CN216087803U - LED plant lighting lamp with irradiation direction rotatable adjusting structure - Google Patents

Abstract

The utility model discloses an LED plant lighting lamp with a rotatable irradiation direction adjusting structure, which comprises a power supply module, end cover assemblies and two groups of light-emitting modules, wherein the end cover assemblies are arranged at two ends of the power supply module; in the two groups of end cover components, a wire passing through cavity for wiring is formed inside one group of end cover components, and a damping component is installed on the other group of end cover components. The electrical connection of the LED plant lighting lamp is a hidden internal wiring structure, and a power supply module and a light-emitting module are electrically connected through a lead passing through the hidden internal wiring structure. The light-emitting module can rotate on the end cover assembly and can adjust any light-emitting angle, and the light-emitting module has a damping effect when rotating and can hover at any angle in a range freely.

Description

LED plant lighting lamp with irradiation direction rotatable adjusting structure

Technical Field

The utility model relates to an LED lighting lamp, in particular to an LED plant lighting lamp with a structure capable of rotatably adjusting the irradiation direction.

Background

The existing LED plant lamp generally comprises a power supply driving part, a main body end cover, a radiator, a light source plate and the like.

The light source plate is fixed on the radiator section bar through screws, and the radiator section bar is fixed on the main body end cover through screws to form the light-emitting module. The power supply is externally arranged, or the power supply is fixed in the power supply box, and the power supply box is fixed on the end cover of the main body through screws to form the power supply driving module. The light-emitting module and the power driving module are connected into an integral structure by fixing the light-emitting module and the power driving module on the end cover of the main body at the same time. The light-emitting module and the power module are externally connected through a wire to realize electrical connection.

The light emitting angle of the existing LED plant lamp cannot be adjusted, a user cannot use the LED plant lamp in multiple scenes, or the light emitting angle can be adjusted, but tightness adjustment is needed manually, and the experience feeling is not good. In addition, the light-emitting module and the power supply driving module are electrically connected in a mode of external connection of a wire, and wires are exposed to influence the weather resistance and the appearance of the product.

The traditional LED plant lighting lamp has a single structure and a crude design, so that the light emitting angle cannot be adjusted. When the light-emitting module is to realize a rotation angle, the electrical connection is usually in a wire external connection mode due to the limitation of the movable structure.

Accordingly, conventional LED plant lighting fixtures need improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an LED plant lighting lamp with a structure capable of rotatably adjusting the irradiation direction, and the LED plant lighting lamp is designed to be capable of randomly adjusting the light-emitting angle of a light-emitting module without the aid of tools during adjustment.

In order to solve the technical problem, the utility model is realized by the following scheme: the utility model discloses an LED plant lighting lamp with a rotatable irradiation direction adjusting structure, which comprises a power supply module, end cover assemblies and two groups of light-emitting modules, wherein the end cover assemblies are arranged at two ends of the power supply module;

in the two groups of end cover components, a wire passing through cavity for wiring is formed inside one group of end cover components, and a damping component is installed on the other group of end cover components.

Furthermore, the end cover assembly comprises an inner end cover and an outer end cover which are fixedly connected in a covering mode, the inner end cover is of a flat plate structure, and the cover end of the outer end cover is provided with a groove face.

Further, the inner end cap includes a screen end inner end cap and an AC end inner end cap;

the outer end covers comprise a screen end outer end cover and an AC end outer end cover;

the middle parts of the screen end inner end cover and the AC end inner end cover are respectively installed to the two end parts of the power supply module through screws;

two first mounting through holes are symmetrically formed in the two side plate surfaces of the inner end cover of the screen end, and damping components are mounted on the first mounting through holes;

two second mounting through holes are symmetrically formed in two side plate surfaces of the end cover in the AC end, and bolt assemblies for passing wires are mounted on the second mounting holes.

Still further, the damping assembly includes:

the first sleeve is provided with a through cavity penetrating through two ends, a ring panel is arranged at one end of the first sleeve, and a column part of the first sleeve is arranged on the first mounting through hole in a penetrating manner so that the ring panel is arranged between the inner end cover at the screen end and the light-emitting module;

the first gasket is sleeved on the column part of the first sleeve and is separated from the annular plate;

the spring is sleeved on the column part of the first sleeve, and one end of the spring abuts against the first gasket;

and after the second gasket is sleeved on the long screw, the threaded end of the long screw penetrates through the first sleeve to be connected with the light-emitting module, and the other end of the spring abuts against the second gasket.

Still further, the bolt assembly includes:

the bolt is provided with a wire passing cavity penetrating through two ends, and a threaded part of the bolt penetrates out of an AC end radiator end cover of the light-emitting module and then penetrates through the second mounting through hole;

the second sleeve is sleeved on the threaded part of the bolt, is arranged between the AC end radiator end cover and the AC end inner end cover, and has a column part rotatably penetrating through the second mounting through hole;

and the nut is screwed on the threaded part of the bolt to position the AC end inner end cover.

Compared with the prior art, the utility model has the beneficial effects that: the electrical connection of the LED plant lighting lamp is a hidden internal wiring structure, and a power supply module and a light-emitting module are electrically connected through a lead passing through the hidden internal wiring structure.

The light-emitting module can rotate on the end cover assembly and can adjust any light-emitting angle, and the light-emitting module has a damping effect when rotating and can hover at any angle in a range freely.

Drawings

Fig. 1 is a schematic view of an assembly structure of the LED plant lighting lamp of the present invention.

Fig. 2 is a schematic view of an installation structure of an end cap assembly and a damping assembly at a screen end of the utility model.

FIG. 3 is an enlarged view of a portion of the damping assembly of the present invention after installation.

Fig. 4 is a sectional view of a mounting structure of the damping assembly of the present invention.

Figure 5 is an exploded view of the damping assembly of the present invention as pre-installed.

Fig. 6 is a schematic view of the end cap assembly mounting structure of the terminal end of the present invention.

Fig. 7 is a sectional view of the mounting structure of the bolt assembly of the present invention.

Fig. 8 is a schematic structural diagram of a light emitting module according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and thus the protection scope of the present invention is more clearly and clearly defined. It should be apparent that the described embodiments of the present invention are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1: the concrete structure of the utility model is as follows:

referring to fig. 1-8, an LED plant lighting lamp with a rotatable illumination direction adjusting structure includes a power module 100, end cap assemblies 200 mounted at two ends of the power module 100, and two sets of light emitting modules 300, wherein the two sets of light emitting modules 300 are mounted on the end cap assemblies 200 and are symmetrical to the power module 100, the two sets of light emitting modules 300 are rotatably connected to the end cap assemblies 200, and the directions of the two sets of light emitting modules 300 can be fixed by a damping assembly after the two sets of light emitting modules 300 rotate;

in the two sets of end cap assemblies 200, a wire passing cavity for routing is formed inside one set of end cap assembly 200, and a damping assembly is mounted on the other set of end cap assembly 200.

A preferred technical solution of this embodiment: the end cap assembly 200 includes an inner end cap and an outer end cap, the inner end cap is a flat plate structure, and the cap end of the outer end cap has a groove surface.

A preferred technical solution of this embodiment: the inner end caps include a screen end inner end cap 9 and an AC end inner end cap 23;

the outer end caps include a screen end outer end cap 18 and an AC end outer end cap 25;

the middle parts of the screen end inner end cover 9 and the AC end inner end cover 23 are respectively mounted to the two end parts of the power module 100 by screws;

two first mounting through holes are symmetrically formed in the two side plate surfaces of the inner end cover 9 at the screen end, and damping components are mounted on the first mounting through holes;

two second mounting through holes are symmetrically formed in two side plate surfaces of the end cover 23 in the AC end, and bolt assemblies for passing wires are mounted in the second mounting holes.

A preferred technical solution of this embodiment: the damping assembly includes:

a first sleeve 8 having a through cavity penetrating through both ends, wherein a ring panel is disposed at one end of the first sleeve 8, and a column of the first sleeve 8 is disposed through the first mounting via hole and the ring panel is disposed between the screen end inner end cap 9 and the light emitting module 300;

a first spacer 10 fitted around the cylindrical portion of the first sleeve 8 and spaced from the annular plate;

a spring 11, which is sleeved on the column part of the first sleeve 8 and one end of which is abutted against the first gasket 10;

after the second gasket 12 is sleeved on the long screw 13, the threaded end of the long screw passes through the first sleeve 8 and is connected with the light emitting module 300, and the other end of the spring 11 abuts against the second gasket 12.

A preferred technical solution of this embodiment: the bolt assembly includes:

a bolt 27 having a wire through cavity penetrating through both ends, wherein a threaded portion of the bolt passes through the second mounting via hole after passing through the AC end heat sink end cap 26 of the light emitting module 300;

the second sleeve 22 is sleeved on the threaded part of the bolt 27, is arranged between the AC end radiator end cover 26 and the AC end inner end cover 23, and a column part of the second sleeve 22 is rotatably arranged in the second mounting through hole in a penetrating way;

and a nut 24 screwed to the threaded portion of the bolt 27 to position the AC end inner end cap 23.

Example 2:

as shown in fig. 2, the power module 100 includes a power box upper cover 1 and a power box lower cover 2 which are fixedly connected, a power supply is installed inside a box body formed by connecting the power box upper cover 1 and the power box lower cover 2, and openings at two ends of the box body are respectively connected with a screen end inner end cover 9 and an AC end inner end cover 23 through screws. Wherein, the inner end cover 9 of the screen end is provided with a screen mounting hole, and a display screen control module 17 is arranged on the screen mounting hole. The outer end cap 18 of the screen end has a display window in which the display screen of the display screen control module 17 is visible, and the display window is pasted with a transparent PC sticker 19. The outer end cover 18 of the screen end is further provided with knob through holes, two knobs on the display screen control module 17 penetrate through the knob through holes and are exposed, and knob caps 20 are sleeved on the two knobs.

Light-emitting module 300 includes radiator 3 and installs many light source boards 4 on radiator 3, and many light source boards 4 are fixed in through button head self tapping screw 5 on the radiator 3. The two ends of the radiator 3 are respectively provided with a screen end radiator end cover 6 and an AC end radiator end cover 26. The long screw 13 is screwed on the screen end radiator end cover 6.

The damping component enables the light-emitting module to be oriented after rotating through the elastic force of the spring 11.

Example 3:

a limiting hole is further formed in the inner end cover 9 at the screen end, the limiting hole is arc-shaped and concentric with the first mounting through hole, and the pin on the light-emitting module 300 penetrates through the limiting hole to limit the rotation angle of the light-emitting module 300.

Example 4:

the outer end cover 18 of the screen end is further provided with two through holes, the two through holes are respectively opposite to the two first mounting through holes, and the two through holes are used for dismounting the long screws 13.

Example 5:

as shown in fig. 6-7, the red and blue DC wires 21 are led out from the power module, and then pass through the wire passing cavity in the bolt 27 to be electrically connected to the light emitting module 300.

In summary, the electrical connection of the LED plant lighting device of the present invention is a hidden internal wiring structure, and the power module 100 and the light emitting module 300 are electrically connected by a wire passing through the hidden internal wiring structure. The light emitting module 300 can rotate on the end cover assembly and can adjust any light emitting angle, and the light emitting module has a damping effect when rotating, and can freely hover at any angle within a range.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. An LED plant lighting lamp with a rotatable irradiation direction adjusting structure comprises a power supply module (100), end cover assemblies (200) and two groups of light-emitting modules (300), wherein the end cover assemblies (200) are arranged at two ends of the power supply module (100), the two groups of light-emitting modules (300) are arranged on the end cover assemblies (200) and are symmetrical with the power supply module (100), and the LED plant lighting lamp is characterized in that the two groups of light-emitting modules (300) are rotatably connected with the end cover assemblies (200), and the directions of the two groups of light-emitting modules (300) can be fixed through a damping assembly after the two groups of light-emitting modules rotate;

in the two groups of end cover assemblies (200), a wire passing through cavity for wiring is formed inside one group of end cover assemblies (200), and a damping assembly is installed on the other group of end cover assemblies (200).

2. The LED plant lighting lamp with the rotatable illumination direction adjusting structure as claimed in claim 1, wherein the end cap assembly (200) comprises an inner end cap and an outer end cap which are fixedly connected in a covering manner, the inner end cap is of a flat plate structure, and the cap end of the outer end cap is provided with a groove surface.

3. The LED plant lighting fixture with rotatable illumination direction adjustment structure as claimed in claim 2, wherein the inner end cap comprises a screen end inner end cap (9) and an AC end inner end cap (23);

the outer end covers comprise a screen end outer end cover (18) and an AC end outer end cover (25);

the middle parts of the screen end inner end cover (9) and the AC end inner end cover (23) are respectively installed on two end parts of the power supply module (100) through screws;

two first mounting through holes are symmetrically formed in the two side plate surfaces of the inner end cover (9) of the screen end, and damping components are mounted on the first mounting through holes;

two second mounting through holes are symmetrically formed in two side plate surfaces of the end cover (23) in the AC end, and bolt assemblies for passing wires are mounted on the second mounting through holes.

4. The LED plant lighting fixture having an illumination direction rotatable adjustment structure of claim 3, wherein the damping assembly comprises:

the first sleeve (8) is provided with a through cavity penetrating through two ends, a ring panel is arranged at one end of the first sleeve, and a column part of the first sleeve (8) penetrates through the first mounting through hole, so that the ring panel is arranged between the screen end inner end cover (9) and the light-emitting module (300);

a first washer (10) fitted around the cylindrical portion of the first sleeve (8) and spaced from the annular plate;

a spring (11) which is sleeved on the column part of the first sleeve (8) and one end of which is abutted against the first gasket (10);

and after a second gasket (12) is sleeved on the long screw (13), the threaded end of the long screw penetrates through the first sleeve (8) to be connected with the light-emitting module (300), and the other end of the spring (11) abuts against the second gasket (12).

5. The LED plant lighting fixture with rotatable illumination direction adjustment structure of claim 3, wherein the bolt assembly comprises:

the bolt (27) is provided with a wire through cavity penetrating through two ends, and the threaded part of the bolt penetrates out of the AC end radiator end cover (26) of the light-emitting module (300) and then penetrates through the second mounting through hole;

the second sleeve (22) is sleeved on the threaded part of the bolt (27), is arranged between the AC end radiator end cover (26) and the AC end inner end cover (23), and a column part of the second sleeve (22) is rotatably arranged in the second mounting through hole in a penetrating manner;

and a nut (24) screwed to the threaded portion of the bolt (27) to position the AC end inner end cap (23).

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