CN213900878U - High shed lamp with adjustable height, position and light-emitting surface angle - Google Patents

Abstract

The utility model discloses a but height-adjusting, position, light emitting area angle's high canopy lamp, include the lamp body component as illuminator, be provided with at least a set of hoist and mount subassembly on the lamp body component. The utility model discloses a high shed lamp to height, light emitting area angle and position when using as a product are adjusted through supporting hoist and mount subassembly to concrete high shed lamp, convenient handy.

Description

High shed lamp with adjustable height, position and light-emitting surface angle

Technical Field

The utility model relates to the technical field of lamps and lanterns, in particular to but height-adjusting, position, high shed lamp of light emitting area angle.

Background

The high-shed lamp is used for the tops of various greenhouses, and besides the conventional lighting effect, along with the progress of the technology, the high-shed lamp can also take into account the functions of intelligent lighting, emergency lighting and the like, so that the height, the position and the light-emitting surface angle of the high-shed lamp need to be adjusted in actual use to meet various use requirements. Therefore, it is necessary to design a high shed light capable of adjusting the height, the position and the angle of the light emitting surface.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model provides a but height-adjusting, position, high shed lamp of light emitting area angle satisfies better result of use, and the scheme is as follows:

a high shed lamp with adjustable height, position and light-emitting surface angle comprises a lamp body component used as a light-emitting device, wherein at least one group of hoisting components is arranged on the lamp body component;

the hoisting assembly comprises a height adjusting fixing block for fixing, wherein a height adjusting rope is telescopically arranged on the height adjusting fixing block, the free end of the height adjusting rope is provided with an angle adjusting block, at least two angle adjusting lifting ropes are telescopically arranged on the angle adjusting block, and each angle adjusting lifting rope is provided with a sliding positioning assembly, the sliding positioning assembly can be slidably arranged on the lamp body assembly, so that the sliding positioning assembly can slide to different positions to adjust the angle adjusting lifting ropes, and the lamp body assembly pulls angles and positions.

Among the above technical scheme, adjust whole height, position and the angle of high canopy lamp and all realize through hoist and mount subassembly. The height adjusting device comprises a height adjusting fixing block, a height adjusting rope, a height adjusting lifting rope, a lamp body assembly and a lamp body assembly placing angle adjusting lifting rope. Because the sliding positioning component and the lamp body component are arranged in a sliding mode, the sliding positioning component and the lamp body component can slide relatively to adjust the position of the lamp body component.

Furthermore, the sliding positioning component comprises a sliding block and a connecting piece, a sliding contact surface is arranged on the sliding block, the sliding contact surface is in contact with the lamp body component and is in sliding fit with the lamp body component, one end of the connecting piece is connected to the tail end of the angle adjusting lifting rope, and the other end of the connecting piece is connected to the sliding block through a bolt.

Furthermore, the angle adjusting block is provided with a bolt so as to adjust the tightness of the angle adjusting lifting rope through screwing in and screwing out of the bolt.

Further, lamp body subassembly includes the radiator as shell part and the lamp plate as the luminous body, sliding positioning subassembly sliding connection in the radiator, the lamp plate laminating is connected to the radiator.

Further, lamp body subassembly still includes the diffuser plate that is used for light diffusion, the diffuser plate assembles the radiator, just be used for laminating on the radiator to the one side of lamp plate with the diffuser plate is located the both sides that the lamp plate position is relative.

Further, the lamp body assembly further comprises an anti-dazzle net, the anti-dazzle net is assembled on the radiator, and the lamp panel and the anti-dazzle net are located on two opposite sides of the diffusion plate.

Further, the lamp body component further comprises a driving power supply for the lamp panel, and the driving power supply is installed on the radiator.

Furthermore, the sliding positioning component comprises a sliding block and a connecting piece, wherein a sliding contact surface is arranged on the sliding block, the sliding contact surface is in contact with and in sliding fit with the lamp body component, one end of the connecting piece is connected to the tail end of the angle adjusting lifting rope, and the other end of the connecting piece is connected to the sliding block through a bolt;

the sliding block is connected with the radiator in a sliding mode, a clamping tooth structure is formed on the sliding block in a protruding mode, the outer surface of the clamping tooth structure serves as a sliding contact surface, and a clamping groove structure is formed in the radiator in a concave mode to be clamped with the clamping tooth structure and matched with the radiator in a sliding mode.

Further, the whole card slot structure is in a straight line shape, so that the sliding block slides along the card slot structure in a straight line track.

Has the advantages that: the utility model discloses novel, reasonable in design, and convenient to use, the utility model discloses a high shed lamp to height, light emitting area angle and position when using as a product are adjusted through supporting hoist and mount subassembly specifically to high shed lamp, convenient handy.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is an exploded schematic view of an embodiment of the present invention.

Fig. 3 is a schematic cross-sectional structure diagram according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of a portion a of fig. 3.

Detailed Description

The following description of the present invention with reference to the drawings and examples is further preferred:

referring to fig. 1 to 4, a high bay light with adjustable height, position and light emitting surface angle has a lamp body assembly 100 as a light emitting device, and at least one set of hanging assemblies 200 is disposed on the lamp body assembly 100; the hoisting assembly 200 comprises a height adjusting fixing block 210 for fixing, a height adjusting rope 220 is telescopically arranged on the height adjusting fixing block 210, an angle adjusting block 230 is arranged at the free end of the height adjusting rope 220, at least two angle adjusting lifting ropes 240 are telescopically arranged on the angle adjusting block 230, a sliding positioning assembly 250 is arranged at the free end of each angle adjusting lifting rope 240, the sliding positioning assemblies 250 are slidably arranged on the lamp body assembly 100, and the angle and the position of the lamp body assembly 100, which are dragged by the angle adjusting lifting ropes 240, can be adjusted by sliding the sliding positioning assemblies 250 to different positions.

In a specific implementation, as a preferred embodiment, the sliding positioning assembly 250 includes a sliding block 251 and a connecting member 252, the sliding block 251 is provided with a sliding contact surface, and the sliding contact surface is in contact with and slidably engaged with the lamp body assembly 100, one end of the connecting member 252 is connected to the end of the angle adjusting sling 240, and the other end is connected to the sliding block 251 through a bolt.

In a specific implementation, as a preferred embodiment, the angle adjusting block 230 is provided with a bolt to adjust the tightness of the angle adjusting sling 240 by screwing in and out the bolt.

In a specific implementation, as a preferred embodiment, the lamp body assembly 100 includes a heat sink 110 as a housing portion and a lamp panel 120 as a light emitter, the sliding positioning assembly 250 is slidably connected to the heat sink 110, and the lamp panel 120 is attached to the heat sink 110. Further, the lamp body assembly 100 further includes a diffusion plate 130 for light diffusion, the diffusion plate 130 is assembled to the heat sink 110, and one surface of the heat sink 110 for being attached to the lamp panel 120 and the diffusion plate 130 are located at two opposite sides of the lamp panel 120. Further, the lamp body assembly 100 further includes an anti-glare mesh 140, the anti-glare mesh 140 being mounted to the heat sink 110, and the lamp panel 120 and the anti-glare mesh 140 being located at opposite sides of the diffuser plate 130. Further, the lamp body assembly 100 further includes a driving power source 150 for the lamp panel 120, and the driving power source 150 is mounted on the heat sink 110. Further, the sliding positioning assembly 250 includes a sliding block 251 and a connecting member 252, the sliding block 251 is provided with a sliding contact surface, and the sliding contact surface is in contact with and in sliding fit with the lamp body assembly 100, one end of the connecting member 252 is connected to the end of the angle adjusting sling 240, and the other end is connected to the sliding block 251 through a bolt; the sliding block 251 is slidably connected to the heat sink 110, a latch structure is formed on the sliding block 251 through a protrusion, and an outer surface of the latch structure is used as a sliding contact surface, and in a matching manner, a slot structure is formed on the heat sink 110 through a recess to be engaged with the latch structure and is in sliding fit. Further, the slot structure is entirely linear such that the slider 251 slides along the slot structure in a linear track.

As described above, in the implementation process, the height adjusting fixing block 210 is a fixing member provided to be fixed at a high place, such as a ceiling of a high shed. The lamp body assembly 100 for emitting light is suspended below the height adjusting rope 220, and the suspension height of the lamp body assembly 100 can be adjusted by the extension and contraction of the height adjusting rope 220 on the height adjusting fixing block 210. The key of the matching between the height adjusting rope 220 and the height adjusting fixing block 210 is the telescopic movement of the height adjusting rope 220 relative to the height adjusting fixing block 210, and particularly, the height adjusting rope 220 is rolled or passes through the height adjusting fixing block 210 without limitation. The angle adjusting block 230 is matched with at least two angle adjusting hanging ropes 240 to realize the light emitting angle adjustment of the lower lamp body assembly 100, and the principle of realizing the corresponding function by the structure is realized by adjusting the relative lengths of the angle adjusting hanging ropes 240 on the angle adjusting block 230. The specific structure of the angle adjusting hanging rope 240 telescopically arranged on the angle adjusting block 230 is not limited, because there are various conventional technical means to realize the telescopic movement and positioning of the rope on the object. The slide positioning member 250 is slidably coupled to the lamp body member 100, and changes the position of the lamp body member 100 with respect to the slide positioning member 250 by sliding, and also changes the position of the height adjustment fixing block 210 with respect to the general supporting point. The slide positioning assembly 250 serves as a point of application of the angle adjustment sling 240 to the lamp body assembly 100. In practical implementation, the different positions of the lamp body assembly 100 can be acted by changing the moving track of the sliding positioning assembly 250 on the lamp body assembly 100. In order to realize such design idea, it can be realized by designing the shape of the sliding track on the sliding positioning component 250, for example, to be "s" shaped or straight, etc. It should be noted that, by arranging a plurality of sets of lifting assemblies 200 on one lamp body assembly 100, more complicated and more precise control and adjustment can be realized, which is determined by the requirements.

A specific configuration of the lamp body assembly 100 is also shown, and a specific structure and an assembly structure thereof can be known in conjunction with fig. 2 to 4. The heat sink 110 is made of a heat conductive material to facilitate heat dissipation and also protect and support the housing. The lamp plate 120 adopts the PCBA lamp plate, and can specifically adopt aluminium base board to help the heat dissipation, and in the installation of lamp plate 120, aluminium base board directly laminates the surface to radiator 110, and can set up to smooth surface and install lamp plate 120, and the increase contact improves the radiating efficiency, and aluminium base board and radiator 110's contact surface can coat heat conduction silicone grease and help the heat conduction. The lamp beads on the lamp panel 120 are in full contact with the aluminum substrate and welded by using solder paste, so that the heat transfer effect is good. The arrangement of the lamp panel 120 and the accessory for optimizing light can be realized by forming a groove for assembly on the heat sink 110, so as to ensure the stability of the assembly structure and the relative smoothness of the lines on the whole surface of the product. The end of the groove on the heat sink 110 is provided with an end plate 160 for end capping, and the mating groove and the antiglare net (140) located outside form a closed whole in structure.

The driving power source 150, as a conventional accessory device, helps the lamp bead to start, and includes necessary wires, the wires need to pass through the heat sink 110 when entering the lamp panel 120, and waterproof joints need to be arranged at the interfaces to ensure watertight.

As shown in fig. 4, a matching structure of the latch structure and the slot structure is shown, and the combination of the structures can ensure the connection stability, so that the sliding and reliability of the connection part are satisfied.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (9)

1. The utility model provides a high canopy lamp of adjustable height, position, light emitting area angle which characterized in that: the LED lamp comprises a lamp body assembly (100) used as a light-emitting device, wherein at least one group of hoisting assemblies (200) is arranged on the lamp body assembly (100);

hoist and mount subassembly (200) are including being used for fixed altitude mixture control fixed block (210), altitude mixture control fixed block (210) are gone up and are provided with altitude mixture control rope (220) telescopically, the free end of altitude mixture control rope (220) is provided with angle modulation piece (230), telescopically on angle modulation piece (230) is provided with two piece at least angle modulation lifting rope (240), every the free end of angle modulation lifting rope (240) is provided with slide positioning subassembly (250), slide positioning subassembly (250) slidable set up in lamp body component (100), with through slide positioning subassembly (250) slide to different positions and adjust angle modulation lifting rope (240) are right the angle and the position of drawing of lamp body component (100).

2. The height, position, light emitting face angle adjustable high bay light of claim 1, wherein: the sliding positioning component (250) comprises a sliding block (251) and a connecting piece (252), a sliding contact surface is arranged on the sliding block (251), the sliding contact surface is in contact with the lamp body component (100) and is in sliding fit, one end of the connecting piece (252) is connected to the tail end of the angle adjusting lifting rope (240), and the other end of the connecting piece is connected to the sliding block (251) through a bolt.

3. The height, position, light emitting face angle adjustable high bay light of claim 1, wherein: the angle adjusting block (230) is provided with a bolt so as to adjust the tightness of the angle adjusting lifting rope (240) through screwing in and screwing out of the bolt.

4. The height, position, light emitting face angle adjustable high bay light of claim 1 or 3, wherein: the lamp body assembly (100) comprises a heat radiator (110) serving as an outer shell portion and a lamp panel (120) serving as a light emitter, the sliding positioning assembly (250) is connected to the heat radiator (110) in a sliding mode, and the lamp panel (120) is connected to the heat radiator (110) in a fitting mode.

5. The height, position, light emitting face angle adjustable high bay light of claim 4, wherein: the lamp body assembly (100) further comprises a diffusion plate (130) used for light diffusion, the diffusion plate (130) is assembled to the heat radiator (110), and one surface of the heat radiator (110) used for being attached to the lamp panel (120) and the diffusion plate (130) are located on two opposite sides of the lamp panel (120).

6. The height, position, light emitting face angle adjustable high bay light of claim 5, wherein: the lamp body assembly (100) further includes an anti-glare mesh (140), the anti-glare mesh (140) being assembled to the heat sink (110), and the lamp panel (120) and the anti-glare mesh (140) being located at opposite sides of the diffuser plate (130).

7. The height, position, light emitting face angle adjustable high bay light of claim 6, wherein: the lamp body assembly (100) further comprises a driving power supply (150) for the lamp panel (120), and the driving power supply (150) is installed on the heat sink (110).

8. The height, position, light emitting face angle adjustable high bay light of claim 7, wherein: the sliding positioning component (250) comprises a sliding block (251) and a connecting piece (252), a sliding contact surface is arranged on the sliding block (251), the sliding contact surface is in contact with the lamp body component (100) and is in sliding fit with the lamp body component, one end of the connecting piece (252) is connected to the tail end of the angle adjusting lifting rope (240), and the other end of the connecting piece is connected to the sliding block (251) through a bolt;

the sliding block (251) is connected to the heat sink (110) in a sliding mode, a latch structure is formed on the sliding block (251) through a protrusion, the outer surface of the latch structure serves as the sliding contact surface, and a clamping groove structure is formed on the heat sink (110) through a recess to be clamped with the latch structure and matched with the latch structure in a sliding mode.

9. The height, position, light emitting face angle adjustable high bay light of claim 8, wherein: the slot structure is entirely linear so that the sliding block (251) slides along the slot structure in a linear track.

Images