KR20170047778A

KR20170047778A - Movable bottom up type partition apparatus

Info

Publication number: KR20170047778A
Application number: KR1020150148262A
Authority: KR
Inventors: 박정기
Original assignee: 박정기
Priority date: 2015-10-23
Filing date: 2015-10-23
Publication date: 2017-05-08

Abstract

The present invention relates to a movable upside-down partitioning device which can be moved easily and which can raise the partition to block the lower part of the space.
The present invention is characterized in that it comprises a partitioning case 10 in which a receiving space is formed and a partitioning member 20 which is housed in the submerged space of the partitioning case 10 and which rises to the outside while shutting off a predetermined space, A winding shaft 30 provided in a receiving space of the partition case 10 to wind the partitioning member 20 and a partition member 20 which is wound around the winding shaft 30 to accommodate the partition case 10 A holding member 50 fixed to the outside of the partition case 10 in a state of being connected to the upper end of the partition member 20 and a holding member 50 in which the holding member 50 is caught and fixed Holding member 60 that stands on the partitioning case 10 to maintain the raised shape of the partitioning member 20. The partitioning-

Description

[0001] MOVABLE BOTTOM UP TYPE PARTITION APPARATUS [0002]

The present invention relates to a movable upside-down partitioning device which can be moved easily and which can raise the partition to block the lower part of the space.

Generally, a curtain is installed on a window to block a window or open a window, thereby protecting the private space by preventing exposure of the interior space, and opening the window to expose the interior space to the outside, .

The lower end of the curtain descends from the upper portion of the window to the lower portion to close the window, and the lower end of the curtain rises from the lower portion to the upper portion to open the window.

However, since the indoor space is opened when the lower end of the curtain has to be raised to the upper part of the window, there is a problem in that the privacy of the individual is not protected because the people who are working in the room are exposed to the outside.

In addition, since the surrounding space is exposed outside, it is not possible to form a space in which the lower portion is blocked, thereby making it impossible to create a space requiring privacy protection.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Patent Registration No. 10-1517334 filed and filed with the Korean Intellectual Property Office,

A problem to be solved by the present invention is to provide a movable up-and-down type door which can be used in any place regardless of its location, And to provide a partitioning device.

The movable upside-down partitioning apparatus according to an embodiment of the present invention includes a partitioning case 10 in which a receiving space is formed, and a movable up-and-down partitioning unit 10 which is accommodated in the submerged space of the partitioning case 10, A winding shaft 30 provided in the receiving space of the partition case 10 to wind the partitioning member 20 and a partition member 20 wound around the winding shaft 30 A hooking member 50 fixed to the outside of the partition case 10 in a state of being connected to the upper end of the partitioning member 20, And a partition shape retaining member (60) that stands up to the partition case (10) in a state where the member (50) is caught and fixed and maintains the raised shape of the partition member (20).

The movable upside-down partitioning device according to an embodiment of the present invention can prevent the privacy of the person sitting in the room from being protected by the partition, There is an advantage to look at.

In addition, when necessary, a partition with a closed bottom can be formed even outdoors without limitation, so that there is an advantage that a space requiring privacy protection can be created on the spot.

In addition, it can be stored in the form of a box, and it is also easy to carry, so that it can be assembled immediately when needed and used regardless of the place.

1 is a perspective view of a movable bottom-up type partitioning device according to an embodiment of the present invention;
2 is an exploded perspective view showing the decomposed state of the present invention.
3 is a perspective view showing a state where a storage space is formed on an upper part of a partition case according to the present invention.
4 is a perspective view showing a state in which a shaft of a hooking member and a partitioning-type holding member are housed in a storage space of a partitioning case applied to the present invention.
5 (a) and 5 (b) illustrate operation states of the present invention.
6 is a perspective view showing an embodiment for engaging the shafts of the partition shape retaining member according to the present invention.
7 is a perspective view illustrating an embodiment for supplementing the structure of the shafts of the partition shape retaining member according to the present invention.
8 is a perspective view showing another embodiment for hooking a hook member on a shaft of a partition retaining member according to the present invention.
FIG. 9 is a front view showing an operation process of FIG. 8; FIG.
10 is a perspective view showing another embodiment for hooking a hook member on a shaft of a partition retaining member according to the present invention.
11 (a) and 11 (b) are partial perspective views showing the operation process of FIG.
Fig. 12 is a front view showing a partition shape retaining member in which a screw shaft is rotated by a motor according to the present invention; Fig.
13 is a partial perspective view showing the main part of Fig.
Fig. 14 is a view showing another recessed portion applied to Fig. 12; Fig.
15 (a) and 15 (b) are partial cross-sectional views showing fastening portions according to the present invention.
16 is a perspective view showing another embodiment of the partition retaining shape member of the present invention.
17 is a perspective view showing the disassembled state of Fig.
18 (a) and 18 (b) are partial perspective views showing the main part of Fig.
Fig. 19 is a front view showing the operating state of Fig. 16; Fig.
20 (a) and 20 (b) illustrate the operation process of FIG. 16. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

1 to 15, the present invention is characterized by comprising a partition case 10, a partitioning member 20, a winding shaft 30, a housing member 40, a hooking member 50, And a shape retaining member (60).

The partition case (10) is formed in an enclosed form in which a receiving space is formed therein.

The partitioning case 10 is provided with a moving hole 11 in which the partitioning member 20 is passed through and the both ends of the hooking member 50 are engaged and is positioned on both sides of the moving hole 11 A fixing hole 12 corresponding to the partition shape retaining member 60 is formed. The rising shaft 12 of the fixing shaft 12 can be fixed in a standing state by inserting the standing shaft 62 of the fixing shaft 60 to be described later.

The partitioning case 10 further includes a guide member 15 for supporting and guiding the partitioning member 20 to be moved through the moving hole 11. [ The guide member 15 may be constituted by a plate rotated by the partitioning member 20 moved close to the moving hole 11 and a plate on which the partitioning member 20 slides. Here, since the rollers and the plate members are arranged in a symmetrical manner with a plurality of rollers or plate members being disposed inside the partition case 10 to support both side surfaces of the partition member 20, folding and tearing of the partition member 20 can be prevented have.

In addition, an outer wall 17 may be formed around the curtain case 10 so as to form a storage space in which the hooking member 50 is stored. Since the hooking member 50 can be stored in the storage space in such a state that it is not interfered with from the outside, there is no fear of breakage, and a clean state can be maintained because it is not contaminated. And, the storage space can be closed by the cover plate 18 covering the outer wall to prevent the infiltration of foreign matter such as dust.

In addition, the curtain case 10 may be provided with a handle 19 for the user to grasp. Therefore, the user can grip the handle 19 and move the curtain case 10 conveniently.

In addition, the partition case 10 may be provided with a leg 13 to be supported at a predetermined height. Therefore, the partition case 10 can be stably fixed in a state of being positioned at a predetermined height by the legs 13. [ The legs 13 may be formed to be bent in an 'L' shape to increase the contact area in contact with the ground, and may be installed so as to protrude from the front and rear of the partition case 10. Therefore, since the legs 13 protrude from the front and back of the partition case 10 formed to be long in the left and right directions and contact the ground, the fixed state of the partition case 10 can be stably maintained as the contact area increases.

In addition, a flow preventing portion 14 for preventing the flow of the partition case 10 may be provided. Here, the flow prevention portion 14 may be constituted by a ring fixed to a rack mounted on a structure such as a window frame, or a magnet fixed by being magnetically attached to a steel structure such as a steel window frame. Therefore, when the loop, which is the flow prevention portion 14, is hooked and fixed to the ring-shaped bracket provided on the window frame, the partition case 10 does not move in a state close to the window frame. Of course, when the magnet, which is the flow prevention portion 14, is attached to the steel window frame, the fixed state can be maintained without the partition case 10 being in close contact with the window frame.

The partition member 20 is accommodated in the submerged space of the partition case 10 and is raised to the outside to shut off a predetermined space. The partition member 20 is composed of a soft cloth or a flexible film so as to be wound around the take- . The partitioning member 20 can block the indoor space, so that it is possible to prevent the penetration of light to darken the room, to prevent the penetration of the external temperature and the loss of the internal temperature, and the privacy can be protected.

The winding shaft 30 is provided in an accommodating space of the partition case 10 and is wound around the partition member 20. The winding shaft 30 is a cylindrical shaft having both ends fixed to the inner side surfaces facing each other in the accommodating space of the partition case 10. [ Lt; / RTI > The winding shaft (30) can be folded by the partitioning member (20).

The winding shaft 30 must be fixed to the partition case 10 in a fixed state where it is not rotated when a spring spring, which is a receiving member 40 to be described later, is applied, and a knob The end of the partitioning member 20 should be connected to the outer surface. The knob may be formed in a disc shape having a diameter larger than the diameter of the winding shaft 30, or may be formed to be bent in an 'S' shape. Therefore, when the knob having a large diameter is rotated once, the take-up shaft 30 can be rotated more than once, and the knob of the bent shape is rotated with the one end thereof being connected to the end portion of the winding shaft 30 The winding shaft 30 can also be rotated together.

The housing member 40 is formed by winding the partitioning member 20 around the winding shaft 30 and accommodating the partitioning member 20 in the housing space of the partitioning case 10 so that the partitioning member 20 is wound around the winding shaft 30, And a spring that provides an elastic force in a state of being connected between the partition member 30 and the partition member 20. The other end of the spring member, which is the housing member 40, is fixed to the partitioning member 20 in a state where the spring is wound in a state where one end is fixed to the winding shaft 30. At this time, when the partitioning member 20 is pulled, the spring-loaded springs are compressed by the winding shaft 30, and when the pulling-out of the partitioning member 20 is released, the spring member is restored to its original shape and the partitioning member 20 is pulled, Can be accommodated automatically in the submissive space of.

The housing member 40 may be configured as a knob for protruding outside the partition case 10 in a state of being fixed to the end of the winding shaft 30 to rotate the winding shaft 30. When the knob rotates the winding shaft 30, the partition member 20 is wound. That is, the partitioning member 20 can be manually accommodated in the partition case 10.

The hooking member 50 is composed of a shaft having a length longer than the width of the partitioning member 20 so as to be caught and fixed to the outside of the partitioning case 10 while being connected to the upper end of the partitioning member 20, And are fixed to both sides of the moving hole 11. At this time, both ends of the hooking member (50) are preferably protruded to both sides of the partitioning member (20). The upper end of the partitioning member 20 can be prevented from being accommodated in the receiving space of the partition case 10 because both ends of the hooking member 50 are fixedly caught around the moving hole 11 of the partitioning case 10 have. Of course, when the user pulls the hook member 50 up and lifts it, the partition case 10 is lifted with the hook member 50 being lifted.

As a result, when the user pulls the hooking member 50 while grasping the hooking member 50, the partitioning member 20 is unfolded while being discharged from the partitioning case 10. Of course, when the user releases the pulling-out of the hooking member 50, the partitioning member 20 can be accommodated in the accommodating space of the partition case 10 and stored.

The partitioning form retaining member 60 stands up to the partitioning case 10 in a state where the hooking member 50 is caught and fixed so as to maintain the raised form of the partitioning member 20 and is provided on both sides of the partitioning case 10 A standing shaft 62 that stands up and a holding portion 61 that is spaced apart from the standing shaft 62 by a predetermined distance and to which the holding member 50 is caught.

The lower end of the partition shape retaining member 60 is inserted and fixed in the fixing hole 12 of the partition case 10 so that the upper portion of the partition case 10 can be maintained standing on both sides. The hook portion 61 may be formed of a pin bent at the end and formed in an 'L' shape, or may be formed of a pin in which the head is formed, so that the hooked state of the hooking member 50 can be firmly maintained .

The hook portion 61 may be formed with a male thread at an end thereof and the rising shaft 62 may be formed with a screw tab spaced at a predetermined interval. Therefore, the hook portion 61 can be screwed into the screw tap of the standing shaft 62, so that not only can it be selectively engaged with the screw taps, but also the replacement operation can be made convenient.

As described above, since the hooking member 50 is caught and fixed to the hooking portion 61 with the partitioning-type holding member 60 standing on the partitioning case 10, the deployed state of the partitioning member 20 is firmly maintained . Of course, the partition shape retaining member 60 can be separated from the partition case 10 so that the overall volume of the device can be reduced and the partition case 10 and the partition shape retaining member 60 can be moved have. At this time, the separated partition case 10 and the partition shape retaining member 60 can be closely adhered to each other and can be stored together, so that a storage space can be reduced. Further, since the expanded state of the partitioning member 20 is maintained by the partitioning member 60, no separate structure for maintaining the expanded state of the partitioning member 20 is required.

The partition shape retaining member 60 also includes a coupling portion 63 provided at both ends of the standing shaft 62 to be coupled to the other partition shape retaining member 60. The engaging portion 63 may be formed of protrusions and grooves detachably coupled to both ends of the standing shaft 62. Therefore, as the protrusions and the grooves, which are the engaging portions 63, are combined, the standing shafts 62 can be coupled in a row so that the overall length of the standing shaft 62 can be increased. Thereby, the height of the partitioning member 20 can be increased.

Further, a structure complementary member 64, which is connected at its both ends to the top of the partition shape retaining members 60 to complement the structure, is included. The structure supplement member 64 is provided with a mounting hole 65 such as a hole or a projection at both ends thereof so that the upper end of the partition shape retaining member 60 is penetrated and engaged. At this time, a protrusion or hole corresponding to the hole, which is the mounting hole 65, is also formed at the upper end of the partition shape retaining member 60. Thus, as the mounting opening 65 is coupled to the upper end of the partition retaining member 60 and the structural retaining member 64 is horizontally connected to the upper end of the partition retaining members 60, the partition retaining member 60 ) And the structure complementary member 64 may be complementary to each other while the connection state of the structure complementary member 64 is '∩' as a whole. Thereby, the state in which the partitioning member 20 is spread over the partitioning shape retaining member 60 can be firmly maintained.

The partition shape retaining member 60 includes a plurality of shape retaining shafts 60a spaced apart from each other by a predetermined distance, a metal plate 60b provided on the shape retaining shaft 60a, And a magnet 60c magnetically attached and fixed to the rotor 60a.

The shape-retaining shaft 60a may have a flat surface on its outer side.

The metal plate 60b may be formed in a rectangular shape and may be long in the longitudinal direction along the shape-retaining shaft 60a, or may be formed in a plurality of pieces and spaced apart at equal intervals along the shape-retaining shaft 60a. It is preferable that the metal plate 60b is provided on the flat surface of the shape-retaining shaft 60a.

The magnet 60c may be provided at both ends of the hooking member 50 in a state of being opposed to the metal plate 60b.

Therefore, the magnet member 60c can be attached to the metal plate 60b with the hook member 50 raised to a predetermined height, so that the hook member 50 can be fixed, so that the hook member 50 can be easily hooked .

The partition form retaining member 60 includes a partition bracket 60d provided in the partition case 10, a partition shaft 60e rotatably fixed to the partition bracket 60d, and a partition shaft 60e, And a shaft fixing portion 60f which is fixed to the bracket 60d in an upright state.

The partition bracket 60d may be provided in a storage space formed by the outer wall 17 of the partition case 10. [ The partition bracket 60d is formed with a yoke 60g which protrudes upward and a through hole 60h penetrating laterally of the yoke 60g is formed and the yoke 60g is spaced downward from the through hole 60h, 60g are formed to extend laterally.

The partitioning shaft 60e is formed with a rotation projection 60j protruding from the end and rotatably disposed between the yoke 60g and penetrates sideways of the rotation projection 60j to be communicated with the through hole 60h A hole 60k is formed and a support hole 60m corresponding to the rotation hole 60i is formed so as to penetrate laterally of the rotation projection 60j.

The partitioning shaft 60e may be provided with a hook portion 61 to which the hooking member 50 is hooked while being configured in the same manner as the standing shaft 62 described above.

Here, the rotation pin 60n is fixedly inserted into the through hole 60h and the communication hole 60k to support the rotation of the partition shaft 60e, so that the partition shaft 60e is rotated by the partition wall bracket 60d And can be rotated about the pin 60n.

The shaft fixing portion 60f may be formed by a pin inserted into the rotation hole 60i and the support hole 60m to fix the rotation of the partition shaft 60e.

Therefore, when the shaft fixing portion 60f is inserted and fixed while the partitioning shaft 60e is raised with the rotation pin 60n as an axis so that the rotation hole 60i and the support hole 60m are aligned with each other, 60e can be firmly maintained.

Of course, when the shaft fixing portion 60f is detached from the rotation hole 60i and the support hole 60m, the partition shaft 60e is rotated around the rotation pin 60n and horizontally, so that the partition shaft 60e, Can be accommodated in a storage space formed by the outer wall 17 of the partition case 10.

Further, since the partitioning shaft 60e is rotatable and fixed by the rotation pin 60n, it is not lost.

The partition shape retaining member 60 includes a support shaft 60p that stands up in the partition case 10, a hook portion 60q that is fitted to the support shaft 60p and is engaged with the hook member 50, A tubular body 60r fitted to the shaft 60p and a cutting groove 60s fixed to the tubular body 60r and fitted in the support shaft 60p and passing through the ring portion 60q, And a female fixing portion 60u which is engaged with the male fixing portion 60t in a state of being fitted to the support shaft 60p so as to be pressed and closed.

The support shaft 60p is formed in a cylindrical shape.

The ring 60q is formed in a ring shape or a washer shape and is engaged with the support shaft 60p and is engaged with the male fixing portion 60t and the female fixing portion 60u so as not to flow down from the support shaft 60p The state can be maintained. The hook portion 60q is formed with a hook 60v which is bent upward so that the hooking member 50 is hooked on the outer side.

The tubular body 60r may be formed into a square, a hexagonal, or an octagonal shape with a flat surface formed on the outer circumferential surface thereof while the inner space is opened at both ends so that the support shaft 60p is penetrated. That is, the user can rotate the tubular body 60r fitted to the support shaft 60p using a tool such as a wrench or a spanner. The lower portion of the ring portion 60q can be supported on the upper portion of the tubular body 60r.

In the male fixing part 60t, a male thread is formed on the outer circumferential surface while the inner space is formed of a tube which is opened to both ends. When the external pressure is applied, the male fixing part 60t may be broken because the cutting groove 60s is formed in an upper part of the male fixing part 60t. Therefore, the male fixing portion 60t can be fixedly attached to the outer circumferential surface of the support shaft 60p as the female fixing portion 60u is engaged and disengaged.

The female fixing portion 60u is formed by a tube body whose inner space is opened to both ends, while a female screw thread corresponding to male threads of the male fixing portion 60t is formed on the inner circumferential surface and a flat surface is formed on the outer circumferential surface, Or an octagon. That is, the user can rotate the female fixing portion 60u fitted to the support shaft 60p using a tool such as a wrench or a spanner. The upper portion of the hook portion 60q can be supported at the lower portion of the female fixing portion 60u.

Therefore, the support shaft 60p is lifted by a predetermined height in a state of inserting the hook 60q. In this state, the male fixing portion 60t is passed through the inside of the ring portion 60q. Then, the female fixing portion 60u is screwed and tightened to the male fixing portion 60t. At this time, the male fixing portion 60t is pinched by the cutting groove 60s and is supported while being in close contact with the outer circumferential surface of the support shaft 60p. Then, the annular portion 60q is fixed between the male fixing portion 60t and the female fixing portion 60u. Thus, the hook 60q can be raised and fixed to a height as high as the user desired. Subsequently, when the hooking member 50 is hooked on the hook 60q, the partitioning member 20 can block the space by a predetermined height.

Further, the partition shape retaining member 60

A rotation drive member 60w provided on both sides in the partition case 10,

A screw shaft 60x connected to the rotation drive member 60w in an upright state and rotated by the rotational force of the rotation drive member 60w,

A nut 60y screwed to the screw shafts 60x,

And a restricting portion 60z which is respectively provided on the nuts 60y and on which both ends of the hooking member 50 are restrained.

The rotation drive member 60w may be formed of a motor and housed in the partition case 10. Therefore, it can be protected without being exposed to the outside. The rotation driving member 60w includes a motor 60w1 for providing rotational force, a first bevel gear 60w2 connected to the motor shaft of the motor 60w1, a second bevel gear 60w2 connected to the screw shaft 60x, (60w2).

At this time, the motor 60w1 may be installed in the partition case 10 so that the motor shaft penetrates inward. Thereby, a space for installing the motor 60w1 in the partition case 10 is not required.

The screw shaft 60x is rotated forward or backward by the rotational force provided by the rotation drive member 60w.

The nut 60y is screwed to the screw shaft 60x and can be moved up and down along the screw shaft 60x when the screw shaft 60x is rotated.

The restricting portion 60z can be formed in a cap shape so that the end portion of the hooking member 50 is inserted and fixed, so that the fixed state can be firmly maintained. Further, the restricting portion 60z can be formed as a stepped bent in a semicircular shape so that the hooking member 50 is fixed on the hook, so that the hooking member 50 can be easily attached and detached.

When the rotation driving members 60w are rotated in a state where both ends of the hooking member 50 are fixed to the restricting portions 60z, the screw shafts 60x are rotated, As shown in FIG. That is, the hooking member 50 is also raised or lowered.

Thereby, the hooking member 50 can be accurately controlled to move up and down according to the degree of rotation of the screw shaft 60x.

The present invention also includes a fastening portion (70) for fastening the partition form retaining member (60) to the partition case (10).

Here, the partition shape retaining member 60 is formed with a locking hole 61a through which the partition member 60 is laterally passed.

The fastening portion 70 includes a tubular body 71 formed in the partition case 10 and having a side hole 75 formed laterally, an elastic body 72 for providing an elastic force in a state of being embedded in the tubular body 71, A retaining pin 73 which is inserted into the retaining hole 61a of the partition retaining member 60 by being elastically supported by the elastic body 72 in a state of being embedded in the retaining pin 71 and projecting laterally of the retaining pin 73 And an operation knob 74 protruded outward through a lateral hole 75 of the tube 71 and operated by a user.

The tubular body 71 is fixed to the partition case 10 in a horizontal state.

The elastic body 72 is constituted by a compression spring.

The engaging pin 73 is linearly moved by the tube 71. [

The operation knob 74 is formed in a protruding shape so that it can be held by the user.

Therefore, when the user pulls the operation knob 74 to cause the retaining pin 73 to be inserted into the tubular body 71 while compressing the elastic body 72, the partition retaining member 60 is inserted into the partition case 10, As shown in Fig. Then, when the operation knob 74 is pulled out, the engagement pin 73 is inserted into the engagement hole 61a of the partition-form retaining member 60 by the elasticity of the elastic body 72 and engaged. That is, the state in which the partition shape retaining member 60 is inserted and fixed in the partition case 10 can be firmly maintained.

Of course, when the operation knob 74 is pulled to detach the latching pin 73 from the latching hole 61a of the partition-form retaining member 60, the partitioning-type retaining member 60 can be separated from the partitioning case 10 have.

Hereinafter, the operation of the present invention will be described.

First, when the user grasps the hooking member 50 and lifts the hooking member 50 upward, the partitioning member 20 is lifted up from the partitioning case 10. At this time, the elastic body 40 is compressed.

Both ends of the gripping member 50 held by the hook portion 61 of the partition-form retaining member 60 are fixed. Thereby, the expanded state of the partitioning member 20 is maintained, so that the specific space can be divided. That is, one space can be divided into two spaces and used as a separate space.

In addition, when the partitioning member 20 is raised to close the lower portion of the space by the shoulder height of the person, the privacy of the sitting person is protected, and the standing person can look over the partitioning member 20 and look at another space.

Of course, if the hooking member 50 is detached from the hooking portion 61, the elastic body 40 which has been compressed is restored to its original state and pulls the partitioning member 20 so that the partitioning member 20 is accommodated in the partitioning case 10 .

16 to 20, the present invention includes a partition case 10, a partitioning member 20, a winding shaft 30, an elastic body 40, a hooking member 50, A partition shape retaining member 60, and a driving member 80.

Here, the partitioning member 20, the winding shaft 30, the elastic body 40, and the hooking member 50 are constructed in the same manner as described above, and a detailed description thereof will be omitted.

The partition case 10 is formed in the same manner as described above, and a through hole 16 through which a lifting rope 68 to be described later passes is formed to be close to the moving hole 11. [ The fixing hole 12 is formed in the same shape as the cross section of the guide 66 so that a guide 66 to be described later is inserted and fixed.

The partition shape retaining member 60 includes a guide 66 that stands on the partition case 10, a sheave 67 that is provided on the guide 66, And a driving member 69 for positively rotating in a state where the other end of the lifting rope 68 is connected to raise the partitioning member 20 and to reverse the rotation so as to lower the partitioning member 20 do.

The guide 66 is formed in a tubular shape in which the inner space is opened at both ends and a guide groove 66a communicating with the inner space and guiding the lifting and lowering of the hooking member 50 is formed along the longitudinal direction. Accordingly, the end of the hooking member 50 can be guided in the guide groove 66a. At this time, it is preferable that the guide groove 66a is positioned close to the moving hole 11 of the partition case 10 described above. That is, the partition member 20 can be raised and lowered without being bent by the lifting and lowering of the hooking member 50 guided by both ends thereof inserted into the guide grooves 66a.

The lower end of the guide 66 is integrally connected to the partition case 10 so that a rigid structure can be maintained.

A limit switch 80 may be provided at the upper and lower ends of the guide 66 to stop the operation of the driving member 69 as the hooking member 50 is in contact with the hooking member 50. Therefore, when the hooking member 50 contacts the limit switch 80, the operation of the driving member 69 is stopped, so that the rising and falling of the partitioning member 20 can be stopped.

The pulley 67 is idly rotatably provided at an upper portion in the inner space of the guide 66 to guide the movement of the lifting rope 68.

The lifting rope 68 is moved by the driving member 69 while lifting the sheath member 20 over the pulley 67. Therefore, the lifting rope 68 moves along the pulley 67 located in the inner space of the guide 66, so that the lifting rope 68 can be protected from the outside without being exposed to the outside of the guide 66.

The driving member 69 is constituted by a motor for rotating the motor shaft to which the lifting rope 68 is connected so that the lifting rope 68 is wound by forward rotation of the motor shaft, The rope 68 can be loosened. Here, the motor shaft is rotatably housed in the partition case 10 in a state of being spaced apart from the winding shaft 30.

Therefore, when the driving member 69 is driven to pull the lifting rope 68, the lifting rope 68 stretched over the pulley 67 is wound on the motor shaft and the lifting member 50 ascends along the guide 66, (20) is lifted and unfolded. At this time, the elastic body 40 is compressed to the winding shaft 30, and the partitioning member 20 is released from the winding shaft 30. That is, the space between the guides 66 is closed by the raised partition member 20.

When the driving member 69 is reversely driven to release the lifting rope 68, the elastic body 40 which has been compressed is restored to the original state and the partition member 20 is pulled to be wound on the winding shaft 30. That is, since the partitioning member 20 is lowered and accommodated in the partition case 10, the spaces between the guides 66 are opened.

As described above, according to the present invention, since it is possible to selectively close a specific space requiring privacy protection, which is movable, and to close a specific space from below, it is a very useful invention that can be widely applied to a partitioning apparatus can do.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: partition case 11: moving hole
12: Fixing hole 13: Leg
14: flow preventing portion 15: guide member
16: through hole 20: partition member
30: take-up shaft 40: housing member
50: hook member 60: partition member
61: hook portion 61a: latching hole
62: rising shaft 63: engaging portion
64: structural reinforcement member 65:
66: guide 66a: guide groove
67: pulley 68: lifting rope
69: driving member 70:
71: tubular body 72: elastic body
73: Retaining pin 74: Operation knob
75: side hole 80: limit switch

Claims

A partition case 10 having a receiving space formed therein,
A partitioning member 20 which is housed in the submerged space of the partition case 10 so as to be lifted to the outside to cut off a predetermined space,
A winding shaft 30 provided in a receiving space of the partition case 10 to wind the partition member 20,
A housing member (40) for winding the partition member (20) on the winding shaft (30) and housing the partition member (10) in the housing space of the partition case (10)
A hooking member 50 fixed to the outside of the partition case 10 while being connected to the upper end of the partitioning member 20,
And a partitioning-type holding member (60) which stands up to the partitioning case (10) in a state where the hooking member (50) is caught and fixed and maintains the raised shape of the partitioning member (20) Device.

The partitioning case (10) according to claim 1, wherein the partitioning case (10) is provided with a moving hole (11) through which the partitioning member (20) penetrates and both ends of the hooking member Is formed with a fixing hole (12) corresponding to the partition shape retaining member (60).

The apparatus according to claim 1, wherein an outer wall (17) is formed around the partition case (10) so that a storage space for storing the hooking member (50) is formed thereon.

The partitioning case (10) according to claim 1, wherein the partitioning case (10) is provided with a flow preventing portion (14)
Wherein the flow preventive part (14) is constituted by a ring fixed to the bracket provided on the structure, or a magnet attached and fixed to the iron structure by a magnetic force.

The method according to claim 1,
The winding shaft 30 is fixed to the partition case 10 in a fixed state in which it is not rotated,
And a spring spring for providing an elastic force in a state of being connected between the winding shaft (30) and the partitioning member (20) so that the partitioning member (20) is wound on the winding shaft (30).

The method according to claim 1,
The winding shaft 30 is fixed to the partition case 10 in a state in which it can idle,
And a knob for rotating the winding shaft (30) by being protruded to the outside of the partition case (10) while being fixed to the end of the winding shaft (30).

The device of claim 1, wherein the partition retaining member (60)
An upstanding shaft 62 rising on both sides of the partition case 10,
And a hook portion (61) spaced apart from the rising shaft (62) by a predetermined distance.

8. The apparatus of claim 7, wherein the partition retaining member (60)
And an engaging portion (63) provided at both ends of the standing shaft (62) to be engaged with the other partition shape retaining member (60)
The engaging portion 63 is composed of protrusions and grooves detachably coupled to both ends of the standing shaft 62,
Wherein the protrusions as the engaging portions (63) and the grooves are coupled to each other so that the rising shafts (62) are joined together in a row to increase the length.

The structure according to claim 7, including a structure complementary member (64) whose both ends are connected to the top of the partition shape retaining members (60) to complement the structure,
The structure supplementing member 64 is provided with mounting holes 65 at both ends thereof so that the upper end of the partition shape maintaining member 60 is engaged,
Wherein the mounting opening (65) is coupled to the upper end of the partition retaining member (60) such that the structural retaining member (64) is connected to the upper end of the partition retaining members (60).

The device of claim 1, wherein the partition retaining member (60)
A plurality of shape retaining shafts 60a spaced apart at a predetermined interval,
A metal plate 60b provided on the shape retaining shaft 60a,
And a magnet (60c) provided on the hooking member (50) and magnetically attached and fixed to the metal plate (60a).

The device of claim 1, wherein the partition retaining member (60)
A partitioning bracket 60d provided in the partitioning case 10,
A partitioning shaft 60e rotatably fixed to the partitioning bracket 60d,
And a shaft fixing portion (60f) for fixing the partitioning shaft (60e) in a state of standing on the partitioning bracket (60d).

The device of claim 1, wherein the partition retaining member (60)
A support shaft 60p standing up from the partition case 10,
An annular portion 60q which is fitted in the support shaft 60p and to which the hooking member 50 is caught and fixed,
A tube body 60r fitted to the support shaft 60p,
A male fixing part 60t which is fixed to the tubular body 60r and is fitted in the support shaft 60p and is formed with a cutting groove 60s so as to be pinched by external pressure in a state of passing through the ring part 60q,
And a female fixing part (60u) which is engaged with the male fixing part (60t) in a state of being fitted to the support shaft (60p) and pressed and closed.

The device of claim 1, wherein the partition retaining member (60)
A rotation drive member 60w provided on both sides in the partition case 10,
A screw shaft 60x connected to the rotation drive member 60w in an upright state and rotated by the rotational force of the rotation drive member 60w,
A nut 60y screwed to the screw shafts 60x,
And a restricting portion (60z) provided on each of the nuts (60y) and restricting both ends of the hooking member (50).

The method according to claim 1,
The partition shape retaining member 60 is formed with a retaining hole 61a through which the retaining member 60 is laterally inserted,
And a fastening portion (70) for fastening the partition form retaining member (60) to the partition case (10)
The fastening portion 70
A tubular body 71 formed in the partition case 10 and having a side hole 75 formed laterally,
An elastic body 72 for providing an elastic force in a state of being embedded in the tubular body 71,
A retaining pin 73 which is held in the tubular body 71 and is elastically supported by the elastic body 72 so as to be inserted into the retaining hole 61a of the partition retaining member 60,
And a manipulation knob (74) formed to protrude laterally of the engaging pin (73) and projected outward through a side hole (75) of the tube (71) to be manipulated by a user.

The method according to claim 1,
The partition shape retaining member 60
A guide 66 which stands on the partition case 10,
A pulley 67 provided in the guide 66,
A lifting rope 68 one end of which is fixed to the hooking member 50 in a state spread over the pulley 67,
And a driving member (69) for forwardly rotating in a state where the other end of the lifting rope (68) is connected to raise the partitioning member (20) and reverse the rotation so as to lower the partitioning member (20) .

A limit switch (80) for stopping the operation of the driving member (69) is provided at an upper end and a lower end of a guide (66), as the hooking member (50) .