WO2015004822A1 - Window regulator comprising wire tension increasing means - Google Patents

Abstract

The present invention addresses the problem of providing a window regulator for which wiring is easily performed on the window regulator and for which the wire tension is automatically increased when window glass is fixed to a carrier after the window regulator is installed on a door panel. When an anchor bolt (15a) that anchors window glass (13) to a carrier (4) is screwed in, a movable member (16) is moved toward the front along a first incline face on the carrier side, the distal end of a driving unit (32) of the member moves a bushing (43) that is inserted into an end of a wire (5a), and a spring (44) positioned between the bushing (43) and a wire end (11) is compressed, thereby increasing wire tension.

Description

Window regulator with wire tension enhancing means

The present invention relates to a wire drum type window regulator used for opening and closing a window glass in a vehicle window.

A wire drum type window regulator has a structure in which a window glass is supported by a glass support member (carrier) attached to the wire, and the wire is passed between a wire drum arranged inside the door panel and a wire guide. In general, the window glass is opened and closed by reciprocating the wire with a wire drum.

In such a window regulator, if the wire tension is not sufficient, vertical wobbling (judder) occurs in the window glass when moving up and down. In particular, the so-called railless type without a rail that guides the glass support member is configured as a regulator while assembling the member into the door panel. . In order to solve this problem, a technique is adopted in which the wire tension is adjusted after the wire is lightly routed.

One method is to arrange a spring in the wire path and adjust the tension of the wire by using the elasticity of the spring after lightly arranging the wire.
For example;
In Patent Document 1, the wire ends (52) of the wires (41, 42) on both sides are slidably attached to the housing (50) via springs (57), and a stopper is provided between the wire ends on both sides. The wire is slackened by compressing the coil spring to both sides through the means (101), and after the wiring, the stopper means (101) is removed to remove the slack of the wire, and tension is applied to the wire by the elasticity of the spring. The configuration is described.
In Patent Document 2, an intermediate guide body (41, 42) is arranged in a wire path in a state where a spring (43) is compressed, and tension is applied to the wire (w) in the axial direction of the wire (w). The structure which removes the looseness and elongation of this efficiently is described.

JP 2012-57425 A Japanese Patent No. 3155675

The technique of Patent Document 1 suppresses the elasticity of the spring by the stopper means (101), whereby the wire is routed in a slightly slackened state, and after the routing, the stopper means is removed and tension is applied to the wire by the spring. Although it is a technology, it does not provide a means for further enhancing the wire tension by the spring released from elasticity.

In the technique of Patent Document 2, the intermediate guide body (41, 42) arranged in the wire path is urged in the direction in which the interval is expanded by the spring (43), so that the wire (w) is efficiently loosened and stretched. The wire tension is still due to the spring released, and the tension cannot be increased.

The present invention relates to a wire drum type window regulator, which can be easily routed to a window regulator in a vehicle assembly factory, and when the window glass is fixed to a carrier after the installation, simultaneously with the operation of fixing the window glass. Another object of the present invention is to provide a window regulator provided with a wire tension increasing means capable of increasing the tension of a wire already routed.

A window regulator in which a wire is routed between an upper wire guide and a lower wire drum, and a window glass is supported by a carrier attached to the wire,
Wire tension enhancing means is provided in the window glass fixing device of the carrier.

The wire tension increasing means includes a movable member movable along an inclined surface provided on the carrier and a fixing bolt that moves the movable member along the inclined surface.
The movable member is provided with a drive surface that displaces the wire end engaged with the carrier in the leading end portion in the direction in which the wire tension increases.
The fixing bolt is tightened to pull the movable member toward the carrier and move the movable member along the inclined surface in a direction crossing the wire routing direction.
When the movable member is moved, the wire end is displaced in the tension increasing direction by the drive surface of the movable member.
The configuration in which the wire end is displaced in the direction of increasing the tension may be a configuration in which a bush inserted into the end of the wire and a spring interposed between the bush and the wire end are used.

When a window regulator is installed on a door panel at a vehicle assembly plant and the window glass is attached to the glass holding part of the window regulator with a fixing bolt, the wire tension is automatically increased as the fixing bolt is tightened. The For this reason, it is not necessary to perform the operation | work for strengthening wire tension after window glass attachment, and the process of the window regulator and window glass attachment operation | work with respect to a door panel can be decreased.

The figure which showed the railless window regulator schematically (viewing from the indoor side). The perspective view by the partial cross section which showed the state by which the wire tension was strengthened. The perspective view of a window glass support part. The perspective view which looked at the carrier from the indoor side. The perspective view which notched and showed a part of FIG. The perspective view which decomposed | disassembled and showed the main-body part and the drive part. The perspective view which showed the positional relationship of the main-body part and drive part in an initial state. The perspective view which showed the positional relationship of the main-body part and drive part in the completion state. The top view by the partial cross section which showed the state before the displacement of a movable member. The top view by the partial cross section which showed the state after the displacement of a movable member. The perspective view which showed the state after the displacement of a movable member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[1] Overall Configuration A window regulator 1 (FIG. 1, hereinafter referred to as a regulator 1) is mounted inside a door panel 2 of a vehicle (consisting of an inner panel 2a and an outer panel 2b and having a space between both panels). The regulator 1 includes a wire guide 3, a carrier 4 that holds glass, a wire 5, a base plate 6, a wire drum 7, and a driving device 8, which are assembled at a manufacturing factory and carried as an assembly to a vehicle mounting factory.

The wire guide 3 and the base plate 6 are members that are attached to a fixed position of the inner panel 2a, and are arranged inside the door panel 2 with a space in the vertical direction. The wire drum 7 and the driving device 8 are attached to the base plate 6, the carrier 4 has a window glass fixing device 9, and the window glass fixing device 9 has a wire tension increasing means 10.

Then, the wire 5 is routed between the wire guide 3 and the wire drum 7 in a railless manner to form a wire path.
The wire 5 includes a partial wire 5 a extending from the carrier 4 to the wire drum 7 and a partial wire 5 b winding the wire guide 3 from the carrier 4 to the wire drum 7.
One end of the wire 5a is attached to the carrier 4 by a wire end 11 (FIG. 1), and the other end is wound around the wire drum 7 and then fixed to the wire drum 7. One end of the wire 5 b is attached to the carrier 4 by a wire end 46, and the other end is fixed to the wire drum 7 after the wire guide 3 is rolled and wound around the wire drum 7. The winding directions of the partial wire 5a and the partial wire 5b around the wire drum 7 are opposite to each other. Therefore, when the wire drum 7 is driven to reciprocate, the partial wire 5a and the partial wire 5b are reciprocally moved against each other.

The carrier 4 has glass holding portions 12a and 12b on the outdoor side (FIG. 3). The window glass 13 is supported on the portions via the glass channels 14a and 14b, and the fixing bolts 15a and 15b are the carrier. From the 4th side, the glass channels 14a and 14b are screwed and fixed.
Here, when the partial wire 5a is pulled from the wire drum 7, the carrier 4 descends and the window opens, so the partial wire 5a is used as the descending wire 5a. Similarly, when the partial wire 5b is pulled, the carrier 4 rises. Since the window opens, the partial wire 5b is set as the rising wire 5b.

[2] Window Glass Fixing Device The window glass fixing device 9 is fixed to the fixing bolts 15a and 15b, the movable member 16, the inclined wall 17 of the carrier 4, the glass holding portion 12 and the lower side of the window glass 13. Fixing bolts 15a and 15b, which are formed of glass channels 14a and 14b and penetrate the carrier 4 from the inside with respect to the glass channels 14a and 14b of the window glass 13 supported by the glass holding portions 12a and 12b of the carrier 4, respectively. The window glass 13 is fixed to the carrier 4 by screwing.
At this time, one fixing bolt 15a brings the movable member 16 into contact with the inclined wall 17 of the carrier 4 in the inner and outer directions, and tightens the movable member 16 like a washer.

[2-1] Carrier Structure The carrier 4 is a synthetic resin molded product such as POM (FIG. 4). Bolt through holes 18a and 18b through which the fixing bolts 15a and 15b penetrate in both the front and rear directions. And has a locking portion 19a of the descending wire 5a and a locking portion 19b of the rising wire 5b at the center (FIG. 5). The locking portion 19a is formed with a wire passage 20a downward from here, and a portion where the wire passage 20a opens into the locking portion 19a is a funnel-shaped conical recess 21. A cylindrical space 22a is formed above the locking portion 19a. In the locking part 19b, a wire passage 20b is formed upward and a cylindrical space 22b is formed downward.

Then, a triangular space 23 is formed between the locking portion 19a and the bolt through hole 18a so as to deepen forward in the front-rear direction (FIG. 4), and the inner surface of the inclined wall 17 corresponding to the oblique side of the triangle is inclined on the carrier side. A surface (second inclined surface) 24 is used. The front wall 25 of the triangular space 23 has an insertion passage 26 that communicates with the locking portion 19a. In this embodiment, the insertion passage 26 is opened to the inside as shown in FIG. In addition, an initial position lance engagement hole 29 (29a, 29b) and an end position lance engagement hole 30 (30a, 30b) are formed in the same position on the upper wall 27 and the lower wall 28 of the triangular space 23, respectively. (FIG. 5).

[2-2] Structure of movable member The movable member 16 includes a main body portion 31 and a drive portion 32 (FIG. 6).
The main body 31 includes a movable member-side inclined surface (first inclined surface) 33 that is thickened forward on the outer surface side, the inner surface side is a flat surface, and has a long hole 34 that penetrates inward and outward.
Position holding lances 35a and 35b are formed on the front side of the upper surface and the lower surface of the main body 31 so as to protrude upward and downward at symmetrical positions. The lance is a component that sinks when pressed from above and below, and protrudes and returns when released from the press.

A deep groove 36 is formed in front of the main body 31 so as to penetrate from the front to the rear and inward and outward. Guide protrusions 37 are formed in the inner and outer directions on the inner surfaces of the deep grooves 36 facing each other.
The drive part 32 is a flat member that can be attached to the main body part 31 by inserting the rear part into the deep groove 36 from the inside and outside directions (FIGS. 7 and 8). Guide grooves 38 corresponding to the guide protrusions 37 are formed on the upper and lower surfaces of this portion. The deep groove 36 and the rear part of the drive unit 32 fitted to the deep groove 36 are dimensioned to fit together from the inside and outside directions.
The front part of the drive part 32 is a part protruding forward from the front surface of the main body part 31 when the drive part 32 is mounted on the main body part 31, and has the conical recess 21 and the scooping part 39 at the front end part.

The conical recess 21 is a portion that is formed in a funnel shape from the top to the bottom and communicates with the wire passage 20a at the lower end.
The scooping portion 39 extends from the line 40 (FIG. 6) in the inner / outer direction drawn on the upper surface of the drive unit 32 so as to be partially related to the conical recess 21 to the front edge of the front portion. In the plan view, the inclined surface that is lowered toward the front is narrowed toward the front side, and the side surface on the inside and outside is gradually sharpened. It has a provided structure. The scooping notch 41 is provided with a guide inclined surface 42 that decreases in width from the front end toward the lower end of the conical recess 21 as described above and decreases toward the center of the scooping notch 41 on both side walls.

A bush 43 and a spring 44 are inserted through the upper end (FIG. 2) of the descending wire 5a, and the wire end 11 is fixed to the tip. The lower part of the bush 43 is formed in a cone. The lower end is fixed to the wire drum 7 after being wound around the wire drum 7 as described above. A spring 45 is inserted into the upper end of the ascending wire 5a around which the wire guide 3 is wound and fixed to the carrier 4, and a wire end 46 is fixed to the tip.

[2-3] Attaching the movable member to the carrier The drive unit 32 is assembled to the main body 31 of the movable member 16. As shown in FIGS. 6 to 8, the assembly procedure is such that, in this embodiment, the drive unit 32 is fitted into the deep groove 36 of the main body 31 from the outside and integrated. Since the guide groove 38 of the drive unit 32 engages with the guide protrusion 37 of the main body 31, the carrier 4 does not fall off during handling.

The completed movable member 16 is fitted into the triangular space 23 of the carrier 4 with the first inclined surface 33 facing outward, and the position holding lances 35a and 35b are engaged with the initial position lance engagement holes 29a and 29b. A part of the first inclined surface 33 of the movable member 16 is in contact with the second inclined surface 24 of the inclined wall 17 of the carrier 4. The movable member 16 assembled to the carrier 4 is integrated with the position holding lances 35a and 35b and the initial position lance engaging holes 29a and 29b, and is disassembled during handling. There is nothing.
At this time, the drive part 32 of the movable member 16 is accommodated in the insertion path 26, and the lower surface of the front part, that is, the lower surface of the scooping part 39 is placed on the locking part 19a. And the front end of the drive part 32 is located before the conical recessed part 21 (FIG. 9).
In this state, the carrier 4 is combined with the wire guide 3, the wire 5, the base plate 6 and the like, and shipped as a regulator assembly to an assembly factory.

[3] Strengthening of wire tension In the vehicle assembly factory, the regulator 1 is attached to the door panel from the regulator assembly, the wire 5 is routed, and the window glass 13 is attached to the carrier 4 of the regulator 1.
At this time, in a state after the routing and before the window glass 13 is attached, the bush 43 is fitted into the conical recess 21 of the locking portion 19a at the upper end of the descending wire 5a with respect to the carrier 4, and the upper surface and the wire end 11 are The spring 44 is positioned between the wire end 46 and the locking portion 19b and the end of the rising wire 5b is positioned slightly compressed. The wired wire 5 is in a state where tension is applied by the springs 44 and 45 to such an extent that the wire 5 is not slack. For this reason, the wiring in the assembly factory is easy.

Next, the glass channels 14a and 14b on the lower side of the window glass 13 are supported by the glass holding portions 12a and 12b of the carrier 4, the fixing bolts 15a and 15b are penetrated from the inside, and the tips are screwed into the glass channels 14a and 14b. The fixing bolt 15a passes through the long hole 34 of the movable member 16 in the inner and outer directions and is screwed into the glass channel 14a.
As the fixing bolt 15a is screwed, the first inclined surface 33 of the movable member 16 comes into contact with the second inclined surface 24 of the inclined wall 17 of the carrier 4, and then the movable member 16 is moved by the tightening component force. Slide the two inclined surfaces 24 forward. Therefore, the tip of the scooping portion 39 of the movable member 16 moves to the bush 43 side and protrudes to the conical recess 21 of the locking portion 19a (FIG. 10). Then, the bush 43 fitted and locked is sandwiched in the scooping cutout 41 and further lifted upward by the upward guide inclined surface 42 (FIG. 11). The lifting amount is the thickness of the drive unit 32, and is about 4 mm in this embodiment. As a result, the spring 44 is compressed and the wire tension is increased.

After the movement, the movable member 16 has upper and lower surface position holding lances 35a and 35b that have escaped from the initial position lance engagement hole 29 on the carrier 4 side and engaged with the end position lance engagement hole 30. Maintained.
That is, the fixing bolt 15a, the movable member 16, the second inclined surface 24 and the bush 43 in the inclined wall 17 of the carrier 4 in the window glass fixing device 9 fix the window glass to the carrier as described above. At the same time, the wire tension enhancing means for simultaneously enhancing the wire tension is configured.

The above is an example.
In the embodiment, the wire tension increasing means is constituted by the fixing bolt 15a, the movable member 16, the second inclined surface 24 and the bush 43 in the inclined wall 17 of the carrier 4, but in the technical idea of the present invention, the wire tension The reinforcing means includes a movable member movable along an inclined surface provided on the carrier, and a fixing bolt for moving the movable member along the inclined surface, and a wire engaged with the carrier at the tip of the movable member 16 Provided with a drive surface that displaces the end in the direction in which the wire tension increases, tightening the fixing bolt pulls the movable member toward the carrier, and the movable member crosses the wire routing direction along the inclined surface. The wire end may be moved in the direction and the wire end is displaced in the tension increasing direction by the driving surface of the movable member.

Accordingly, the following configuration can be adopted.
A configuration in which the wire end 11 is directly displaced by the movable member 16 without using the bush 43.
The structure and specific form of the movable member 16 are not limited to the embodiments.
Although the movable member 16 has been described as consisting of the main body 31 and the drive unit 32, it may have an integral structure. In this case, the drive unit 32 needs to be configured to be able to move in the front-rear direction and the inner-outer direction with respect to the bush 43.

The scooping portion 39 of the drive unit 32 is a part that displaces the wire end 11, and can be said to be a drive surface of the drive unit 32. The drive surface may be any structure that can displace the wire end 11 upward when the drive unit 32 of the movable member 16 moves in a direction intersecting the wire 5a.
The amount of lifting the bush 43 is not limited to 4 mm. It can be adjusted by changing the thickness dimension of the drive unit 32.

In the embodiment, the wire tension increasing means is disposed on the descending wire 5a side, but the present invention can also be applied to the ascending wire 5b side by arranging the window glass fixing device 9 in the reverse direction. Moreover, although the insertion path 26 (FIG. 4) provided in the carrier 4 showed the structure open | released inside, what is necessary is just the shape which the drive part 32 can move.
The position holding lance that determines the initial position and the movement end position of the movable member 16 with respect to the carrier 4 may be a position holding bolt.

DESCRIPTION OF SYMBOLS 1 Window regulator 2 Door panel 2a Inner panel 2b Outer panel 3 Wire guide 4 Carrier 5 Wire 5a Falling wire 5b Lifting wire 6 Base plate 7 Wire drum 8 Driving device 9 Window glass fixing device 10 Wire tension reinforcement means 11 Wire ends 12, 12a, 12b Glass holding part 13 Window glass 14, 14a, 14b Glass channel 15, 15a, 15b Fixing bolt 16 Movable member 17 Inclined walls 18, 18a, 18b Bolt through holes 19, 19a, 19b Locking parts 20, 20a, 20b Wire passage 21 Conical recesses 22, 22a, 22b Cylindrical space 23 Triangular space 24 Carrier-side inclined surface (second inclined surface)
25 Front wall 26 Insertion passage 27 Upper wall 28 Lower walls 29, 29 a, 29 b Initial position lance engagement holes 30, 30 a, 30 b End position lance engagement holes 31 Body portion 32 Drive portion 33 Inclined surface on the movable member side (first Sloped surface)
34 Long hole 35 Position maintaining lance 36 Deep groove 37 Guide protrusion 38 Guide groove 39 Scooping portion 40 Inner / outer direction line 41 Scooping notch 42 Guide inclined surface 43 Bush 44 Spring (downward side)
45 Spring (ascending side)
46 Wire end (ascending side)

Claims (7)

1. A window regulator in which a wire is routed between an upper wire guide and a lower wire drum, and a window glass is supported by a carrier attached to the wire,
   Wire tension enhancing means is provided in the window glass fixing device of the carrier,
   The wire tension increasing means includes a movable member movable along an inclined surface provided on the carrier and a fixing bolt that moves the movable member along the inclined surface.
   The movable member is provided with a driving surface for displacing the wire end engaged with the carrier at the tip in a direction in which the tension of the wire increases,
   The fixing bolt, when tightened, pulls the movable member toward the carrier, moves the movable member in a direction crossing the wire routing direction along the inclined surface, and moves the wire end by the driving surface of the movable member. The window regulator provided with the wire tension reinforcement means characterized by displacing in the tension increase direction.
2. A bush is inserted into the end of the wire on the carrier side, and a spring is provided between the wire end and the wire to provide tension. The drive surface at the tip of the movable member displaces the bush toward the wire end, The window regulator provided with the wire tension enhancing means according to claim 1, wherein the wire end is displaced in the direction of increasing tension through the wire end.
3. The window regulator provided with the wire tension enhancing means according to claim 1 or 2, wherein the movable member includes a main body portion and a driving portion, and has a driving surface at a tip of the driving portion.
4. 4. The window regulator provided with wire tension increasing means according to claim 3, wherein the drive part of the movable member is slidable inward and outward with respect to the main body part.
5. The window having wire tension increasing means according to any one of claims 1 to 4, wherein the drive surface of the movable member is a scooping surface that displaces the wire end in a direction in which the wire tension increases. regulator.
6. 6. The movable member according to claim 1, further comprising a position holding lance that determines an initial position of movement with respect to the carrier and a movement end position moved from the initial position. Window regulator with wire tension enhancing means.
7. 6. The movable member according to claim 1, further comprising a position holding bolt that determines an initial position of movement with respect to the carrier and a movement end position moved from the initial position. Window regulator with wire tension enhancing means.

Images