KR20230018749A - power supply apparatus of kinetic louver module - Google Patents

Abstract

Disclosed is a power supply apparatus of a kinetic louver module. According to the present invention, the power supply apparatus of the kinetic louver module, which supplies power to the kinetic louver module capable of performing a kinetic motion and emitting light to a surrounding region by being provided in a supported state near a ceiling and provided to rise/fall between the ground and the ceiling, comprises: a plurality of power supply units fixed and installed on a wall surface of a ceiling of a building to be spaced apart from each other, and receiving power from the outside; and a plurality of second power supply units arranged at a position corresponding to the plurality of first power supply units of a module support frame of the kinetic louver module, and separably coupled to the plurality of first power supply units, and receiving the power supplied from the first power supply units when coupled to the plurality of first power supply units, and supplying the power for the kinetic motion and the light emission of the kinetic louver module. According to the present invention, by applying the structures of the first and second power supply units which are separable from each other, there is no need to prepare extended power cables and communication cables and the like to correspond to the floor height of a building for elevating the kinetic louver module to near the ceiling and lowering the kinetic louver module to the ground, and power can be supplied to related parts more efficiently through the simple power supply structure.

Description

Power supply apparatus of kinetic louver module {power supply apparatus of kinetic louver module}

The present invention relates to a power supply device for a kinetic louver module that supplies power to a kinetic louver module installed on the ceiling of a building and capable of producing various planned kinetic motions.

Kinetic art is an art based on movement. Kinetic art can be realized as mechanical operation powered by air flow or motor by giving mechanical engineering movement to a still sculpture. It's an art genre you're doing.

Kinetic art is a moving art work that draws people's attention, can maximize movement according to the effects of materials and light, and is actively used in advertisements, brand promotion, exhibitions, public sculptures, performances, etc. in combination with media art of other genres. It is being utilized.

Most of the movement of kinetic art devices is controlled by the artist who produces the kinetic art or controlled through a program, and the artist or developer designs the movement for this purpose.

These kinetic art devices are installed and utilized in places in various fields, and are currently applied to louvers of buildings as an example to provide people with a dynamic sense of aesthetics.

The kinetic art device applied for the louver is fixed near the ceiling of the building to produce a kinetic motion, and must be lowered to the ground for maintenance.

On the other hand, the kinetic art device is provided with a driving unit such as a motor for directing various kinetic motions, a lighting unit for light emission, etc. Conventionally, power cables, communication cables for transmitting control signals, etc. are provided to supply power to these driving units and lighting units. It is wired to this kinetic art device.

As described above, when the kinetic art device is lowered to the ground for maintenance of the kinetic art device, conventionally, a power cable and a communication cable are simultaneously lowered to the ground. To elaborate, if the building's floor height is several meters to several tens of meters, power cables and communication cables were also prepared in advance to a considerable length and released from a separate drum to go down to the ground at the same time as the kinetic art device.

This conventional method inevitably increases the cost due to the increase in the length of the cable, and while the kinetic art device operates in a state supported near the ceiling, the cable of considerable length is wound around the drum near the ceiling. There is a problem in terms of stability that a significant load must be applied to the cable support member as it must be supported by the cable support member of the cable support member.

Therefore, the present applicant proposes a power supply structure with a simple structure that does not require the preparation of extending power cables and communication cables long enough to correspond to the floor height of a building in order to elevate the kinetic art device.

Republic of Korea Patent Registration No. 10-1402661 (2014.06.03 announcement)

The present invention was made to solve the above-mentioned conventional problems, and in order to raise the kinetic art device to the vicinity of the ceiling and descend to the ground, the power cable, communication cable, etc. are extended long enough to correspond to the height of the building. It is an object of the present invention to provide a power supply of a kinetic louver module having a power supply structure of a simple structure that does not need to be.

According to one aspect of the present invention, it is provided in a supported state near the ceiling but is provided to be able to move up and down between the ground and the ceiling, and supplies power to a kinetic louver module capable of radiating light to the surrounding area while performing a kinetic motion, A plurality of first power supply units that are fixedly installed on a ceiling wall of a plurality of units spaced apart from each other and receive power from the outside; And provided in plurality at a position corresponding to the plurality of first power supply units of the module support frame supporting the kinetic louver module, but coupled to be separable from the plurality of first power supply units, and when coupled, from the first power supply unit. There is provided a power supply device for a kinetic louver module including a plurality of second power supply units for receiving supplied power and supplying power for kinetic motion and light emission of the kinetic louver module.

Each of the plurality of first power supplies includes an upper holder fixed to a ceiling wall of the building and made of an electrically non-conductive material; and a plurality of upper terminals provided in the upper holder and made of an electrically conductive material so as to receive power from the outside, and having a structure with a bottom opening and an insertion groove formed therein.

Each of the plurality of second power supplies includes a lower holder fixed to the module support frame and made of an electrically non-conductive material; and a plurality of lower terminals provided in the lower holder, made of an electrically conductive material, inserted into the insertion groove in a state of elastically pressing the inner wall of the insertion groove, and detachable from the insertion groove. can

The lower terminal may include a head portion insertable into the insertion groove and having a hemispherical outer surface; a power connection part spaced apart from the head part and receiving power supplied from the first power supply part and connected to supply power for kinetic motion and light emission of the kinetic louver module; and an elastic deformable portion connected between the head portion and the power connection portion and elastically deformed at least in part when inserted into the insertion groove so as to elastically adhere to the inner wall of the insertion groove.

The elastic deformation part may include a connection part connected to the power supply connection part; and an end portion of the head portion and an end portion of the connection portion are disposed apart from each other in a circumferential direction and connect the head portion and the connection portion, and when an external force is not applied, a shape extending outward compared to the head portion and the connection portion. It may include a plurality of elastic contact pieces elastically deformed when inserted into the insertion groove and elastically adhered to the inner wall of the insertion groove.

The head portion and the elastic deformation portion may be integrally formed and detachably coupled to the power connection portion.

The elastic deformation part may be screwed to the power connection part.

When the lower terminal is inserted into the insertion groove, a lower opening of the upper terminal contactable with the elastically deformable portion may be provided with a round surface in a circumferential direction.

Each of the upper holder and the lower holder may be provided with a coupling guide portion for inducing coupling of the lower terminal to the insertion groove in a home position.

The fixed-position coupling induction unit is provided in the upper holder and includes a coupling groove having a conical shape; and a coupling protrusion provided on the lower holder to be inserted into the coupling groove and having a conical shape.

The coupling groove includes a first coupling groove made of a conical shape and a second coupling groove connected to the first coupling groove and made of a cylindrical shape, and the coupling protrusion is coupled to the first coupling groove correspondingly. It may include a first engaging protrusion and a second engaging protrusion coupled to the second engaging groove and connected to the first engaging protrusion.

An inner surface of the second coupling groove and an outer surface of the second coupling protrusion may be parallel to an insertion direction of the lower holder into the upper holder.

A plurality of dampers each interposed between the ceiling wall surface of the building and the plurality of first power supply units to absorb external vibrations may be further included.

According to the power supply device of the kinetic louver module of the present invention described above, by applying the mutually separable first and second power supply structures, the power cable for rising to the vicinity of the ceiling and descending to the ground of the kinetic louver module There is no need to extend and prepare communication cables long enough to correspond to the floor height of the building, and power can be supplied to related parts more efficiently through a simple power supply structure.

In addition, by additionally providing a damper, when vibration occurs in a building due to an earthquake or other factors, such vibration is transmitted to the kinetic louver module to prevent safety accidents from occurring.

In addition, as the second power supply unit is made of a structure that can be separated or combined with the first power supply unit, the kinetic louver module can be lowered to the ground when repair or parts replacement of the kinetic louver module is required, so that the operator can easily work on the ground. Therefore, it has advantages in terms of safety accident prevention and maintenance during work.

In addition, by providing the first power supply unit and the second power supply unit, respectively, by providing an in-position coupling induction unit for inducing in-position coupling with each other, it is possible to quickly and easily induce the in-position coupling of the first power supply unit and the second power supply unit. can

In addition, as the integral head part and the elastic deformable part are detachably coupled to the power connection part, the elastic deformable part that may be worn can be easily replaced with a new part, preventing the occurrence of defective electricity and maintaining a stable energized state. can

1 is a view showing a state in which the first and second power supplies of the power supply of the kinetic louver module according to an embodiment of the present invention are coupled to each other;
2 is a view showing a state in which the first and second power supplies of the power supply of the kinetic louver module according to an embodiment of the present invention are separated from each other;
Figure 3 is a side view showing a state in which the first and second power supplies of the power supply of the kinetic louver module according to an embodiment of the present invention are separated from each other;
4 is a view showing a state in which the first and second power supplies of the power supply device of the kinetic louver module according to an embodiment of the present invention are separated from each other and the kinetic louver module moves downward to the ground;
5 is a perspective view showing a state in which the first and second power supplies of the power supply of the kinetic louver module according to an embodiment of the present invention are separated from each other;
Figure 6 is a cross-sectional view showing a state in which the first and second power supplies of the power supply of the kinetic louver module according to an embodiment of the present invention are partially coupled to each other;
Figure 7 is an exploded perspective view showing the lower terminal of the power supply of the kinetic louver module according to an embodiment of the present invention;
8 is a cross-sectional view showing the lower terminal of the power supply of the kinetic louver module according to an embodiment of the present invention;
9 is a view showing a state in which the lower terminal is inserted into the insertion groove of the upper terminal in the power supply of the kinetic louver module according to an embodiment of the present invention;
10 is a view showing a process of in-position coupling between a first power supply unit and a second power supply unit while the kinetic louver module moves upward in a state where the kinetic louver module moves downward in the power supply device of the kinetic louver module according to an embodiment of the present invention. .

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only these embodiments will complete the disclosure of the present invention, and will fully cover the scope of the invention to those skilled in the art. It is provided to inform you. Like reference numerals designate like elements in the drawings.

The power supply device of the kinetic louver module according to a preferred embodiment of the present invention simply applies the power supply structure to the kinetic louver module located on the ceiling and directing the kinetic motion, thereby moving the kinetic louver module to the ground for maintenance / repair. When lowered, it is possible to suppress the situation in which a power cable of approximately the same/similar length as the height of the building is required, and the situation in which the installation stability of the kinetic louver module is threatened due to the power cable of this length being located near the ceiling can be suppressed. .

The first and second power supply units to be described below will be described in advance that not only the power connection but also the communication line connection is possible.

Hereinafter, the present invention will be described in detail with reference to examples.

1 to 4, the power supply device of the kinetic louver module according to the embodiment of the present invention is provided in a state supported by a lifting wire connected to a lifting device (not shown, hoist, etc.) near the ceiling This is to supply power to the kinetic louver module 100 capable of radiating light to the surrounding area as well as performing a kinetic motion provided to be able to move up and down between the ground and the ceiling.

Prior to describing the present invention, the kinetic louver module 100 will be briefly described.

As shown in FIGS. 1 to 4 , the kinetic louver module 100 includes a module support frame 110 and a plurality of kinetic louver units 120 .

A plurality of kinetic louver units 120 are installed to be spaced apart from each other in the transverse direction with respect to the module support frame 110, and the plurality of kinetic louver units 120 are made to individually produce dynamic motion. It can also be directed to show the same movement as each other.

The kinetic louver unit 120 includes a first louver frame part 121, a second louver frame part 122 and a lifting and lowering driving unit 123. The first louver frame portion 121 is disposed on the lower side of the module support frame 110 . The second louver frame part 122 is similarly disposed on the lower side of the module support frame 110, and one end connected to the first louver frame part 121 is connected to the first louver frame part 121 so that the hinge can rotate. do. That is, a hinge connection part (not shown) for mutual hinge rotation is provided at a connection portion between the first louver frame part 121 and the second louver frame part 122. The first louver frame part 121 and the second louver frame part 122 are supported so as to be able to move up and down with respect to the module support frame 110 through the elevating driving unit 123.

In the embodiment of the present invention, the first louver frame part 121 and the second louver frame part 122 each have LEDs (not shown) and power supply and light emitting state to radiate various colors of light to the surrounding area. A light emitting control unit (not shown) for controlling the light is installed.

The elevating driver 123 is installed on the module supporting frame 110 to elevate and lower while supporting the first and second louvered frame parts 121 and 122 with respect to the module supporting frame 110 . Specifically, the elevating driver 123 includes a first elevating driver 124 , a second elevating driver 127 , and a third elevating driver 131 .

The first lifting and lowering driver 124 connects between the module support frame 110 and the first louver frame part 121, and the first wire 125 connected to the first louver frame part 121 and the first wire It winds or unwinds 125 and has a first wire winding part 126 installed on the module support frame 110 . Similarly, the second lifting and lowering driver 127 connects between the module support frame 110 and the second louver frame part 122, and the second wire 128 connected to the second louver frame part 122 and the second louver frame part 122 It winds or unwinds the 2 wires 128 and has a second wire winding unit 129 installed on the module support frame 110 . In addition, the third lifting and lowering driving unit 131 connects between the module support frame 110 and the hinge connection portion of the first and second louver frame parts 121 and 122, that is, the hinge connection portion (not shown), and the hinge connection portion (not shown) It has a third wire 132 connected to the case) and a third wire winding unit 133 that winds or unwinds the third wire 132 and is installed on the module support frame 110.

In addition, the first to third wire winding units 126 , 129 , and 133 each include a winch drum (not shown) capable of winding the first to third wires and a servomotor (not shown) for winding or unwinding the wire by rotating the winch drum in a forward and reverse direction. city) may be included.

On the other hand, as described above, the first louver frame part 121 and the second louver frame part 122 include a led (not shown) and a servo motor (not shown) for light emission and wire driving, such a configuration For their operation, an external power supply is required.

The power supply device of the kinetic louver module according to an embodiment of the present invention is for supplying power to an LED (not shown) and a servo motor (not shown), as shown in FIGS. 1 to 4, a plurality of It includes a first power supply unit 200, a second power supply unit 300, and a damper 600.

As shown in FIGS. 1 to 4 , a plurality of first power supply units 200 are fixedly installed on the ceiling wall of a building to be spaced apart from each other, specifically corresponding to the edge corner area of the module support frame 110, and are installed from the outside. Receives power for LED lighting and servo motor driving. In addition, the first power supply unit 200 can receive both a large current for motor driving and a small current for LED light emission.

As shown in FIG. 5 , each of the plurality of first power supply units 200 includes an upper holder 210 and a plurality of upper terminals 220 .

The upper holder 210 is fixed to the ceiling wall of the building and is made of an electrically non-conductive material such as plastic. In the related drawings, a damper 600 described later is interposed between the ceiling wall of the building and the upper holder 210, but is not limited thereto, and the upper holder may be directly installed on the ceiling wall.

The upper terminal 220 is provided in plural spaced apart from each other along the circumferential direction of the upper holder 210 and is made of an electrically conductive material to receive power from the outside.

As shown in FIGS. 5 and 6, the upper terminal 220 is connected to an upper terminal body 230 having an open lower side and an insertion groove 231 formed therein, and an upper end of the upper terminal body 230, and is connected to the outer side. It includes a wire 240 electrically connected to the supply power.

Next, as shown in FIGS. 1 to 4, the second power supply unit 300 is provided in plurality at a position corresponding to the plurality of first power supply units 200 on the module support frame 110, but a plurality of first power supply units 300 are provided. It is coupled to the power supply unit 200 and detachable.

In addition, during normal operation of the kinetic louver module 100, the first power supply 200 and the second power supply 300 maintain a state electrically connected to each other, so that the external power supply is the first power supply -> the second power supply. It can be supplied to LED, servo motor, etc. through the power supply unit. Unlike this, when repairing/inspecting the kinetic louver module 100, the second power supply 300 is separated from the first power supply 200, and thus the kinetic louver module can be more easily descended to the ground. To elaborate, in the past, the power line for supplying power to the led and servo motor is provided with a length corresponding to the falling distance (height of the building) of the kinetic louver module, and when the kinetic louver module descends, the power line must also descend at the same time Although there was a problem in which the power line and the first and second louver frame parts were twisted or entangled with each other, the present invention can solve the above-mentioned problem through the separation structure of the first power supply unit 200 and the second power supply unit 300.

As shown in FIGS. 5 and 6 , each of the plurality of second power supply units 300 includes a lower holder 310 and a plurality of lower terminals 320 .

The lower holder 310 is fixed to the top of the module support frame 110 and is made of an electrically non-conductive material such as plastic.

A plurality of lower terminals 320 are provided to be spaced apart from each other along the circumferential direction of the lower holder 310 and are made of an electrically conductive material to receive power supplied to the first power supply unit 200 .

In addition, when the lower terminal 320 is inserted into the insertion groove 231 of the upper terminal 220, the inner wall of the insertion groove 231 can be elastically pressed. As will be described in detail below, the mechanical bonding force between the upper terminal 220 and the lower terminal 320 is increased through such elastic pressing, and the contact area between them is increased, so that current conduction is also made more stable. can do.

In addition, the lower terminal 320 can be separated from the insertion groove 231, that is, can be easily separated from the insertion groove 231 when the kinetic louver module 100 moves downward while being inserted into the insertion groove 231.

As shown in FIGS. 6 to 8 , the lower terminal 320 includes a head part 330 , a power connection part 340 and an elastic deformation part 350 .

The head portion 330 has a hemispherical outer surface and can be inserted into the insertion groove 231 .

The head portion 330 is initially inserted when the lower terminal 320 is inserted into the insertion groove 231 of the upper terminal 220, and can be more easily inserted into the insertion groove as it has a hemispherical outer surface. can In other words, due to the appearance of the head portion 330 having a certain curvature or more, when the lower terminal is inserted, even if the head portion 330 contacts the lower edge portion of the upper terminal body 230, it is easy to insert the center of the insertion groove 231. Insertion into the region can be induced. Here, the inside of the head part 330 may be formed as an empty space or may be formed in a filled form.

The power connection unit 340 is spaced apart from the head unit 330 and receives power supplied from the first power supply unit 200 and is connected to supply power for kinetic motion and light emission of the kinetic louver module 100.

The elastic deformation part 350 connects between the head part 330 and the power connection part 340, and when inserted into the insertion groove 231, at least a portion thereof is elastically deformed so as to be elastic to the inner wall of the insertion groove 231. It is made so that it can adhere. Through such elastic close contact, the mutual contact area between the lower terminal 320, that is, the elastic deformation part 350 and the upper terminal 220 may be increased. Through such elastic contact pressing, mechanical bonding force between the upper terminal 220 and the lower terminal 320 is increased and the contact area between them is increased, and current conduction can also be performed more stably.

Specifically, as shown in FIGS. 6 to 8 , the elastic deformation part 350 includes a connecting part 351 and a plurality of elastically contacting pieces 352 .

The connection part 351 is made such that one side is connected to the power connection part 340 .

A plurality of elastic contact pieces 352 are provided to be spaced apart from each other, and are spaced apart from each other along the circumferential direction of the end of the head part 330 and the end of the connection part 351, and the head part 330 and the connection part Connect (351).

As shown in FIG. 9 , the elastic contact piece 352 has an outwardly expanded shape compared to the head portion 330 and the connection portion 351 when no external force is applied (a state before being inserted into the insertion groove). In addition, when the kinetic louver module 100 is raised to the ceiling by the hoist drive and the elastic contact piece 352 is inserted into the insertion groove 231, the elastic contact piece 352 is elastically deformed so as to be folded inward to insert the insertion groove ( 231) is elastically adhered to the inner wall. Since the effective part through such elastic adhesion has been described above, redundant description will be omitted. In the embodiment of the present invention, the inner regions of the plurality of elastic contact pieces 352 are formed as empty spaces so that when a lateral external force acts on the elastic contact pieces 352 (when inserted into the insertion groove), the elastic contact pieces 352 are sufficiently folded inward. can be transformed

7 and 8, the head portion 330 and the elastic deformation portion 350 are integrally formed, and the integral head portion 330 and the elastic deformation portion 350 are connected to the power supply unit 340. It is preferable to be detachably coupled to.

In addition, when the kinetic louver module 100 is repeatedly raised and lowered multiple times by the hoist drive, and the head part 330 and the elastic deformation part 350 repeatedly perform insertion into and out of the insertion groove 231, the upper terminal There is a high possibility that the head portion 330 and the elastic deformation portion 350 may be worn due to contact friction between the body 230, the head portion 330, and the elastic deformation portion 350. In particular, the possibility of abrasion of the elastic contact piece 352 escaping outward from the state of elastic contact with the inner wall of the insertion groove 231 is particularly high, and the elastic restoring force of the elastic contact piece 352 may also be reduced compared to the initial state. there is.

When such abrasion progresses for a considerable period of time, in particular, the contact area between the elastic contact piece 352 and the inner wall of the insertion groove 231 may be reduced from the initial state due to a reduction in the elastic restoring force of the elastic contact piece 352 and surface abrasion. , Accordingly, the mechanical bonding force between the upper terminal 220 and the lower terminal 320 is weakened, and current conduction may proceed unstable due to a decrease in contact area between them.

In order to prevent such a problem from occurring, the present invention applies a structure in which the head part 330 and the elastic deformation part 350 are detachably coupled to the power connection part 340 so that the head part 330 and the elastic deformation part 350 ), or when the elastic restoring force of the elastic contact piece 352 is reduced to a certain level or less, it can be used by replacing it with a new part. For example, the elastic deformation unit 350 can be detachably coupled to the power connection unit 340 through screw coupling, and a worker can easily replace and install a new one.

6 and 9, in the embodiment of the present invention, the lower opening of the upper terminal 220, that is, the upper terminal body 230, is provided with a round surface 232 along its circumferential direction.

The plurality of elastic contact pieces 352 and the upper terminal body 230 in an initial state in which the elastically deformable part 350 is inserted into the insertion groove 231 while the lower terminal 320 moves upward with respect to the upper terminal 220. ) is first contacted with the lower end. Here, when the lower end of the upper terminal body 230 forming the lower opening is made in the form of an angular corner, the sharp corner end can locally press the elastic contact piece 352, and accordingly, the elastic contact piece 352 ) may not be elastically restored, and the contact area between the elastic contact piece 352 and the inner wall of the insertion groove 231 may be reduced, resulting in problems in stable current conduction. In this case, due to the occurrence of defects and reduced durability of the lower terminal 320, a problem in that parts must be frequently replaced occurs.

The present invention can prevent the occurrence of the aforementioned problem by providing the round surface 232 along the circumferential direction of the lower opening of the upper terminal body 230 .

In the embodiment of the present invention, the normal kinetic motion of the first louver frame part 121 and the second louver frame part 122 of the kinetic louver module 100 is the first power supply 200 and the second power supply 300 ) is made in a mutually coupled state.

On the other hand, when repair and inspection of the kinetic louver module 100 is required, the lift unit (not shown) releases the module lift wire 150 to lower the kinetic louver module 100 to the ground in order to eliminate the risk of work at height. At this time, the coupling state between the first power supply unit 200 and the second power supply unit 300, that is, the coupling state between the upper terminal 220 and the lower terminal 320 is released. When the operator completes the inspection and repair, the lifting unit (not shown) raises the kinetic louver module 100 toward the ceiling while winding the module lifting wire 150, and at this time, the first power supply unit 200 and the second power supply unit (300) is made in a mutually coupled state.

That is, in the embodiment of the present invention, the second power supply unit 300 has a structure that can be separated from or combined with the first power supply unit 200 by driving an elevation unit (not shown).

The present invention lowers the kinetic louver module 100 to the ground by driving an elevator (not shown), so that the operator can easily work on the ground when repair and replacement of parts of the kinetic louver module 100 are required. Among them, there are advantages in terms of safety accident prevention and maintenance.

On the other hand, the kinetic louver module 100 is moved up and down depending on the module lift wire 150, and as described above, while the kinetic louver module 100 is lowered to the ground and moved upward to the ceiling again, the first power supply unit ( 200) and the second power supply unit 300, it is required to adjust the coupling position so that they are mutually coupled.

To elaborate, while the kinetic louver module 100 rises, shaking occurs in the left and right, forward and backward directions, and this shaking causes coupling between the first power supply unit 200 and the second power supply unit 300 to be disturbed. Bar, a structure for more stable and quick coupling to each other is required.

To this end, as shown in FIGS. 5 and 6, the upper holder 210 and the lower holder 310 each have a fixed position for inducing a fixed position coupling of the lower terminal 320 to the insertion groove 231. A coupling induction unit 400 is provided.

Specifically, the fixed-position coupling induction unit 400 may include a coupling groove 410 and a coupling protrusion 420 having a conical shape.

The coupling groove 410 is provided on the upper holder 210 so that the pointed end faces the ceiling wall of the building. In addition, the coupling protrusion 420 is provided on the lower holder 310 so as to be inserted into the coupling groove 410 . However, it is not limited to this, and the positions of the coupling groove 410 and the coupling protrusion 420 are applied opposite to each other, so that the coupling groove is provided in the lower holder and the coupling protrusion may be provided in the upper holder, but hereinafter, the former It is described and illustrated on a case by case basis.

As shown in FIG. 6, the coupling groove 410 includes a first coupling groove 411 having a conical shape and a second coupling groove 412 connected to the first coupling groove 411 and having a cylindrical shape. do.

In addition, the coupling protrusion 420 is made of a first coupling protrusion 421 formed in a conical shape to correspond to the first coupling groove 411 and a cylindrical shape to correspondingly couple to the second coupling groove 412, It includes a second coupling protrusion 422 connected to the coupling protrusion 421 .

Therefore, even if the imaginary straight line connecting the centers of the first power supply unit 200 and the second power supply unit 300 is not made in the form of a vertical line, that is, the first power supply unit on a vertical line due to shaking of the kinetic louver module 100 Even if the centers of the 200 and the second power supply unit 300 are not located on a straight line, the pointed end of the first coupling protrusion 421 of the coupling protrusion 420 extends to the pointed bottom of the first coupling groove 411. Can be easily guided. Through the structure of the conical first coupling protrusion 421 and the first coupling groove 411, the insertion groove 231 and the lower terminal 320 can be coupled quickly and easily in place.

In the embodiment of the present invention, the inner surface of the second coupling groove 412 and the outer surface of the second coupling protrusion 422 are preferably made parallel to the insertion direction of the lower holder 310 to the upper holder 210. .

Hereinafter, a process of inducing a fixed position coupling of the lower terminal 320 to the insertion groove 231 will be further described.

As shown in FIG. 10, the state in which the centers of the first power supply unit 200 and the second power supply unit 300 are not on the same straight line in the vertical direction due to left and right shaking while the kinetic louver module 100 moves upward. In, when the second power supply unit 300 approaches the first power supply unit 200, the slope of the conical first coupling protrusion 421 and the lower opening of the second coupling groove 412 of the upper holder 210 surround It can make momentary contact preferentially with the edge.

In this momentary contact state, when the kinetic louver module 100 is further moved upward by the hoist drive, the sharp end of the first coupling protrusion 421 is formed by the inclined surface of the first coupling protrusion 421 with the first coupling groove 411. ) and the movement to the central region of the second coupling groove 412 can be guided. Therefore, the inclined surface of the first coupling protrusion 421 formed in a conical shape performs a primary guide function for coupling between the first power supply unit 200 and the second power supply unit 300 in place.

Subsequently, when the kinetic louver module 100 is further moved upward by the hoist drive, contact between the inner surface of the second coupling groove 412 and the outer surface of the second coupling protrusion 422 occurs, as described above, the second coupling The inner surface of the groove 412 and the outer surface of the second coupling protrusion 422 are parallel to the insertion direction of the lower holder 310 into the upper holder 210, so that the lower holder 310 is the same as the upward direction of the kinetic louver module. ) may be combined with the upper holder 210 in place. Therefore, the inner surface of the second coupling groove 412 formed in a substantially vertical direction and the outer surface of the second coupling protrusion 422 are for in-place coupling between the first power supply unit 200 and the second power supply unit 300. It serves as a secondary guide. In this way, while the coupling of the lower holder 310 to the upper holder 210 is in progress, the lower terminal 320 is inserted into the insertion groove 231 at the correct position.

As shown in FIGS. 1 to 4, the power supply device of the kinetic louver module according to an embodiment of the present invention is interposed between the ceiling wall of the building and the plurality of first power supply units 200, respectively, to absorb external vibration. A plurality of dampers 600 are further included.

The damper 600 is capable of absorbing external vibration, and is fixedly installed in plurality to be spaced apart from each other on the ceiling wall of the building. The damper 600 absorbs these vibrations when vibrations occur on the pillars, ceilings, etc. of buildings due to factors such as earthquakes or surrounding construction, so that the first power supply unit 200, the second power supply unit 300 and the kinetic louver module ( 100) can be prevented.

In an embodiment of the present invention, the damper 600 can be applied in various ways, such as a spring structure and a hydraulic/pneumatic cylinder structure.

The first power supply unit 200 is provided in plurality and is integrally provided below each damper 600 . The first power supply unit 200 can partially compensate for the transmission of the vibration offset by a certain amount or more through the damper 600 to the second power supply unit 300, and the upper holder 210 is made of a plastic material. Vibration transmission can be reduced to some extent.

In the above, the present invention has been shown and described in relation to preferred embodiments for illustrating the principles of the present invention, but the present invention is not limited to the configuration and operation as shown and described. Rather, it will be appreciated by those skilled in the art that many changes and modifications may be made to the present invention without departing from the spirit and scope of the appended claims.

100: kinetic louver module 120: kinetic louver unit
121: first louver frame part 122: second louver frame part
124: first lifting and lowering driving unit 125: first wire
126: first wire winding unit 127: second lifting and lowering driving unit
128: second wire 129: second wire winding unit
131: third lifting and lowering driving unit 132: third wire
133: third wire winding unit 200: first power supply unit
210: upper holder 220: upper terminal
230: upper terminal body 231: insertion groove
232: round surface 300: second power supply
310: lower holder 320: lower terminal
330: head part 340: power connection part
350: elastic deformation part 351: connection part
352: elastic contact piece 400: fixed-position coupling induction unit
410: coupling groove 411: first coupling groove
412: second coupling groove 420: coupling protrusion
421: first coupling protrusion 422: second coupling protrusion
600: damper

Claims (13)

It is provided in a supported state near the ceiling, but is provided so that it can be moved up and down between the ground and the ceiling, and supplies power to the kinetic louver module capable of radiating light to the surrounding area as well as performing kinetic motion,
A plurality of first power supply units that are fixedly installed and spaced apart from each other on the ceiling wall of the building and receive power from the outside; and
Provided in a plurality of positions corresponding to the plurality of first power supply units of the module support frame supporting the kinetic louver module, but coupled to be separable from the plurality of first power supply units, supplied from the first power supply unit when coupled The power supply device of the kinetic louver module including a plurality of second power supply units for receiving the power and supplying power for kinetic motion and light emission of the kinetic louver module. According to claim 1,
Each of the plurality of first power supplies,
an upper holder fixed to a ceiling wall of the building and made of an electrically non-conductive material; and
The power source of the kinetic louver module, characterized in that it includes a plurality of upper terminals provided in the upper holder and made of an electrically conductive material to receive power from the outside, and including a structure with a lower opening and an insertion groove formed therein supply. According to claim 2,
Each of the plurality of second power supplies,
a lower holder fixed to the module support frame and made of an electrically non-conductive material; and
Including a plurality of lower terminals provided in the lower holder, made of an electrically conductive material, inserted into the insertion groove in a state of elastically pressing the inner wall of the insertion groove, and detachable from the insertion groove. Characterized by the power supply of the kinetic louver module. According to claim 3,
The lower terminal,
a head portion capable of being inserted into the insertion groove and having a hemispherical outer surface;
a power connection part spaced apart from the head part and receiving power supplied from the first power supply part and connected to supply power for kinetic motion and light emission of the kinetic louver module; and
A kinetic louver module comprising an elastic deformation portion connected between the head portion and the power connection portion and elastically deformed at least in part when inserted into the insertion groove so as to be elastically adhered to the inner wall of the insertion groove. 's power supply. According to claim 4,
The elastic deformation part,
a connection unit connected to the power connection unit; and
The head part and the connection part are connected in a state in which the ends of the head part and the connection part are spaced apart from each other along the circumferential direction, and when an external force is not applied, a shape extended outward compared to the head part and the connection part The power supply device of the kinetic louver module, characterized in that it comprises a plurality of elastic contact pieces that are elastically deformed when inserted into the insertion groove and elastically adhered to the inner wall of the insertion groove. According to claim 4,
The head part and the elastic deformation part,
The power supply device of the kinetic louver module, characterized in that integrally formed and detachably coupled to the power connection part. According to claim 6,
The power supply of the kinetic louver module, characterized in that the elastic deformation portion is screwed with the power connection portion. According to claim 4,
When the lower terminal is inserted into the insertion groove, the power supply device of the kinetic louver module, characterized in that the lower opening of the upper terminal contactable with the elastic deformation portion is provided with a round surface along the circumferential direction. According to claim 3,
The power supply device of the kinetic louver module, characterized in that each of the upper holder and the lower holder is provided with a fixed-position coupling guide for inducing a fixed-position coupling of the lower terminal to the insertion groove. According to claim 9,
The in-position coupling induction unit,
a coupling groove provided in the upper holder and having a conical shape; and
The power supply device of the kinetic louver module, characterized in that it is provided on the lower holder so as to be inserted into the coupling groove and includes a coupling protrusion having a conical shape. According to claim 10,
The coupling groove,
A first coupling groove made of a cone shape and a second coupling groove connected to the first coupling groove and made of a cylindrical shape,
The coupling protrusion,
The power supply device of the kinetic louver module, characterized in that it comprises a first coupling protrusion correspondingly coupled to the first coupling groove, and a second coupling projection correspondingly coupled to the second coupling groove and connected to the first coupling projection. According to claim 11,
The power supply device of the kinetic louver module, characterized in that the inner surface of the second coupling groove and the outer surface of the second coupling protrusion are made parallel to the insertion direction of the lower holder to the upper holder. According to claim 1,
The power supply device of the kinetic louver module, characterized in that it further comprises a plurality of dampers interposed between the ceiling wall of the building and the plurality of first power supply units to absorb external vibration.

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