Window regulator

Abstract

Provided is a window regulator capable of improving the workability of the work of detaching a glass holder from a pallet. The window regulator is provided with: a glass holder (51); and a pallet on which the glass holder (51) is fixed, the pallet having: a holder housing portion (41) that contains a pair of front and rear standing wall portions (41a, 41b) and houses the glass holder (51); a holder engaging portion (42) that is formed in the standing wall portion (41a) on the front side and engages with the glass holder (51) housed in the holder housing portion, the engagement with the glass holder (51) being released in conjunction with the separation of the pair of standing wall portions; and a placement portion (43) that is formed in the standing wall portion on the front side, places a round bar-shaped detaching jig (T) that is swung upward to push up the glass holder (51) housed in the holder housing portion, and becomes a swing fulcrum of the detaching jig, the placement portion having an inclined surface (43a) that is inclined upward toward the separation direction of the pair of standing wall portions.

Description

Technical Field

[0001] This invention relates to vehicle window regulators. Background Technology

[0002] Conventionally, window regulators include those that mount a glass retainer by inserting the lower part of the glass retainer between the vertical walls of a base plate (see Patent Document 1). This window regulator includes: a base plate having two vertical walls and configured to move along a lifting direction; and a glass retainer fixed to the window glass and mounted on the base plate. In this window regulator, because the glass retainer is mounted on the base plate by inserting the lower part of the glass retainer between the two vertical walls of the base plate, the glass retainer can be easily mounted on the base plate. Existing technical documents Patent documents

[0003] [Patent Document 1] Japanese Patent Application Publication No. 2024-049412 Summary of the Invention The problem the invention aims to solve

[0004] However, in previous window regulators, when removing the glass retainer from the support plate, it was necessary to push and expand the vertical walls and pull up the glass retainer while keeping them in the same position. Therefore, the removal operation of removing the glass retainer from the support plate was cumbersome.

[0005] Therefore, the object of the present invention is to provide a window adjuster that improves the workability of removing the glass retainer from the support plate. Solution for solving the problem

[0006] To achieve the above objectives, the present invention provides a car window adjuster, characterized in that it comprises: a glass retainer for retaining window glass; a support plate for fixing the glass retainer; and a lifting mechanism for lifting the support plate, the support plate having: a retainer receiving portion comprising a pair of upright walls for receiving the glass retainer between the pair of upright walls; a retainer engaging portion formed in one of the upright walls for engaging with the glass retainer received in the retainer receiving portion, the engaging with the glass retainer being released as the pair of upright walls separate; and a mounting portion formed in one of the upright walls for mounting a rod-shaped disassembly clamp that swings upward to push up the glass retainer received in the retainer receiving portion, and serving as the swing fulcrum of the disassembly clamp, the mounting portion having an inclined surface that slopes upward toward the separation direction of the pair of upright walls. Invention Effects

[0007] The window adjuster of the present invention can improve the workability of removing the glass retainer from the support plate. Attached Figure Description

[0008] Figure 1 This is a schematic diagram showing an overall view of a window regulator and a vehicle door equipped with the window regulator, according to one embodiment of the present invention. Figure 2 This is a front view showing the window regulator. Figure 3 The diagram shows the glass retainer unit and the tray. (a) is the front view, (b) is the side view, and (c) is the rear view. Figure 4 The diagram shows the pallet, (a) is the front view, (b) is the side view, and (c) is the rear view. Figure 5 This schematically illustrates the glass retainer and the retainer fixing part. Figure 3 (a) AA' line cross section diagram. Figure 6 The diagram shows the glass retainer unit, (a) is the front view, (b) is the side view, and (c) is the rear view. Figure 7 (a) is a schematic top view of a glass retainer unit, and (b) is a schematic top view of a glass retainer unit holding a window glass. Figure 8 This is the first explanatory diagram showing the glass retainer removal process. Figure 9 This is the second explanatory diagram showing the glass retainer removal process. Explanation of reference numerals in the attached figures 1: Window adjuster; 12: Support plate; 13: Guide rail; 14: Upward side cable; 15: Downward side cable; 16: Drive unit; 41: Retainer receiving unit; 41a, 41b: Vertical wall part; 42: Retainer engaging part; 43: Mounting part; 43a: Inclined surface; 44: Cutout groove; 51: Glass retainer; 63: Engaging hole; G: Window glass. Detailed Implementation

[0009] Hereinafter, a window regulator according to one embodiment of the present invention will be described with reference to the accompanying drawings. This window regulator is a lifting device that is fitted inside a vehicle door (e.g., an automobile) and used to raise and lower the window glass of the vehicle door. In particular, this window regulator improves the operability of removing the glass retainer from the support plate by optimizing the shape of the retainer fixing portion of the support plate, allowing the glass retainer to be fitted into a retainer fixing structure via a snap-fit ​​mechanism. Hereinafter, the direction of raising and lowering the vehicle window glass will be simply referred to as the raising and lowering direction. Furthermore, hereafter, left-right, front-back, and up-down directions will be defined as shown in the figures. In this embodiment, the raising and lowering direction is assumed to be aligned with the up-down direction of the window regulator, and the vehicle width direction is aligned with the front-back direction of the window regulator. Additionally, the direction orthogonal to the raising and lowering direction and the vehicle width direction is defined as the left-right direction of the window regulator.

[0010] (The components of a car window regulator) like Figure 1 and Figure 2 As shown, the window regulator 1 is mounted on a vehicle door D and includes: a glass retainer unit 11 for holding the window glass G; a support plate 12 on which the glass retainer unit 11 is fixed; a guide rail 13 for supporting the support plate 12 so that it can slide freely in the lifting direction; an upward cable 14 and a downward cable 15 for pulling the support plate 12; a drive unit 16 located at the lower end of the guide rail 13 for driving the upward cable 14 and the downward cable 15; and a pulley 18 located at the upper end of the guide rail 13 via a pulley bracket 17 for changing the direction of the upward cable 14. That is, this window regulator 1 is a cable-driven window regulator that uses cables 14 and 15 to lift the support plate 12, and it is a lower-rail type window regulator where the drive unit 16 is located at the lower end of the guide rail 13. Furthermore, the guide rail 13, the rising side cable 14, the falling side cable 15, and the drive unit 16 are an example of a lifting mechanism that causes the pallet 12 to rise and fall.

[0011] The guide rail 13 is formed by bending a long, plate-shaped metal plate with a prescribed curvature toward the outside (front) of the carriage and extending in the lifting direction. Thus, the guide rail 13 supports the support plate 12 so that it can slide freely in the lifting direction.

[0012] One end of the ascending cable 14 is connected to the rotating drum 22 of the drive unit 16 (described later). The ascending cable 14 is released upward from the drive unit 16 and reaches the pulley 18. After the direction is reversed downward by the pulley 18, the other end is fitted onto the support plate 12. On the other hand, one end of the descending cable 15 is connected to the rotating drum 22 of the drive unit 16. The descending cable 15 is released upward from the drive unit 16, and the other end is fitted onto the support plate 12.

[0013] like Figure 2 As shown, the drive unit 16 includes: a motor 21; a rotating drum 22 driven by the motor 21 to rotate, thereby winding and unwinding the ascending side cable 14 and the descending side cable 15; a reducer (not shown) that transmits the rotation of the motor 21 to the rotating drum 22; a drum housing 23 that is fitted into the lower end of the guide rail 13, houses the rotating drum 22, and allows the rotating drum 22 to rotate freely; and a motor housing 24 that holds the motor 21. The motor housing 24 houses the reducer and is fixed to the drum housing 23 by covering the drum housing 23.

[0014] When motor 21 is driven in a forward direction, rotating drum 22 rotates forward, and simultaneously, the descending side cable 15 is released and the ascending side cable 14 is wound up. As a result, the support plate 12 is pulled upward in the lifting direction by the ascending side cable 14. Consequently, the glass retainer unit 11 and the window glass G mounted on the support plate 12 rise. Conversely, when motor 21 is driven in a reverse direction, rotating drum 22 reverses, and simultaneously, the ascending side cable 14 is released and the descending side cable 15 is wound up. Consequently, the support plate 12 is pulled downward in the lifting direction by the descending side cable 15. Consequently, the glass retainer unit 11 and the window glass G mounted on the support plate 12 descend. Thus, the support plate 12, the glass retainer unit 11, and the window glass G rise and fall along the guide rail 13 (the rising and falling action of the window glass G).

[0015] (The composition of the pallet) like Figure 3 and Figure 4 As shown, the tray 12 is made of resin (e.g., polyacetal) and has: a plate-shaped main body 31; two retainer fixing portions 32, 32 formed at the left and right ends of the main body 31; a rail sliding portion 33 formed at the center-right of the rear surface side of the main body 31; a descending side cable mounting portion 35 formed to the left of the rail sliding portion 33 in the main body 31; and an ascending side cable mounting portion 34 formed to the left of the descending side cable mounting portion 35 in the main body 31. In this embodiment, the glass retainer unit 11 is mounted on the tray 12 by fixing the two glass retainers 51, 51 of the glass retainer unit 11 to the two retainer fixing portions 32, 32, respectively.

[0016] The rail sliding part 33 slides on the right side plate of the guide rail 13. That is, by making the rail sliding part 33 slide on the right side plate, the support plate 12 is slidably supported on the guide rail 13.

[0017] The ascending side cable assembly 34 is fitted with one end of the ascending side cable 14. On the other hand, the descending side cable assembly 35 is fitted with one end of the descending side cable 15. That is, the support plate 12 is configured such that it is pulled upward in the lifting direction by the ascending side cable 14 via the ascending side cable assembly 34, and pulled downward in the lifting direction by the descending side cable 15 via the descending side cable assembly 35.

[0018] Each retainer fixing part 32, 32 has: a retainer receiving part 41, which includes a pair of front and rear upright walls 41a, 41b and a bottom wall 41c, which accommodate the fixed part 62 (described later) of each glass retainer 51 between the pair of upright walls 41a, 41b; a retainer engaging part 42, which is formed in the retainer receiving part 41 and engages with the fixed part 62 of each glass retainer 51 accommodated in the retainer receiving part 41; a placing part 43, which is formed on the front upright wall 41a and holds the top end of the cylindrical disassembly clamp T; and a notch 44, which is formed on the rear upright wall 41b. In this embodiment, the glass retainers 51, 51 are disassembled from the support plate 12 by swinging the cylindrical disassembly clamp T upward to push up each glass retainer 51, 51. Furthermore, as a cylindrical disassembly clamp T, it is envisioned that tools such as screwdrivers would be used.

[0019] The retainer receiving portion 41 has: a pair of upright wall portions 41a and 41b, which sandwich the fixed portion 62 of the glass retainer 51 from front to back; and a bottom wall portion 41c, which holds the fixed portion 62 of the glass retainer 51. The front upright wall portion 41a is configured to swing and deform in a forward tilting manner.

[0020] The retainer engaging portion 42 protrudes rearward from the front upright portion 41a and engages with the engaging hole 63 (described later) formed in the fixed portion 62 of the glass retainer 51 to lock the fixed portion 62 of the glass retainer 51. The lower end face of the retainer engaging portion 42 is formed into an arc shape that imitates the lower inner surface of the engaging hole 63.

[0021] Furthermore, the upper end face of the retainer engaging portion 42 is an inclined surface that slopes downwards towards the rear. Because the upper end face of the retainer engaging portion 42 is an inclined surface that slopes downwards towards the rear, and the front vertical wall portion 41a is configured to swing and deform forward, the fixed portion 62 of the glass retainer 51 is thus assembled to the retainer fixing portion 32 in a snap-fit ​​manner. Specifically, when the fixed portion 62 of the glass retainer 51 is continuously inserted into the retainer receiving portion 41 from above, the fixed portion 62 of the glass retainer 51 contacts the upper end face of the retainer engaging portion 42, and its inclined surface pushes the retainer engaging portion 42 forward. The retainer engaging portion 42 retracts forward by swinging the front vertical wall portion 41a forward. This allows the fixed portion 62 of the glass retainer 51 to enter the retainer receiving portion 41. Subsequently, as the fixed portion 62 of the glass holder 51 continues to enter the holder receiving portion 41, and the engaging hole 63 on the fixed portion 62 reaches the position of the holder engaging portion 42, the holder engaging portion 42 will enter into the engaging hole 63 and engage with the engaging hole 63, thereby fixing the fixed portion 62 of the glass holder 51 to the holder fixing portion 32. Thus, the configuration is such that simply by inserting the fixed portion 62 of the glass holder 51 from above into the holder receiving portion 41, the fixed portion 62 of the glass holder 51 will be fixed (tightened) to the holder fixing portion 32.

[0022] Furthermore, the retainer engaging portion 42 is configured such that its engagement with the engaging hole 63 is released as the vertical wall portion 41a swings forward (separating the pair of vertical wall portions 41a and 41b). Therefore, when removing the glass retainer 51 from the retainer fixing portion 32, the following configuration is used: after the retainer engaging portion 42 is released from the engaging hole 63 by swinging the vertical wall portion 41a forward, the glass retainer 51 is pushed up in this state to remove the glass retainer 51 from the retainer fixing portion 32.

[0023] The mounting portion 43 is formed at the upper end of the front upright portion 41a, and the top end of the rod-shaped disassembly clamp T is mounted thereon, forming the swing fulcrum of the disassembly clamp T when the glass holder 51 is pushed up. In this embodiment, as Figure 5 As shown, the glass retainer 51 is configured such that, with the middle part of the cylindrical disassembly clamp T abutting against the glass retainer 51, the disassembly clamp T swings around the mounting part 43 as the pivot point, thus pushing up the glass retainer 51 like a second type of lever.

[0024] In addition, such as Figure 4As shown, the mounting portion 43 has an inclined surface 43a that slopes upward toward the front (in the direction separating the pair of upright portions 41a and 41b). Therefore, it is configured such that when the rod-shaped disassembly clamp T is swung around the mounting portion 43 as a pivot point to push up the glass holder 51, a component force is generated by the inclined surface 43a that presses the front upright portion 41a forward, causing the front upright portion 41a to swing forward. Thus, by simply swinging the rod-shaped disassembly clamp T around the mounting portion 43 as a pivot point, the glass holder 51 can be pushed up in this state after the upright portion 41a has swung forward and the engagement between the holder engagement portion 42 and the engagement hole 63 has been released. This reduces the inconvenience of removing the glass holder 51 from the holder fixing portion 32.

[0025] The notch 44 is formed in the rear vertical wall portion 41b to prevent interference between the disassembly clamp T, which swings with the mounting portion 43 as a pivot point, and the rear vertical wall portion 41b. For example... Figure 5 As shown, depending on the positional relationship between the mounting portion 43 and the contact position of the disassembly clamp T on the fixed portion 62, the disassembly clamp T will swing upward from a downward angle. Therefore, it is preferable that the notch 44 extends from the upper end of the rear vertical wall portion 41b to a position lower than the contact position of the disassembly clamp T on the fixed portion 62 (the inner surface of the upper side of the engagement hole 63).

[0026] (Composition of the glass retainer unit) like Figure 3 and Figure 6 As shown, the glass retainer unit 11 is formed of resin (e.g., polybutylene terephthalate) and has: two glass retainers 51 on the left and right sides, which hold the lower end of the window glass G; and a connecting portion 52, which connects the two glass retainers 51. The two glass retainers 51 and the connecting portion 52 are integrally formed by injection molding.

[0027] Each glass retainer 51 integrally includes: a glass retaining part 61 that retains the lower end of the window glass G; and a fixed part 62 that extends downward from the lower end of the glass retaining part 61 and is fixed to the support plate 12.

[0028] The glass holding portion 61 is rectangular when viewed from the front and U-shaped when viewed from the side, and holds the lower end of the window glass G in a clamping manner. The lower end of the window glass G is fixed to the glass holding portion 61 by an adhesive or similar means while held in the glass holding portion 61. Furthermore, it is preferable to form a guiding slope on the inner edge of the upper end of the glass holding portion 61 to guide the window glass G into the glass holding portion 61.

[0029] The fixing part 62 is formed into a rectangular plate shape when viewed from the front, and a locking hole 63 with a circular opening is formed through it. The lower half of the locking hole 63 is the locking part for the retainer locking part 42 to engage with its lower inner surface, and the upper half of the locking hole 63 is the abutting part for the disassembly clamp T to abut against its upper inner surface. Therefore, when the glass retainer 51 is assembled to the retainer fixing part 32, the lower end face of the retainer locking part 42 engages with the lower inner surface of the locking hole 63. On the other hand, when the glass retainer 51 is removed from the retainer fixing part 32, the upper surface of the disassembly clamp T abuts against the upper inner surface of the locking hole 63 and pushes up the glass retainer 51. The positions of the mounting part 43 and the locking hole 63 are designed such that the disassembly clamp T, which is placed on the mounting part 43 with its top side attached, is in a positional relationship that allows it to pass through the locking hole 63. Furthermore, it is preferable that the separation distance (positional offset) between the mounting portion 43 in the vertical direction and the inner surface of the upper side of the engaging hole 63 is greater than or equal to the diameter of the disassembly clamp T.

[0030] The connecting portion 52 is a square rod-shaped part that extends horizontally from the left end of the right glass holder 51 to the right end of the left glass holder 51, connecting the left and right glass holders 51. Furthermore, the connecting portion 52 is a low-rigidity part overall and is configured to bend and deform in the front-back direction. Thus, as... Figure 7 As shown, the connecting portion 52 is configured to deform in accordance with the curvature of the window glass G along the vertical axis (the curvature of the lower end of the window glass G). Therefore, as shown in the figure, when each glass retainer 51 is fitted to the lower end of the window glass G, by deforming the connecting portion 52 in accordance with the curvature of the window glass G, the orientation of the glass retaining portion 61 of each glass retainer 51 can follow the curvature of the window glass G. In this embodiment, in order to make the connecting portion 52 rigid enough to deform in accordance with the curvature of the window glass G along the vertical axis, the rigidity (deformability) of the connecting portion 52 is adjusted by reducing the vertical dimension of the connecting portion 52 and recessing a groove extending in the horizontal direction on the rear surface side of the connecting portion 52.

[0031] Next, refer to Figure 8 and Figure 9 This section describes the glass holder removal operation, which involves removing the glass holder 51 from the tray 12. The glass holder removal operation is as follows: Figure 8 As shown in (a), the glass retainer 51 is lifted by pushing it up using the disassembly clamp T, while the retainer engagement part 42 is engaged with the engagement hole 63. In addition, although the figure is omitted, the glass retainer disassembly is performed by inserting the top side of the disassembly clamp T into the interior of the vehicle door D through the working hole in the door panel (inner panel).

[0032] like Figure 8 As shown in (b), during the glass holder removal operation, firstly, the removal clamp T is inserted into the engagement hole 63, and the top end of the removal clamp T is placed on the mounting portion 43. That is, after the top end of the removal clamp T passes through the notch 44 and through the engagement hole 63, the top end of the removal clamp T, which has passed through the engagement hole 63, is placed on the inclined surface 43a of the mounting portion 43.

[0033] After placing the top end of the disassembly clamp T onto the mounting portion 43, as follows: Figure 9 As shown, the glass holder 51 is pushed up by swinging the disassembly clamp T upwards with the mounting part 43 as the swing fulcrum. At this time, the force pushing up the glass holder 51 is borne by the mounting part 43, which serves as the swing fulcrum. Therefore, firstly, as... Figure 9 As shown in (a), the front vertical wall portion 41a is pushed forward and swings forward by the component force generated by the inclined surface 43a. This releases the engagement between the retainer engaging portion 42 and the engaging hole 63. Thereafter, as... Figure 9 As shown in (b), the contact position of the disassembly clamp T is transferred to the upper end face of the mounting portion 43, the front upright portion 41a stops swinging forward, and while the engagement between the retainer engaging portion 42 and the engaging hole 63 remains unengaged, the disassembly clamp T swings upward in a manner that pushes up the upper inner surface of the engaging hole 63. As a result, the glass retainer 51 is pushed up until the position of the lower inner surface of the engaging hole 63 exceeds the position of the retainer engaging portion 42, thus ending the glass retainer disassembly operation. By simultaneously performing this glass retainer disassembly operation on both the left and right glass retainers 51 and retainer engaging portions 42, in this state, the window glass G is held by hand and pulled upward, each glass retainer 51 is completely removed from its respective retainer fixing portion 32, and the glass retainer unit 11 is completely removed from the support plate 12.

[0034] (The role and effects of the implementation method) According to the configuration of the above embodiment, by providing a mounting portion 43 as the swing fulcrum of the disassembly clamp T and having an inclined surface 43a, the glass holder 51 can be pushed up by swinging the disassembly clamp T upwards using the mounting portion 43 as the swing fulcrum, thereby simultaneously releasing the engagement of the holder engagement portion 42 and pushing up the glass holder 51. This allows for easy disassembly of the glass holder 51 from the holder fixing portion 32 using a snap-fit ​​method, improving the workability of disassembling the glass holder 51 from the support plate 12.

[0035] Furthermore, the retainer fixing part 32, which uses a snap-fit ​​method, allows for easy assembly of the glass retainer 51 to the support plate 12.

[0036] Furthermore, by forming an engagement hole 63 in the fixed portion 62 of the glass holder 51 as an abutment portion for the disassembly clamp T to abut, the glass holder 51 can be pushed up approximately at the center of the fixed portion 62 using the disassembly clamp T. Therefore, when pushing up the glass holder 51, tilting of the glass holder 51 to the left or right can be prevented. As a result, the disassembly of the glass holder 51 can be performed more easily.

[0037] Furthermore, by using the upper half of the engagement hole 63 as the abutting part for the disassembly clamp T to abut, and the lower half of the engagement hole 63 as the engaging part for engaging with the retainer engagement part 42, it is not necessary to form two engagement holes 63 for the abutting part and the engaging part, thus making the glass retainer 51 a simple structure.

[0038] In addition, by providing a notch 44 in the rear vertical wall portion 41b, interference from the disassembly clamp T to the rear vertical wall portion 41b can be avoided when disassembling the glass holder 51.

[0039] (Regarding other implementation methods) The embodiments of the present invention have been described above, but these embodiments do not limit the invention as defined in the claims. Furthermore, it should be noted that not all combinations of the features described in the embodiments are essential for solving the problems of the invention. The present invention can be implemented with appropriate modifications without departing from its spirit.

[0040] For example, in the above embodiment, the engaging hole 63 is circular, but it is not limited to this. For example, the engaging hole 63 can also be roly-poly shaped, or it can be elongated (track hole shaped). In addition, for example, the engaging hole 63 can also be rectangular or inverted triangular.

[0041] In addition, in the above embodiment, the upper half of the engagement hole 63 is used as the abutting part for the disassembly clamp T to abut, and the lower half of the engagement hole 63 is used as the engaging part that engages with the retainer engagement part 42. However, it is also possible to form two engagement holes 63 for the abutting part and the engaging part.

[0042] Furthermore, in the above embodiment, the engagement hole 63 (opening) is formed in the fixed portion 62, and the upper inner surface of the engagement hole 63 serves as the abutment portion for the disassembly clamp T, but this is not limited to this. For example, it is also possible to provide a protrusion that protrudes to the left and right from the fixed portion 62 and use this protrusion as the abutment portion for the disassembly clamp T, or to form a groove that extends upward from the lower end of the fixed portion 62 and use the upper inner surface of this groove as the abutment portion. Further, it is also possible to use the lower end of the glass holding portion 61 as the abutment portion.

[0043] Furthermore, in the above embodiment, a configuration is used in which two glass retainers 51 are integrated and connected by the connecting portion 52, but a configuration in which the glass retainers 51 are not connected can also be used. That is, the present invention can be applied to a window regulator 1 having two glass retainers 51 integrated and connected by the connecting portion 52, or it can be applied to a window regulator 1 having glass retainers 51 that are not connected.

[0044] Furthermore, in the above embodiment, the present invention is applied to a lower end rail type window adjuster 1 in which the drive unit 16 is disposed at the lower end of the guide rail 13, but it is not limited thereto. For example, the present invention can also be applied to a banjo type window adjuster in which the drive unit 16 is disposed at the center of the vertical direction of the guide rail 13, and the present invention can also be applied to a window adjuster (delta type window adjuster, trackless window adjuster, etc.) in which the drive unit 16 is directly fixed to the door panel of the vehicle door D.

[0045] Furthermore, in the above embodiments, the present invention is applied to a cable-driven window regulator, but it is not limited thereto. For example, the present invention can also be applied to an arm-type window regulator.

Claims

1. A car window regulator, characterized in that, have: A glass retainer, which keeps window glass in place; A tray, on which the glass holder is fixed; and A lifting mechanism that raises and lowers the tray. The tray has: A retainer receiving portion comprising a pair of upright wall portions, wherein the glass retainer is received between the pair of upright wall portions; A retainer engagement portion is formed in one of the vertical wall portions and engages with the glass retainer housed in the retainer receiving portion. The engagement with the glass retainer is released as the pair of vertical wall portions separate. as well as A mounting section, formed in one of the vertical wall sections, mounts a rod-shaped disassembly clamp that swings upward to push up the glass holder housed in the holder receiving section, and serves as the swing fulcrum of the disassembly clamp. The mounting portion has an inclined surface that slopes upward toward the separation direction of the pair of upright wall portions.

2. The window adjuster according to claim 1, characterized in that, An opening is formed in the glass holder. The disassembly clamp abuts against the inner surface of the upper side of the opening.

3. The window adjuster according to claim 2, characterized in that, The retainer engaging portion engages with the lower inner surface of the opening.

4. The window adjuster according to any one of claims 1 to 3, characterized in that, The pallet also has: A cut is formed in another vertical wall portion to avoid interference between the disassembly clamp, which swings with the mounting portion as a pivot point, and the other vertical wall portion.

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