KR20110000723U - Rotary lamp cover structure - Google Patents

Abstract

The present invention is composed of a lamp cover that is connected to the support, the mounting portion, the light emitting portion and the installation portion in a rotary lamp cover structure, one end of the support is combined with the installation portion, the other end is assembled to the object to be coupled, The lamp cover is covered on the outside of the light emitting part, the lamp is installed on one side of the holder, and the lamp cover is composed of different light guides for adjusting a plurality of dimming modes. Corresponds to the direction of light emitted by different light guides and lamps, and obtains the corresponding light emission form.

Description

Rotary lamp cover structure

The present invention relates to a rotary lamp cover structure, and more specifically, to the lamp design of the type to adjust the projection of light with a simple operation.

Conventional lamp cover structure may refer to the "adjustable lighting lamp structure" of Patent Document 1, which is adjustable lamp structure is a swivel, a fixed base that is movably coupled with the swivel, and is installed between the swivel and the fixed base is possible to control the rotation It includes a position limiting part, and the rotating table is installed at both ends of the lamp cover and at the same time coupled to both ends of the light emitting unit. In this way, the user can obtain the effect of adjusting the direction of the light source irradiation by moving the lamp cover and the light emitting unit to the required position by the combination of the rotating table and the fixed table.

However, such a conventional lighting lamp structure has the effect of adjusting the light source by rotating the light emitting unit using a combination installation of the swivel and the stator, but rather has the following two drawbacks.

1. The lamp cover of the conventional lighting lamp structure is not specially designed, so the rotation of the light emitting unit changes the light emitting direction, but does not affect the light emitting type, so that it cannot be adjusted to the user's lighting demand.

2. In general, when a user uses a stand-type lighting lamp, the lamp cover is positioned above the lamp so that the lighting direction of the lamp is directed downward so that the required lighting type is satisfied and a suitable ray is directed downward to the object. There is no demand for other projection directions.

The conventional lamp cover adjustment method may be set at the end of the swivel table so that the light emitting unit can be projected to an appropriate projection position. For example, if the range of projection is too large or too large, the light emitting unit may be moved backward to reduce the light beam that the light emitting unit projects on the object. In practice, however, the projection range is fixed and if the light emitting unit is adjusted backward, the position toward the human body is projected by the light beam, which causes other people or objects to reflect the light beam and irritate the eyes. This can lead to closure, which is not ideal for its use.

Patent Document 1: Republic of China Patent Application No. 97218360

The main object of the present invention is to provide a rotary lamp cover structure, to improve the defect that the conventional lamp cover structure can not adjust the type of light projection according to the lighting demand and the defect that the operation method is not ideal.

In order to achieve the object of the present invention described above, the present invention includes a support, an installation portion, a light emitting portion, and a lamp cover that is connected to the installation portion, and one end of the support is coupled to the installation portion and the other end is coupled to It is assembled to an object, the light emitting unit includes a fixture and a lamp which is installed on the installation portion, the lamp is assembled on one side of the fixture to allow the light rays emitted from the lamp to project in a predetermined direction.

The lamp cover is covered on the outside of the light emitting part, and the lamp cover is composed of different light guide stages to adjust multiple dimming modes. The lamp cover is pipe-shaped, the light guide stage is long rod-shaped, and each light guide stage is shaped like a pipe shape of the lamp cover. It is connected one by one.

The light guide stage includes a plurality of protrusion arcs, a plurality of concave arcs, or an optical material contained in the light guide stage, or a combination thereof, thereby forming a curvature value of each light guide stage.

When the lamp cover rotates in response to the mounting part, the light beam of the light emitting part is projected in a predetermined direction so that the light beam is affected by the curvature value designed in the light guide end when it corresponds to the direction in which different light guide groups project the light beam of the lamp. The type of light emission corresponding to the curvature is generated so that the user can easily adjust the lamp cover to obtain the required dimming mode.The light guide end is filled with optical material to adjust the brightness or color temperature value and color difference value of the light beam. Arbitrary combination of the points can be diversified, which makes diversification and adjustment of light beam more versatile.

In addition, the present invention has a light control system, which includes a processing unit installed in the installation unit, a response unit that responds to the lamp cover and rotates to transmit information to the processing unit and generates a change in the light emission type in the light emitting unit; Including a control part connected to the processing unit to control the light emission type of the light emitting unit, the user can easily operate the lamp cover and the control part to directly change the light emission type of the light emitting unit.

The present invention has yet another embodiment, the fixing part of the light emitting part is interlocked with the lamp cover, and a plurality of lamps are installed on the outside of the fixing part, and each lamp dimming direction has a corresponding light guide end, whereby the lamp cover is installed. When rotating in correspondence with the light, the light emitting part rotates with the lamp cover to move the light beam emitted from each lamp through the light guide end of the corresponding position and emits a light type corresponding to the curvature value of the light guide end.

Each light guide stage is provided with a switch component for turning on and off a lamp corresponding to the light guide stage, whereby the user adjusts the flashing state of the lamp corresponding to each light guide stage.

According to the technical configuration of the present invention described above, it is possible to adjust the type of projection by adjusting the light beam with a simple operation.

1 is a three-dimensional schematic diagram of a first embodiment of a rotary lamp cover structure of the present invention.
Figure 2, 3 is a schematic view of the first embodiment of the operation of the rotary lamp cover structure of the present invention.
Figure 4 is a skeleton diagram of the connection relationship of the light adjustment system of the rotary lamp cover structure of the present invention.
Figure 5 is a three-dimensional schematic diagram of a second embodiment of the rotary lamp cover structure of the present invention.
6,7 is a schematic view of the operation of the second embodiment of the rotary lamp cover structure of the present invention.
8 is a three-dimensional schematic view of a third embodiment of the rotary lamp cover structure of the present invention.
9 and 10 is a schematic view of the operation of the third embodiment of the rotary lamp cover structure of the present invention.

The present invention relates to a rotary lamp cover structure, referring to Figure 4 to 4, which is installed in connection with the support 1, the mounting portion (2), the light emitting portion (3) and the mounting portion as a first embodiment of the present invention 1 and 2, one end of the support 1 of the present embodiment is coupled to the pedestal 11, and the other end is assembled with the mounting portion 2, as illustrated in FIGS. The part 3 and the lamp cover 4 are coupled to the installation part 2 (the installation part 2 of the present embodiment is a dish-shaped structure, and the lamp cover 4 is connected to the installation part 2. The entire shape shows a structure of one stand type.

In practice, however, the support 1 is provided for assembling the mounting portion 2, but may be combined with other objects to be assembled so that the mounting portion 2 has a structure corresponding thereto, and the light emitting portion 3 and the lamp cover 4 It is assembled to the mounting portion (2), the support (1) to provide the external or internal power of the light emission to the light emitting portion (3), this embodiment is of course not limited to the shape of the stand shown in the present invention and its structure It is not an important part of the present invention.

The purpose of the present invention is to change the injection method of the light beam by adjusting the lamp cover (4) by the user through the assembly of the lamp cover (4), the light emitting part (3) and the mounting part (2) Since the assembly type and the electricity supply method are not the main technical features described in the present invention, the description of the correlation part will be omitted.

The light emitting part 3 includes a fixture 31 and a lamp 32 which are assembled to a set of mounting parts 2, and the lamp 32 is assembled to one side of the fixture 31, As illustrated in 2, the fixing rod 31 has a long rod shape, one end of which is assembled to the mounting portion 2, and the other end of the fixing rod 31 extends outward corresponding to the mounting portion 2, The lamp 32 is installed below the holder 31 to project the light rays emitted from the lamp 32 to the lower side of the holder 31.

One end of the lamp cover 4 is connected to the installation portion 2, and the other end has a shape extending outward to correspond to the installation portion 2 in the same manner as the fixing base 31, 4) is covered on the outside of the light emitting portion 3 and the lamp cover 4 is composed of different light guide end 41 for adjusting a plurality of dimming modes, as illustrated in Figure 1 lamp cover 4 is pipe-like And the light guide end 41 is a long rod, and each light guide end 41 is connected one by one to form a pipe shape of the lamp cover 4 (the lamp cover 4 outlined in this embodiment is a round pipe). In the shape, there are three light guide ends 41 and the three light guide ends 41 are connected one by one to form a round pipe-shaped lamp cover 4).

The light guide end 41 includes a plurality of projection arcs 411 or a plurality of concave arcs 412, or an optical material 413 contained within the light guide end 41 (the optical material 413 is conventional in the related art). As a material having a light emitting function to be used as, for example, fine particles of a material such as plastic or polymer, the present invention uses the optical material 413 to apply a curvature value to the light guide end 41 to cover the lamp cover 4. Is rotated to correspond to the positions of the light guiding end 41 and the lamp 32 to obtain the light emission form of the curvature value of the light guiding end 41. The excitation curvature value is formed (in the example illustrated in FIG. 2, the protrusion arc 411 is provided outside the light guide end 41 and the optical material 413 is filled therein).

As illustrated in FIGS. 2 and 3, when the lamp cover 4 rotates corresponding to the mounting portion, the light beam projection direction of the light emitting portion 3 is fixed downward so that different light guide stages 41 have different light rays of the lamp 32. When it corresponds to the projection direction, the light beam is affected by the curvature value designed by the light guide end 41 to generate a light emission method corresponding to the curvature value, and the user can easily operate the lamp cover 4 to select the required dimming mode. Each light guide end 41 has a protruding arc 411 or a concave arc 412 or an optical material 413 or a combination of the above-described combinations, each having a different curvature value, so that different types of light illumination effects can be obtained. The optical material 413 is filled in the light guide end 41 to affect the brightness, color temperature, or color difference value emitted by the light beam. It is not concentrated in the area Since the phenomenon of blinding that occurs when being reduced and viewed is reduced, the color temperature value and the color difference value are also affected by the optical material 413 so that the illumination is too cold, warm, or conforms to the type required by the user. By adjusting the effect arbitrarily with respect to the brightness, color temperature value and color difference value (the design method is limited to the selective use of the material, and the gist of the present invention is the optical material 413). Since the color temperature value and the color difference value are adjusted, different single or combinations of different optical materials produce the effect of brightness, color temperature value and color difference value by different single or combination.) In one way, the brightness, color temperature value and color difference value are expressed singly or in any combination to further diversify the dimming effect.

4 illustrates that the present invention includes one light control system 5, which is configured to rotate the lamp unit 4 and the processing unit 51 installed in the installation unit 2. In response, the light emitting unit 3 is connected to the sensing unit 52 and the processing unit 51 to change the light emitting method by transferring information to the processing unit 51 to control the light emitting method of the light emitting unit 3. It includes a control part 53, as shown in Figure 1 shows that the control part 53 is a part that is adjusted step by step in the shape of a rotary button installed in the mounting portion 2, whereby the present invention emits light in two ways It can be seen that the light emitting form of the unit 3 can be changed, one of which is that the user rotates the lamp cover 4 to correspond to the installation unit 2 so that the sensitive unit 52 of the lamp cover 4 The rotation position is sensed and information is sent to the processing unit 51 so that the light emitting portion 3 generates a corresponding light emission type.

For example, when the lamp cover 4 rotates by changing the brightness, color temperature value, and color difference value of the light beam, the light emitting part 3 has an effect of adjusting the light emitting method, and the other type is directly installed by the user. After operating the control part 53 in (2) to adjust the light emitting method of the light emitting unit 3 through the control part 53, or after the user rotates the lamp cover 4 in combination with the above-described usage method The control part 53 is operated to adjust the light emission method, thereby obtaining an illumination environment that meets the user's demand.

5 to 10, this is another embodiment of the rotary lamp cover structure of the present invention, the main parts of which are the same as the first embodiment, so a detailed description will be omitted and will be described only in the other structure below.

5, 6 and 7 show the second embodiment, the cross section of the lamp cover 4 being hexagonal and the outer shape of the pipe shape (the mounting portion 2 of the present embodiment is connected to correspond to one end of the support 1). And the light emitting part 3 and the mounting part 2 are fixedly installed), and six light guide ends 41 are connected one by one to form a hexagonal pipe-shaped lamp cover 4, and each light guide end 41 has a predetermined curvature. It has a value, or has an optical material 413 for adjusting the brightness, color temperature value and color difference value of the light beam, the partial light guide end 41 is provided with a projection arc 411, the partial light guide end 41 A concave arc 412 is provided and the partial light guide end 41 is a combination of the above-described technical features, thereby bringing the effect of adjusting the various dimming modes to the user.

8, 9, and 10 are the third embodiment, in which the fixing stand 31 of the light emitting part 3 is assembled with the lamp cover 4, and a plurality of lamps (outside the fixing stand 31) are provided. 32 is provided, as shown in Figure 9, the cross section of the fixing stand 31 is a triangular shape, each side of the lamp 32 is installed, and the cross section of the lamp cover 4 is also the same triangle, Three light guide stages 41 are provided so that the lighting directions of each lamp 32 all have light guide stages 41 corresponding thereto, so that light is emitted when the lamp cover 4 and the corresponding mounting section 2 rotate. The part 3 rotates together along the lamp cover 4, whereby the curvature value of the corresponding light guide end 41 via the light guide end 41 at a position where the light rays emitted from each lamp 32 correspond to it. The light beams corresponding to the light beam brightness, the color temperature value and the color difference value generated by the optical material 413 filled in the light guide end 41, or The.

In addition, each light guide end 41 is provided with a switch part 42 for controlling the opening and closing of the lamp 32 corresponding to one light guide end 41. When the user operates this embodiment, the light guide end 41 By operating the switch part 42 of the lamp), the lamp 32 corresponding to the light guide end 41 can be opened or closed, and the other lamps 32 can be turned off. By rotating the light beam, the light beam may take an injection method corresponding to the curvature value of the light guide end 41, or the light beam obtained by adjusting the brightness, color temperature value or color difference value through the light guide end 41 may be projected on a desired target. can do.

1: support stand 11: support
2: Mounting part 3: Light emitting part
31: Fixture 32: Lamp
4: lamp cover 41: light guide group
411 ： Excursion arc 412 ： Omok arc
413 ： optical material 43 ： switch parts
5: ray control system 51: processing unit
52: sensitive unit 53: control parts

Claims (6)

It includes a support (1), the mounting portion (2), the light emitting portion (3), and the lamp cover (4) which is connected to the installation portion 2,
One end of the support is coupled to the mounting portion and the other end is assembled to the object to be coupled, the lamp cover is covered on the outside of the light emitting portion, and the light emitting portion includes a fixture 31 and the lamp 32 is installed on the mounting portion The lamp is assembled on one side of the stator, and the lamp cover is composed of different light guide stages 41 for adjusting a plurality of dimming modes.
Rotating lamp cover structure, characterized in that the user through the rotation of the mounting portion corresponding to each other can adjust the direction of the light guide from the different light guide stage and the lamp to obtain the corresponding light emitting form. The method of claim 1,
A plurality of protruding arcs 411 or a plurality of concave arcs 412 are provided in the light guide end, or an optical material 413 is installed in the light guide end or a combination thereof, so that the light guide ends have different curvature values. And the brightness, color temperature value and color difference value of light emission are adjusted by the optical material. The method of claim 1,
It further comprises a light control system (5), which is rotated in response to the processing unit 52 and the lamp cover installed in the mounting portion, and transmits information to the processing unit and generates a change in the light emission type in the light emitting unit. Rotating lamp cover structure characterized in that it comprises a sensitive unit 52, and a control part 53 connected to the processing unit to control the light emission type of the light emitting unit. It includes a support (1), the mounting portion (2), the light emitting portion (3), and the lamp cover (4) which is connected to the installation portion 2,
One end of the support is coupled to the mounting portion, the other end is assembled to the object to be coupled, the lamp cover is covered on the outside of the light emitting portion, the light emitting portion is assembled with the lamp cover and the fixing stand 31 and the It has a lamp 32 installed on the outside, the lamp cover is composed of different light guide stages 41 for adjusting a plurality of light control modes, each switch stage 42 has a switch component 42 for turning on and off the lamp corresponding to the light guide stage Installed,
Through the rotation of the mounting part installed corresponding to the lamp cover, the holder rotates together along the lamp cover so that the user adjusts the necessary light guide stage so that the user can adjust the light beam to the target to be reflected and mix with the lamp corresponding to the position of the light guide stage. A rotary lamp cover structure, characterized in that to generate an injection type. The method of claim 4, wherein
A plurality of protruding arcs 411 or a plurality of concave arcs 412 are installed in the light guide stage, or an optical material 413 is installed in the light guide stage, or a combination thereof, so that the light guide stages have different curvature values. And the brightness, color temperature value and color difference value of light emission are adjusted by the optical material. The method of claim 4, wherein
It further comprises a light control system (5), which is rotated in response to the processing unit 51 and the lamp cover installed in the mounting portion to transmit information to the processing unit to generate a change in the light emission type in the light emitting unit Rotating lamp cover structure characterized in that it comprises a sensitive unit 52, and a control part 53 connected to the processing unit to control the light emission type of the light emitting unit.

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