KR-102963146-B1 - Remote controller for sliding doors equipped with out-handle and direct-coupling structure for vehicles

Abstract

According to one aspect of the present disclosure, a remote controller for a sliding door may be provided, comprising: a handle lever having a grip portion formed on one side and an opposite side elastically supported and rotated in conjunction with the operation of an outside handle, wherein when the grip portion is pulled, the opposite side rotates, and a rotating surface formed perpendicular to the surface contacting the outside handle and to which a rotation axis is coupled; a link servo lever that shares the rotation axis with the handle lever and rotates in the same direction in conjunction with the rotation of the handle lever; a link lever that rotates in conjunction with the link servo lever and has a second rotating end portion formed on one side that is supported by a rotation axis and rotates when one side of the link servo lever is pressed; and a link lever rod coupled to one side of the link lever.

Inventors

• 조정훈

Assignees

• 대동도어 주식회사

Dates

Publication Date

20260511

Application Date

20240531

Claims (5)

1. A handle lever (200) having a grip portion (110) formed on one side and an elastically supported opposite side that rotates when the grip portion (110) is pulled, and a rotating surface (220) formed perpendicular to the surface contacting the outside handle (100) to which a rotation axis (221) is coupled; A link sub-lever (300) that shares the handle lever (200) and the rotation axis (221) and rotates in the same direction in conjunction with the rotation of the handle lever (200); A link lever (400) that rotates in conjunction with the above link sub-lever (300) and has a second rotating end (420) formed on one side that is supported by a rotation axis, and rotates when one side of the above link sub-lever (300) is pressed; A link lever rod (500) coupled to one side of the link lever (400); comprising The above handle lever (200) is A pressure surface (210) formed as a surface that is pressed by the rotational movement of the above outside handle (100); and A rotating surface (220) formed as a surface bent perpendicularly to the above-mentioned pressure surface (210) and having a rotation axis coupled to one side so as to rotate clockwise when the above-mentioned pressure surface (210) is pressured; comprising The above link sub-lever (300) is A remote controller for a sliding door having a second pressure end (320) formed with a protruding shape at the end and coupled so as to be linked to the rotation of the above-mentioned rotating surface (220).
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4. In claim 1 The above link lever (400) is A contact end (410) that contacts and is pressed with the second pressure end (320) above, thereby linking the link lever (400); A second rotating section (420) having a rotating shaft formed thereon and a torsion spring wound around the rotating shaft; A mounting end (430) on which the end of the torsion spring coupled to the second rotating end (420) is mounted; and A link lever clip (440) disposed at the end of the link lever (400) to which the link lever rod (500) is coupled; a remote controller for a sliding door formed therein.
5. In claim 4 The above link lever (400) is A remote controller for a sliding door in which the mounting end (430) and the contact end (410) are positioned on one side based on the second rotating end (420), and the link lever clip (440) is positioned on the opposite side.

Description

Remote controller for sliding doors equipped with out-handle and direct-coupling structure for vehicles The present invention relates to a remote controller for a sliding door equipped with a direct connection structure to a vehicle out handle. A sliding door installed on the side of a vehicle is a sliding door that opens or closes by sliding along the side of the vehicle body in the front-rear direction. Sliding doors allow for opening and closing even in narrow spaces and facilitate user entry and exit, making them suitable for van-type vehicles. Generally, a sliding door is equipped with an inner handle positioned inside the vehicle and an outer handle positioned outside the vehicle. Fig. 1 is a diagram showing the structure of an outer handle according to the prior art. Such a sliding door conventionally has an operating structure for an outer handle using a wire as shown in Fig. 1. Since this wire-type outer handle structure operates by utilizing the movement of a wire, sufficient space for the wire's movement is required, and because the wire needs to move to the point of operation, time for the wire's movement is required to implement the operation. Figure 1 is a diagram showing the structure of a remote controller for a sliding door according to the prior art. FIG. 2 is a schematic diagram showing the structure of a remote controller for a sliding door according to one embodiment of the present disclosure. FIG. 3 is a schematic perspective view of an outside handle according to one embodiment of the present disclosure. Figure 4 is a drawing showing the part connected to the handle lever shown in Figure 2. FIG. 5 is a schematic perspective view showing the structure of the part to which the link lever shown in FIG. 2 is joined. FIG. 6 is a drawing showing the operation of a sliding door out handle according to one embodiment of the present disclosure. Embodiments of the present invention will be described below with reference to the attached drawings. For convenience, detailed descriptions of components that obscure the technical essence of the present invention or are known will be omitted in the following description. The following embodiments are provided to more fully explain the invention to those skilled in the art to which the invention pertains. The following embodiments are provided to aid in understanding the invention, and the technical concept of the invention is not necessarily limited to the specific embodiments described below. The invention should be understood to broadly include various types of equivalents, substitutions, modifications, etc., that embody the technical concept described in the following embodiments. The terms used in the following embodiments are provided to more completely explain specific embodiments in the same context as above. Accordingly, the terms used in the following embodiments should not be interpreted to reduce, limit, or restrict the technical scope of the invention. In the following description, singular expressions may be interpreted to include the plural unless explicitly excluded by the context. Furthermore, in the following description, the expression "includes" means that the components, parts, actions, features, steps, numbers, etc. described in the description exist, and does not mean that the addition of one or more other components, parts, actions, features, steps, numbers, etc., is excluded. In the following description, terms such as "first," "second," etc., may be used to distinguish specific components from other components. However, the above terms are used solely for the purpose of distinguishing specific components from others for the sake of clarity in the explanation, and the technical concept of each component should not be interpreted restrictively by the above terms. FIG. 2 is a schematic diagram showing the structure of a remote controller for a sliding door according to one embodiment of the present disclosure. Referring to FIG. 2, a remote controller for a sliding door according to the present embodiment comprises: an outside handle (100) having a grip portion (110) formed on one side and an elastically supported opposite side that rotates when the grip portion (110) is pulled; a handle lever (200) that is linked to the operation of the outside handle (100) and has a rotating surface (220) formed perpendicular to the surface contacting the outside handle (100) to which a rotation axis (221) is coupled; a link sub-lever (300) that shares a rotation axis (221) with the handle lever (200) and rotates in the same direction in conjunction with the rotation of the handle lever (200); a link lever (400) that rotates by the rotation of the link sub-lever (300) and has one side supported by an elastic axis and rotates due to the pressure of the link sub-lever (300); and a link lever (400) coupled to one side of the link lever (400). It may include a link lever load (500). A remote controller for such a sliding door can quickly reach the d