KR830000364Y1 - Pivoting device - Google Patents

Abstract

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Description

Pivoting device

1 is a front view of a rotating window using a pivot device.

2 is an enlarged perspective view of the pivoting device.

3 is a partially broken front view of the pivoting device shown in FIG.

4 is a left side view of the pivoting device shown in FIG.

FIG. 5 is a bottom view of the pivoting device shown in FIG. 3 showing the sliding base before adjustment.

6 is a view similar to FIG. 5 showing the sliding base after adjustment.

7 is an enlarged exploded perspective view of another pivoting device.

8 is a partially broken front view of the pivoting device shown in FIG.

9 is a left side view of the pivoting device shown in FIG.

10 is a plan view of the pivoting device of FIG.

11 is an enlarged cross-sectional view of a portion of the rotating window showing how to mount the window chassis to the window frame.

12 is a sectional view of main parts of the modified pivot apparatus.

13 is a cross-sectional view of main parts of another modified pivot apparatus.

This design relates to the pivoting device of the rotating window.

In general, in the case of attaching the rotating window, the axis position does not match each other, or the window chassis is distorted by the window frame (window frame), and the like does not fit well. In such cases, proper adjustment of the window chassis may require a great deal of effort or in some cases may not be possible. Moreover, combining the window chassis to pivot on the window frame was annoying and time consuming. This invention is to solve all the above problems is to provide a pivoting device on the top to facilitate the operation when mounting the rotating window.

The pivoting device consists of a stationary base that is easily fixed to the window frame, and a slide bade that is slid on the stationary base to pivotally engage the edge of the window chassis to pivot and move well against the window frame. . The threaded element extends through one of the bases in the longitudinal direction of the window frame and is connected to the other base, and there is an axially rotatable threaded element which, when turned, slides the sliding base in the longitudinal direction of the window frame relative to the fixed base. Let it move

It is an object of the present invention to provide a pivoting device of a revolving window which can be repositioned to properly mount a window chassis.

Yet another object is to provide a pivoting device for the rotating window so that the window chassis can be easily mounted to the window frame.

The principle of the present invention is particularly useful when a pair of pivoting devices are implemented as shown by the numbers 14 and 15 in FIG. Pivot device 14, 15 is inserted into vertically pivoted window assembly 16, which is comprised of window frame 17 and window chassis 18 which can pivot in the window frame. The window frame 17 is composed of a top frame 19, a bottom frame 20, and a pair of side jams 21 and 22 having end portions fixed to the top frame and the bottom frame, and the window frame 17 is an opening of the building ( (Not shown). The window chassis 18 consists of a panel 23 made of glass or other suitable material, a chassis 24 around the panel, the chassis 24 being perpendicular to a pair of top and bottom horizontal members 25 and 26. The members 27 and 28 are connected to each other at their ends. The pivot device 14 is between the upper frame 19 of the window frame 17 and the upper horizontal member 25 of the chassis 24, and the pivot device 15 is the underframe 20 of the window frame 17 and the chassis ( Between the lower horizontal members 26 of 24. The pivoting devices 14, 15 are vertically aligned to be away from the centerline of the window assembly 16, closer to the side jambs 22.

2 to 4 show a structure suitable for use as the upper pivot device 14 of FIG. The pivot structure consists of an elongated fixed base 29 fixed to the upper frame 19 by a pair of screws 30 and 30, and has a reinforcement plate 31 supporting the upper frame 19. The fixed base 29 protrudes downward in the longitudinal side flanges 32 and 33 and a sliding base 34 is slidably mounted on the fixed base 29 between the two flanges. The sliding base 34 is located on the fixed base 29 away from the upper frame 19. Attached to the fixed base 29 by a pair of screws 35, 36, the pair of screws 35, 36 extend loosely through the pair of slots 37, 38 in the sliding base. 29, the slots 37 and 38 are elongated in the longitudinal direction of the sliding base 34. As shown in FIG. The pair of washers 39, 40 are respectively between the head of the screw 35 and the shoulder 41 around the slot 37 and between the head of the screw 36 and the shoulder 42 around the slot 38, respectively. Is inserted. When the screws 35 and 36 are loosened, the sliding base 34 can move in the longitudinal direction, and the range of movement is determined by the length of the slot 37.

The screws 30 and 30 are inserted into the fixed base 29 through the grooves 43 and 43 of the sliding base 34. The pivot structure also has a pivot shaft 44 protruding upward from the upper horizontal member 25 toward the upper frame 19. There is a long concave surface 45 on one side of the sliding base 34 so that the sliding base 34 extends in the movable longitudinal direction. The sliding base 34 has a semi-circular or U-shaped groove 46 to form an opening toward the curved wall 47 and the long concave surface 45. Groove 46 is a groove connected to pivot axis 44. The fixed base 29 has a block 48 whose end face 49 is flush with the bottom 50 of the sliding base 34. The block 48 has a vertical planar surface 51 (FIGS. 5 and 6) located in the concave surface 45 and located proximate to the side defining the boundary of the concave surface 45. As shown in FIG.

As shown in Figs. 2 and 3, the vertical surface 52 extends downward from one end of the fixed base 29 and is located in the movement path of the sliding base 34. As shown in Figs. The threaded component, ie, the screw 53, extends through the end wall 52 at an angle with the sliding base 34 and connected with the screw. The screw 53 and the sliding base 34 are connected to each other so that the sliding base 34 moves in the longitudinal direction by rotating the screw 53 about the axis. In order to make this connection effective, the screw 53 is made with a pair of circular flanges 54 and 54 at a distance from each other and a small diameter rod 55 of the screw 53 between the flanges. Is stretched. A pair of arms 56, 56 abuts on either side of the rod 55, which projects vertically from the inclined surface 57 of the sliding base 34.

Turning the screw 53 around the axis causes the flanges 54 and 54 to move axially with the screw 53, so that the arms 56 and 56 engage with one of the flanges 54 and are forced to move. The inclined surface 57 is substantially parallel to the axis of the screw 53. The fixed base 29 has a cavity 58 disposed adjacent the end wall 52 so that the flanges 54 and 54 on the screw 53 and the arms 56 and 56 on the sliding base 34 are provided. ) Is designed to move. The opposite ends of the flanges 54 and 54 of the screw 53 have a slot 59 so that they can be turned with a screw-drirer. Since the screw 53 is inclined, it requires relatively little force to rotate manually. This is because the handle of the screwdriver is far from the upper frame 19 of the window frame 17 when turned by hand.

When the sliding base 34 is in the same position as FIG. 5, that is, when the left ends of the slots 37 and 38 are respectively attached to the screws 35 and 36, the semicircular groove 46 is separated from the block 48. The groove 46 is open toward the concave surface 45. As shown in FIG. 6, when the screw 53 is turned so that the sliding base 34 moves to the left side and the right end of the slot 37 contacts the screw 35, the semicircular groove 46 is formed by the block 48. The flat surface 51 of the block 48 blocks the semicircular groove 46. Thus, the flat surface 51 of the block 48 and the wall 47 of the groove serve as bearings of the pivot shaft 44 attached on the upper horizontal member 25 of the window chassis 18 (FIG. 5, 6).

The lower pivot device 15 of FIG. 1 is shown in FIGS. 7 to 10 and is a long fixed base fixed to the base 20 (not shown in FIG. 7) by a pair of screws 61 and 61. There is a 60 and the base 20 is reinforced with a reinforcement plate 62. A sliding base 63 is disposed on the surface of the fixed base 60 away from the base 20, and the sliding base 63 is attached to the fixed base 60 by a pair of washers with screws 64 and 64. The screws 64 are each screwed to the fixed base via a pair of holes or slots 65 and 65 in the sliding base 63. The slots 65 and 65 are dug in the longitudinal direction of the sliding base 63. When the screws 64 and 64 are loosened, the sliding base 63 can move by the length of the slots 65 and 65 in the longitudinal direction. The sliding base 63 has a pair of side flanges 66 and 66 protruding downward so that both sides of the sliding base 63 come into contact with each other and move in the longitudinal direction of the sliding base 63 on the fixed base 60. Guide the direction of operation. The pivot axis 67 extends from the sliding base 63 to the opposite side of the fixed base 60 and has a ball 68 at the end thereof. The support plate 69 fixed to the underframe member 26 (not shown in FIG. 7) of the window chassis 18 has a socket located in the opening 71 (see FIG. 8) in the underframe member 26. There is a socket (70) and the socket (70) is open downward toward the sliding base (63). The pivot shaft 67 is pivotally received into the socket 70 as shown in FIG. The lower frame member 26 is reinforced with a reinforcement plate 72. The threaded component, or screw 73, extends to the vertical end wall 74 of the fixed base, with a pair of circular flanges 75 and 75 at a distance between one end and a sliding base between them. A pair of arms 76 and 76 protruding from 63 are arranged, and the arms 76 and 76 are located on both sides of the small diameter portion 77 of the screw 73, and the screw 73 is a flange 75. 75). The screw 73 is inclined with respect to the front plane of the fixing base 60 so that the slotted end of the screw 73 is raised upward. Adjacent to the end wall 74, the fixed base 60 has a cavity 79 to receive the twin flanged ends of the screws 73.

The underlay 20 of the window frame also has an opening 80 (see FIG. 8) at the cavity 79 position in the fixed base 60 so that the flanges 75 and 75 of the screw 73 can enter. The sliding base 63 may move in the longitudinal direction by turning the screw 73 between the movement limits determined by the length of the slots 65 and 65. Therefore, the pivot shaft 67 can adjust the position in the longitudinal direction of the fixed base 60, as a result it is possible to adjust the longitudinal position of the base frame 20 of the window frame. In the assembly method, first, the fixing bases 29 and 60 of the upper and lower pivoting devices are screwed so that they are mutually aligned with the upper frame 19 and the lower frame 20 of the window frame 17, respectively. Then, the sliding bases 34 and 63 are mounted to the fixed bases 29 and 60 with screws 35, 36, 64 and 64, which slide in the longitudinal direction with respect to the fixed bases 29 and 60. Tighten the screws loosely to allow the base (34) (63) to move. At this time, the screw 53 in the fixing base 29 of the upper pivot device should be removed so that the U-shaped groove 46 in the sliding base 34 is in the position as shown in FIG. That is, the block 48 of the fixed base 29 should not be matched with the groove 46. The adjusting screw 73 in the fixed base 60 of the lower pivoting device is turned in a desired direction so that the sliding base 63 moves in the longitudinal direction and the pivot shaft 67 moves to a predetermined position. After adjusting the pivot axis 67, tighten the screws 64, 64 to secure the sliding base 63 with respect to the fixed base 60. The window chassis 18 is mounted to the window frame 17 as follows. First align the socket 70 of the lower window chassis 26 over the pivot axis 67 of the lower pivot device, and then move the pivot axis 44 on the upper chassis 25 upwards to Next to the concave surface 45 of the sliding base 34 and beyond the semicircular groove 46 as shown in FIG. 11, the window chassis 18 is moved to come out from the window frame 17 and screwed out. (53) in a rotatable position, and turn the screw (53) so that the sliding base (34) is pushed away from the end wall (52) on the fixed base (29) in which the pivot shaft (44) enters ( 46 is aligned with block 48 and blocked. Thus, pivot axis 44 is received in groove 46. The pivot axis 44 can adjust its position to such an extent that the block 48 does not fall out of the groove 46 as long as the block 48 holds the pivot axis 44 in the groove 46. Finally, the sliding base 34 is fixed to the fixing base 29 by tightening the screws 35 and 36.

Draft 12 shows a modified pivot device that can be used as the upper pivot device 14 or the lower pivot device 15. In the modified pivot device, a pair of arms 81 (only one is shown in the drawing) protruding from the fixed base 82 fixed to the window frame 83 has a pair of circular flanges 84 and 84 with a sliding base 87 Screw grooves are attached to one end of the adjusting screw 85 that extends out of the hollow end wall 86. The sliding base 87 can move relative to the fixed base 82 and the arm 81 is located between the flanges 84 and 84 and does not move axially when the screw 85 is rotated about the axis. Do not When the screw 85 is moved in the axial direction, this causes the sliding base 87 to move in the longitudinal direction relative to the fixed base 82.

Since each pivot device has only one adjusting screw 53, 73, 85 at one end, the pivot device can be mounted at a position off the center line as shown in FIG. 1. Since there is no adjusting screw on the opposite side of the pivoting device, it can be attached close to the side jams 21 and 22 of the window frame 17.

The modified pivot apparatus 88 shown in FIG. 13 has adjusting screws 89 and 89 at both ends thereof. The sliding base 90 is moved in the longitudinal direction relative to the fixed base 91 by simultaneously rotating the adjusting screws 89 and 89 at both ends in the opposite direction. The crystal pivot device 88 should be mounted in the middle of the upper frame 19 or the lower frame 20 of the window frame so that there is space to turn the adjusting screws 89 and 89.

Claims (1)

Fixed bases (29, 60, 82, 91) adapted to be secured to the window frame and sliding bases (34, 63, 87, 90) mounted so as to slide on the fixed bases for pivotal engagement at the edge of the window chassis Screw grooves 53, 73, 85, 89 which are threaded to be movable in the longitudinal direction of the window frame through one of the elements, and when the element is turned, the sliding base is relative to the fixed base in the longitudinal direction of the window frame. Means 54, 56, 75, 76, 81, 84 for connecting the element to the other base while allowing the element to rotate about its axis so as to be movable in For use between a window sash and a window chassis that can be moved and rotated relative to the window frame, including means for securing and securing the sliding base to the fixed base (35, 36, 37, 38, 64, 65) Pivoting device.