CN109268700B - Lamp device - Google Patents

Abstract

A lamp device comprises a shell and a light-emitting module. Two guiding and fixing parts opposite to each other are arranged in the shell. The light-emitting module comprises a plate-shaped bearing body, a plurality of clamping pieces, a plurality of light-emitting components and a light-transmitting shielding module. The plate-shaped bearing body is provided with two connecting pieces opposite to each other at one side, and the plate-shaped bearing body can be connected with the two guide fixing pieces through the connecting pieces so as to move relative to the shell along the guide fixing pieces. The plate-shaped bearing body is also provided with a plurality of fixing holes which can be matched with the plurality of clamping fixing pieces so as to mutually fix the plate-shaped bearing body and the guiding fixing pieces. The light-emitting component and the light-transmitting shielding module are fixedly arranged on one side of the plate-shaped bearing body, and the light-transmitting shielding module does not protrude out of one end, far away from the top wall, of the two side walls of the shell. Therefore, the related user can quickly and conveniently replace the light-emitting module arranged in the shell without replacing the whole set of lamp devices.

Description

Lamp device

Technical Field

The present invention relates to a lamp device, and more particularly, to a lamp device capable of adjusting the relative height of a light emitting module of a lamp according to a requirement.

Background

Conventional lighting devices, especially led lighting devices, used in companies or factories are generally not easy to replace the light emitting module, but are designed as a whole, so that the relevant users are unable to replace the whole lighting device when the light emitting module is damaged; in contrast, users cannot change the light emitting modules with different types (e.g., different brightness) according to the requirements, which causes inconvenience in practical applications.

Disclosure of Invention

The present invention is directed to a lighting device, which is used to solve the problem that in the prior art, a lighting device of a light emitting diode cannot be replaced only for a light emitting module and only for an entire lighting device according to the needs of users, thereby causing inconvenience to the users.

In order to achieve the above object, the present invention provides a lamp device, including: a casing, two guide fixing pieces and at least one light-emitting module. The shell is provided with a top wall and two side walls, wherein the two side walls are arranged on two opposite side edges of the top wall, and the two side walls are arranged opposite to each other. The two guiding fixing pieces are respectively arranged on the opposite sides of the two side walls, and each guiding fixing piece is of a long strip-shaped plate-shaped structure. The light emitting module is selectively and fixedly arranged in the shell, can move relative to the shell along the central axis directions of the two guide fixing pieces, and comprises: the light-emitting module comprises a plate-shaped bearing body, two connecting pieces, a plurality of clamping pieces, a plurality of light-emitting components and a light-transmitting shielding module. Two opposite sides of the plate-shaped bearing body are respectively provided with a plurality of fixing holes. The two connecting pieces are respectively formed by extending one wide side surface of the plate-shaped bearing body towards the direction far away from the plate-shaped bearing body, the two connecting pieces are arranged adjacent to two opposite side edges of the plate-shaped bearing body, each connecting piece is provided with a supporting part and a connecting part, and two ends of the supporting part of each connecting piece are respectively connected with the wide side surface and the connecting part; the two connecting parts can be correspondingly connected with the two guiding fixing parts, and the two connecting parts can move relative to the shell along the central axis direction of the two guiding fixing parts; when the two connecting parts are correspondingly connected with the two guiding fixing pieces, the two guiding fixing pieces can correspondingly shield the fixing holes. The plurality of clamping pieces can be correspondingly locked in the fixing holes, and one ends of the clamping pieces correspondingly locked in the fixing holes can correspondingly abut against one sides of the guide fixing pieces far away from the top wall, so that the plate-shaped bearing body is fixedly arranged in the shell. The light-emitting components are fixedly arranged on the other side of the plate-shaped bearing body, which is opposite to the side provided with the connecting pieces. At least one light-transmitting shielding module is fixedly arranged on one side of the plate-shaped bearing body, wherein the light-emitting components are arranged on the side, and the light-transmitting shielding module can correspondingly shield the light-emitting components.

Preferably, the light-transmitting shielding module includes a plurality of lens units corresponding to the light-emitting assemblies, the lens units are correspondingly covered on the light-emitting assemblies, and the light emitted by the light-emitting assemblies can correspondingly pass through the lens units to be emitted; when the light emitting module is fixedly arranged in the shell, the light emitting surface of each lens unit is not exposed out of one end of the side wall, which is far away from the top wall.

Preferably, the lamp device further comprises a plurality of mounting members, each lens unit and the plate-shaped bearing body are provided with a plurality of mounting holes corresponding to each other, and the mounting members can be matched with the mounting holes so that the lens units are fixedly arranged on the plate-shaped bearing body.

Preferably, when the light emitting module is fixedly disposed in the housing, one side of the connecting portion can correspondingly abut against one side of the guiding and fixing member adjacent to the top wall.

Preferably, the top wall is provided with a plurality of top wall fixing holes, the top wall fixing holes are arranged to be adjacent to two ends of the top wall respectively, two ends of the plate-shaped bearing body are provided with a plurality of avoiding holes, and the avoiding holes correspond to the top wall fixing holes; when the light-emitting module is fixedly arranged in the shell, the plurality of fixing pieces can penetrate through the avoiding hole and are correspondingly fixed with the top wall fixing hole in an interlocking manner, so that the shell is fixedly arranged on a wall surface; the lamp device further comprises two end covers, each end cover is provided with a shielding part, the two end covers are fixedly arranged at two ends of the shell, and the two shielding parts can correspondingly shield adjacent avoiding holes.

Preferably, each light emitting assembly includes a substrate and a plurality of light emitting units, the light emitting units are fixedly disposed on the substrate, the substrate is fixedly disposed on the other side of the plate-shaped carrier body opposite to the side on which the connecting member is disposed, the plate-shaped carrier body is of a heat conducting structure, and heat energy generated by operation of the light emitting units can be conducted out through the plate-shaped carrier body.

Preferably, the light emitting module fixedly disposed in the housing, the plate-shaped carrying body and the top wall of the housing are correspondingly formed with an accommodating space, the lamp device further includes a power module, the power module is fixedly disposed on one side of the plate-shaped carrying body where the connecting member is disposed and is correspondingly located in the accommodating space, the plate-shaped carrying body has a plurality of wire holes, and the electrical connection wires of the light emitting assembly can pass through the wire holes and be electrically connected with the power module.

Preferably, the lamp device further includes a wireless transmission module and a processing module, the wireless transmission module and the processing module are electrically connected to the power module, the processing module is electrically connected to the light-emitting device, the wireless transmission module can receive the wireless signal to transmit the wireless signal to the processing module, and the processing module can selectively control the light-emitting device and the power module according to the wireless signal.

Preferably, the lamp device further includes a monitoring module and a processing module, the monitoring module and the processing module are electrically connected to the power module, the processing module is electrically connected to the light emitting component, and the monitoring module can monitor an external environment of the lamp device.

In order to achieve the above object, the present invention also provides a lamp device, including: a casing, two guide fixing pieces and at least one light-emitting module. The shell is provided with a top wall and two side walls, wherein the two side walls are arranged on two opposite side edges of the top wall, and the two side walls are arranged opposite to each other. The two guiding fixing pieces are respectively arranged on the opposite sides of the two side walls, and each guiding fixing piece is of a long strip-shaped plate-shaped structure. At least one light emitting module is selectively fixedly arranged in the shell, and the light emitting module can move relative to the shell along the central axis directions of the two guide fixing pieces, and the light emitting module comprises: the light-emitting module comprises a plate-shaped bearing body, two connecting pieces, a plurality of light-emitting components and at least one light-transmitting shielding module. The two connecting pieces are respectively formed by extending one wide side surface of the plate-shaped bearing body towards the direction far away from the plate-shaped bearing body, the two connecting pieces are arranged adjacent to two opposite side surfaces of the plate-shaped bearing body, each connecting piece is provided with a supporting part and a connecting part, and two ends of the supporting part of each connecting piece are respectively connected with the wide side surface and the connecting part; the two connecting parts can be correspondingly connected with the two guiding fixing parts, and the two connecting parts can move relative to the shell along the central axis directions of the two guiding fixing parts. The light-emitting components are fixedly arranged on the other side of the plate-shaped bearing body, which is opposite to the side provided with the connecting pieces. At least one light-transmitting shielding module is fixedly arranged on one side of the plate-shaped bearing body, wherein the light-emitting components are arranged on the side, and the light-transmitting shielding module can correspondingly shield the light-emitting components. Wherein, the two connecting parts can be correspondingly fixed with the two guiding fixing parts through the gluing parts (or screws).

The beneficial effects of the invention can be that: through the mutual matching of the guiding fixing piece of the shell, the platy bearing body of the light-emitting module and the connecting piece and the matching of the clamping fixing piece and the fixing holes of the platy bearing body, a relevant user can quickly and conveniently replace the light-emitting module arranged in the shell without replacing the whole set of lamp devices; and when the relevant user carries out the replacement operation of the light emitting module, the replacement operation of the light emitting module can be carried out without detaching the shell.

Drawings

Fig. 1 is a schematic view of a lamp device according to the present invention.

Fig. 2 and 3 are exploded schematic views of the lamp device of the present invention.

Fig. 4 to 6 are partially enlarged schematic views of the lamp device of the present invention.

Fig. 7 is a front view of the lamp device of the present invention without the end cap.

Fig. 8A and 8B are schematic views of a luminaire device according to a second embodiment of the present invention.

Fig. 9 is a schematic view of a luminaire device according to a third embodiment of the present invention.

Fig. 10 is a schematic view of a luminaire device according to another embodiment of the present invention.

Detailed Description

[ first embodiment ]

Please refer to fig. 1 to fig. 3, which are schematic assembled and disassembled views of the lamp device of the present invention. As shown in the figure, the lighting device 1 includes a housing 10 and a light emitting module 20 (the number of the light emitting modules 20 may be changed according to the requirement, and may be a single light emitting module or more than two light emitting modules). The light emitting module 20 may be selectively and fixedly disposed in the housing 10, and the light emitting module 20 may be fixedly disposed in the housing 10. In practical applications, the housing 10 is used to be fixed to a ceiling (or any wall), preferably, the housing 10 is made of a material with high thermal conductivity, and the housing 10 may be integrally formed, for example, the housing 10 may be made of aluminum extrusion.

Further, the housing 10 includes a top wall 101 and two side walls 102, the two side walls 102 are respectively connected to two opposite sides of the top wall 101, and the top wall 101 and the two side walls 102 may be similar to an inverted U shape. The opposite sides of the two side walls 102 extend toward the direction close to each other to form a guiding fixing member 11, the two guiding fixing members 11 are disposed opposite to each other, and each guiding fixing member 11 may be located approximately in the middle of the corresponding side wall 102 and adjacent to the top wall 101, but not limited thereto. In a preferred application, each guiding fixture 11 is a plate-like structure, and the distance between each guiding fixture 11 and the top wall 101 is not greater than the distance between each guiding fixture 11 and the end of the side wall 102 connected with the guiding fixture 11 far away from the top wall 101. In practical applications, the guiding fixture 11 may be manufactured integrally with the housing 10, for example, by aluminum extrusion.

As shown in fig. 2 to 4, the light emitting module 20 includes a plate-shaped carrier body 21, two connectors 22, two light emitting elements 23, a light-transmitting shielding module 24 and a plurality of fasteners 25. Two connecting pieces 22 are formed by extending a wide side 21a of the plate-shaped bearing body 21 in a direction away from the plate-shaped bearing body 21, the two connecting pieces 22 are disposed adjacent to two opposite sides of the plate-shaped bearing body 21, each connecting piece 22 has a supporting portion 221 and a connecting portion 222, and two ends of the supporting portion 221 of each connecting piece 22 are respectively connected to the wide side 21a and the connecting portion 222 of the plate-shaped bearing body 21; specifically, each connecting member 22 may be substantially in the shape of an inverted L and is disposed on the wide side 21a of the plate-shaped supporting body 21. Two sides of the plate-shaped bearing body 21, which are adjacent to the two connecting pieces 22 respectively, are formed with a mounting portion 211 between each connecting piece 22, and a fixing hole 2111 is formed at a position where each mounting portion 211 is adjacent to each connecting piece 22.

The two light emitting elements 23 include a substrate 231 and a plurality of light emitting units (not shown, such as light emitting diodes) disposed on the substrate 231. The substrate 231 is disposed opposite to the side where the light emitting unit is disposed, and is correspondingly disposed on the other side of the plate-shaped carrier body 21 opposite to the side where the connecting members 22 are disposed. In practical applications, the substrate 231 may be fixed on the plate-shaped supporting body 21 through screws or related fasteners; in other applications, the substrate 231 may also be fixed on the plate-shaped supporting body 21 by gluing, which is not limited herein. In a preferred embodiment, the plate-shaped supporting body 21 can be a heat conductive material, and the heat generated by the operation of the light emitting assembly 23 can be conducted out through the plate-shaped supporting body 21.

The light-transmitting shielding module 24 may include two lens units 241 corresponding to the two light-emitting assemblies 23, each lens unit 241 may be fixedly disposed on one side of the plate-shaped carrier body 21 not provided with the connecting member 22, and each lens unit 241 includes a light-incident surface 2411, a light-emitting surface 2412 and a circular side wall 2413, the light-incident surface 2411 is a side surface correspondingly covering the light-emitting assembly 23, the light-emitting surface 2412 is a side opposite to the light-incident surface 2411, and the circular side wall 2413 is configured to connect the light-incident surface 2411 and the light-emitting surface 2412. Preferably, the area of the light incident surface 2411 may be larger than that of the light emitting surface 2412, and the annular side wall 2413 may be obliquely connected to the light incident surface 2411 and the light emitting surface 2412; in other words, each lens unit 241 may have an elongated truncated quadrangular pyramid structure. Thus, the light emitted from the light emitting element 23 can be effectively concentrated and emitted from the light emitting surface 2412, so as to effectively utilize the light emitted from the light emitting element 23. In other applications, the light-transmitting shielding module 24 may be any light-transmitting structure and is not limited to a lens. In practical applications, the light emitting surface 2412 of the lens units 241 correspondingly disposed on the plate-shaped carrying body 21 is not exposed to one end of the side wall 102 of the housing 10 away from the top wall; certainly, the light emitting surface 2412 may be exposed at an end of the side wall 102 of the housing 10 away from the top wall, or the light emitting surface 2412 may be flush with an end of the side wall 102 of the housing 10 away from the top wall in other applications.

It should be noted that, in practical applications, each lens unit 241 may include a plurality of mounting holes 2414 penetrating through the lens unit 241, and each lens unit 241 may be correspondingly locked to the plate-shaped carrying body 21 through the plurality of mounting pieces 24A and the mounting holes 2414; thus, the end of the mounting member 24A correspondingly locked to the lens unit 241, which is far away from the lens unit 241, is correspondingly exposed out of the light emitting surface 2412 of the lens unit 241, so that a relevant user or manufacturer can conveniently and quickly mount the lens units 241 on the plate-shaped carrier body 21. In the drawings of the present embodiment, an end of the mounting member 24A protrudes from the light emitting surface 2412 of the lens unit 241, but not limited thereto, and an end of the mounting member 24A away from the lens unit 241 may also be flush with the light emitting surface 2412 of the lens unit 241. In other words, an end of the mounting member 24A away from the lens unit 241 may be protruded, recessed or flush with the light emitting surface 2412 of the lens unit 241 according to the requirement.

When the light emitting element 23 and the light-transmitting shielding module 24 are correspondingly disposed on the other side of the plate-shaped carrier body 21 opposite to the side having the connecting pieces 22, the connecting pieces 22 of the plate-shaped carrier body 21 can be correspondingly hung on one side of the two guiding fixing pieces 11 in the housing 10, and the light emitting module 20 can move relative to the housing 10 along the central axis direction CP of the two guiding fixing pieces 11. It is particularly emphasized that, in the embodiment, the guiding fixing member 11 and the connecting portion 222 are illustrated as a plate-shaped structure, and the connection relationship between the guiding fixing member 11 and the connecting portion 222 is abutted against each other, but in other applications, the connection relationship between the guiding fixing member 11 and the connecting portion 222 is not limited to this, and may be any other structure capable of sliding relatively, for example, the guiding fixing member 11 may be a rail structure, and the connecting portion 222 may be a structure capable of sliding in the rail structure.

In more detail, referring to fig. 4 and fig. 5, when the light emitting module 20 is disposed in the housing 10, the connecting portion 222 of each connecting member 22 can correspondingly abut against one side of each guiding fixing member 11 adjacent to the top wall 101, so that the two connecting portions 222 can slide on the two guiding fixing members 11. In practical applications, the width of each guiding fixing member 11 is not less than one-half of the width of each connecting portion 222, so that each connecting portion 222 can firmly abut against each guiding fixing member 11. When the two connecting portions 222 are correspondingly abutted against one side of the two guiding fixing members 11, the two connecting portions may be correspondingly locked in the fixing holes 2111 through a plurality of locking members 25, and one end of the locking member 25 correspondingly locked in the fixing holes 2111 can be correspondingly abutted against one side of the guiding fixing members 11 far away from the top wall 101, so that the plate-shaped bearing body 21 is fixedly disposed in the housing 10. In practical applications, the fixing element 25 may be a set screw (set screw), and the fixing holes 2111 may be screw holes, although not limited thereto, and the fixing element 25 may also be a common screw.

Specifically, in a preferred application, the light emitting module 20 is disposed in the housing 10, and when the connecting portions 222 are correspondingly connected to the guiding fixing members 11 (the connecting portions 222 are correspondingly abutted against one side of the guiding fixing members 11), the guiding fixing members 11 correspondingly shield the fixing holes 2111, so that one end of the fastening members 25 can be effectively abutted against one side of the guiding fixing members 11, and the connection strength between the light emitting module 20 and the housing 10 can be enhanced.

As shown in fig. 5, when the light emitting module 20 is fixedly disposed in the housing 10 by the fastening members 25, a user can fix the housing 10 and the light emitting module 20 disposed therein on a wall (not shown, such as a ceiling) according to a requirement. Specifically, the top wall 101 of the housing 10 may have a plurality of top wall fixing holes 1011, the top wall fixing holes 1011 are disposed adjacent to two ends of the top wall 101, respectively, two ends of the plate-shaped carrying body 21 have a plurality of avoiding holes 212, and the avoiding holes 212 correspond to the top wall fixing holes 1011. Therefore, when the light emitting module 20 is fixedly disposed in the housing 10, the plurality of fixing members 10A can pass through the avoiding holes 212 and be correspondingly interlocked and fixed with the top wall fixing holes 1011, so that the housing 10 is fixedly disposed on the ceiling.

Of course, in other embodiments, the plate-shaped supporting body 21 may also have no avoidance holes 212 corresponding to the top wall fixing holes 1011, which is not limited herein; however, the design of the top wall fixing holes 1011 and the avoiding holes 212 in the drawing can effectively make the assembly of the lamp device 1 convenient and intuitive; specifically, the user may first dispose the light emitting module 20 in the housing 10 and then lock the housing 10 to the ceiling through the avoiding holes 212, or the user may first directly fix the housing 10 without the light emitting module 20 on the ceiling and then slidably dispose the light emitting module 20 in the housing 10 from one end of the housing 10, that is, the lamp device 1 of the present invention is convenient to assemble, and is not limited to a specific assembling step.

As mentioned above, referring to fig. 4, in the luminaire device 1 of the present invention, the light emitting module 20 can slide relative to the housing 10, the fastening member 25 is fastened to the fixing hole 2111 of the plate-shaped supporting body 21 of the light emitting module 20, and the light emitting module 20 and the guiding and fixing member 11 of the housing 10 are achieved by the fastening member 25 fastened to the fixing hole 2111 and one end of the fastening member 25 abutting against the guiding and fixing member 11. Therefore, no matter manufacturers or related users, the light emitting module 20 can be easily removed from the housing 10 by making one end of the locking members 25 not abut against the guiding fixing members 11 any more, so that the light emitting module 20 can slide in the housing 10 along the two guiding fixing members 11. In addition, since the fastening members 25 are correspondingly locked in the fixing holes 2111, when the relevant user removes the light emitting module 20, the fastening members 25 no longer abut against the guiding fixing member 11, and will be correspondingly locked in the corresponding fixing holes 2111, and will not fall down directly, so as to facilitate the detachment operation of the relevant user.

Referring to fig. 3 and fig. 6, as shown in the figure, the lamp device 1 may further include two end caps 26, the two end caps 26 may be correspondingly disposed at two ends of the housing 10, and each end cap 26 has a shielding portion 261; when the two end caps 26 are correspondingly and fixedly disposed at the two ends of the housing 10, the two shielding portions 261 can correspondingly shield the adjacent avoidance holes 212 and the fastening members 25, thereby achieving an aesthetic appearance and avoiding a problem that related components are easily damaged. Of course, the shielding portions 261 do not shield the light emitting surface 2412 of the light transmissive shielding module 24.

As shown in fig. 5 and fig. 6, a user or a related manufacturer may fix the light emitting module 20 in the housing 10, and after the housing 10 is fixed to the ceiling, fix the two end caps 26 at two ends of the housing 10, thereby completing the assembly of the lighting device 1; in practical implementation, the end caps 26 may be fixed to two ends of the housing 10 by fastening, locking, etc., without limitation. Of course, in a specific application, the lamp device 1 may not have two end caps 26, or one end of the housing 10 may be directly extended to form the end caps 26, instead of being detachably disposed at one end of the housing 10.

Referring to fig. 2, 3 and 7, the lighting device 1 further includes a power module 30 for providing power to the light emitting elements (not shown). Specifically, the plate-shaped carrier body 21 and the top wall 101 of the housing 10 form a receiving space SP, and the power module 30 is fixedly disposed on one side of the plate-shaped carrier body 21 where the connecting members 22 are disposed, and is correspondingly located in the receiving space SP. Of course, the plate-shaped supporting body 21 may have a plurality of wire holes 213, so that the electrical connection wires (not shown) of the light emitting elements 23 can pass through the wire holes 213 to electrically connect with the power module 30. In other words, after the plate-shaped carrier body 21 of the lighting device 1 of the present invention is disposed in the housing 10, the accommodating space SP for accommodating the power module 30 can be formed, so that the lighting device 1 does not need to additionally mount another power supply device on the housing 10.

In a special application, the lighting device 1 may further include a wireless transmission module 40 and a processing module 41, the wireless transmission module 40 and the processing module 41 are electrically connected to the power module 30, the processing module 41 is electrically connected to the light emitting element (not shown), the wireless transmission module 40 can receive a wireless signal to transmit the wireless signal to the processing module 41, and the processing module 41 can selectively control the light emitting element and the power module 30 according to the wireless signal. Specifically, the user can transmit a wireless signal to the wireless transmission module 40 of the lighting device 1 through a corresponding wireless device (such as a smart phone, a remote controller, etc.) to correspondingly control the on/off, brightness, color temperature, etc. of the light emitting element.

In addition, the lighting device 1 may further include a monitoring module 40 ' and a processing module 41, the monitoring module 40 ' and the processing module 41 are electrically connected to the power module 30, the processing module 41 is electrically connected to the light emitting element (not shown), and the monitoring module 40 ' is configured to monitor an external environment of the lighting device 1. The monitoring module 40 'may include, for example, an image capturing unit, a sound recording unit, etc., and in practical applications, the related components of the lighting device 1 may be correspondingly perforated, so that the related components (such as a lens, a sound recording unit, a monitor, a Wi-Fi module, etc.) of the monitoring module 40' are exposed from the lighting device 1. Preferably, the monitoring module 40' can wirelessly transmit the relevant monitoring information to the network or a specific location for the user to use.

[ second embodiment ]

Referring to fig. 8A and 8B together, fig. 8A shows an embodiment identical to the previous embodiment, and fig. 8B shows a lamp device according to a second embodiment of the present invention. As shown in the figure, in practical applications, by the detachable and assemblable relationship between the housing 10 and the light emitting module 20, the relevant manufacturer or user may replace the light emitting module 20 having the lens unit 241 with different thickness according to different requirements without replacing the housing 10. More specifically, fig. 8A and 8B are different in that the thickness of the lens unit 241 of the light emitting module 20 is different, and the length of the supporting portion 221 of the connecting member 22' of the plate-shaped carrying body 21 is different, that is, when the housing 10 is fixedly installed on the ceiling and the user wants to replace the light emitting module 20, the user does not need to detach the entire lighting device 1, and only needs to replace the light emitting module 20 by simple steps and methods.

[ third embodiment ]

Please refer to fig. 9, which is a front view of a third embodiment of a lamp device 1 according to the present invention. As shown in the figure, the greatest difference between the present embodiment and the previous embodiments is that the guiding fixing member 11' of the housing 10 may be in a rail structure, and the connecting portion 222 of the light emitting module 20 may be correspondingly disposed in the rail structure. In other words, in practical applications, the guiding fixing member 11' of the housing 10 is not limited to the aspect shown in the drawings.

Specifically, please refer to fig. 1 and fig. 2 again, in the luminaire device 1 of the present invention, two light emitting modules 20 and two corresponding lens units 241 are taken as an example, but not limited thereto, in practical applications, the number of the light emitting modules 20 and the lens units 241 thereof may be increased or decreased according to requirements, and of course, the length or the width of the housing 10 may be changed correspondingly.

Specifically, as shown in fig. 10, in a specific application, the two connecting portions 222 of the light emitting module 20 and the two guiding and fixing members 11 are fixed to each other by a glue member G instead of the fixing member 25 carried in the previous embodiment. The adhesive member G may vary according to the material of the two connecting portions 222 and the material of the two guiding and fixing members 11, which is not limited herein.

Claims (10)

1. A light fixture apparatus, comprising:

the shell is provided with a top wall and two side walls, the two side walls are arranged on two opposite side edges of the top wall, and the two side walls are arranged opposite to each other;

the two guiding fixing pieces are respectively arranged on one sides of the two side walls, which are opposite to each other, and each guiding fixing piece is of a long-strip plate-shaped structure; and

at least one light emitting module selectively fixedly disposed in the housing and movable relative to the housing along central axis directions of the two guiding fixtures, the light emitting module comprising:

the plate-shaped bearing body is provided with a plurality of fixing holes on two opposite side edges;

the two connecting pieces are respectively formed by extending one wide side face of the plate-shaped bearing body towards the direction far away from the plate-shaped bearing body, the two connecting pieces are arranged adjacent to two opposite side edges of the plate-shaped bearing body, each connecting piece is provided with a supporting part and a connecting part, and two ends of the supporting part of each connecting piece are respectively connected with the wide side face and the connecting part; the two connecting parts can be correspondingly connected with the two guiding fixing parts, and the two connecting parts can move relative to the shell along the central axis direction of the two guiding fixing parts; when the two connecting parts are correspondingly connected with the two guiding fixing pieces, the two guiding fixing pieces can correspondingly shield the fixing holes;

the clamping pieces can be correspondingly locked in the fixing holes, and one ends of the clamping pieces correspondingly locked in the fixing holes can correspondingly abut against one side of the guide fixing piece, which is far away from the top wall, so that the plate-shaped bearing body is fixedly arranged in the shell;

the light-emitting assemblies are fixedly arranged on the other side of the plate-shaped bearing body, which is opposite to the side provided with the connecting piece; and

and the at least one light-transmitting shielding module is fixedly arranged on one side of the plate-shaped bearing body, on which the light-emitting component is arranged, and can correspondingly shield the light-emitting component.

2. A lamp device as recited in claim 1, wherein the light-transmissive shielding module includes a plurality of lens units corresponding to the light-emitting elements, the lens units are correspondingly disposed on the light-emitting elements, and light emitted from the light-emitting elements can correspondingly pass through the lens units to be emitted; when the light emitting module is fixedly arranged in the shell, the light emitting surface of each lens unit is not exposed out of one end of the side wall, which is far away from the top wall.

3. A light fixture as recited in claim 2, further comprising a plurality of mounting members, wherein each of said lens unit and said plate carrier body has a plurality of mounting holes corresponding to each other, said mounting members being configured to engage said mounting holes to fixedly mount said lens unit to said plate carrier body.

4. The luminaire device of claim 1, wherein when the light emitting module is fixedly disposed in the housing, one side of the connecting portion can correspondingly abut against one side of the guiding fixture adjacent to the top wall.

5. A lamp device as recited in claim 1, wherein the top wall has a plurality of top wall fastening holes disposed adjacent to respective ends of the top wall, the plate-shaped carrier body has a plurality of relief holes at respective ends thereof, the relief holes corresponding to the top wall fastening holes; when the light-emitting module is fixedly arranged in the shell, the plurality of fixing pieces can penetrate through the avoiding hole and are correspondingly interlocked and fixed with the top wall fixing hole, so that the shell is fixedly arranged on a wall surface; the lamp device further comprises two end covers, each end cover is provided with a shielding part, the two end covers are fixedly arranged at two ends of the shell, and the two shielding parts can correspondingly shield the adjacent avoidance holes.

6. A lamp device as recited in claim 1, wherein each of the light-emitting assemblies includes a substrate and a plurality of light-emitting units, the light-emitting units are fixedly disposed on the substrate, the substrate is fixedly disposed on another side of the plate-shaped carrier body opposite to the side on which the connecting element is disposed, the plate-shaped carrier body is a heat-conducting structure, and heat energy generated by operation of the light-emitting units can be conducted out through the plate-shaped carrier body.

7. A lamp device as recited in claim 1, wherein the light emitting module and the plate-shaped carrier body are fixedly disposed in the housing, and a receiving space is formed in the top wall of the housing, the lamp device further comprises a power module, the power module is fixedly disposed on a side of the plate-shaped carrier body where the connecting element is disposed and is correspondingly disposed in the receiving space, and the plate-shaped carrier body has a plurality of wire holes through which the electrical connection wires of the light emitting assembly can pass to electrically connect with the power module.

8. The lighting device as defined in claim 7, further comprising a wireless transmission module and a processing module, wherein the wireless transmission module and the processing module are electrically connected to the power module, the processing module is electrically connected to the light-emitting assembly, the wireless transmission module is capable of receiving wireless signals to transmit the wireless signals to the processing module, and the processing module is capable of selectively controlling the light-emitting assembly and the power module according to the wireless signals.

9. The lamp device of claim 7, further comprising a monitoring module and a processing module, wherein the monitoring module and the processing module are electrically connected to the power module and the light emitting assembly, and the monitoring module is capable of monitoring an external environment of the lamp device.

10. A light fixture apparatus, comprising:

the shell is provided with a top wall and two side walls, the two side walls are arranged on two opposite side edges of the top wall, and the two side walls are arranged opposite to each other;

the two guiding fixing pieces are respectively arranged on one sides of the two side walls, which are opposite to each other, and each guiding fixing piece is of a long-strip plate-shaped structure; and

at least one light emitting module selectively fixedly disposed in the housing and movable relative to the housing along central axis directions of the two guiding fixtures, the light emitting module comprising:

a plate-shaped bearing body;

the two connecting pieces are respectively formed by extending one wide side surface of the plate-shaped bearing body towards the direction far away from the plate-shaped bearing body, the two connecting pieces are arranged adjacent to two opposite side edges of the plate-shaped bearing body, each connecting piece is provided with a supporting part and a connecting part, and two ends of the supporting part of each connecting piece are respectively connected with the wide side surface and the connecting part; the two connecting parts can be correspondingly connected with the two guiding fixing parts, and the two connecting parts can move relative to the shell along the central axis direction of the two guiding fixing parts;

the light-emitting assemblies are fixedly arranged on the other side of the plate-shaped bearing body, which is opposite to the side provided with the connecting piece; and

the light-transmitting shielding module is fixedly arranged on one side of the plate-shaped bearing body, on which the light-emitting component is arranged, and can correspondingly shield the light-emitting component;

the two connecting parts can be correspondingly fixed with the two guide fixing parts through a gluing part.

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