CN111602533A

CN111602533A - Novel light filling lamps and lanterns are used in scene are made to plant

Info

Publication number: CN111602533A
Application number: CN202010420352.8A
Authority: CN
Inventors: 赖仕川
Original assignee: 赖仕川
Current assignee: Taizhou Luqiao wanchi Machinery Factory
Priority date: 2020-05-18
Filing date: 2020-05-18
Publication date: 2020-09-01
Anticipated expiration: 2040-05-18
Also published as: CN111602533B

Abstract

The invention discloses a novel light supplementing lamp for plant landscape construction, which comprises a shell, wherein two light supplementing lamps are symmetrically installed on an inner top wall of the shell, two pieces of flat glass are symmetrically and obliquely arranged on an inner bottom wall of the shell, the two pieces of flat glass are respectively positioned under the two light supplementing lamps, two pieces of transparent glass are symmetrically installed on the bottom wall of the shell, the two pieces of transparent glass are respectively positioned under the two pieces of flat glass, a reflector and a concave lens are respectively and fixedly arranged on the inner top wall and the inner bottom wall of the shell, two heat conducting grooves are formed in the top wall of the shell, heat conducting plates are respectively and fixedly arranged in the two heat conducting grooves, spiral connecting pieces are respectively and fixedly arranged on the two heat conducting plates, and one ends of the two spiral connecting pieces, which are far away from the corresponding heat conducting plates. The light supplementing lamp is wider in irradiation range and softer in light, the light emitting effect of the light supplementing lamp is improved, and the ornamental value of the plant landscape is improved.

Description

Novel light filling lamps and lanterns are used in scene are made to plant

Technical Field

The invention relates to the technical field of plant maintenance equipment, in particular to a novel light supplementing lamp for plant landscaping.

Background

The illumination is very important to plant landscaping, especially for indoor landscape, the use of the light supplement lamp to improve the illumination intensity is an indispensable maintenance means, and different plants are irradiated by selecting light rays with different wave bands, so that the growth state of the plants can be obviously improved, and the quality of flowers and fruits can be improved.

Because the plant species that the plant was used in the scene was made to the plant is more, the wave band of the light that different plants liked is different, so the maintenance personnel generally use compound light as the supplementary illumination, common light filling lamps and lanterns are because power is great, the light that sends is stronger, people can be stabbed by the light beam eyes when raising the head, and the light that full gloss register light filling lamps and lanterns sent is white light, compare in colored light filling lamp, it can't improve the sight that the plant was made the scene, can influence people's impression because light is stronger on the contrary, for this reason, we provide a novel plant and make a scene and use light filling lamps and lanterns.

Disclosure of Invention

The invention aims to solve the problems that a full-spectrum light supplement lamp in the prior art does not have ornamental value compared with a color light supplement lamp, and the full-spectrum light supplement lamp can influence the appearance of people due to the fact that white light is dazzling, and provides a novel light supplement lamp for plant landscaping.

In order to achieve the purpose, the invention adopts the following technical scheme:

a novel light supplementing lamp for plant landscaping comprises a shell, wherein two light supplementing lamps are symmetrically installed on an inner top wall of the shell, two pieces of flat glass are symmetrically and obliquely arranged on an inner bottom wall of the shell and are respectively positioned under the two light supplementing lamps, two pieces of transparent glass are symmetrically installed on the bottom wall of the shell and are respectively positioned under the two pieces of flat glass, a reflector and a concave lens are fixedly arranged on the inner top wall and the inner bottom wall of the shell respectively, and the reflector and the concave lens are coaxial;

two heat conducting grooves are formed in the top wall of the shell, heat conducting plates are fixedly arranged in the two heat conducting grooves, spiral connecting pieces are fixedly arranged on the two heat conducting plates, one ends, far away from the corresponding heat conducting plates, of the two spiral connecting pieces are fixedly connected with sliding plates, liquid storage grooves are formed in the two flat glass plates in a whole body, and sliding plugs are arranged in the two liquid storage grooves in a sealing and sliding mode;

and two trigger mechanisms are further arranged in the shell, one ends of the two heat conduction grooves are respectively communicated with the liquid storage grooves corresponding to the positions, and the other ends of the two heat conduction grooves are respectively communicated with the corresponding trigger mechanisms.

Preferably, every trigger mechanism all includes the straight section of thick bamboo of fixed mounting in the casing and sets up the standing groove in the casing diapire, every all sealed the slip is provided with the plectane in the straight section of thick bamboo, every be connected with pressure spring between the plectane and the top that corresponds the straight section of thick bamboo, every all install the solenoid valve in the standing groove, every the solenoid valve is imported and exported and the delivery port is equallyd divide and is do not be connected with feed pipe and atomizer, every atomizer all is located the below of casing, every all be connected with the conducting strip between the diapire in the solenoid valve and the straight section of thick bamboo that corresponds.

Preferably, each heat conduction groove is communicated with a corresponding straight cylinder, a conducting ring is embedded on the side wall of each straight cylinder, and each conducting ring is close to the top of the corresponding straight cylinder.

Preferably, each reservoir is filled with mercury solution, and the volume of each straight cylinder is larger than that of the corresponding reservoir.

Preferably, each flat glass, the corresponding transparent glass and the corresponding shell form a closed space together, and each closed space is triangular prism-shaped and is filled with the aqueous solution.

The invention has the beneficial effects that:

1. by arranging the flat glass filled with the mercury solution, the reflector, the convex lens and other devices, the composite light beam can be diffused to the periphery by virtue of the light diffusion effect of the concave lens, so that the illumination is supplemented for plants with larger areas.

2. Through the effect of diverging of concave lens, light intensity on the same direction descends, and for ordinary light filling lamps and lanterns, light beam is softer in this device, and people can not stinging eyes by the light beam when directly seeing the lamps and lanterns.

3. Through setting up conducting ring, mercury solution, solenoid valve, straight section of thick bamboo etc. can make solenoid valve and conducting ring electricity be connected with the help of mercury solution after the light filling lamp work for a certain time, under electric drive, the solenoid valve is opened, and rivers supply atomizer through the feed pipe, and atomizer blowout water smoke is for the plant of below supplyes a small amount of moisture.

4. Through set up the plectane in the straight section of thick bamboo, can guarantee that the liquid level of the mercury solution in the straight section of thick bamboo rises or descends in parallel all the time, reduces the shock of liquid level, avoids the solenoid valve trouble that mercury solution and conducting ring contact failure and result in.

5. The plate glass, the transparent glass and the shell jointly form a triangular prism, the triangular prism has a light scattering effect, a bundle of composite light can be dispersed into a plurality of bundles of monochromatic light, the colorful light beams can be used for plant landscape and can be beautiful and add different styles of styles, and small water drops in the air can refract light again when the atomizing nozzle sprays water mist obliquely, so that the water mist glitters and shines, and the ornamental value is improved.

6. The electromagnetic valve in the device is opened intermittently, and only a small amount of water mist is sprayed at each time, so that the moisture of the air is increased, and meanwhile, the rottenness and even death of roots and stems caused by excessive water replenishing of the plants can be avoided.

In conclusion, the light supplementing lamp has a wider irradiation range and softer light, the light emitting effect of the light supplementing lamp is improved, and the ornamental value of the plant landscape is improved.

Drawings

Fig. 1 is a schematic structural view of a novel light supplement lamp for plant landscaping according to the present invention;

fig. 2 is a light path diagram of a light supplement lamp in the novel light supplement lamp for plant landscaping provided by the invention when the temperature is normal;

fig. 3 is a light path diagram of a light supplement lamp in the novel light supplement lamp for plant landscaping according to the invention after the temperature of the light supplement lamp is raised;

fig. 4 is a bottom view of the novel light supplement lamp for plant landscaping provided by the invention;

FIG. 5 is an enlarged view taken at A in FIG. 1;

FIG. 6 is an enlarged view of FIG. 1 at B;

fig. 7 is an enlarged view of fig. 1 at C.

In the figure: the device comprises a shell 1, a reflector 2, a spiral connecting piece 3, a heat conducting groove 4, a fill-in light 5, a straight cylinder 6, flat glass 7, a concave lens 8, an electromagnetic valve 9, an atomizing nozzle 10, transparent glass 11, a heat conducting plate 12, a sliding plate 13, a sliding plug 14, a conducting ring 15, a circular plate 16, a placing groove 17 and a pressure spring 18.

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-7, a novel light supplement lamp for plant landscape construction comprises a shell 1, wherein two light supplement lamps 5 are symmetrically installed on an inner top wall of the shell 1, two pieces of plate glass 7 are symmetrically and obliquely arranged on an inner bottom wall of the shell 1, the two pieces of plate glass 7 are respectively positioned under the two light supplement lamps 5, two pieces of transparent glass 11 are symmetrically installed on the bottom wall of the shell 1, the two pieces of transparent glass 11 are respectively positioned under the two pieces of plate glass 7, a reflector 2 and a concave lens 8 are respectively and fixedly arranged on the inner top wall and the inner bottom wall of the shell 1, and the reflector 2 and the concave lens 8 are coaxial;

the composite light emitted by the light supplement lamp 5 is reflected by the mercury solution in the plate glass 7 and then propagates towards the reflector 2, and the reflector 2 is arc-shaped and can reflect the received light to the concave lens 8;

two heat conducting grooves 4 are formed in the top wall of the shell 1, heat conducting plates 12 are fixedly arranged in the two heat conducting grooves 4, spiral connecting pieces 3 are fixedly arranged on the two heat conducting plates 12, one ends, far away from the corresponding heat conducting plates 12, of the two spiral connecting pieces 3 are fixedly connected with sliding plates 13, liquid storage grooves are integrally formed in the two pieces of plate glass 7, sliding plugs 14 are arranged in the two liquid storage grooves in a sealing and sliding mode, and the sliding plugs 14 are also in sealing connection with the inner walls of the heat conducting grooves 4;

the heat conducting plate 12 is located above the light supplement lamp 5, the heat conducting plate 12 is made of metal or alloy material with good heat conductivity, when the light supplement lamp 5 generates heat, the heat at the position of the light supplement lamp 5 can be rapidly transferred to the position of the heat conducting plate 12, and the spiral connecting piece 3 is made of memory alloy, such as nickel-titanium memory alloy, and the metamorphic temperature of the spiral connecting piece is 40 ℃;

two trigger mechanisms are further arranged in the shell 1, one ends of the two heat conduction grooves 4 are respectively communicated with the liquid storage grooves corresponding to the positions, and the other ends of the two heat conduction grooves 4 are respectively communicated with the corresponding trigger mechanisms.

According to the invention, each trigger mechanism comprises a straight cylinder 6 fixedly installed in a shell 1 and a placing groove 17 formed in the bottom wall of the shell 1, a circular plate 16 is arranged in each straight cylinder 6 in a sealing and sliding manner, a pressure spring 18 is connected between each circular plate 16 and the top of the corresponding straight cylinder 6, an electromagnetic valve 9 is installed in each placing groove 17, an inlet and an outlet of each electromagnetic valve 9 are respectively connected with a water supply pipe and an atomizing spray head 10, each atomizing spray head 10 is positioned below the shell 1, a certain included angle is formed between each atomizing spray head 10 and the shell 1, the angle of each atomizing spray head 10 can be manually adjusted, and a conducting strip is connected between each electromagnetic valve 9 and the bottom wall of the corresponding straight cylinder 6;

the projection of the straight tube 6 in the vertical direction neither coincides with the projection of the transparent glass 11 nor with the projection of the concave lens 8, i.e., the straight tube 6 does not affect the propagation of the light emitted by the fill light 5.

Each heat conduction groove 4 is communicated with the corresponding straight cylinder 6, a conducting ring 15 is embedded on the side wall of each straight cylinder 6, each conducting ring 15 is close to the top of the corresponding straight cylinder 6, and the conducting ring 15 is connected with an external power supply device.

Each reservoir is filled with mercury solution, and the volume of each straight cylinder 6 is larger than that of the corresponding reservoir, so that the mercury solution in the reservoirs can completely flow into the corresponding straight cylinders 6.

Each flat glass 7, the corresponding transparent glass 11 and the corresponding shell 1 jointly form a closed space, and each closed space is triangular prism-shaped and is filled with aqueous solution.

When the light supplementing lamp is used, the heat generated by the light supplementing lamp 5 during short-time work is less, the sliding plug 14 is positioned at the top end of the liquid storage tank in the plate glass 7 at the moment, the spiral connecting piece 3 is in a spiral contraction state, the liquid storage tank in the plate glass is communicated with the straight cylinder 6, the circular plate 16 is close to the bottom of the straight cylinder 6 under the action of the pressure spring 18, and the mercury solution in the liquid storage tank cannot be contacted with the conducting ring 15;

in an initial state, the composite light emitted by the light supplement lamp 5 is reflected by mercury solution in the plate glass 7 and then propagates towards the reflector 2, the mirror surface of the reflector 2 is arc-shaped with a downward opening and can converge the received light, so that the composite light beam almost vertically irradiates towards the concave lens 8, as shown in fig. 2, the concave lens 8 has a divergence effect on the light, the composite light beam passing through the concave lens 8 diverges towards the periphery to supplement illumination for plants with larger areas, and the light intensity in the same direction is reduced through the divergence effect of the concave lens 8, compared with a common light supplement lamp, the light beam in the device is softer, and people cannot be dazzled by the light beam when the lamp is directly viewed;

with the increase of the working time of the light supplement lamp 5, heat will gradually accumulate at the light supplement lamp 5 (although the commonly used light supplement lamp 5 is an LED lamp, the heat generation amount is small, but it does not represent that the light supplement lamp 5 does not generate heat), the heat conducting plate 12 is made of metal or alloy with good heat conductivity, the heat at the light supplement lamp 5 can be rapidly transferred into the heat conducting groove 4, and the screw connector 3 is made of memory alloy, such as nickel-titanium memory alloy, the transformation temperature is 40 ℃, when the temperature in the heat conduction groove 4 exceeds 40 ℃, the spiral connecting piece 3 can instantly recover to a straight state, as shown in fig. 3, the sliding plate 13 is rapidly moved from one end of the heat-conducting channel 4 to the other end of the heat-conducting channel 4, at the same time, the sliding plate 13 will press the gas in the heat-conducting tank 4 into the corresponding liquid storage tank, thereby pushing the sliding plug 14 to slide downwards along the liquid storage tank until the sliding plug 14 completely extrudes the mercury solution in the liquid storage tank into the corresponding straight cylinder 6;

with the increase of the mercury solution in the straight cylinder 6, the circular plate 16 moves upwards against the deformation force of the pressure spring 18, when the mercury solution in the liquid storage tank is completely squeezed into the corresponding straight cylinder 6, the circular plate 16 is just positioned above the corresponding conducting ring 15, because a conducting strip is connected between each electromagnetic valve 9 and the inner bottom wall of the corresponding straight cylinder 6, the mercury solution as a conducting medium can enable the conducting ring 15 to be electrically connected with the electromagnetic valves 9, and the conducting ring 15 is connected with an external power supply device, so that under the drive of electric power, the electromagnetic valves 9 are opened, water flow is supplied to the atomizing nozzle 10 through the water supply pipe, and the atomizing nozzle 10 obliquely sprays water mist to supplement a small amount of moisture for plants below;

meanwhile, the mercury solution cannot reflect light, light emitted by the light supplement lamp 5 can pass through the flat glass 7 to enter the water solution, the flat glass 7, the corresponding transparent glass 11 and the shell 1 jointly form a triangular prism, the triangular prism has a light scattering effect and can disperse a compound light into a plurality of monochromatic lights, so that a colorful light beam can appear below the shell 1 to add a good look and a beautiful look to the plant landscape and add a different style of style, and small water drops in the air can refract the light again along with the inclined spraying of the atomizing nozzle 10, so that the light can flash and shine;

it is worth to be noted that, when the spiral connecting piece 3 is restored to the straight state and the sliding plate 13 is pushed to move rapidly, external air is supplemented to enter the heat conducting groove 4 (a connecting port between the heat conducting groove 4 and the outside is close to the connecting position between the spiral connecting piece 3 and the heat conducting plate 12, the air tightness of the sliding plate 13 on the heat conducting groove 4 is not affected), the spiral connecting piece 3 and the light supplement lamp 5 can be cooled after the external air enters the heat conducting groove 4, and the light supplement lamp 5 is always kept at an appropriate temperature, so that the service life of the light supplement lamp 5 can be prolonged;

in addition, after the warm air in the heat conduction tank 4 flows into the liquid storage tank, the heat can be transferred into the aqueous solution through heat transfer, because the specific heat capacity of the aqueous solution is large, and much heat can be absorbed, the warm air can be quickly recovered to the normal temperature, although the warm air can also transfer the heat into the mercury solution through the sliding plug 14, because the temperature of the warm air is not high (about 40 ℃), the thermal conductivity of the sliding plug 14 is poor, and the aqueous solution can quickly absorb the heat, the mercury solution hardly expands;

when the temperature of the heat conducting tank 4 and the spiral connecting piece 3 is reduced, the spiral connecting piece 3 is changed from a straight state to a spiral compression state, so that the sliding plate 13 is reset, the liquid storage tank is refilled with the mercury solution under the action of negative pressure, the plate glass 7 does not transmit light any more, and the electromagnetic valve 9 is powered off and closed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A novel light supplementing lamp for plant landscaping comprises a shell (1) and is characterized in that two light supplementing lamps (5) are symmetrically installed on an inner top wall of the shell (1), two pieces of plate glass (7) are symmetrically and obliquely arranged on an inner bottom wall of the shell (1), the two pieces of plate glass (7) are respectively positioned under the two light supplementing lamps (5), two pieces of transparent glass (11) are symmetrically installed on a bottom wall of the shell (1), the two pieces of transparent glass (11) are respectively positioned under the two pieces of plate glass (7), and a reflector (2) and a concave lens (8) are respectively and fixedly arranged on the inner top wall and the inner bottom wall of the shell (1);

two heat conduction grooves (4) are formed in the top wall of the shell (1), heat conduction plates (12) are fixedly arranged in the two heat conduction grooves (4), spiral connecting pieces (3) are fixedly arranged on the two heat conduction plates (12), one ends, far away from the corresponding heat conduction plates (12), of the two spiral connecting pieces (3) are fixedly connected with sliding plates (13), liquid storage grooves are uniformly formed in the two pieces of plate glass (7) in a integrated mode, and sliding plugs (14) are arranged in the two liquid storage grooves in a sealing sliding mode;

the shell (1) is also internally provided with two trigger mechanisms, one ends of the two heat conduction grooves (4) are respectively communicated with the liquid storage grooves with corresponding positions, and the other ends of the two heat conduction grooves (4) are respectively communicated with the corresponding trigger mechanisms.

2. The novel light supplementing lamp for the plant landscape according to claim 1, wherein each trigger mechanism comprises a straight cylinder (6) fixedly installed in a shell (1) and a placing groove (17) formed in the bottom wall of the shell (1), each straight cylinder (6) is internally provided with a circular plate (16) in a sealing and sliding mode, a pressure spring (18) is connected between each circular plate (16) and the top of the corresponding straight cylinder (6), each placing groove (17) is internally provided with an electromagnetic valve (9), each electromagnetic valve (9) is provided with an inlet and an outlet and is connected with a water supply pipe and an atomizing nozzle (10), each atomizing nozzle (10) is located below the shell (1), and each electromagnetic valve (9) is connected with a conducting strip between the bottom wall of the corresponding straight cylinder (6).

3. The light supplement lamp for the plant landscaping as claimed in claim 2, wherein each heat conduction groove (4) is communicated with a corresponding straight tube (6), a conductive ring (15) is embedded on the side wall of each straight tube (6), and each conductive ring (15) is close to the top of the corresponding straight tube (6).

4. A light supplement lamp for plant landscaping as claimed in claim 2, wherein each reservoir is filled with mercury solution, and the volume of each straight tube (6) is greater than that of the corresponding reservoir.

5. A novel light supplement lamp for plant landscaping as claimed in claim 1, wherein each of the plate glasses (7) forms a closed space together with the corresponding transparent glass (11) and the housing (1), and each closed space is a triangular prism and is filled with an aqueous solution.