KR101467738B1 - Apparatus for installing galss run - Google Patents

Abstract

The present invention relates to an apparatus to fasten a glass run (R) into a door frame (F) by pressing the glass run while an upper insertion hole (1) and a lower insertion hole (2) of the glass run are temporarily combined with an upper bracket (F1) and a lower frame (f1) of the door frame (F); and the apparatus comprises: a body (10) located on the door frame (F); a needle roller (20) rotatably provided to the bottom of the body (10) to guide the body (10) to move along the door frame (F); an idle part (30) provided to the body (10) including an idle (31) which rotates, and closely coming into contact with the rear surface (F3) of the door frame (F); a motor (40) provided to the side of the body (10), opposite to the idle part (30), having the door frame (F) located therebetween, and rotating closely coming in contact with the glass run (R); a handle (50) extended downward from the body (10); and a switch (60) provided to the handle (50) used to operate the idle part (30).

Description

[0001] Apparatus for installing glazing run [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle glass run mounting apparatus for mounting a glass run on a door frame of a vehicle, and more particularly, to a vehicle glass run mounting apparatus for mounting a glass run on a door frame, ≪ / RTI >

The glass run is attached along the edge of the door frame of the vehicle and is in close contact with the door glass to prevent external noise, rain or snow from entering the room, and has a generally long band shape. In addition, the glass run minimizes the generation of operating frictional force with the door glass while increasing the adhesion with the door glass, thereby reducing the load of the driving unit driving the door glass.

Normally, in order to mount a glass run, an operator inserts a glass run into a groove or a fitting bracket formed in a door frame, and then applies a pressure of about 7 to 10 kg / cm ² to a glass run using a hand or a tool It is mounted on the door frame. A related art related to this is disclosed in U.S. Utility Model Publication No. 20-1998-052134 under the name of a roller for mounting a glass run of an automobile door.

However, since the vehicle usually has four door frames, it takes a lot of time to mount the glass run on all four door frames.

In addition, since a pressure of 7 to 10 kg / cm ² must be applied during the process of mounting the glass run, a large amount of force is applied to the wrist during the long mounting work, and the glass run can not be uniformly applied to the glass run during the long mounting work A case occurred. This deteriorated the mounting quality of the glass run.

It is an object of the present invention to provide a vehicle glass run mounting apparatus capable of applying a uniform pressure during mounting of a glass run on a door frame, do.

Another object of the present invention is to provide a glass-run mounting apparatus for a vehicle that can quickly mount a glass run on a door frame, thereby improving productivity.

In order to achieve the above object, the present invention provides a vehicle glass run mounting apparatus. The glass run R is pressed in the state that the upper end fitting groove 1 and the lower fitting groove 2 of the glass run are joined to the upper bracket F1 and the lower frame f1 of the door frame F, A body portion 10 for coupling to a door frame F and positioned on an upper side of the door frame F; A needle roller 20 rotatably installed on a bottom side of the body part 10 and guiding the body part 10 to move along the door frame F; An idle part 30 installed on the body part 10 and having an idle 31 which is rotated in close contact with a rear surface F3 of the door frame F; And a fastening rotary stage 41 provided on the body 10 opposite to the idle portion 30 with the door frame F interposed therebetween and rotated in a state of being in tight contact with the glass run R. [ (40); A handle 50 extending downward from the body portion 10; And a switch (60) installed on the handle (50) and operating the idle part (30) and the motor (40).

In the present invention, it further includes a hook 15 formed on the upper side of the body 10 and formed with a hook 16.

The idle portion 30 includes the idle portion 31 which is in close contact with the rear surface F3 of the door frame F and the idle supporting slider 34 which rotatably supports the idle portion 31 A guide rail 33 for slidably guiding the idle support slider 32 to the body 10 and a reciprocating support 34 for reciprocating the idle support slider 32 .

In the present invention, the idle 31 includes a guide end 31a projecting from the surface so as to guide the position of the rear face F3 of the door frame F.

The present invention further includes a plurality of friction grooves 41a formed on the surface of the close contact rotary stage 41 for generating frictional force with the glass run R.

According to the present invention, since the glass run (R) is mounted on the door frame by the rotating rotating contact end and the idle, uniform pressure can be applied to the glass run during the mounting process, thereby maintaining a uniform mounting quality .

Further, since the glass run mounting apparatus of the present invention moves along the door frame and mounts the glass run on the door frame F, it is possible to quickly mount the glass run, thereby improving the productivity.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view of a door frame on which a glass run is mounted by a mounting apparatus according to the present invention. Fig.
2 is a view for explaining a sectional structure of a glass run mounted on the door frame of FIG. 1,
Fig. 3 is a view for explaining a configuration of a vehicle glass run mounting apparatus for mounting the glass run shown in Fig. 1 on a door frame,
4 is a view for explaining the operation of the mounting apparatus of Fig. 1,
5 is a sectional view taken along the line VV 'in Fig. 3;

Hereinafter, a vehicle glass run mounting apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a door frame on which a glass run is mounted by the mounting apparatus according to the present invention, and FIG. 2 is a view for explaining a sectional structure of a glass run mounted on the door frame of FIG. Fig. 3 is a view for explaining a configuration of a vehicle glass run mounting apparatus for mounting the glass run shown in Fig. 1 on a door frame, and Fig. 4 is a view for explaining the operation of the mounting apparatus shown in Fig. And FIG. 5 is a cross-sectional view taken along line V-V 'of FIG.

1 and 2, a glass run mounting apparatus according to the present invention includes a glass run R mounted on a door frame F of a vehicle on which a door glass G to be elevated is installed, . The glass run R is mounted along the edge of the door frame F and is brought into close contact with the door glass G which is lifted and lowered after mounting so that external noise, rain and snow can be prevented from entering the room. In addition, the glass run R minimizes the generation of the operating friction force with the door glass G while increasing the adhesion with the door glass G, thereby reducing the load of the driving unit for driving the door glass G.

The door frame F on which the glass run R is mounted is composed of an upper bracket F1 formed along the upper end, a lower bracket F2 formed along the lower end, and a rear surface F3 protruding toward the opposite side of the upper and lower brackets .

As shown in FIG. 2, the glass run R as a whole has an upper fitting groove 1 which is engaged with the upper bracket F1 and a lower fitting groove 1 which is engaged with the lower bracket F2, (2), and a glass groove (3) in which the end portion of the door glass (G) is engaged with the outside of the door frame (F). A pressurizing rib 4 formed inside the upper fitting groove 1 to press the upper bracket F1; A plurality of glass ribs 5 which come into close contact with both sides and upper ends of a door glass G which is sandwiched by the glass groove 3 and an iron core 6 enclosing the upper fitting groove 1 and the like.

The glass run mounting apparatus of the present invention is a glass run mounting apparatus in which a glass run upper fitting groove 1 and a lower fitting groove 2 are joined to an upper bracket F1 and a lower frame f1 of a door frame F, The run R is pressed and completely engaged with the door frame F.

3, the glass run mounting apparatus includes a body portion 10 positioned on an upper side of a door frame F; A needle roller 20 rotatably installed on a bottom side of the body part 10 and guiding the body part 10 so as to move along the door frame F; An idle portion 30 provided on the body portion 10 and having an idle 31 which is rotated in close contact with a rear surface F3 of the door frame F; A motor 40 having an adhered rotary stage 41 provided on the opposite side body 10 of the idle portion 30 with the door frame F therebetween and rotated in a state of being in tight contact with the glass run R, ; A handle 50 extending downward from the body 10; And a switch (60) installed in the hand (50) and operating the idle part (30) and the motor (40).

A hook 15 formed with a hook 16 is provided on the upper side of the body 10 and the hook 16 is extended to a hoist (not shown) installed on the ceiling of the work site. At this time, a well-known spring balance (not shown) is installed on the hoist so that the operator can easily raise and lower the glass run mounting apparatus of the present invention.

The needle roller 20 is rotatably installed on the bottom side of the body part 10. The needle roller 20 is supported on the upper side of the door frame F and rotated so that the body part 10 moves along the curved door frame F Guide. At this time, since the needle valve 20 is rotated, the body portion 10 can move along the curved door frame F. [

The idle portion 30 includes an idle 31 which is in close contact with the rear face F3 of the door frame F, an idle supporting slider 32 which rotatably supports the idle 31, an idle supporting slider 32 And a reciprocating transfer unit 34 for reciprocating the idle supporting slider 32. The reciprocating transfer unit 34 reciprocates the reciprocating transfer unit 34 to reciprocate the idle supporting slider 32 in the horizontal direction.

The idler 31 is brought into close contact with the rear face F3 of the door frame F when the needle roller 20 is supported on the upper side of the door frame F. [ At this time, the idle 31 is formed with a guide end 31a projecting from the surface so as to guide the position of the rear face F3. The guide end 31a prevents the idle 31 from being detached from the rear surface F3 of the door frame so that the glass run mounting device can be safely transported without being detached from the door frame.

do. The idle supporting slider 32 is slidably supported by a guide rail 33 which is horizontally installed inside the body 10 while rotatably supporting the idle 31. [ That is, the idle supporting slider 32 supports the idler 31 rotatably in the vertical direction with respect to the body 10, and moves while sliding in the horizontal direction with respect to the body 10.

The reciprocating transfer portion 34 reciprocally feeds the idle supporting slider 32 to the close rotary end 41 side. The reciprocating transfer section 34 is a cylinder having a rod 34a that is projected and retracted, and can be embodied as an air cylinder operated by air or an electrically operated motor cylinder. In the present embodiment, the reciprocating transfer unit 34 is exemplified as an air cylinder, and the reciprocating transfer unit 34 is provided with a connector C1 for coupling an air hose (not shown) do.

The motor 40 is mounted on the body 10 opposite to the idle portion 30 and rotates a tightly closed rotary stage for pressing the glass run R toward the door frame F side. The motor 40 may be embodied as an air motor driven by air or an electric motor driven by electricity. In this embodiment, the motor 40 is an air motor, and the motor 40 is provided with a connector C2 for coupling an air hose (not shown) for supplying air.

A large number of friction grooves 41a for generating a frictional force with the glass run R are formed on the surface of the tightly rotating stage 41. [ Such frictional grooves 41a apply a large friction to the glass run R when the urging rotary end 41 rotates, thereby providing a driving force that allows the body portion 10 to move.

The handle 50 extends downward from the body 10 and is positioned on the window W side of the door frame F. [ Accordingly, the operator can move the body portion 10 by holding the handle exposed to the window side of the door frame with the hand.

The switch 60 is mounted on the handle 50 so that the operator operates the reciprocating transfer part 34 and / or the motor 40 of the idle part 30. [ At this time, the switch 60 is provided with connectors C3 and C4 for coupling an air hose (not shown) that is organically connected to the reciprocating transfer unit 34 and / or the motor 40. [ The switch 60 operates the reciprocating transfer portion 34 and the motor 40 by controlling the amount of supplied air or the direction of supply.

Next, the operation of the vehicle glass run mounting apparatus according to the present invention will be described.

The upper fitting groove 1 of the glass run R is joined to the upper bracket F1 of the door frame so as to attach the glass run R to the door frame F, Connect to bracket (F2).

Next, the operator operates the spring balance to lower the glass run mounting apparatus of the present invention to the door frame F side. At this time, the door frame F is positioned between the idle 31 and the close rotation end 41 as shown in FIG. 3, and the needle roller 20 is brought into close contact with the upper side of the door frame F.

The reciprocating transfer unit 34 is operated to move the idle supporting slider 32 to the motor 40 side by operating the button lever 61 of the switch 60 to move the idle supporting slider 32 between the idle 31 and the close rotary end 41 . 4, the idle 31 is brought into close contact with the rear face F3 of the door frame F, and the contact rotary stage 41 presses the glass run 40 toward the door frame F .

When the motor 40 is actuated by operating the button lever 61 of the switch 60, the close contact rotary stage 41 is rotated and the close rotary rotary stage 41 is rotated to the upper and lower brackets F1, The glass run R pasted to the flange F2 is completely placed on the upper portion and the brackets F1 and F2.

At this time, since the frictional grooves 41a are formed in the close contact rotary stage 41, frictional force with the glass run R is generated when the close contact rotary stage 41 is rotated. Accordingly, Like glass run R is continuously mounted on the door frame F while automatically moving the door frame F along the upper side.

As described above, according to the present invention, in the state in which the needle roller 20 supports the body 10 on the upper side of the door frame F, by the interlocking operation of the idle 31 and the close- The body portion 10 is moved while the glass run R is coupled to the door frame F. [

At this time, since the glass run R is mounted on the door frame F by the rotating rotary contact end 41 and the idle 31, uniform pressure can be applied to the glass run R during the mounting process, So that a uniform mounting quality can be maintained. At this time, the worker does not need to apply force to mount the glass run (R), so that it is possible to prevent the work load from getting on the wrist.

Further, since the glass run mounting apparatus of the present invention moves along the door frame F and mounts the glass run R on the door frame F, it is possible to quickly mount the glass run, thereby improving the productivity.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

F ... Door frame F1 ... Upper bracket
F2 ... lower bracket F3 ... rear face
R ... Glass run
10 ... body part 15 ... mop
16 ... ring 20 ... needle roller
30 ... Children Part 31 ... Children
31a ... guide end 32 ... idler support slider
33 ... guide rail 34 ... reciprocal transmission
40 ... motor 41 ... tightly rotating
41a ... Friction groove 50 ... Handle
60 ... switch 61 ... button lever

Claims (5)

The glass run R is pressed in the state that the upper end fitting groove 1 and the lower fitting groove 2 of the glass run are joined to the upper bracket F1 and the lower frame f1 of the door frame F, To the door frame F,
A body 10 positioned on the upper side of the door frame F;
A needle roller 20 rotatably installed on a bottom side of the body part 10 and guiding the body part 10 to move along the door frame F;
An idle part 30 installed on the body part 10 and having an idle 31 which is rotated in close contact with a rear surface F3 of the door frame F;
And a fastening rotary stage 41 provided on the body 10 opposite to the idle portion 30 with the door frame F interposed therebetween and rotated in a state of being in tight contact with the glass run R. [ (40); And
A handle 50 extending downward from the body 10; And
And a switch (60) installed on the handle (50) and operating the idle part (30) or the motor (40). The method according to claim 1,
(15) provided on the upper side of the body part (10) and having a ring (16) formed thereon. 2. The apparatus according to claim 1, wherein the idle portion (30)
An idle supporting slider 32 for rotatably supporting the idle 31 and an idle supporting slider 32 for supporting the idle supporting slider 32 on the rear surface F3 of the door frame F, A guide rail (33) slidably guiding the body part (10), and a reciprocating transfer part (34) for reciprocating the idle supporting slider (32). 4. The apparatus according to claim 3, wherein the idle (31)
And a guide end (31a) projecting from the surface so as to guide the position of the rear face (F3) of the door frame (F). The method according to claim 1,
Further comprising a plurality of friction grooves (41a) formed on a surface of the close contact rotary stage (41) for generating frictional force with the glass run (R).

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