JP4930258B2 - Sliding door device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress rattling of a sliding door during traveling of a vehicle while improving the strength of a hinge female and ensuring the shape accuracy thereof. <P>SOLUTION: The hinge female 30 of this sliding door device comprises an upper plate part 31, a vertical plate part 32 and a lower plate part 33 which are formed to be substantially U-shaped in side sectional view, and a hinge shaft 29 fitted through between the upper plate part 31 and the lower plate part 33. The lower plate part 33 is horizontally protruded relative to the upper plate part 31, rollers 41 and 42 are attached to the protruding tip of the lower plate part 33, an opening 33k for inserting a cord member is formed in the protruding part of the lower plate part 33, and a pulley is installed thereto. A reinforcing member 52 is fitted in a position distant from the vertical plate part 32 and also from the hinge shaft 29 between the upper plate part 31 and the lower plate part 33 to prevent the space between the upper plate part 31 and the lower plate part 33 from being narrowed. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  In the present invention, a hinge mail is fixed to an inner wall surface of the slide door, and the hinge mail is connected in a state of being horizontally rotatable with respect to the hinge mail. The present invention relates to a slide door device configured to roll along a center rail that extends to move the slide door back and forth to open and close the entrance.

A technique related to the sliding door device is described in Patent Document 1.
The slide door device of Patent Document 1 is configured to manually open and close the entrance / exit formed in the body by moving the slide door back and forth along the center rail of the body.
On the other hand, the slide door apparatus of the structure which opens and closes a slide door electrically is described in FIG. 8, FIG. In this slide door device, as shown in FIG. 9, a hinge mail 112 is fixed to the inner wall surface of the slide door 102, and the hinge mail 110 is connected to the hinge mail 112 so as to be horizontally rotatable. ing. A plurality of rollers 115 provided at the front end of the hinge mail 110 are fitted to the center rail 12 extending in the front-rear direction of the body B, and are configured to roll along the center rail 12.
As shown in FIG. 8, a drive mechanism 104 that is a drive source for opening the slide door 102 is attached to the slide door 102. The drive mechanism 104 is a mechanism that winds up a string-like member 103 (cable 103) whose front end is fixed at a predetermined position C1 (rear part) on the body B side. A middle part of the cable 103 is provided on the hinge mail 110. It is hung on the pulley 105. As a result, the slide door 102 moves in the opening direction (rearward direction) by winding the cable 103. In FIG. 9, the pulley 105 and the like are omitted.
A drive mechanism 107 that operates in the direction of closing the slide door 102 is attached to the lower side of the step 11 s of the entrance 11.
JP 2006-28999 A

According to the slide door device described above, the weight of the slide door 102 is applied to the base end portion of the hinge mail 110 via the hinge mail 112, and this weight is applied to the body B via the roller 115 at the tip of the hinge mail 110. This is a structure that is received by the center rail 12. For this reason, when the horizontal dimension from the front end (roller) to the base end (slide door 102) of the hinge mail 110 increases, the hinge mail 110 is easily deformed by the weight of the slide door 102.
In particular, when the pulley 105 is arranged on the hinge mail 110, the dimension from the base end portion to the tip end of the hinge mail 110 becomes large, and further, by forming an opening 110h for passing the cable 103, The strength of the hinge mail 110 has decreased. For this reason, the hinge mail 110 is further easily deformed, and the sliding door is rattled when the vehicle travels.

  The present invention has been made in order to solve the above-mentioned problems, and the problem to be solved by the present invention is to improve the strength while ensuring the accuracy of the shape of the hinge frame, and to slide the vehicle when traveling. It is to suppress the rattling of the door.

The above-described problems are solved by the inventions of the claims.
According to the first aspect of the present invention, a hinge mail is fixed to an inner wall surface of the slide door, and the hinge mail is connected in a state of being horizontally rotatable with respect to the hinge mail. By rolling along a center rail extending in the front-rear direction, the slide door moves back and forth to open and close the entrance, and the slide door has a tip fixed at a predetermined position on the body side. A drive mechanism for moving the sliding door to a predetermined position side by winding the string-like member is attached, and a pulley on which a middle part of the string-like member is hung is attached to the hinge frame. The hinge door is configured by an upper plate portion, a vertical plate portion, and a lower plate portion to have a substantially U-shaped side surface, and The hinge male is fitted between a lower part and a lower plate part, and the hinge shaft is passed through. The lower plate part of the hinge message extends in a horizontal direction with respect to the upper plate part. The roller is attached to the projecting tip of the lower plate portion, and an opening through which the string member is passed is formed in the projecting portion of the lower plate portion, and the pulley is installed. The upper plate portion and the lower plate portion between the upper plate portion and the lower plate portion are separated from the vertical plate portion and separated from the hinge shaft in the direction of the roller. A reinforcing member for preventing the interval with the lower plate portion from being narrowed is fitted.

According to the present invention, the weight of the slide door is added to the base end portion of the lower plate portion of the hinge plate via the hinge shaft and the hinge piece, and this weight is added to the center rail of the body via the roller at the tip of the lower plate portion. It is the composition received by. For this reason, the lower plate portion of the hinge message tends to be deformed so that the base end side (hinge shaft side) is lowered with respect to the distal end side (roller side) by the weight of the slide door. That is, the lower plate portion of the hinge mail tends to be deformed so that the distance between the base end portion of the lower plate portion and the upper plate portion is narrowed.
However, between the upper plate portion and the lower plate portion of the hinge frame, the upper plate portion and the lower plate portion are located at a position away from the vertical plate portion and at a position away from the hinge shaft in the roller direction. The reinforcement member which prevents that the space | interval is narrowed is inserted. For this reason, a deformation | transformation of a lower board part is suppressed by the said reinforcement member, and the intensity | strength of hinge mail improves. Thereby, the rattling of the sliding door at the time of vehicle travel can be suppressed.
Furthermore, since the reinforcing member is configured to be fitted between the upper plate portion and the lower plate portion, the forming accuracy of the hinge frame is not impaired as in the case of welding the reinforcing member.

According to the invention of claim 2, the reinforcing member is a cylindrical body whose upper end surface is in contact with the upper plate portion and whose lower end surface is in contact with the lower plate portion, and a central through hole of the cylindrical body is formed in the upper plate portion. It is a structure that is coaxially adjusted to the through hole and the through hole of the lower plate part, and the shaft-shaped member is passed through the central through hole of the cylindrical body, and the through hole of the upper plate part and the lower plate part, The cylindrical member is held by the hinge mail by preventing the shaft-like member from coming off.
As described above, since the cylindrical body is configured to prevent the space between the upper plate portion and the lower plate portion of the hinge frame from being narrowed, the structure is simple and the cost is not increased so much.

According to the invention of claim 3, the shaft-like member is formed with serrations in a portion that passes through the through hole of the upper plate portion or the through hole of the lower plate portion, and the serration of the shaft-like member passes through the through-hole. The protruding portion of the serration is configured to bite into the inner wall surface of the through hole by being passed through the hole.
Thus, since the protruding portion of the serration of the shaft-shaped member bites into the inner wall surface of the through-hole, no backlash occurs between the hinge frame and the shaft-shaped member.

  According to the present invention, it is possible to improve the strength while ensuring the shape accuracy of the hinge frame, and thus it is possible to suppress the rattling of the slide door during vehicle travel.

[Embodiment 1]
Hereinafter, the sliding door device according to the first embodiment of the present invention will be described with reference to FIGS. Here, FIG. 1 is an overall perspective view showing a hinge mail used in the sliding door device according to the present embodiment, FIG. 2 is a cross-sectional view taken along the line II-II in FIG. 1, and FIG. FIG. 4 is a plan view of the hinge mail. 5 to 7 are perspective views showing the relationship between the slide door, the center rail, and the hinge mail, and FIG. 8 is a schematic view showing the operation structure of the slide door device.
The front and rear shown in the figure represent the front and rear direction of the vehicle.

<About the outline of the sliding door device>
The slide door device is a device configured to open and close the slide door 15 electrically, and includes a hinge mail 20 fixed to the inner wall surface of the slide door 15 as shown in FIGS. A hinge mail 30 is connected to the hinge mail 20 so as to be horizontally rotatable. A hinge roller 30 is provided with a vertical roller 41 and a pair of horizontal rollers 42 at the tip, and the vertical roller 41 and the horizontal roller 42 are fitted to the center rail 12 extending in the front-rear direction of the body B. Thus, it is configured to roll along the center rail 12.
As shown in FIG. 8, a drive mechanism 104 that is a drive source for opening the slide door 15 is attached to the slide door 15. The drive mechanism 104 is a mechanism that winds up the cable 103 whose tip is fixed at a predetermined position C1 (rear part) on the body B side. A middle portion of the cable 103 is hung on a pulley 105 provided on the hinge frame 30. ing. As a result, the slide door 102 moves in the opening direction (rearward direction) by winding the cable 103. 5 to 7, the pulley 105 and the like are omitted.
A drive mechanism 107 that operates in a direction to close the sliding door 15 is attached to the lower side of the step 11 s of the entrance 11.
That is, the cable 103 corresponds to the string member of the present invention.

<About Hinge Himal 30>
As shown in FIG. 1 and the like, the hinge mail 30 is formed into a substantially U-shaped side surface by an upper plate portion 31, a vertical plate portion 32, and a lower plate portion 33, and the lower plate portion 33 is the upper plate portion 31. Is configured to project horizontally. As shown in FIGS. 1 and 4, the lower plate portion 33 includes a base end portion 33 m formed in a substantially triangular shape and a pulley support portion formed in a substantially square shape on the front end side of the base end portion 33 m. 33p. A shaft hole 33h through which the hinge shaft 29 is passed is formed at a corner of the base end portion 33m of the lower plate portion 33. Further, the vertical plate portion 32 is fixed in a wall shape at a portion corresponding to one side of the triangle at the base end portion 33 m of the lower plate portion 33, and the upper plate portion 31 is attached to the upper end of the vertical plate portion 32. The lower plate portion 33 is fixed in parallel with the base end portion 33m. As shown in FIG. 4, the upper plate portion 31 is configured so that the direction along the vertical plate portion 32 is long, and the first direction is one end side (base end side) of the upper plate portion 31 in the longitudinal direction. A second bearing portion 312 is formed on the bearing portion 311 and the other end side (tip side). And the 1st bearing part 311 of the upper board part 31 has projected from the position of the vertical board part 32 to the position which covers the corner | angular part of the lower board part 33, and the axis | shaft which the hinge axis | shaft 29 is passed through the 1st bearing part 311 A hole 311h is formed. Further, the second bearing portion 312 of the upper plate portion 31 projects from the position of the vertical plate portion 32 to the vicinity of the center of the base end portion 33 m of the lower plate portion 33.

As shown in FIGS. 2 and 3, a portion formed by the upper plate portion 31, the vertical plate portion 32, and the lower plate portion 33 of the hinge mail 30 has a substantially U-shaped side surface. An upper plate portion 21 and a lower plate portion 23 of a hinge body (not shown) formed in a letter shape are fitted. Then, as shown in FIGS. 2 and 3, a hinge shaft 29 is passed through the shaft hole 21 h of the upper plate portion 21 of the hinge mail 20 and the shaft hole 23 h of the lower plate portion 23. In FIG. 1, the hinge mail 20 is omitted.
In the hinge mail 20, a support plate 25 protrudes from the hinge body in three directions, the vertical direction and the horizontal direction, and these support plates 25 are bolted to the inner wall surface of the slide door 15. As a result, the hinge mail 20 is fixed to the inner wall surface of the slide door 15.
Further, around a hinge shaft 29 that connects the hinge mail 20 and the hinge mail 30, a coil spring 29 b that is biased to rotate the hinge mail 30 in the left direction in FIG. 4 relative to the hinge mail 20. Is installed.

A pulley support portion 33p of the lower plate portion 33 protruding in the horizontal direction with respect to the upper plate portion 31 of the hinge mail 30 is a portion to which a storage box (not shown) of the pulley 105 is attached. The pulley support portion 33p of the lower plate portion 33 is bent and formed in a substantially U shape when viewed from the side, as shown in FIGS. 3 and 6, and the cable 103 of the drive mechanism 104 is provided at the center of the pulley support portion 33p. An opening 33k to be passed is formed.
Further, as shown in FIG. 3 and the like, a vertical wall portion 33w is formed at the tip of the pulley support portion 33p of the lower plate portion 33, and protrudes horizontally forward on both sides in the width direction of the upper end of the vertical wall portion 33w. A protruding piece 33e is formed. The vertical roller 41 is mounted at the center in the width direction of the vertical wall portion 33w of the pulley support portion 33p, and the horizontal roller 42 is mounted on the protruding pieces 33e on both sides in the width direction. As shown in FIG. 7, the vertical roller 41 is configured to roll on the support surface 12 s of the center rail 12. A pair of horizontal rollers 42 are fitted in the guide grooves 12m of the center rail 12 so as to be able to roll.

<About the reinforcement mechanism 50 of the hinge mail 30>
As shown in FIGS. 1 to 3, a reinforcing mechanism 50 for the hinge email 30 is provided between the upper plate portion 31 and the lower plate portion 33 of the hinge email 30.
The reinforcing mechanism 50 includes a collar 52 that is an iron cylinder and a shaft-like member 54 that attaches the collar 52 to the hinge mail 30. The collar 52 is manufactured with a length dimension equal to the distance between the upper plate portion 31 and the lower plate portion 33 of the hinge mail 30, and is fitted between the upper plate portion 31 and the lower plate portion 33. In addition, the distance between the both 31 and 33 can be prevented from being narrowed.
As shown in FIG. 2, the shaft-shaped member 54 includes a shaft main body 54m, a head 54t provided at one end of the shaft main body 54m, and a crimping portion 54k provided at the other end of the shaft main body 54m. Has been. A serration 56 is formed in the vicinity of the head 54t in the shaft main body 54m. Here, the outer diameter size of the portion of the serration 56 in the shaft main body 54m is set to a larger value than the outer diameter size of the other portions.
A through hole 312x through which the shaft main body 54m of the shaft-shaped member 54 passes is formed in the upper plate portion 31 of the hinge mail 30 at the position of the second bearing portion 312. Further, a through hole 33 x is formed in the lower plate portion 33 of the hinge mail 30 at a position overlapping the through hole 312 x of the second bearing portion 312 in plan view.
For this reason, the reinforcement mechanism 50 can be attached to the hinge mail 30 by the following procedure.
First, the collar 52 is placed on the hinge frame 30 so that the central through hole 52h of the collar 52 is aligned with the through hole 312x of the second bearing portion 312 (upper plate portion 31) and the through hole 33x of the lower plate portion 33. It fits between the plate part 31 and the lower plate part 33. Next, the shaft main body 54 m of the shaft-shaped member 54 is passed from the through hole 33 x of the lower plate portion 33 to the central through hole 52 h of the collar 52 and the through hole 312 x of the upper plate portion 31. At this time, the protruding portion of the serration 56 of the shaft main body 54m bites into the inner wall surface of the through hole 33x of the lower plate portion 33, so that the shaft-like member 54 can be prevented from coming off. Next, the caulking portion 54k protruding from the through hole 312x of the upper plate portion 31 is caulked to complete the attachment of the reinforcing mechanism 50.

<Advantages of the sliding door device according to this embodiment>
According to the slide door device according to the present embodiment, the weight of the slide door 15 is added to the base end portion 33m of the lower plate portion 33 of the hinge mail 30 via the hinge shaft 29 and the hinge mail 20, and this weight is the lower plate portion. It is configured to be received by the center rail 12 of the body B via rollers 41 and 42 at the tip of 33. For this reason, the lower plate portion 33 of the hinge mail 30 tries to be deformed so that the base end side (hinge shaft 29 side) is lowered with respect to the distal end side (rollers 41 and 42 side) by the weight of the slide door 15. To do. That is, the lower plate portion 33 of the hinge mail 30 tends to be deformed so that the interval between the lower plate portion 22 and the upper plate portion 31 is narrowed.
However, between the upper plate portion 31 and the lower plate portion 33 of the hinge mail 30, the upper plate 31 is located at a position away from the vertical plate portion 32 and at a position away from the hinge shaft 29 in the direction of the rollers 41 and 42. A collar 52 that prevents a gap between the plate portion 31 and the lower plate portion 33 from being narrowed is fitted. For this reason, the deformation of the lower plate portion 33 is suppressed by the collar 52, and the strength of the hinge mail 30 is improved. That is, the collar 52 corresponds to the reinforcing member of the present invention.
Furthermore, since the collar 52 is configured to be fitted between the upper plate portion 31 and the lower plate portion 33, for example, the forming accuracy of the hinge mail 30 is not impaired as in the case of welding a reinforcing member or the like.
Further, since the collar 52 prevents the distance between the upper plate portion 31 and the lower plate portion 33 of the hinge mail 30 from being narrowed, the structure is simple and the cost is not increased so much.

<Example of change>
Here, the present invention is not limited to the above-described embodiment, and can be modified without departing from the gist of the present invention. For example, in the present embodiment, an example in which the cylindrical collar 52 is used has been described, but the outer shape of the collar 52 can be changed as appropriate.
Further, in the present embodiment, an example in which the size of the upper plate portion 31 of the hinge mail 30 is set to about half of the base end portion 33m of the lower plate portion 33 is shown, but the base end portion 33m of the lower plate portion 33 is shown. It is also possible to set the size to cover almost entirely.
Further, although an example in which one set of reinforcing mechanisms 50 is provided has been described, it is also possible to provide a plurality of sets of reinforcing mechanisms 50 by enlarging the upper plate portion 31.

It is a whole perspective view showing the hinge message used with the slide door device concerning Embodiment 1 of the present invention. It is II-II arrow sectional drawing of FIG. FIG. 3 is a view taken in the direction of arrow III in FIG. 1. It is a top view of Hinge Himal. It is a whole perspective view showing the relationship between a slide door, a center rail, and hinge mail. FIG. 6 is an enlarged view taken along arrow VI in FIG. 5. It is an VII arrow enlarged view of FIG. It is a schematic diagram showing the operation | movement structure of a slide door apparatus. It is a whole perspective view showing the relationship between a slide door, a center rail, and hinge mail.

Explanation of symbols

B ... Body 11 ... Entrance / exit 12 ... Center rail 15 ... Slide door 20 ... Hinge mail 29 ... Hinge shaft 30 ... Hinge mail 31 ··· Upper plate portion 32 ··· Vertical plate portion 33 ··· Lower plate portion 33k · · · Opening 41 · · · Vertical roller 42 · · · Horizontal roller 50 · · · Reinforcement mechanism 52 ... Color (reinforcing member)
54 ... Shaft-shaped member 52h ... Central through hole 56 ... Serration 103 ... Cable (string-like member)
105 ... pulley

Claims (3)

A hinge mail is fixed to the inner wall surface of the slide door, and the hinge mail is connected to the hinge mail in a state of being horizontally rotatable with respect to the hinge mail. The sliding door moves back and forth by rolling along, and opens and closes the entrance / exit, and the sliding door winds up a string-like member whose tip is fixed at a predetermined position on the body side A drive mechanism for moving the slide door to a predetermined position is attached, and the hinge door is configured to be equipped with a pulley on which a middle portion of the string-like member is hung. Because
The hinge mail is formed in a substantially U-shaped side surface by an upper plate portion, a vertical plate portion, and a lower plate portion, and the hinge mail is fitted between the upper plate portion and the lower plate portion of the hinge message. And the hinge shaft is passed through,
The lower plate portion of the hinge mail extends in a horizontal direction with respect to the upper plate portion, and the roller is attached to a protruding tip of the lower plate portion, and the protruding portion of the lower plate portion further includes the An opening through which the string-like member is passed is formed, and the pulley is mounted.
Between the upper plate portion and the lower plate portion of the hinge frame, the upper plate portion and the lower plate portion are located away from the vertical plate portion and away from the hinge shaft in the direction of the roller. A sliding door device, wherein a reinforcing member for preventing a gap between the plate portion and the plate portion from being narrowed is fitted. A sliding door device according to claim 1,
The reinforcing member is a cylindrical body whose upper end surface is in contact with the upper plate portion and whose lower end surface is in contact with the lower plate portion, and a central through hole of the cylindrical body is a through hole of the upper plate portion and the lower plate portion. Is configured to be coaxial with the through hole of
A shaft-shaped member is passed through the central through-hole of the cylindrical body and the through-holes of the upper plate portion and the lower plate portion, and the shaft-shaped member is prevented from coming off, so that the cylindrical body is A sliding door device that is held by mail. A sliding door device according to claim 2,
The shaft-shaped member is formed with serrations in a portion that passes through the through-hole of the upper plate portion or the through-hole of the lower plate portion, and the serration of the shaft-shaped member is passed through the through-hole. Thus, the sliding door device is configured so that the protruding portion of the serration bites into the inner wall surface of the through hole.

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