KR101912724B1 - A variable pivot for door - Google Patents

Abstract

The present invention relates to a variable pivot for a door, preventing the flow of the door by allowing the pressure applied to the door to be adjusted. According to the present invention, the variable pivot for a door comprises: a casing (100) having an appearance; a guide (200) coupled to the casing (100) and flowing in the vertical direction; a pressuring means (300) embedded in the casing (100) and applying power in one direction of the guide (200); and a cap (400) detachably attached to the upper end of the casing (100) and preventing upward detachment of the guide (200). Accordingly, productivity can be increased, and power applied to the door can be adjusted.

Description

A variable pivot for door < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pivot for a door, and more particularly, to a variable pivot for a door in which the pressure applied to the door can be adjusted to prevent the door from flowing.

Generally, a lot of sliding doors (sliding door) are used to partition a space between a living room and a porch of an apartment or a house or a building.

As described above, Patent Documents on Sliding Doors disclose techniques such as Laid-open No. 10-2013-0034301 and Laid-open No. 10-2015-0004191.

As shown in this conventional document, the sliding door is a form in which a slide is fitted to a rail fixed to a window frame, and the slide is connected to the upper end of the door by a pivot. Accordingly, the slide is caused to slide along the rail as the door is opened and closed.

In this conventional structure, the main body of the pivot is inserted and fixed to the door, and a support rod having an outer diameter smaller than that of the main body is protruded on the upper side of the main body. And flows upward and downward. That is, the conventional pivot is configured in the same shape as a general cylinder structure, and the supporting rod has the same structure as the cylinder rod.

Therefore, there is a problem in that the flow of the support rod becomes severe and the door shakes. There is a problem that the force applied to the door can not be adjusted because the force of the spring inserted into the body is fixed. That is, it is necessary to control the pushing force of the door downward according to the weight of the door, the installation place of the door, etc. to prevent the flow and vibration of the door.

Korean Patent Publication No. 10-2013-0034301 Korean Patent Publication No. 10-2015-0004191

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a door pivotable type pivot for preventing a door from being shaken due to a rigid connection between a door and a slide by integrally forming upper and lower portions of the pivot .

It is another object of the present invention to provide a variable pivot for a door that can adjust the force applied to the door by pivoting by changing the guide up and down.

According to an aspect of the present invention, there is provided a variable pivot for a door, comprising: a casing defining an outer appearance; A guide (200) coupled to the casing (100) and flowing up and down; A pressing means 300 embedded in the casing 100 for applying a force to the guide 200 in one direction; And a cap 400 detachably mounted on the upper end of the casing 100 to prevent the guide 200 from being separated upward.

The casing (100) comprises a lower body (110) having a hollow cylindrical shape and containing the pressing means (300) and inserted and fixed to the door; An upper body 120 integrally formed on the upper side of the lower body 110 and inserted into the slide 20 for guiding the sliding of the door; And a guide passage 130 formed in the upper body 120 and guiding the upward and downward movement of the guide 200.

The guide 200 includes a guide ring 210 formed to be larger than the outer diameter of the upper body 120 and installed to surround the outer side of the upper body 120; A supporting end 220 formed at an upper end or a lower end of the guide ring 210 to support one end of the pressing means 300; And an insertion bar 230 connected to the support ring 220 to be fixed to the guide ring 210 and installed to pass through the guide channel 130.

The guide passage (130) has a passage (132) opened upward and guiding the upward and downward flow of the guide (200); A fixed passage 134 having a length smaller than the movement passage 132 and maintaining the guide 200 in a fixed position; And a connection channel 136 connecting the movement channel 132 and the lower channel of the fixed channel 134 so as to communicate with each other.

The cap 400 includes a head 410 formed to be upwardly protruded from a top surface thereof; A locking hook 420 protruding downward from a lower end of the head 410 and having a lower end fastened to the casing 100 to prevent the cap 400 from being detached from the casing 100; And a guide protrusion 430 protruding downward from the lower end of the head part 410 and shielding the upper part of the guide path 130 of the casing 100.

The variable pivot for a door according to the present invention has the following effects.

In the present invention, the upper and lower sizes of the casing forming the outer appearance of the pivot, particularly the outer diameter of the upper body, are formed larger than the support rods of the prior art, and are integrally formed with the lower body. The upper surface of the guide that flows along the longitudinal direction of the casing closely contacts the bottom surface of the slide. Therefore, there is a hygiene in which the door is prevented from shaking.

In addition, in the present invention, a guide channel is formed in the casing so that the guide flows upward and downward, and at the same time, the guide can be kept stationary at a predetermined position (fixed channel) of the casing. Accordingly, since the guide can be installed to be inserted into the slide in a state where the guide is lowered, the work efficiency is improved.

In addition, in the present invention, a support end for supporting the pressing means is provided at the upper or lower end of the guide, and the guide is configured to be used upside down. Therefore, there is an advantage that the force applied to the door can be controlled by adjusting the compressing force of the pressing means by an operation of directly or reversely mounting the guide.

In addition, one or more pivots according to the present invention are installed at the upper end of the door, and the force applied to the door can be controlled by controlling the pressing force generated by the plurality of pivots. In other words, one pivot of the plurality of pivots fixes the guide to the central portion (fixed passage) of the casing so that the compressing force of the pressing means is not transmitted to the door, while the other pivot guide is connected to the upper end of the casing So that the force applied to the door can be freely adjusted by a method of allowing the compressing force of the pressing means to be transmitted to the door.

As described above, according to the present invention, since the force applied to the door by the pivot can be easily adjusted, the convenience of use of the door is increased.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a state in which a variable pivot for a door according to the present invention is mounted. FIG.
FIG. 2A is a perspective view showing a configuration of an embodiment of a variable pivot for a door according to the present invention; FIG.
FIG. 2B is an exploded cross-sectional view showing a configuration of an embodiment of a variable pivot for a door according to the present invention. FIG.
FIG. 2C is an exploded perspective view showing a configuration of an embodiment of a variable pivot for a door according to the present invention; FIG.
3 is a bottom perspective view showing a detailed structure of a casing constituting an embodiment of the present invention.
4A is an upper perspective view showing a detailed configuration of a guide constituting an embodiment of the present invention.
FIG. 4B is a bottom perspective view showing a detailed configuration of a guide constituting an embodiment of the present invention; FIG.
4C is a cross-sectional view showing a detailed configuration of a guide constituting an embodiment of the present invention.
5 is a bottom perspective view showing a detailed configuration of a cap constituting an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a variable pivot for a door according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 1 shows a state in which a variable pivot for a door according to the present invention is mounted.

As shown in FIG. 1, the door 10 is slidable in the left and right directions. In order to increase the area of the door 10, the door 10 is preferably formed by two or three doors overlapping each other, The door 10 is formed of three pieces and overlapped with each other.

On the upper side of the door 10, a slide 20 is connected as shown in the figure. The slide 20 serves to guide the three doors 10 to slide to the left and right, and the slide 20 is fitted to the rail 30 as shown in the figure. That is, the building in which the door 10 is installed is provided with a rail 30 as shown in the drawing, and the slide 20 is inserted into the rail 30 and slid to the left and right.

As shown in the drawing, the slide 20 is engaged with the door 10 by a variable pivot 50 inserted into the upper end of the door 10. That is, the lower half of the variable pivot 50 is inserted and fixed to the upper end of the door 10, and the upper end of the pivot 50 is installed to penetrate the pivot hole 22 of the slide 20. Therefore, when the slide 20 flows to the left and right, the door 10 also flows left and right along the slide 20, thereby opening and closing the door 10.

Figs. 2 to 5 show the respective constructions of the embodiment of the variable pivot for a door according to the present invention. 2A to 2C show a perspective view, a cross-sectional view, and an exploded perspective view of the variable pivot 50, respectively. FIG. 3 shows a perspective view of a lower portion of a casing 100 constituting an embodiment of the present invention FIGS. 4A to 4C show an upper and lower perspective view and a cross-sectional view of the guide 200 constituting the embodiment of the present invention, respectively. 5 is a perspective view of the lower part of the cap 400 constituting the embodiment of the present invention.

As shown in these figures, the variable pivot for a door according to the present invention includes a casing 100 forming an outer appearance, a guide 200 connected to the casing 100 to move up and down, A cap 300 installed in the interior of the casing 100 for applying a one-directional force to the guide 200 and detachably mounted on the upper end of the casing 100 to prevent the guide 200 from being separated upward 400).

The casing 100 includes a lower body 110 having a hollow cylindrical shape and having the pressing means 300 inserted therein and being inserted and fixed to the door 10 and a lower body 110 integrally formed on the upper side of the lower body 110 An upper body 120 inserted into the slide 20 for guiding sliding of the door 10 and a guide passage 130 formed in the upper body 120 and guiding the upward and downward flow of the guide 200, .

The pressing means 300 serves to push the guide 200 upward, and is preferably made of a compression spring.

As shown in the figure, the casing 100 is formed in a hollow cylindrical shape, and the upper and lower halves of the casing 100 are formed to be stepped with different outer diameters.

The casing 100 is divided into a lower body 110 constituting a lower half and an upper body 120 constituting an upper half of the casing 100. The outer diameter of the upper body 120 is larger than the outer diameter of the lower body 110 And is formed to have an outer diameter larger than the outer diameter.

The lower body 110 is inserted and fixed to the upper end of the door 10 and the upper body 120 is inserted into the slide 20.

The reason why the upper body 120 is formed integrally with the lower main body 110 and has an outer diameter larger than the outer diameter of the lower main body 110 is that the pivot 50 is inserted into the door 10 So that the height of the upper body 120 can be kept constant by allowing the lower body 110 to be inserted only by being caught by the outer diameter of the upper body 120. [

The pressing unit 300 is installed inside the lower body 110 and a blocking plate 140 for supporting the lower end of the pressing unit 300 is further formed. As shown in the figure, a blocking plate 140 having a predetermined thickness is integrally formed in the lower body 110, and a blocking protrusion 142 protruding upward is formed at the center of the blocking plate 140 . The blocking protrusion 142 is inserted into the lower end of the pressing means 300.

Although the blocking plate 140 and the blocking protrusion 142 are formed at predetermined positions in the lower main body 110 in the present embodiment, It may be provided at the lower end of the lower main body 110 or may be detachable from the lower main body 110.

The guide passage 130 is preferably formed in the upper body 120 and includes a moving passage 132 for opening and closing the upper and lower portions of the guide 200, And a lower end of the fixed passage 134 is connected to the lower end of the fixed passage 134 so that the lower end of the fixed passage 134 is communicated with the fixed passage 134. [ A flow path 136 and the like.

3, the lower end of the movement path 132 is extended to the left (in FIG. 3), and the lower end of the movement path 132 is extended from the upper end of the upper main body 120 to the lower end. As shown in FIG. And the left end of the connection channel 136 is vertically extended upward to form the fixed channel 134. [

The fixed passage 134 has a length smaller than that of the movement passage 132. The fixed passage 134 fixes the guide 200 to prevent the guide 200 from moving upward along the movement passage 132 . That is, when the insertion tube 230 of the guide 200 to be described below is received in the fixed passage 134, the guide 200 can not move upward and is fixed at the position.

The upper body 120 is formed with a pair of fixing holes 150 symmetrical with each other. The fixing hole 150 is formed in the vicinity of the upper end of the upper body 120 so as to pass through the upper body 120. The fixing hook 150 of the fixing hook 150 of the cap 400, Is inserted.

The guide 200 includes a guide ring 210 formed to be wider than an outer diameter of the upper body 120 so as to surround the outer side of the upper body 120, A supporting end 220 formed on the supporting member 220 and supporting one end of the pressing means 300 and a supporting end 220 fixed to the guide ring 210 and passing through the guide passage 130 An insert bar 230, and the like.

The guide ring 210 has a circular ring shape as shown in the drawing and is installed to surround the outer side of the upper body 120 and flows upward and downward along the upper body 120.

The guide ring 210 includes an upper ring 212 and a lower ring 214 and a ring link 216 connecting the upper ring 212 and the lower ring 214 as shown in FIG. . Of course, the upper ring 212 and the lower ring 214 may be integrally formed. Since the guide ring 210 is located outside the upper body 120, the inner diameter of the guide ring 210 is larger than the outer diameter of the upper body 120.

The supporting end 220 is provided inside the guide ring 210 as shown, and is located inside the upper body 120. Therefore, the outer diameter of the support end 220 is smaller than the inner diameter of the upper body 120, and the upper end of the pressing means 300 is brought into contact with the lower end of the support end 220.

The support end 220 is connected to the lower end of the guide ring 210 by the ring link 216. More specifically, the ring connecting rod 216 is formed as a pair of left and right connecting the lower ring 214 and the supporting end 220.

The insert bar 230 is installed to pass through the guide passage 130 and flows along the guide passage 130.

Upper and lower protrusions 222 and 224 protrude upward and downward from the center of the support end 220, respectively. The upper protrusion 222 and the lower protrusion 224 are inserted into the upper end of the pressing means 300. The upper protrusion 222 and the lower protrusion 224 are formed on the upper and lower sides of the supporting end 220 so that the guide 200 can be used upside down. It is.

The cap 400 shields the upper portion of the casing 100 and prevents the pushing means 300 and the guide 200 from separating upward.

The cap 400 includes a head 410 protruded upward in a rounded manner and a lower end protruding downward from a lower end of the head 410 and coupled to the casing 100, A hooking hook 420 for preventing the hooking hook 400 from being detached from the casing 100 and a hooking hook 420 protruding downward from the lower end of the heading 410 to shield the upper portion of the guide passage 130 of the casing 100 Guide protrusions 430 and the like.

As shown in the figure, the head 410 protrudes upward in a round shape and is formed in a hemispherical shape as a whole. Thus, insertion is smoothly possible when the pivot 50 is inserted into the pivot hole 22 of the slide 20 from below.

At both left and right ends of the head part 410, a pair of hooking hooks 420 are formed extending downward. As shown in the drawing, the hooking hook 420 is formed to have a predetermined length below the head portion 410, and a lower end thereof is inserted into the fixing hole 150 of the casing 100. When the hooking hook 420 is inserted into the fixing hole 150, the cap 400 is coupled to the casing 100.

A guide protrusion 430 protruding downward is further provided at a lower end of the cap 400.

The guide protrusions 430 are formed on the front and rear of the cap 400 and extend downward to be inserted into the upper end of the movement path 132 of the casing 100. Therefore, the width of the guide protrusion 430 is smaller than the width of the movement path 132.

Hereinafter, the operation of the variable pivot for a door according to the present invention will be described.

2A to 2C, the pressing means 300 is inserted from above the casing 100 in a state where a plurality of parts are separated from each other. The pressing means 300 formed of a compression spring is seated in the casing 100 and the lower end of the pressing means 300 is brought into contact with the upper surface of the blocking plate 140.

Then, the guide 200 is inserted into the casing 100 from above. At this time, the insertion bar 230 of the guide 200 is inserted into the movement channel 132, and when the operator pushes the guide 200 downward, the guide 200 moves along the movement channel 132 And the insert 200 of the guide 200 is moved along the connection passage 136 to be positioned at the fixed passage 134. The guide 200 is rotated by the guide 200 in a downward direction. In this case, the inserter 230 is held in the upper end of the fixed passage 134.

Next, the cap 400 is inserted into the upper end of the casing 100. At this time, when the cap 400 is pressed from above, the hooking hook 420 of the cap 400 slides along the inner surface of the casing 100, and the lower end is inserted into the fixing hole 150 and fixed.

2A, when the pivot 50 is coupled to the upper end of the door 10, the lower body of the pivot 50 110 are inserted and fixed in the door 10.

Then, the upper end of the upper body 120 of the casing 100 is inserted into the pivot hole 22 of the slide 20 from below. The door 10 and the slide 20 are connected to each other by the pivot 50. At this time, the operator turns the guide 200 so that the inserting stand 230 of the guide 200 contacts the fixed passage 134, And is positioned at the lower end of the movement path 132 via the connection path 136.

When the operator places the hand holding the guide 200 in the state where the insertion bar 230 is positioned at the lower end of the movement path 132, And the upper end of the guide 200 is brought into close contact with the lower end of the slide 20.

In this case, since the slide 20 is coupled to the rail 30, the door 10 is pushed downward by the compressive force of the pressing means 300. That is, since the upper end of the guide 200 is in close contact with the slide 20, a force for moving the pivot 50 downward is generated by the compressive force of the pressing means 300, A downward force acts on the door 10 connected to the door 10.

Therefore, since the door 10 receives a predetermined force downward, it is prevented from flowing too easily (unintentionally by the user) along the rail 30, and the swing is blocked.

In addition, when the pressing force of the pressing means 300 is too high, the user can remove the cap 400 from the casing 100 and insert the guide 400 upside down. When the guide 200 is inserted upside down, the compression force of the pressing means 300 is weakened.

2B, the support end 220 is positioned at the lower end of the guide ring 210. When the guide 200 is mounted upside down, the support end 220 is moved in the guide ring 210 210), so that the compressive force generated by the pressing means 300 is reduced.

That is, the vertical length of the space in which the pressing means 300 including the compression spring is accommodated is a distance from the upper surface of the shield plate 140 of the casing 100 to the lower surface of the support stage 220 of the guide 200 do. 2B, when the guide 200 is turned upside down, the pressing means 300 may be inserted into the guide ring 210, The space size of the upper and lower spaces accommodating the compression spring 300 becomes larger, so that the compression force of the compression means 300 formed of compression springs becomes relatively smaller.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

For example, in the above-described embodiment, the casing 100 is divided into an upper body 120 and a lower body 110 so that the outer diameter of the upper body 120 is smaller than the outer diameter of the lower body 110 A separate auxiliary insertion port is provided so as to have the same outer diameter as that of the upper main body 120 and the lower main body 110 so that the depth of the lower main body 110 inserted into the door 10 is different, 120 may be varied in various ways.

In the above embodiment, the guide channel 130 is formed only in the upper body 120, but it is also possible to form the guide channel 130 in the lower body 110 as well.

10. Door 20. Slide
22. Pivot hole 50. Pivot
100. Casing 110. Lower body
120. Upper body 130. Guide channel
140. Blocking plate 150. Fixing hole
200. Guide 210. Guide ring
220. Support end 230. Insertion stand
300. Pressure means 400. Cap
410. Head 420. Hanging hook

Claims (5)

(200) which is coupled to the casing (100) and flows up and down, a casing (100) which is built in the casing (100) and which is pressurized to apply a force in one direction to the guide And a cap (400) detachably mounted on an upper end of the casing (100) to prevent the guide (200) from being separated upwardly;
The casing (100)
A lower body 110 formed in a hollow cylindrical shape and having the pressing means 300 built therein and inserted and fixed to the door, a slide (not shown) integrally formed on the upper side of the lower body 110 and guiding sliding of the door And a guide channel 130 formed in the upper body 120 and guiding the upward and downward flow of the guide 200. The upper body 120 is inserted into the upper body 120,
The guide (200)
A guide ring 210 formed to be wider than the outer diameter of the upper body 120 so as to surround the outer side of the upper body 120 and a guide ring 210 formed inside the upper or lower end of the guide ring 210, A support end 220 for supporting one end of the guide ring 210 and a support 230 for supporting the end of the support ring 220 and fixing the support ring 220 to the guide ring 210, Wherein the door is pivotally connected to the door. delete delete 2. The apparatus according to claim 1, wherein the guide passage (130)
And a guide passage (132) for guiding upward and downward flow of the guide (200);
A fixed passage 134 having a length smaller than the movement passage 132 and maintaining the guide 200 in a fixed position;
And a connection channel (136) connecting the moving passage (132) and the lower end of the fixed passage (134) so as to communicate with each other. 5. The apparatus of claim 4, wherein the cap (400)
A head portion 410 formed to protrude upward so that an upper surface thereof is rounded;
A locking hook 420 protruding downward from a lower end of the head 410 and having a lower end fastened to the casing 100 to prevent the cap 400 from being detached from the casing 100;
And a guide protrusion (430) protruding downward from a lower end of the head part (410) and shielding the upper part of the guide path (130) of the casing (100).

Images