire valve unit moves in the circumferential direction of the vehicle wheel. Or the tire valve can be prevented from rotating in the circumferential direction.

  According to the present invention, it is possible to prevent contact between the body portion and the sensor unit during mounting on the rim, and to mount the center of gravity close to the rim.

The perspective view which shows the mounting state to the rim | rim of the tire valve unit of embodiment. The perspective view which shows the tire valve unit of embodiment. The disassembled perspective view which shows a tire valve unit. The disassembled perspective view which shows the insertion part in a sensor unit. (A) The partial cross section side view which shows the state which integrated the sensor unit in the position most distant from the trunk | drum, (b) The partial cross section side which shows the state which integrated the sensor unit in the position closest to the trunk | drum Figure. The fragmentary perspective view which shows the other example of a protrusion part. The fragmentary perspective view which shows the other example of a protrusion part. The fragmentary perspective view which shows the other example of a protrusion part.

Hereinafter, an embodiment embodying a tire valve unit will be described with reference to FIGS.
As shown in FIGS. 1, 2, and 5 (b), a tire valve unit 10 is integrated with a tire valve 20 mounted on a rim 11 of a vehicle wheel H, the tire valve 20, and a vehicle. And a sensor unit 30 disposed in the tire 12 mounted on the wheel H.

  As shown in FIG. 3, the tire valve 20 is formed by attaching a rubber body portion 22 to an outer peripheral surface of a valve stem 21 formed in a cylindrical shape by a metal material. An introduction path (not shown) is formed in the valve stem 21. In the tire valve 20, a mounting groove 24 is recessed over the entire circumference of the body portion 22 on the outer peripheral surface of the body portion 22 on the sensor unit 30 side (base end side). A valve mechanism (not shown) is built in the distal end side of the valve stem 21, and a cap 26 is attached to the distal end of the valve stem 21.

  As shown in FIG. 5B, the tire valve 20 is mounted on the rim 11 by fitting the mounting groove 24 into the mounting hole 11a in a state in which the mounting groove 24 is in close contact with the inner peripheral surface of the mounting hole 11a in the rim 11. ing. Therefore, the tire valve 20 of the present embodiment is a snap-in type valve.

  As shown in FIG. 3, in the tire valve 20, the proximal end side of the valve stem 21 protrudes from the body portion 22, and a plurality of engaging portions 28 protrude from the distal end side outer peripheral surface of the protruding portion 27. 27 are continuously provided in the axial direction.

  As shown in FIG. 3 and FIG. 5A, each engaging portion 28 includes an engaging surface 28 a on the body 22 side along the axial direction of the protruding portion 27, and is inclined toward the distal end side of the protruding portion 27. A surface 28b is provided. Each engagement surface 28a extends along the radial direction of the protrusion 27, and each inclined surface 28b is inclined downward from the base end of the protrusion 27 toward the tip.

  Next, the sensor unit 30 will be described. As shown in FIG. 4, the case 31 of the sensor unit 30 is formed of a resin material, and a detection unit is accommodated in the case 31. The detection unit is composed of various electronic components, a battery, an antenna, and the like, and detects the state (internal air pressure and the like) in the tire 12 attached to the rim 11 and the detected state of the tire 12 in the vehicle interior. A transmission function and the like for transmitting to a receiver unit (not shown) are provided. Therefore, a tire condition monitoring device that monitors the condition of the tires 12 of the plurality of wheels 2 provided in the vehicle is configured from the sensor unit 30 provided in the tire valve unit 10 and the receiver unit.

  A pair of wall portions 41 are erected on the upper surface of the case 31 with a space therebetween, and a connecting piece 42 is installed between the wall portions 41. A through hole 42 a is formed in the connecting piece 42 in the thickness direction. In the case 31, a guide surface 43 is formed at a position between the pair of wall portions 41. The guide surface 43 is provided at a position recessed from the other upper surface of the case 31 and is inclined upward toward the upper surface of the case 31 toward the back of the case 31.

  As shown in FIG. 5B, the case 31 includes a pair of wall portions 41, a connecting piece 42, and an insertion portion 44 including a guide surface 43, and the guide surface 43 extends from the entrance of the insertion portion 44 toward the back. The slope is gradually rising. The protruding portion 27 of the tire valve 20 is inserted through the insertion portion 44. The protruding portion 27 is inserted in a state where the tip is guided by the guide surface 43 so as to be directed toward the upper surface side of the case 31.

  In the insertion part 44, an engagement claw 50 is attached to the connecting piece 42. As shown in FIG. 4, the resin-made engaging claws 50 are U-shaped in a side view. The engagement claw 50 includes a rectangular plate-like support piece 51 supported by the connection piece 42, and a connection portion 52 extending from one side extending in the longitudinal direction among the side edges of the support piece 51. Furthermore, the engaging claw 50 includes a rectangular plate-like claw piece 53 that extends in the longitudinal direction of the side of the connecting portion 52 and faces the support piece 51. The claw piece 53 gradually increases in thickness as it moves away from the connecting portion 52. The claw piece 53 can be elastically deformed and can be tilted with the connecting portion 52 side as a fulcrum.

  As shown in the enlarged view of FIG. 5B, in the engaging claw 50, through holes 51a and 53a are formed in the thickness direction at positions where the support piece 51 and the claw piece 53 face each other. The engaging claw 50 has the support piece 51 supported by the connecting piece 42 of the insertion portion 44, and is connected to the through hole 51 a of the support piece 51, the through hole 42 a of the connecting piece 42, and the through hole 53 a of the claw piece 53. The member 55 is inserted. The connecting member 55 is fixed to the connecting piece 42, and the engaging claw 50 is fixed to the connecting piece 42. In the engaging claw 50, the claw piece 53 gradually increases in thickness from the front end surface side of the case 31 toward the back, and is inclined downward toward the guide surface 43 of the insertion portion 44. The engaging claw 50 is attached to the connecting piece 42 with a slight gap between the opposing surfaces of the claw piece 53 and the connecting piece 42, and the claw piece 53 can be elastically deformed within the gap. It has become.

  Of the outer peripheral surface of the projecting portion 27, both side surfaces sandwiching the engaging portion 28 are in contact with the inner surfaces of the opposing wall portions 41. Further, the claw piece 53 of the engaging claw 50 engages with the engaging surface 28 a of one engaging portion 28 among the plurality of engaging portions 28 of the protruding portion 27, and the protruding portion 27 comes out of the insertion portion 44. It has been stopped.

Next, the operation of the tire valve unit 10 will be described together with a method for mounting the tire valve unit 10 on the vehicle wheel H.
First, the tire valve 20 and the sensor unit 30 are integrated. As shown in FIG. 5A, the protruding portion 27 of the tire valve 20 is inserted into the insertion portion 44 of the sensor unit 30, and the protruding portion 27 is guided toward the upper surface of the case 31 by the guide surface 43. Then, the claw piece 53 engages with the claw piece 53 of the engagement claw 50 with the engagement surface 28 a of the engagement part 28 on the most distal side among the plurality of engagement parts 28, and from the insertion part 44 of the protruding part 27. Is prevented from coming out. As a result, the tire valve 20 and the sensor unit 30 are integrated, and the tire valve unit 10 is formed. In the tire valve unit 10, since the engaging claw 50 is engaged with the engaging portion 28 on the most distal end side of the protruding portion 27, the sensor unit 30 is farthest from the body portion 22 of the tire valve 20.

  Next, the tire valve 20 is inserted into the mounting hole 11a from the inside of the vehicle wheel H from the front end side. And the front-end | tip of the tire valve 20 which protruded to the outer side of the vehicle wheel H is pulled with the jig | tool which is not shown in figure. Then, the body portion 22 passes through the mounting hole 11a while being elastically deformed, and the tire valve 20 is gradually pulled out of the vehicle wheel H.

  At this time, a portion of the body portion 22 remaining inside the vehicle wheel H extends as the tire valve 20 is pulled to the outside of the vehicle wheel H, and approaches the sensor unit 30. However, since the sensor unit 30 is located at the position farthest from the body portion 22, the extended body portion 22 is prevented from contacting the sensor unit 30. When the mounting groove 24 of the body portion 22 is mounted on the inner peripheral surface of the mounting hole 11a, the tire valve unit 10 is mounted on the vehicle wheel H.

  Next, as shown in FIG. 5B, the sensor unit 30 is pushed toward the body portion 22. Then, the claw piece 53 of the engaging claw 50 is pushed up by the inclined surface 28b of the engaging portion 28 adjacent to the engaging portion 28 with which the claw piece 53 has been engaged. As a result, the claw piece 53 is elastically deformed in a direction approaching the connecting piece 42.

  Then, when the claw piece 53 engages with the engagement surface 28a of the engagement portion 28 closest to the body portion 22 among the plurality of engagement portions 28, the pushing of the sensor unit 30 is stopped. As a result, the sensor unit 30 is integrated with the tire valve 20 at a position closest to the body portion 22 and the rim 11. Therefore, the center of gravity of the tire valve unit 10 is closest to the rim 11 of the vehicle wheel H.

According to the above embodiment, the following effects can be obtained.
(1) A plurality of engaging portions 28 are provided on the protruding portion 27 of the tire valve 20, and a claw piece 53 that can be engaged with one of the plurality of engaging portions 28 is provided on the sensor unit 30. When the tire valve 20 is mounted on the rim 11, the claw piece 53 of the engagement claw 50 is engaged with the engagement portion 28 farthest from the sensor unit 30 among the plurality of engagement portions 28. For this reason, even if the tire valve 20 is pulled toward the outside of the vehicle wheel H and the body portion 22 extends toward the sensor unit 30, it can be prevented from contacting the sensor unit 30. Therefore, it is possible to prevent the sensor unit 30 from being damaged when the tire valve unit 10 is mounted on the rim 11.

  (2) After the inner peripheral surface of the mounting hole 11 a is engaged with the mounting groove 24 of the body portion 22 and the tire valve 20 is mounted on the rim 11, the sensor unit 30 is moved toward the body portion 22. Then, the claw piece 53 of the engagement claw 50 is engaged with the engagement portion 28 closest to the body portion 22 among the plurality of engagement portions 28. For this reason, the sensor unit 30 is integrated with the tire valve 20 in a state of being closest to the body portion 22, and the center of gravity of the tire valve unit 10 can be brought closest to the rim 11. Therefore, even if the tire valve unit 10 receives a centrifugal force generated by the rotation of the wheel 2, the center of gravity is close to the rim 11, so that the tire valve 20 can be prevented from bending.

  (3) The insertion portion 44 includes a pair of wall portions 41, and in a state where the protruding portion 27 is inserted into the insertion portion 44, both side surfaces sandwiching the engaging portion 28 among the outer peripheral surfaces of the protruding portion 27 are walls. It is in contact with the inner surface of the portion 41. For this reason, even if the tire valve unit 10 receives a centrifugal force due to the rotation of the wheel 2, the protrusion 27 comes into contact with the inner surface of the wall 41 and the tire valve unit 10 moves in the circumferential direction of the vehicle wheel H. It is possible to prevent the tire valve 20 from rotating in the circumferential direction.

  (4) The insertion portion 44 includes a guide surface 43. For this reason, when the protruding portion 27 is inserted into the insertion portion 44, the protruding portion 27 can be brought close to the engaging claw 50 by the guide surface 43, and the engagement between the claw piece 53 of the engaging claw 50 and the engaging portion 28. The mating surface 28a can be reliably engaged.

  (5) In the insertion part 44 of the sensor unit 30, the engagement claw 50 can be elastically deformed, and in the protrusion part 27 of the tire valve 20, each engagement part 28 includes an inclined surface 28b. When the sensor unit 30 is pushed in so as to bring the sensor unit 30 closer to the body portion 22, the claw piece 53 of the engagement claw 50 is gradually elastically deformed by the inclined surface 28 b of the engagement portion 28, and the engagement portion 28 is engaged. The engagement with the pawl 50 can be released. Therefore, it is not necessary to remove another lock member in order to move the sensor unit 30, and the work of mounting the tire valve unit 10 on the rim 11 can be easily performed.

In addition, you may change the said embodiment as follows.
As shown in FIG. 6, a flat contact surface 27 a may be provided on both sides of the outer peripheral surface of the protruding portion 27 with the engaging portion 28 interposed therebetween. If comprised in this way, if the protrusion part 27 is inserted in the insertion part 44, both contact surfaces 27a will surface-contact with the inner surface of the wall part 41 which opposes. For this reason, even if the tire valve unit 10 receives a force in the rotational direction of the wheel 2, the tire valve 20 moves in the circumferential direction of the vehicle wheel H due to surface contact between the contact surface 27 a and the inner surface of the wall portion 41. Or the tire valve 20 can be prevented from rotating in the circumferential direction.

As shown in FIG. 7, the engaging portion 28 may be provided over the entire circumference of the protruding portion 27 in the circumferential direction.
As shown in FIG. 8, in the protruding portion 27, the engaging portion 28 is formed at a position recessed in the thickness direction from the outer peripheral surface of the protruding portion 27, and the locking portion 27 c is positioned from the position sandwiching the engaging portion 28. You may stand upright. In this case, the distance between the engaging portions 27c facing each other is slightly longer than the length of the engaging claw 50 in the longitudinal direction. When the protruding portion 27 is inserted into the insertion portion 44, the claw piece 53 engages with the engaging portion 28 in a state where the engaging claw 50 enters the inside of the locking portion 27 c. In addition, each locking portion 27 c enters a gap between both ends of the engaging claw 50 in the longitudinal direction and the inner surface of the wall portion 41.

  If comprised in this way, even if the tire valve unit 10 receives the force to the rotation direction of the wheel 2, the tire valve 20 will be the circumferential direction of the vehicle wheel H by contact | abutting with the latching | locking part 27c and the engagement nail | claw 50. And the tire valve 20 can be prevented from rotating in the circumferential direction.

In the insertion part 44, the engaging claw 50 may be integrally formed with the connecting piece 42.
The engagement claw 50 is not made of resin, and may be made of metal as long as it can be elastically deformed.
The engagement claw may not be the one in the embodiment, and may be a claw body biased in a direction away from the connection piece 42 by an elastic member such as a spring. When the protruding portion 27 is inserted into the insertion portion 44, an elastic member such as a spring is compressed so that the claw body is engaged with the engagement portion 28 or the engagement with the engagement portion 28 is released. Also good.

  In the embodiment, when the tire valve unit 10 is mounted on the rim 11, the engaging claw 50 is engaged with the engaging portion 28 located at the most distal end of the protruding portion 27 among the plurality of engaging portions 28. Not limited to this. When the tire valve unit 10 is mounted on the rim 11, the engaging portion 28 with which the engaging claw 50 engages may be changed as long as the extended body portion 22 does not contact the sensor unit 30. Further, the number of engaging portions 28 may be increased.

Next, a technical idea that can be grasped from the above embodiment and another example will be additionally described.
(A) The insertion portion includes a pair of wall portions erected from the sensor unit, a connecting piece erected on the wall portion, and an engaging claw attached to the connecting piece. .

(B) The insertion portion is a tire valve unit including a guide surface that is inclined upward while approaching the engagement claw from the entrance of the protrusion toward the back.
(C) A tire state including a tire valve unit provided in the tire of the wheel and a receiver unit installed in a vehicle body of the vehicle in order to monitor a state of a tire of a plurality of wheels provided in the vehicle. A tire condition monitoring apparatus, wherein the tire valve unit is the tire valve unit according to claim 1 or 2.

  H: Vehicle wheel, 10 ... Tire valve unit, 11 ... Rim, 11a ... Mounting hole, 12 ... Tire, 20 ... Tire valve, 21 ... Valve stem, 22 ... Body part, 24 ... Mounting groove, 27 ... Projection part, 28 ... engaging part, 30 ... sensor unit, 44 ... insertion part, 50 ... engaging claw.

Claims (2)

A tire valve mounted on a rim of a vehicle wheel;
A tire valve unit formed by integrating a sensor unit that is disposed in a tire mounted on the vehicle wheel and detects a state in the tire,
The tire valve includes a valve stem and a rubber body portion mounted on an outer peripheral surface of the valve stem,
The outer peripheral surface of the body portion, have a mounting groove which is mounted in the mounting hole formed in the rim,
The distal end side outer peripheral surface of the projecting portion projecting from the body portion, as well as have a plurality of engagement portions along the axial direction of the valve stem, the base end side outer peripheral surface of the projecting portion, the axis of said valve stem A flat surface opposite to the plurality of engaging portions along the direction;
The sensor unit includes an insertion portion through which the protruding portion is inserted, and the insertion unit includes an elastically deformable engagement claw that engages with one of the plurality of engagement portions. Tire valve unit.   The engaging portion is formed at a part of a circumferential direction of the protruding portion, and both side surfaces sandwiching the engaging portion in the protruding portion are in surface contact with inner surfaces sandwiching the protruding portion in the insertion portion. The tire valve unit according to claim 1.