CN219976329U - Plant lighting lamp - Google Patents

Abstract

The utility model discloses a plant illuminating lamp, and belongs to the technical field of plant auxiliary light supplementing. The LED lamp panel and the lamp shade are arranged at the bottom of the lamp panel mounting plate; the power supply box body is transversely arranged on the lamp panel mounting plate, wire passing holes corresponding to each other are formed in the contact surface of the power supply box body and the lamp panel mounting plate, and wires enter the inner cavity of the power supply box body through the wire passing holes. According to the plant illuminating lamp, one end of a wire is connected with an LED lamp panel on a lamp panel mounting plate, and the other end of the wire directly extends into an inner cavity of a power supply box body through a wire passing hole; the lead wire is located in the space formed by the power box body and the lampshade, so that the lead wire can be effectively protected, the service life of the lead wire is effectively prolonged, and the risk of electric leakage is reduced.

Description

Plant lighting lamp

Technical Field

The utility model belongs to the technical field of plant auxiliary light supplementing, and particularly relates to a plant illuminating lamp.

Background

Animal and plant light supplement lamps are lamps which use light to replace sunlight to provide light sources required by animal or plant growth according to natural laws of animal or plant growth, for example, light is required to perform photosynthesis in the plant growth process. Incandescent or LED lamps are currently in common use.

However, the existing plant lamp has large wiring difficulty, and general wires are directly exposed to the air, so that the existing plant lamp is easy to erode and lack protection, and the service life of the existing plant lamp is influenced. Moreover, once the wire is exposed, the normal use of the user is affected, and the danger of electric shock to the user is even more easily caused.

Through searching, the application with the Chinese patent publication number of CN 212056939U discloses a folding plant lamp. In this application, offer the wire casing of crossing of intercommunication on the supporting component of lighting fixture and installation component, the wire can be followed the length direction of wire casing and laid, and the electric wire can not expose in lamps and lanterns surface in a large number, has improved the life and the security of electric wire. However, in this application, some wires are still exposed directly from the power supply box to the light source board, which is also susceptible to corrosion, and affects the service life and safety.

Disclosure of Invention

1. Problems to be solved

Aiming at the problems that the service life of the existing plant lamp is influenced and even the electric shock risk occurs due to the fact that a wire is directly exposed to the air and is easy to erode, the utility model provides a plant illuminating lamp. By adopting the technical scheme of the utility model, the lead can be effectively prevented, so that the service life of the lead is prolonged; and meanwhile, the risk of electric shock is reduced.

2. Technical proposal

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

the plant illuminating lamp comprises an installation assembly and a power supply box body arranged on the installation assembly, wherein the installation assembly comprises two groups of installation bases which are oppositely arranged and a plurality of lamp panel installation plates which are arranged between the two groups of installation bases, and the lamp panel installation plates are mutually parallel;

the power supply box body is transversely arranged on the lamp panel mounting plate, wire passing holes corresponding to each other are formed in the contact surface of the power supply box body and the lamp panel mounting plate, and wires enter the inner cavity of the power supply box body through the wire passing holes.

As an improvement of the plant illuminating lamp, the power supply box body comprises a cover plate, a bottom plate and two end plates which are oppositely arranged; the cover plate is clamped on the bottom plate, and two ends of the cover plate are plugged by the end plates respectively.

As an improvement of the plant illuminating lamp, the cover plate is provided with two first connecting parts which extend downwards, and clamping blocks are arranged at the end parts of the first connecting parts; the bottom plate is provided with two second connecting parts extending upwards, and clamping grooves for clamping the clamping blocks are formed in the second connecting parts.

As an improvement of the plant illuminating lamp, the inside of the wire passing hole on the bottom plate is provided with a silica gel sleeve.

As an improvement of the plant illuminating lamp, the top of the cover plate, the outer side of the first connecting part and the outer side of the second connecting part are all provided with radiating grooves.

As an improvement of the plant illuminating lamp, the cover plate and the bottom plate are provided with assembly holes for installing the end plate, and the end plate is provided with a power interface.

As an improvement of the plant illuminating lamp, an LED lamp panel and a lampshade are arranged at the bottom of the lamp panel mounting plate, wherein the LED lamp panel is positioned between the lamp panel mounting plate and the lampshade.

As an improvement of the plant illuminating lamp, the lamp panel mounting plate is an aluminum heat dissipation section bar and is connected with the lamp shade through a clamping connection.

As an improvement of the plant illuminating lamp, connecting blocks are arranged on the two groups of mounting bases, the end parts of the lamp panel mounting plates are respectively clamped into the mounting grooves on the corresponding connecting blocks, and the number of the connecting blocks corresponds to that of the lamp panel mounting plates one by one.

3. Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the plant illuminating lamp, the power supply box body is transversely arranged on the lamp panel mounting plate, the corresponding positions of the bottom plate of the power supply box body and the top of the lamp panel mounting plate are provided with the wire passing holes, one end of each wire is connected with the LED lamp panel on the lamp panel mounting plate, and the other end of each wire extends into the inner cavity of the power supply box body through the wire passing holes; compared with the traditional plant lighting lamp, the wire is directly exposed, and the wire is positioned in the power box body, so that the wire can be effectively protected, the service life of the wire is effectively prolonged, and the risk of electric leakage is reduced.

(2) Compared with the traditional method that the power supply box body is arranged on the lamp panel mounting plate in the same direction, the plant lighting lamp has the advantages that the contact area between the power supply box body and the lamp panel mounting plate can be reduced, heat dissipation is facilitated, and therefore the service life of the plant lamp can be prolonged; simultaneously, apron and bottom plate all are equipped with the heat dissipation groove to can further guarantee the radiating effect of power pack body.

(3) According to the plant illuminating lamp, the clamping blocks on the first connecting part and the clamping grooves on the second connecting part are matched with each other between the cover plate and the bottom plate, so that rapid assembly and disassembly between the cover plate and the bottom plate can be realized; meanwhile, the corresponding positions of the end plate, the cover plate and the bottom plate are provided with assembly holes, and the end plate can be fixed by screws, so that the overall strength of the power supply box body is ensured.

Drawings

FIG. 1 is a schematic view of the overall structure of a modified plant lighting lamp;

FIG. 2 is a schematic structural view of a mounting assembly;

FIG. 3 is a schematic diagram of a power supply case;

FIG. 4 is an enlarged schematic view of the structure shown at A in FIG. 3;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 3;

FIG. 6 is a cross-sectional view of the power supply cartridge of FIG. 1;

fig. 7 is an enlarged schematic view of the structure at C in fig. 6.

In the figure: 1. a mounting assembly; 11. a mounting base; 12. a lamp panel mounting plate; 13. a connecting block;

2. a power supply box body; 21. a cover plate; 211. a heat sink; 212. a limiting block; 213. a fitting hole; 22. a bottom plate; 221. a wire guide; 23. an end plate; 24. a first connection portion; 241. a clamping block; 25. a second connecting portion; 251. a clamping groove; 252. a limit groove; 26. a silica gel sleeve;

3. a wire; 4. an LED lamp panel; 5. a lampshade.

Detailed Description

The utility model is further described below in connection with specific embodiments.

Example 1

Referring to fig. 1 and 2, a plant lighting lamp of the present embodiment includes a mounting assembly 1 and a power supply box 2 disposed on the mounting assembly 1.

The mounting assembly 1 includes a mounting base 11 and a plurality of lamp panel mounting plates 12. Wherein, the mounting base 11 is provided with two relatively, and the both ends of a plurality of lamp plate mounting panel 12 are connected with corresponding mounting base 11 respectively, and a plurality of lamp plate mounting panel 12 are parallel arrangement each other. The bottom of this lamp plate mounting panel 12 is connected with LED lamp plate 4, and the outside of LED lamp plate 4 is equipped with the lamp shade 5 that is used for protecting LED lamp plate 4.

In this embodiment, the power supply case 2 is laterally disposed on the lamp panel mounting plate 12. The lateral arrangement means that the placement direction of the power supply box 2 is perpendicular to the longitudinal direction of the lamp panel mounting plate 12. It should be noted, however, that the vertical here need not necessarily be 90 ° vertical in the geometric sense, allowing for some tilt.

The side wall of the power supply box body 2 is provided with a power supply interface for externally connecting a power supply; and the contact surface between the power box body 2 and the lamp panel mounting plate 12 is provided with a wire through hole 221 for the lead 3 to pass through. One end of the wire 3 is connected with the LED lamp panel 4 on the lamp panel mounting plate 12, and the other end of the wire extends into the inner cavity of the power box body 2 through the lamp panel mounting plate 12 and the wire passing hole 221 on the power box body 2 in sequence and is connected with a power supply.

The conventional plant lighting lamp generally exposes the lead 3 directly to the air, is easily corroded by the environment, affects the service life of the plant lighting lamp, and even causes the danger of electric shock to a user.

In this embodiment, the wire passing hole 221 is formed in the contact surface between the power supply case 2 and the lamp panel mounting plate 12, so that the wire 3 directly passes through the lamp panel mounting plate 12 and the bottom plate 22 of the power supply case 2, and enters the inner cavity of the power supply case 2. Therefore, the part of the lead 3 is completely positioned in the space formed by the power box body 2 and the lampshade 5, so that the lead 3 is well protected, is not easy to be corroded by the external environment, and is beneficial to ensuring the service life of the lead.

In addition, the power supply shell of traditional plant lighting lamp is directly vertically placed in the top of lamp plate radiator, and the power supply shell sets up with the same direction stack of lamp plate radiator promptly to make power supply shell and lamp plate heat dissipation influence each other, greatly reduced plant lamp's life.

In this embodiment, the power supply box 2 and the lamp panel mounting plate 12 are vertically arranged, so that the contact area between the power supply box and the lamp panel mounting plate is reduced, the heat dissipation effect is improved, and the service life of the plant lamp can be prolonged.

Example 2

As shown in fig. 3, the power supply case 2 includes a cover plate 21, a bottom plate 22, and two end plates 23 disposed opposite to each other, based on the above embodiment. Wherein, the cover plate 21 is clamped on the bottom plate 22, and both ends of the cover plate are respectively plugged by the end plates 23. So that the power supply box 2 forms a hollow interior for accommodating the wires 3 and other electrical arrangements. The above-described power supply interface is provided on the end plate 23.

Specifically, referring to fig. 3, 4 and 5, the cover 21 has first connecting portions 24 extending downward near two sides, and the inner wall of the first connecting portion 24 is provided with a clamping block 241 and a limiting block 212 extending along the length direction. The clamping block 241 is disposed at a position near the free end of the first connecting portion 24, and the limiting block 212 is disposed above the clamping block 241.

The bottom plate 22 has a second connecting portion 25 extending upward near two sides, and the second connecting portion 25 is provided with a clamping groove 251 and a limiting groove 252. The clamping groove 251 is disposed on the outer side wall of the second connecting portion 25, and the cover plate 21 and the bottom plate 22 can be assembled and disassembled rapidly by matching the clamping block 241 with the clamping groove 251.

The limiting groove 252 is arranged at the top of the second connecting part 25, a sealing element can be placed in the limiting groove 252, and then the sealing element is pressed and sealed through the limiting block 212 on the first connecting part 24, so that the waterproof effect is improved.

The cover plate 21 and the bottom plate 22 are each provided with a fitting hole 213 for attaching the end plate 23. Of course, fitting holes 213 (not shown) are also provided at corresponding positions on the end plate 23.

Preferably, the assembly holes 213 on the cover plate 21 and the bottom plate 22 are threaded holes, and the assembly holes 213 on the end plate 23 are through holes. The connection between the end plate 23 and the cover plate 21, and between the end plate 23 and the bottom plate 22 is then completed by screws. By this design, the overall strength of the power supply case 2 is advantageously ensured.

As a further limitation, two assembly holes 213 on the cover 21 are respectively formed at the junction between the first connection portion 24 and the top of the cover 21, and are located outside the cavity of the power box 2. Similarly, two assembly holes 213 are formed in the bottom plate 22, and are respectively located at the junction between the second connection portion 25 and the bottom portion of the bottom plate 22.

Example 3

On the basis of the foregoing embodiments, as shown in fig. 3 and 4, the outer sides of the cover plate 21 and the bottom plate 22 are provided with heat dissipation grooves 211. The heat dissipation effect of the power supply box body 2 is improved by the heat dissipation groove 211.

Specifically, the heat dissipation grooves 211 are arc grooves formed at intervals on the top of the cover plate 21, on the outer side of the first connecting portion 24 and on the outer side of the second connecting portion 25, and of course, other shapes are also possible. It should be noted that the arc groove should not penetrate through the corresponding cover body, so as to prevent the sealing property of the inner cavity of the power box body 2 from being damaged, which is not beneficial to protecting the wire 3 and other electrical components in the cavity.

Preferably, the top wall of the cover plate 21, the outer side wall of the first connecting portion 24, and the outer side wall of the second connecting portion 25 are each provided with a heat dissipation groove 211.

Example 4

On the basis of the foregoing embodiment, the mounting operation between the mounting base 11 and the lamp panel mounting plate 12 and the mounting operation between the lamp housing 5 and the lamp panel mounting plate 12 are facilitated. In this embodiment, the connection structure between the lamp panel mounting plate 12 and the mounting base 11 and the lamp housing 5 is further improved.

Specifically, referring to fig. 2, connecting blocks 13 are provided on opposite side walls of the mounting base 11, each of which has a mounting groove for receiving an end portion of the lamp panel mounting plate 12, and fastening holes are provided at corresponding positions of the mounting base 11 and the lamp panel mounting plate 12. During assembly, the end part of the lamp panel mounting plate 12 is clamped into the mounting groove of the corresponding connecting block 13, and then the lamp panel mounting plate is fastened through the screw, so that convenience and rapidness are realized.

Wherein the mounting member may be connected to the mounting base 11 as a separate component. Preferably, the mounting member is integrally formed with the mounting base 11 to ensure its overall strength.

Of course, the number of mounting members corresponds one-to-one to the lamp panel mounting plates 12. In this embodiment, two lamp panel mounting plates 12 are provided, and two ends of the power supply box 2 are respectively mounted on the corresponding lamp panel mounting plates 12. In addition, the lamp panel mounting plate 12 is preferably an aluminum heat dissipating profile with a plurality of heat dissipating teeth thereon.

Referring to fig. 6 and 7, the lamp panel mounting plate 12 is provided with two rows of grooves along its own length direction; the lampshade 5 is provided with a clamping hook matched with the groove. The clamping hook can be clamped in from the end part of the groove, or can be directly clamped in the groove through the elasticity of the clamping hook, so that the rapid assembly between the clamping hook and the groove is convenient. In addition, a silica gel sleeve 26 is sleeved around the wire passing hole 221 on the bottom plate 22.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the utility model is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (9)

1. The utility model provides a plant light, includes installation component (1) and sets up power box body (2) on this installation component (1), its characterized in that: the mounting assembly (1) comprises two groups of mounting bases (11) which are oppositely arranged, and a plurality of lamp panel mounting plates (12) which are arranged between the two groups of mounting bases (11), wherein the lamp panel mounting plates (12) are mutually parallel;

the power supply box body (2) is transversely arranged on the lamp panel mounting plate (12), wire passing holes (221) corresponding to each other are formed in the contact surface of the power supply box body and the lamp panel mounting plate, and the wires (3) enter the inner cavity of the power supply box body (2) through the wire passing holes (221).

2. A plant lighting lamp as defined in claim 1, wherein: the power supply box body (2) comprises a cover plate (21), a bottom plate (22) and two opposite end plates (23); the cover plate (21) is clamped on the bottom plate (22), and two ends of the cover plate are respectively blocked by the end plates (23).

3. A plant lighting lamp as defined in claim 2, wherein: the cover plate (21) is provided with two first connecting parts (24) extending downwards, and clamping blocks (241) are arranged at the end parts of the first connecting parts (24); the bottom plate (22) is provided with two second connecting parts (25) extending upwards, and the second connecting parts (25) are provided with clamping grooves (251) for clamping the clamping blocks (241).

4. A plant lighting lamp as defined in claim 3, wherein: the inside of the wire passing hole (221) on the bottom plate (22) is provided with a silica gel sleeve (26).

5. A plant lighting lamp as defined in any one of claims 2-4, wherein: the top of the cover plate (21), the outer side of the first connecting part (24) and the outer side of the second connecting part (25) are respectively provided with a heat dissipation groove (211).

6. A plant lighting lamp as defined in claim 5, wherein: the cover plate (21) and the bottom plate (22) are respectively provided with an assembly hole (213) for installing the end plate (23), and the end plate (23) is provided with a power interface.

7. A plant lighting lamp as defined in claim 4, wherein: the bottom of lamp plate mounting panel (12) is equipped with LED lamp plate (4) and lamp shade (5), wherein, LED lamp plate (4) be located between lamp plate mounting panel (12) and lamp shade (5).

8. A plant lighting lamp as defined in claim 7, wherein: the lamp panel mounting plate (12) is an aluminum heat dissipation section bar, and the lamp panel mounting plate (12) is connected with the lampshade (5) through clamping.

9. A plant lighting lamp as defined in claim 8, wherein: connecting blocks (13) are arranged on the two groups of mounting bases (11), the end parts of the lamp panel mounting plates (12) are respectively clamped into mounting grooves on the corresponding connecting blocks (13), and the number of the connecting blocks (13) corresponds to that of the lamp panel mounting plates (12) one by one.