JP2008245831A - Seat belt device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a seat belt device having a buckle device with a buckle switch being strong to disturbance and facilitating to control another device by switching. <P>SOLUTION: A buckle body 20 includes a base 21, a latch member 23 supported to the base 21 movably between a latched position and a non-latched position and capable of latching a tongue plate 11, and a buckle switch for detecting the engagement/disengagement between the tongue plate 11 and the buckle body 20. The buckle switch constitutes a switch unit 30 having a reed switch 31, and a magnetic field generation means 32 changing the relative position to the reed switch 31 following the engagement/disengagement between the tongue plate 11 and the buckle body 20, and the switch unit 30 has a magnetic shielding plate 81 formed of a magnetic body. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a seat belt device including a buckle device that removably locks a webbing (belt) mounted on a vehicle seat such as an automobile.

  2. Description of the Related Art Conventionally, a seat belt device is attached to a seat of a vehicle such as an automobile for the sake of passenger safety. The buckle device used in this seat belt device usually has a tongue plate (tongue piece) movably provided on the webbing and a buckle body for engaging and disengaging the tongue plate. The buckle body includes a release button for releasing the tongue plate engaged (latched) with the buckle body from the buckle body.

  In such a back device, other devices related to the operation of the seat belt device such as a retractor are displayed based on the engagement / disengagement state between the tongue plate and the buckle body or the engagement / disengagement state between the tongue plate and the buckle body. For example, a buckle switch for detecting the engagement / disengagement state is provided (for example, refer to Patent Documents 1 and 2).

  In the buckle device described in Patent Document 1, a buckle device using a non-contact type switch including a hall element and a magnet is disclosed as a buckle switch. In this buckle device, a Hall element and a magnet are arranged close to each other in the buckle body. A conductive wire extending from the CPU (Central Processing Unit) is connected to the Hall element. A current corresponding to the strength of the magnetic field in one direction (high magnetic flux density) received by the Hall element from the magnet flows through the conducting wire. When the tongue plate is inserted into the buckle body, the movable components in the buckle body that were in the first position in the initial state move to the second position between the Hall element and the magnet. When the tongue plate is detached from the buckle body, the movable component moves away from between the Hall element and the magnet and moves to the first position. As the movable component moves, the strength of the magnetic field received by the Hall element from the magnet varies as shown in FIG. As the strength of the magnetic field received by the Hall element from the magnet varies, the current flowing through the conductor between the Hall element and the CPU also varies. Based on the magnitude of the current flowing through the conducting wire, the CPU determines whether the tongue plate and the buckle body are in a latched state or a non-latched state.

Also in the buckle device described in Patent Document 2, a buckle device using a non-contact type switch composed of a hall element and a magnet is disclosed as a buckle switch. In this buckle device, the magnet is moved with the engagement / disengagement operation of the tongue plate and the buckle body, and the strength of the magnetic field received by the Hall element from the magnet varies. As the strength of the magnetic field received by the Hall element from the magnet varies, the electromotive force of the Hall element increases and decreases, and the current flowing through the conductor between the Hall element and the CPU also varies. Based on the magnitude of the current consumption flowing through the conducting wire, the CPU determines whether the tongue plate and the buckle body are in a latched state or a non-latched state.
JP 2001-2111912 A JP 2001-157603 A

  By the way, in the buckle device disclosed in Patent Document 1, as shown in FIG. 10, the Hall element receives a magnetic field in one direction from the magnet. However, in this embodiment, some magnetic field generating means is brought close to the buckle device from the outside. There is a risk of malfunction due to external disturbances. It is conceivable to increase the magnetic force of the magnetic field in one direction from the magnet (N pole magnetic field in FIG. 10) so that it does not malfunction even if any magnetic field generating means is approached from the outside. The magnetic substance (foreign matter or the like) can easily be sucked into the inside, which may adversely affect the operation of the buckle device.

  On the other hand, when a weak electromotive force change of the Hall element is transmitted to the CPU outside the buckle device through the conductor, as in the buckle device disclosed in Patent Document 2, when the disturbance noise is applied to the conductor, the CPU This makes it difficult to distinguish between signals and noise. Further, since the output of the Hall element is weak, for example, a lamp load such as a belt warning light cannot be controlled based on the output of the Hall element.

  The present invention has been made in view of the above circumstances, and its purpose is to provide a buckle switch that has good switching discrimination performance and reliability, is resistant to disturbances, and can easily control other devices by the switching. Another object of the present invention is to provide a seat belt device having a buckle device.

The above object of the present invention is achieved by the following configurations.
(1) In a seat belt device having a buckle device comprising a tongue plate and a buckle body for engaging and disengaging the tongue plate,
The buckle body is supported by the base so as to be movable between a base, a latch position and a non-latching position, and the tongue plate can latch the tongue plate, and the engagement state of the tongue plate and the buckle body And a buckle switch that detects
The buckle switch includes a switch unit having a reed switch, and a magnetic field generating unit that changes a relative position with the reed switch in accordance with an engagement / disengagement operation between the tongue plate and the buckle body. Seat belt device.
(2) The seat belt device according to (1), wherein the switch unit includes a magnetic shielding plate formed of a magnetic material.
(3) The seatbelt device according to claim 1 or 2, wherein the magnetic field generating means comprises a magnet.

(4) In a seat belt apparatus having a buckle device including a tongue plate and a buckle body for engaging and disengaging the tongue plate,
The buckle body is supported by the base so as to be movable between a base, a latch position and a non-latching position, and the tongue plate can latch the tongue plate, and the engagement state of the tongue plate and the buckle body And a buckle switch that detects
A switch unit comprising a transfer-type reed switch, wherein the buckle switch is switched in accordance with an engagement / disengagement operation between the tongue plate and the buckle body and energizes one of a plurality of loads outside the buckle device; A seat belt device comprising:
(5) The switch unit includes: the reed switch; and a magnetic field generating unit that changes a relative position of the reed switch with an engagement / disengagement operation of the tongue plate and the buckle body (4). ).
(6) The buckle body incorporates an ejector that pushes out the tongue plate in a latched state, and the ejector is slidable between a first position when not latched and a second position when latched, When the tongue plate inserted into the buckle body is moved to the second position, the magnetic field generating means is pressed and moved to change the relative position between the magnetic field generating means and the reed switch. The seat belt device according to any one of 1) to (3) and (5).

  According to the seatbelt device of the present invention, the buckle switch of the buckle device includes a reed switch and a magnetic field generating means whose relative position with the reed switch changes with engagement / disengagement of the tongue plate and the buckle body. Therefore, the buckle switch has good switching discrimination performance and reliability, is resistant to disturbances, and can easily control other devices by the switching.

  Further, according to the seat belt device of the present invention, the buckle switch of the buckle device is switched in accordance with the engagement / disengagement operation of the tongue plate and the buckle body, and energizes one of a plurality of loads outside the buckle device. The buckle switch has a switching discriminating performance and reliability, is strong against disturbance, and can easily control other devices by switching. In addition to this, the configuration can be reduced in size and cost.

  Hereinafter, a seat belt device according to an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 shows a three-point seat belt device 100 including a buckle device 10 according to this embodiment. In the seat belt device 100, the webbing 101 is wound so that one end can be pulled out to the retractor 102. The other end of the webbing 101 is inserted into the through anchor 105 supported by the center pillar 103 so as to be positioned in the vicinity of the shoulder of the occupant 109, inserted into the tongue plate 11, and fixed to the lower portion of the center pillar 103. It is locked to. By engaging the tongue plate 11 with the buckle body 20 disposed in the vicinity of the seat 107, the occupant 109 can be restrained by the seat 107 by the webbing 101. The tongue plate 11 is engaged with (latched) the buckle body 20 by fitting the latch member in the buckle body 20 into the latch hole 12 of the tongue plate 11.

  As the retractor 102, a retractor having a winding force reduction mechanism (tension reducer) disclosed in, for example, Japanese Patent Laid-Open No. 8-2380 may be used. The winding force reduction mechanism is driven by exciting the electromagnetic solenoid.

  The buckle body 20 of the buckle device 10 is configured by incorporating various components in a housing formed by combining an upper case and a lower case. FIG. 2 is a schematic plan view of the buckle body 20 with the upper case removed. FIG. 3 is a schematic cross-sectional view taken along line III-III in FIG. 2 and 3 show a state before the tongue plate 11 is inserted into the buckle body 20 (non-latching state). In FIG. 2, the illustration of the stopper 29 shown in FIG. 3 is omitted. 3, the illustration of the base side wall 21b and the disengagement button 28 shown in FIG. 2 is omitted, and the upper case 20a not shown in FIG. 2 is shown.

  In the following description, “upper” indicates the upper case side, and “lower” indicates the lower case side. As shown in FIG. 2, a U-shaped base 21 having a base bottom wall 21a and a pair of base side walls 21b and 21b erected on both sides thereof is placed on the lower case 20b. The insertion / removal direction of the tongue plate 11 and the direction in which the base side walls 21b, 21b extend coincide with each other. An ejector 22 is slidably disposed on the base bottom wall 21a on the side where the tongue plate 11 is inserted (left side in the figure). The ejector 22 is formed in a plate shape, and includes a contact portion 22a with which the tip of the tongue plate 11 contacts, and a pair of leg portions 22b and 22b provided on both sides of the contact portion 22a. The leg portions 22b and 22b are inserted into elongated holes (not shown) provided in the base side walls 21b and 21b, and project outward from the base side walls 21b and 21b.

  Above the ejector 22, a tip 23d of the latch member 23 is disposed. The latch member 23 is supported on the base side walls 21b and 21b by a pair of convex portions 23a and 23a provided on both sides on the base end side (right side in the drawing), and swings around the convex portions 23a and 23a. It is possible to move. The latch member 23 has a spring accommodating hole 23b at the center thereof. A spring support protrusion 23c is formed on the side of the spring housing hole 23b on the latch member base end side. A base end of a coil spring (biasing member) 25 is fitted on the spring support convex portion 23c. The front end 23d of the latch member 23 is formed in a hook shape that extends downward, and is located on the upper surface of the contact portion 22a of the ejector 22.

  A lock bar (lock member) 26 is disposed above the distal end side of the latch member 23. The lock bar 26 extends from one base side wall 21 b to the other base side wall 21 b and lies above the latch member 23. An adjustment member 27 is engaged with the central portion of the lock bar 26.

  A disengagement button 28 is disposed on the side of the lower case 20b where the tongue plate 11 is inserted (left side in the drawing). The release button 28 includes a pressing portion 28a that is pressed rightward in the figure by a passenger's finger and the like, and a pair of button leg portions 28b that are provided on both sides of the pressing portion and slide on the outside of the base side walls 21b and 21b. 28b. The lower end of the button leg portion 28 b is in contact with the leg portions 22 b and 22 b of the ejector 22. When the pressing portion 28a of the disengagement button 28 is pressed and moved in the right direction in the drawing, the leg portions 22b and 22b of the ejector 22 are pressed and moved by the button leg portions 28b and 28b. On the surfaces of the button leg portions 28b, 28b facing the base side walls 21b, 21b, step portions 28c for receiving the lock bar 26 in the latch state described later are formed.

  As shown in FIG. 3, the base end of the adjustment member 27 is rotatably supported by the leg portion 22 b of the ejector 22. The tip of the adjustment member 27 is formed in a hook shape and is engaged with the lock bar 26. A spring receiving convex portion 27 a that receives the tip of the coil spring 25 is provided at an intermediate portion of the adjustment member 27. The spring receiving projection 27a is formed in a columnar shape and receives the tip of the coil spring 25 on its side surface. Both ends of the lock bar 26 are inserted into a substantially L-shaped guide hole 21c formed in the base side wall. In the non-latching state, the lock bar 26 is disposed on the upper portion of the guide hole 21c.

  Since the tip of the coil spring 25 is in contact with the spring receiving projection 27a of the adjustment member 27, the adjustment member 27 is urged in the clockwise direction in the drawing, and the ejector 22 discharges the tongue plate 11 accordingly. It is biased in the direction (left direction in the figure). A stopper 29 is disposed above the tip 23 d of the latch member 23. The stopper 29 is rotatably supported on the base side wall. The stopper 29 has a recess 29a at the tip of the swing for receiving the lock bar 26 when latched.

  And the switch unit 30 as a buckle switch is distribute | arranged to the outer side of one base side wall 21b. In the case 30 a of the switch unit 30, a switch unit 33 is provided in which a reed switch 31 and a magnet 32 are arranged close to each other.

  As shown in FIGS. 5 and 6, the reed switch 31 includes a common COM terminal having a common COM contact, a NO terminal having a NO contact, and an NC terminal having an NC contact each having a ferromagnetic lead piece 51, 52, 53. And is a transfer type in which an inert gas is sealed in a glass tube 54. The transfer type reed switch 31 includes a state in which a lead piece 52 having an NC contact and a lead piece 51 having a common COM contact are in contact with each other to obtain an electrical connection when no external magnetic field is applied, and an external magnetic field. The lead piece 51 having a common COM contact is magnetically attracted to the lead piece 53 having the other NO contact so that the lead piece 52 having the NC contact is separated from the lead piece 52 having the NO contact. It switches to the state which contacts the piece 53 and obtains electrical contact. Further, the switch unit 30 is covered with a magnetic shielding plate 81 formed of a magnetic material, and in this embodiment, at least three surfaces of the case 30a are covered as shown in FIG.

  As shown in FIG. 5, each terminal of the reed switch 31 is processed into a shape suitable for mounting, and is mounted and supported and fixed to the substrate 70 with high positional accuracy by, for example, soldering. A conductive pattern 71 for electrical connection to each terminal of the reed switch 31 is formed on the substrate 70, and a harness connecting portion 72 is formed at the end of the conductive pattern 71. A harness 73 for guiding an electrical signal switched by the reed switch 31 to the outside of the switch unit 30 is connected to the harness connecting portion 72 by, for example, soldering. The substrate 70 is arranged at a predetermined position of the switch unit 30, and the periphery thereof is filled with, for example, a sealing resin 80 to fix the substrate 70 at a predetermined position in the switch unit 30.

  In the switch unit 30, as a magnetic field generating means, a magnet 32 and a magnet case 74 are disposed in a space below the space in which the substrate 70 in FIG. 5 is disposed. An opening 30b through which the leg portion 22b can enter and exit is provided. A biasing member 34 for biasing the magnet case 74 in one direction in the switch unit 30 is disposed in the lower space as described above, and constantly biases the magnet 32 toward the ejector 22 side. . The magnet case 74 holds the magnet 32, for example, so as to enclose the magnet 32, and the magnet 32 is positioned below the substantially same position in the moving direction as the contact position of the reed switch 31 in FIG.

  Further, as shown in FIG. 3, the magnet 32 is arranged at the same height as the ejector 22. In this state (non-latching state), there is a gap between the leg 22b of the ejector 22 and the magnet case 74. The reed switch 31 is arranged above the magnet 32 with a minute gap by a partition of the case 30a. Here, the magnet 32 has an N pole on the upper side (side facing the reed switch 31) and an S pole on the lower side.

Here, the operation of the buckle device of the present embodiment will be described.
When the tongue plate 11 is inserted from the state shown in FIG. 3 (non-latched state) and the contact portion 22a of the ejector 22 is moved rightward in the drawing by the tip of the tongue plate 11, the adjustment member 27 is The tip end of the coil spring 25 is swung in the counterclockwise direction in the drawing while the base end is moved rightward against the urging force of the coil spring 25. As a result, the tip of the adjustment member 27 acts to push down the lock bar 26, and the lock bar 26 acts to push down the tip 23 d side of the latch member 23. When the movement of the ejector 22 further proceeds and the latch hole 12 of the tongue plate 11 is positioned at the tip 23d of the latch member 23, the latch state shown in FIG.

  As shown in FIG. 4, in the latched state, the lock bar 26 is guided to the left end side in the figure of the lower horizontal portion of the guide hole 21c. The tip of the latch member 23 pushed down by the adjustment member 27 urged counterclockwise by the coil spring 25 at this time is inserted into the latch hole 12 of the tongue plate 11 and also into the base bottom wall 21a. It is also inserted into the formed locking hole 21d. The lock bar 26 is prevented from returning to the original position by the stopper 29. The distal end of the coil spring 25 is fitted on the spring receiving convex portion 27 a of the adjustment member 27.

  At this time, when the ejector 22 moves into the switch unit 30, the magnet case 74 is parallel to the terminal shaft of the reed switch 31 according to the amount of movement of the ejector 22 that resists the spring repulsive force of the biasing member 34. 5 moves to the right in FIG. And the magnet 32 is arrange | positioned in the position which remove | deviated from the contact center in the reed switch 31 to a longitudinal direction by the movement of the magnet case 74. FIG. As the magnet 32 moves from the unlatched state of FIG. 3 to the latched state of FIG. 4, magnetic attraction is provided between the lead piece 51 having the common COM contact and the lead piece 53 having the NO contact in the reed switch 31. Forces are applied and attracted to contact each other and make electrical connections.

  To release the latched state, the release button 28 shown in FIG. 2 is pushed rightward in the drawing, and the lock bar 26 received by the step portion 28c of the release button 28 is pushed back toward the original position. At this time, the magnet 32 is positioned again at the contact center position in the reed switch 31. Since there is no magnetic attraction between the lead piece 51 having the common COM contact and the lead piece 53 having the NO contact in the reed switch 31, the lead piece 51 having the common COM contact has the spring property of the lead piece 51. As a result, the lead piece 53 having the NO contact is separated from the lead piece 53 having the NC contact, and the lead piece 52 having the NC contact is brought into contact with the lead piece 53 to obtain an electrically connected state.

  FIG. 7 shows an outline of the circuit configuration in the buckle body 40 and electrical connection with the outside. A belt warning lamp 60 is connected to the lead piece 52 having the NC contact of the reed switch 31. An electromagnetic solenoid 61 of the winding force reduction mechanism described above is connected to the lead piece 53 having an NO contact. Power is supplied from the battery E to the belt warning lamp 60 and the electromagnetic solenoid 61 via the fuse F and the ignition switch IG.

  For example, when the occupant starts the automobile, the ignition switch IG is turned on. At this time, if the buckle device 10 is in a non-latching state, the belt warning lamp 60 is turned on. And if the buckle apparatus 10 will be in a latching state, the electromagnetic solenoid 61 will be excited and a winding force reduction mechanism will act | operate, and the force which webbing will clamp | tighten a passenger | crew will be reduced.

  An example of the signal waveform obtained at each terminal of the reed switch 31 by the movement of the magnet 32 described above is as shown in FIG. That is, since the lead piece 52 having the NC contact and the lead piece 51 having the common COM contact are electrically connected in the non-latching state, the potential difference between the lead pieces 51 and 52 is 0V. Since the lead piece 53 having one NO contact and the lead piece 51 having the common COM contact are electrically open, the potential difference between the two lead pieces 51 and 53 is equal to the applied voltage. On the other hand, when the latch state is entered, the common COM contact is switched from the NC contact to the NO contact. Therefore, a potential difference equal to the applied voltage is applied between the lead pieces 51 and 52 of the NC contact and the common COM contact. And the potential difference between the two lead pieces 51 and 53 of the common COM contact is 0V.

  As described above, according to the seat belt device 100 of the present embodiment, the reed switch 31 having an electrical contact sealed in the glass tube can be arranged in the switch unit 30 with high positional accuracy. Since the magnet 32 for turning on / off the reed switch 31 is moved in accordance with the movement of the ejector 22, not only the accuracy of the switching operation is high, but also the environment in the vehicle compartment where the seat belt device 100 is installed. However, there is no occurrence of contact failure caused by dust, dust, or liquid, and a highly reliable buckle device can be provided. In addition, the reed switch 31 conventionally does not need to be provided with a protective element used together with the Hall element in order to protect it from the influence of a disturbance magnetic field, and can achieve downsizing and low cost of the device.

  Further, since the magnetic shielding plate 81 covers the outer periphery of the switch unit 30 and adds a magnetic shielding effect, even if a disturbance magnetic field is generated around the seat belt device, the magnetic shielding plate 81 generates a disturbance magnetic field. Can be blocked. For this reason, the reed switch 31 in the switch unit 30 is not affected by the disturbance magnetic field, and a stable operation of the reed switch 31 can be obtained.

  Further, according to the seat belt device 100 of the present embodiment, the reed switch 31 is switched in accordance with the engagement / disengagement operation of the tongue plate 11 and the buckle body 20 and is applied to any of a plurality of loads outside the buckle device 10. Since the transfer type is used for energization, loads such as warning lamps and solenoid coils can be directly driven without using an additional device other than the switch unit 30, thereby reducing the size and cost of the device. Can be realized.

In addition, this invention is not limited to embodiment mentioned above, A suitable deformation | transformation, improvement, etc. are possible.
For example, the reed switch of the present invention is not limited to the transfer type, and a similar effect can be obtained by configuring a switch unit by combining a plurality of reed switches having a single contact.

  In the above embodiment, an example is shown in which the magnet is arranged to have the N pole on the upper side (side facing the reed switch) and the S pole on the lower side, but the present invention is not limited to this. You may arrange | position so that it may have a north-pole and a south pole of a magnet in parallel with an axial direction. Further, the buckle switch only needs to be arranged so that the magnet 32 is at the same height as the ejector 22, and as shown in FIG. 9, even if the reed switch 31 is arranged on the lower side, that is, on the base bottom wall 21a side. Alternatively, the reed switch 31 may be arranged so as to be lateral to the magnet 32 in the width direction.

  In the above embodiment, the magnet 32 is moved together with the magnet case 74 by bringing the ejector 22 into contact with the magnet case 74. However, the present invention is not limited to this. The same effect can be obtained by disposing it at a predetermined position.

It is a figure explaining the state which restrained the passenger | crew by the three-point type seatbelt apparatus which concerns on this invention embodiment. It is a schematic plan view of the buckle device of the present invention. It is a schematic sectional drawing in alignment with the III-III line in FIG. It is a figure explaining the action | operation of a buckle apparatus. It is a schematic sectional drawing of the buckle switch of a buckle apparatus. It is a schematic sectional drawing in alignment with the VI-VI line in FIG. It is a block diagram explaining the circuit structure of a buckle apparatus. It is a wave form diagram explaining the action | operation of a buckle switch. (A) is a schematic sectional drawing which shows the modification of a buckle switch, (b) is a schematic sectional drawing along the IX-IX line of (a). It is a graph explaining the action | operation of the conventional buckle apparatus.

Explanation of symbols

10 Buckle device 11 Tongue plate 20 Buckle body 21 Base 22 Ejector 23 Latch member 28 Release button 30 Switch unit 31 Reed switch 32 Magnet (magnetic field generating means)
33 Switch part 34 Biasing member 70 Substrate 71 Conductor pattern 72 Harness connection part 73 Harness 74 Magnet case 80 Sealing resin 81 Magnetic shielding plate

Claims (6)

In a seat belt device having a buckle device comprising a tongue plate and a buckle body for engaging and disengaging the tongue plate,
The buckle body is supported by the base so as to be movable between a base, a latch position and a non-latching position, and the tongue plate can latch the tongue plate, and the engagement state of the tongue plate and the buckle body And a buckle switch that detects
The buckle switch includes a switch unit having a reed switch, and a magnetic field generating unit that changes a relative position with the reed switch in accordance with an engagement / disengagement operation between the tongue plate and the buckle body. Seat belt device.   The seat belt device according to claim 1, wherein the switch unit includes a magnetic shielding plate formed of a magnetic material.   The seat belt device according to claim 1 or 2, wherein the magnetic field generating means comprises a magnet. In a seat belt device having a buckle device comprising a tongue plate and a buckle body for engaging and disengaging the tongue plate,
The buckle body is supported by the base so as to be movable between a base, a latch position and a non-latching position, and the tongue plate can latch the tongue plate, and the engagement state of the tongue plate and the buckle body And a buckle switch that detects
A switch unit comprising a transfer-type reed switch, wherein the buckle switch is switched in accordance with an engagement / disengagement operation between the tongue plate and the buckle body and energizes one of a plurality of loads outside the buckle device; A seat belt device comprising:   5. The switch unit according to claim 4, wherein the switch unit includes a reed switch, and a magnetic field generation unit that changes a relative position with the reed switch in accordance with an engagement / disengagement operation between the tongue plate and the buckle body. Seat belt device.   The buckle body includes an ejector that pushes out the tongue plate in a latched state, and the ejector is slidable between a first position when not latched and a second position when latched, and the buckle body 2. The relative position between the magnetic field generating means and the reed switch is changed by pressing and moving the magnetic field generating means when the tongue plate is inserted into the second position. The seat belt device according to any one of 3 and 5.

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