CN209354980U - A kind of plant lamp component for being easily assembled and adjusting - Google Patents

Abstract

The utility model discloses a kind of plant lamp component for being easily assembled and adjusting, the width direction two sides of foot of radiator outer surface are protruded respectively is provided with a guide-track groove, so that the base outer surface of radiator forms sliding slot face structure；Sliding metal board width direction both ends are along the length direction limit sliding of radiator in guide-track groove；LED substrate is fixed on the second outer surface of sliding metal plate, and several LED lamp beads are arranged at intervals in LED substrate, and each LED lamp bead is connected in series；LED substrate length direction first end is provided with the first conductive interface, first conductive interface is connect with the first end of LED lamp bead of each series connection, LED substrate length direction second end is provided with the second conductive interface, second conductive interface is connect with the second end of LED lamp bead of each series connection, and the conductive interface on two adjacent LEDs substrate is conductively connected by connection terminal head and the tail series connection.The utility model solves the unalterable technical problem of product form of LED plant lamp.

Description

A kind of plant lamp component for being easily assembled and adjusting

Technical field

The utility model relates to plant lamp technical fields, more specifically, are easily assembled and adjust the utility model relates to one kind The plant lamp component of section.

Background technique

The high-tech new product that LED plant lamp is this year to rise with led white-light illuminating is tested by application, and LED plants Object lamp is very suitable to the growth of plant, blooms, result.General houseplant flowers, because lack natural lighting can be with the time due to Growing way worse and worse, and by using the LED plant light irradiation of spectrum needed for plant (light quality combination), can not only promote its life It is long, but also colored quality can be improved with blooming period prolonging.And this high efficiency light source system is applied to the facilities such as greenhouse, greenhouse In equal agricultural productions, the drawbacks of sunshine deficiency causes the booth vegetables mouthfeel such as tomato, cucumber to decline on the one hand can solve, it is another Aspect can also be such that winter greenhouse solanaceous vegetables advance to list around the Spring Festival, to achieve the purpose that anti-season is cultivated.

But LED plant lamp is not easy splicing assembling at present, and the layout of lamp cannot be adjusted according to installation environment, leads to LED The application of plant lamp is obstructed, and cost improves.

Utility model content

One purpose of the utility model is to solve at least the above problems, and provide the advantages of at least will be described later.

The utility model is to provide a kind of plant lamp component for being easily assembled and adjusting there are one purpose, by LED plant lamp Be arranged to mutually splice the little module of assembling, by modular assembly, can according to the application of installation indoor environment come The final form of LED plant lamp is adjusted, the unalterable technology of product form that the utility model solves LED plant lamp is asked Topic.

In order to realize these purposes and other advantages according to the present utility model, a kind of plant for being easily assembled and adjusting is provided Object lamp group part, comprising:

Radiator, the width direction two sides of base outer surface are protruded respectively is provided with a guide-track groove, so that the heat dissipation The base outer surface of device forms sliding slot face structure, and the length direction of the guide-track groove is consistent with the length direction of the radiator；

Sliding metal plate, width direction both ends are along the length direction limit sliding of the radiator in the guide-track groove In, first outer surface of sliding metal plate and the sliding slot face paste close sliding setting, and the sliding metal plate is dissipated with described Hot device can be fixed；And

LED substrate is fixed on second outer surface of sliding metal plate, and the LED substrate and sliding metal plate Fitting is arranged, and several LED lamp beads are arranged at intervals in the LED substrate, and each LED lamp bead is connected in series；

Wherein, the LED substrate length direction first end is provided with the first conductive interface, the described first conductive interface It is connect with the first end of the LED lamp bead of each series connection, the LED substrate length direction second end is provided with second and leads Electric mortiser interface, the described second conductive interface are connect with the second end of the LED lamp bead of each series connection, two neighboring institute The conductive interface stated in LED substrate is conductively connected by connection terminal head and the tail series connection.

Preferably, the distance between guide-track groove described in the width of the sliding metal plate and two sides is consistent；The sliding slot face On offer several first screw holes, the sliding metal plate can be bolted in first screw hole.

Preferably, the width of the LED substrate is less than the width of the sliding metal plate, and the LED substrate width side It is spaced apart to two sides and the guide-track groove；Several second screw holes, the LED substrate are offered on the sliding metal plate It can be bolted in second screw hole, heat-conducting glue is coated between the LED substrate and sliding metal plate contact surface.

Preferably, sandwiched semiconductor refrigerator, the semiconductor system between the sliding metal plate and the sliding slot face The cold end of cooler is contacted with sliding metal plate, the semiconductor cooler hot end and sliding slot face contact, and the semiconductor refrigerating Device upper and lower surface is coated with heat-conducting silicone grease.

Preferably, the sliding metal plate is bolted with semiconductor cooler, and the semiconductor cooler Width is no more than the width of the sliding metal plate, and the sliding metal plate is led with the thickness that is superimposed of semiconductor cooler with described The depth of track slot is consistent.

Preferably, the length of the semiconductor cooler is not less than the length of the sliding metal plate, the semiconductor system The positive and negative terminal of cooler is drawn upwards from the length direction both ends of the semiconductor cooler, and the semiconductor cooler Positive and negative terminal exit be arranged to be conductively connected header structure.

Preferably, the described first conductive interface is connect with the positive conductive of each LED lamp bead series-connected wires, And the first conduction interface is connect by patch with positive pole, the described second conductive interface and each LED The negative conductive of lamp bead series-connected wires connects, and the described second conductive interface is connect by patch with power cathode.

Preferably, end protrusion one connection-peg of setting of the guide-track groove length direction first end, the guide rail slot length An interface is provided on the outside of the second end of direction, the two neighboring radiator is successively connected by the connection-peg with interface It connects.

The utility model is include at least the following beneficial effects:

1, the LED plant lamp of the utility model is arranged to mutually splice the little module of assembling, by modular assembly, Not only facilitate the installation of LED plant lamp, and the final of LED plant lamp can be adjusted according to the application of installation indoor environment Form, to be suitable for local environment demand；

2, it is radiated simultaneously by radiator and semiconductor cooler, improves the heat dissipation performance of LED plant lamp.

The further advantage, target and feature of the utility model will be partially reflected by the following instructions, and part will also pass through Research and practice to the utility model and be understood by the person skilled in the art.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model plant lamp；

Fig. 2 is the structural schematic diagram of radiator；

Fig. 3 is the mounting structure schematic diagram of sliding metal plate and LED substrate；

Fig. 4 is the explosive view of the utility model plant lamp.

Specific embodiment

The following describes the utility model in further detail with reference to the accompanying drawings, to enable those skilled in the art referring to explanation Book text can be implemented accordingly.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more The presence or addition of a other elements or combinations thereof.

A kind of plant lamp component for being easily assembled and adjusting, as shown in Figs 1-4, comprising: radiator 100, sliding metal plate 200 With LED substrate 300, the fitting of LED substrate 300 is arranged on sliding metal plate 200, and the fitting setting of sliding metal plate 200 is being radiated On device 100, to form a monomer lamp module.

Specifically, the width direction two sides of the base outer surface of radiator 100 are protruded respectively is provided with a block 120, gear A guide-track groove 121 is arranged in the inside of block 120, so that the base outer surface of the radiator 100 forms sliding slot face structure, such as Fig. 2 With 4 shown in sliding slot face 110, sliding slot face 110 be radiator 100 bottom plane, the length direction of the guide-track groove 121 with The length direction of the radiator 100 is consistent.

The width direction both ends of sliding metal plate 200 are along the length direction limit sliding of the radiator 100 described In guide-track groove 121, specifically, the distance between guide-track groove 121 described in the width of the sliding metal plate 200 and two sides is consistent, So that sliding metal plate 200 can be by limit slippage in guide-track groove 121, and moved along the length direction of radiator 100 It is dynamic.After sliding metal plate 200 is mounted in guide-track groove 121,200 first outer surface of sliding metal plate and the sliding slot face 110 fitting contacts, in order to carry out heat transfer.

After sliding metal plate 200 moves in place in guide-track groove 121, the sliding metal plate 200 and the radiator 100 can fix, and avoid sliding metal plate 200 in 121 play of guide-track groove.Several first screw holes are offered on the sliding slot face 110 111, the surrounding correspondence of sliding metal plate 200 offers through-hole 210, and the sliding metal plate 200 can pass through bolt-through through-hole It is fixed on after 210 in first screw hole 111, so that sliding metal plate 200 is fixed in guide-track groove 121, makes simultaneously First outer surface of sliding metal plate 200 is contacted with the sliding slot face 110 fitting, the contact area of the two is improved, to improve Heat conduction efficiency between the two.

LED substrate 300 is fixed on 200 second outer surface of sliding metal plate, and the LED substrate 300 and sliding The fitting setting of metal plate 200, specifically, offering several second screw holes 230, LED substrate 300 on the sliding metal plate 200 Upper correspondence offers through-hole 320, and the LED substrate 300 can be by being fixed on second screw hole after bolt-through through-hole 320 In 230, so that sliding metal plate 200 and LED substrate 300, while making the second outer surface and the institute of sliding metal plate 200 The fitting contact of LED substrate 300 is stated, improves the contact area of the two, and the LED substrate 300 is contacted with sliding metal plate 200 It is coated with heat-conducting glue between face, to improve heat conduction efficiency between the two, reduces the temperature in LED substrate 300.

Several LED lamp beads 310 are arranged at intervals in the LED substrate 300, each LED lamp bead 310 is connected in series Form a series circuit；Wherein, the 300 length direction first end of LED substrate is provided with the first conductive interface 331, institute It states the first conductive interface 331 to connect with 310 first end of the LED lamp bead of each series connection, the LED substrate 300 Length direction second end is provided with the second conductive interface 331, the institute of the described second conductive interface 331 and each series connection State the connection of 310 second end of LED lamp bead.

That is, the anode of the described first conductive interface 331 and each 310 series-connected wires of LED lamp bead It is conductively connected, and the described first conductive interface 331 is connect by patch with positive pole, the described second conductive interface 331 connect with the negative conductive of each 310 series-connected wires of LED lamp bead, and the described second conductive interface 331 passes through Patch is connect with power cathode, and conductive interface is conveniently connected to power supply by patch.When a monomer lamp module is independent In use, shining for lamp body can be realized in conductive interface and electric power connecting.

Meanwhile the conductive interface in the two neighboring LED substrate 300 is connected conductive connect by connection terminal head and the tail It connects, forms conjoined structure, that is, multiple monomer lamp modules are subjected to assembling combination, one large-scale lamp body is formed, using grafting Port interface can be convenient the connection between each monomer lamp module.Can according to application environment and arrangement, come arbitrarily arrange in pairs or groups and The structure and form of disjunctor lamp body are adjusted, to be suitable for environmental demand, improves light-out effect, the growth of power-assisted plant.

In above-mentioned technical proposal, the width of the LED substrate 300 is less than the width of the sliding metal plate 200, and described 300 width direction two sides of LED substrate and the guide-track groove 121 are spaced apart, convenient for the cunning of entire sliding metal plate 200 It is dynamic, avoid the LED substrate 300 in sliding process from contacting with guide-track groove 121.

Since the needs of LED lamp bead 310 work long hours, in order to further increase the heat dissipation effect raising to LED lamp bead 310 Optical property out, sandwiched semiconductor refrigerator 400, the semiconductor between the sliding metal plate 200 and the sliding slot face 110 The cold end of refrigerator 400 is contacted with sliding metal plate 200, and 400 hot end of semiconductor cooler is contacted with sliding slot face 110, is adopted The heat dissipation performance to LED lamp bead 310 is improved with semiconductor cooler 400.And 400 upper and lower surface of semiconductor cooler applies There is heat-conducting silicone grease, can be improved between semiconductor cooler 400 and sliding metal plate 200, sliding slot face 110 by heat-conducting silicone grease Contact area improves heat-conductive characteristic.

In above-mentioned technical proposal, the sliding metal plate 200 is bolted with semiconductor cooler 400, and described The width of semiconductor cooler 400 is no more than the width of the sliding metal plate 200, avoids that sliding metal plate 200 is hindered to lead Overall movement in track slot 121.And the sliding metal plate 200 is led with the thickness that is superimposed of semiconductor cooler 400 with described The depth of track slot 121 is consistent, enables contact surface between sliding metal plate 200, semiconductor cooler 400 and sliding slot face 110 It is enough to be in close contact.

The length of the semiconductor cooler 400 is not less than the length of the sliding metal plate 200, the semiconductor refrigerating The positive and negative terminal 410 of device is drawn upwards from the length direction both ends of the semiconductor cooler 400, and the semiconductor system 410 exit of positive and negative terminal of cooler 400 is arranged to be conductively connected header structure, is convenient for wiring.

In above-mentioned technical proposal, in order to realize the connection two-by-two between monomer lamp module, in the 121 length side of guide-track groove One connection-peg 123 of setting is protruded to the end of first end, one is provided on the outside of the 121 length direction second end of guide-track groove and inserts The two neighboring radiator 100 when needing to connect between two monomer lamp modules, is passed through the connection-peg 123 by interface 122 With interface 122 carry out grafting, the connection between two monomer lamp module heat radiators can be realized, by several monomer lamp modules into Row connection, can be adjusted the length and form of entire lamp body.

Meanwhile after the radiator connection of two neighboring monomer lamp module, by connection terminal by two monomer lamp modules On the conductive series connection of LED lamp bead 310, form a large-sized luminous lamp body.Meanwhile the radiator of two neighboring monomer lamp module connects After connecing, sliding metal plate 200 can be moved along spliced guide-track groove 121, under the premise of not moving radiator, side Just light source is moved.

From the above mentioned, the LED plant lamp of the utility model is arranged to mutually splice the little module of assembling, passes through modularization Assembly, not only facilitate the installation of LED plant lamp, and LED plant can be adjusted according to the application of installation indoor environment The final form of lamp, to be suitable for local environment demand；Meanwhile being radiated simultaneously by radiator and semiconductor cooler, Improve the heat dissipation performance of LED plant lamp.

It is not only in the description and the implementation although the embodiments of the present invention have been disclosed as above Listed utilization, it can be applied to various fields suitable for the present invention completely, for those skilled in the art, Other modifications may be easily implemented, therefore without departing from the general concept defined in the claims and the equivalent scope, this reality It is not limited to specific details and legend shown and described herein with novel.

Claims (8)

1. a kind of plant lamp component for being easily assembled and adjusting characterized by comprising

Radiator, the width direction two sides of base outer surface are protruded respectively is provided with a guide-track groove, so that the radiator Base outer surface forms sliding slot face structure, and the length direction of the guide-track groove is consistent with the length direction of the radiator；

Sliding metal plate, width direction both ends are slided in the guide-track groove along the length direction limit of the radiator, First outer surface of sliding metal plate and the sliding slot face paste close sliding setting, and the sliding metal plate and the radiator It can fix；And

LED substrate is fixed on second outer surface of sliding metal plate, and the LED substrate is bonded with sliding metal plate It is arranged, several LED lamp beads is arranged at intervals in the LED substrate, each LED lamp bead is connected in series；

Wherein, the LED substrate length direction first end is provided with the first conductive interface, the described first conductive interface and each The first end of the LED lamp bead of a series connection connects, and it is conductive slotting that the LED substrate length direction second end is provided with second Interface, the described second conductive interface is connect with the second end of the LED lamp bead of each series connection, two neighboring described Conductive interface in LED substrate is conductively connected by connection terminal head and the tail series connection.

2. a kind of plant lamp component for being easily assembled and adjusting as described in claim 1, which is characterized in that the sliding metal plate Width and two sides described in the distance between guide-track groove it is consistent；Several first screw holes, the sliding are offered on the sliding slot face Metal plate can be bolted in first screw hole.

3. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 2, which is characterized in that the LED substrate Width is less than the width of the sliding metal plate, and LED substrate width direction two sides and one spacing of guide-track groove interval From；Several second screw holes are offered on the sliding metal plate, the LED substrate can be bolted on second screw hole In, heat-conducting glue is coated between the LED substrate and sliding metal plate contact surface.

4. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 3, which is characterized in that the sliding metal plate The sandwiched semiconductor refrigerator between the sliding slot face, the cold end of the semiconductor cooler are contacted with sliding metal plate, institute Semiconductor cooler hot end and sliding slot face contact are stated, and the semiconductor cooler upper and lower surface is coated with heat-conducting silicone grease.

5. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 4, which is characterized in that the sliding metal plate It is bolted with semiconductor cooler, and the width of the semiconductor cooler is no more than the width of the sliding metal plate Degree, the sliding metal plate and the superposition thickness of semiconductor cooler are consistent with the depth of the guide-track groove.

6. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 5, which is characterized in that the semiconductor refrigerating The length of device is not less than the length of the sliding metal plate, and the positive and negative terminal of the semiconductor cooler is from the semiconductor The length direction both ends of refrigerator are drawn upwards, and the positive and negative terminal exit of the semiconductor cooler is arranged to conduction Connect header structure.

7. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 6, which is characterized in that described first is conductive slotting Interface is connect with the positive conductive of each LED lamp bead series-connected wires, and the described first conductive interface passes through grafting Line is connect with positive pole, and the negative conductive of the described second conductive interface and each LED lamp bead series-connected wires connects It connects, and the described second conductive interface is connect by patch with power cathode.

8. a kind of plant lamp component for being easily assembled and adjusting as claimed in claim 7, which is characterized in that the guide rail slot length A connection-peg is arranged in the end protrusion of direction first end, is provided with a grafting on the outside of the guide-track groove length direction second end Mouthful, the two neighboring radiator is sequentially connected by the connection-peg with interface.