CN214593742U - Deinsectization lamp for greenhouse - Google Patents

Abstract

The utility model relates to a deinsectization lamp for big-arch shelter relates to the deinsectization lamp field, including the lamp cap, lamp cap lower surface is equipped with the insect attraction light source, install power supply unit on the lamp cap, power supply unit is connected and supplies power for the insect attraction light source with insect attraction light source electricity. The deinsectization lamp is from taking power supply unit, and the deinsectization lamp need not to pass through transmission of electricity connection of electric lines with external power source again, can avoid laying of transmission of electricity electric lines, alleviates the management pressure of staff to equipment in the big-arch shelter to improve power supply efficiency.

Description

Deinsectization lamp for greenhouse

Technical Field

The application relates to the field of bugZapper, especially relate to a bugZapper for big-arch shelter.

Background

The greenhouse planting technology is a common technology at present, has good heat preservation performance, and therefore can plant out-of-season vegetables at any time. Just because of the high temperature in the greenhouse, pests can also live and breed in the greenhouse, and if the pests are not killed in time, the normal growth of vegetables or fruit trees or seedlings can be influenced.

At present, chinese patent with publication number CN206433609U discloses an insecticidal lamp for multifunctional greenhouse, including the lamp cap of upside and the insect collecting tray of downside, be connected through the stand that circumferential interval set up between lamp cap and the insect collecting tray, the middle part of lamp cap lower surface is equipped with the insect attracting light source, is provided with the high-pressure net bars between lamp cap and the insect collecting tray, and the high-pressure net bars use the insect attracting light source to outwards be radial setting as the center, stand and high-pressure net bars one-to-one, and the outer end that is located corresponding high-pressure net bars respectively be radial outside extension department, the upper end of every stand is close to that lamp cap department articulates there is the installation pole, is fixed with the color plate on the installation pole, and the front and the back of color plate all set up the coating and have the zoogloomy glue.

Aiming at the related technologies, the insect-attracting light source and the high-voltage grid both need to use electric energy, and an external power supply is generally adopted for supplying power. However, a power transmission wire needs to be connected between the external power source and the insect killing lamp, the normal planting of the greenhouse can be influenced if the wiring of the power transmission wire in the greenhouse is not standard, the power transmission wire is easy to contact with soil and moisture, and the power transmission wire is easy to damage.

SUMMERY OF THE UTILITY MODEL

For the convenience of power supply, this application provides a bugZapper for big-arch shelter.

The application provides a pair of bugZapper for big-arch shelter adopts following technical scheme:

the utility model provides a big-arch shelter is with bugZapper, includes the lamp cap, the lamp cap lower surface is equipped with the insect trapping light source, install power supply unit on the lamp cap, power supply unit and insect trapping light source electricity are connected and for the insect trapping light source power supply.

Through adopting above-mentioned technical scheme, the bugZapper is from taking power supply unit, and the bugZapper need not to pass through transmission of electricity connection of electric wires with external power source again, can avoid laying of transmission of electricity electric wires, alleviates the staff to the management pressure of equipment in the big-arch shelter to improve power supply efficiency.

Optionally, the power supply unit includes a solar panel and a storage battery, the solar panel is installed on the upper surface of the lamp cap, the storage battery is located in the lamp cap, the solar panel is electrically connected with the storage battery and charges the storage battery, and the storage battery is electrically connected with the insect-attracting light source and supplies power to the insect-attracting light source.

Through adopting above-mentioned technical scheme, when evening, the battery is supplied the electric energy for luring the worm light source again, and when daytime, sunshine shines on solar panel, and solar panel converts solar energy into the electric energy and supplements the electric energy that the battery consumed for the battery can have more permanent duration.

Optionally, the lamp cap includes lamp stand and lamp lid, the bottom and the moth-killing light source of lamp stand are connected, and the lamp stand top sets up the standing groove that supplies the battery to place, lamp lid detachably connects at the top of lamp stand and covers the standing groove notch, solar panel installs the one side that deviates from the lamp stand at the lamp lid.

Through adopting above-mentioned technical scheme, split can be carried out to lamp lid and lamp stand, and the convenience is maintained the battery that is in the standing groove, in case the battery accident damage appears, also can continue to use the bugZapper through the mode of the battery of more renewing.

Optionally, a threading hole communicated with the placing groove is formed in the side wall of the lamp holder, and the threading hole is used for allowing a power wire to penetrate into the placing groove.

Through adopting above-mentioned technical scheme, when daytime lacks the sunshine, still need use external power source temporarily to supply power for the battery, the through wires hole just offers for transmission of electricity electric wire passes through. In addition, the plastic film on the greenhouse can change color after being used for a long time, the plastic film can weaken the intensity of sunlight irradiating into the greenhouse, a solar panel can be arranged outside the greenhouse for better charging, and the electric energy converted by the solar panel is transmitted to a storage battery in the greenhouse through a power transmission wire.

Optionally, the lamp holder and the lamp cover are connected by a bolt, and the bolt penetrates through the lamp holder from the lower surface of the lamp holder and then is connected to the lamp cover in a threaded manner.

Through adopting above-mentioned technical scheme, any screw hole is not seted up to the upper surface of lamp lid for water droplet, impurity cover can not cause the influence to the bolt behind the upper surface of lamp lid.

Optionally, the power supply unit includes battery case and rechargeable battery, the battery case is fixed on the lamp cap, rechargeable battery detachably installs in the battery case, be connected with the power supply line between battery case and the moth-killing light source.

Through adopting above-mentioned technical scheme, provide the electric energy for luring the worm light source by rechargeable battery, after the electric quantity in rechargeable battery exhausts, the staff can take out rechargeable battery and directly take indoor the charging, if prepare several groups rechargeable battery more, then can install the rechargeable battery who is full of electricity again, is luring the power supply of worm light source in turn.

Optionally, a placing groove is formed in the lamp cap, a notch of the placing groove is formed in the top surface of the lamp cap, the battery box comprises a box body and a box cover, the box body is installed in the placing groove, and the box cover is located at the notch of the placing groove and detachably connected to the box body.

Through adopting above-mentioned technical scheme, the battery case is installed in the standing groove, can reduce the whole volume of bugZapper, also can play the guard action to the battery case in addition, and detachable lid is convenient to be taken and stored rechargeable battery.

Optionally, the lamp cap is provided with a light detector and a controller, the light detector is used for detecting the illumination intensity in the greenhouse and outputting a detection signal, and the controller is coupled to the light detector to receive the detection signal and respond to the detection signal to control the power supply and the power off of the power supply unit.

By adopting the technical scheme, after the light detector detects illumination, the controller controls the power supply unit to supply power to the insect attracting light source, and after the light detector does not detect the illumination, the controller controls the power supply unit to be disconnected from the insect attracting light source, so that a worker does not need to manually turn on/off the insect killing lamp.

Optionally, a timer is further installed on the lamp cap, the controller is coupled to the timer to control the start of the timer, and the timer is configured to interrupt power supply from the power supply unit to the insect attracting light source after the timing is finished.

By adopting the technical scheme, the quantity of the pests in the greenhouse is limited, the pests which can be attracted in the greenhouse can be attracted by the pest trapping light source after the pest trapping light source works for a certain time, and the efficiency of the pest trapping light source continuing to work is not high, so that once the timer reaches the timing time, the power supply of the power supply unit is cut off to save electric energy.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the power supply unit, electric energy is provided for the insect attracting light source nearby, the arrangement of power transmission wires is reduced, and convenience is provided for power supply;

2. through the arrangement of the threading holes, conditions are provided for temporary construction of the power transmission wire, acute power supply can be provided, and the normal work of the insect killing lamp is ensured;

3. through setting up the photo detector, realize automatic opening/close and lure the power supply of worm light source, need not the staff and control, alleviate staff's work.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a schematic structural view of a lamp cap according to embodiment 1 of the present application.

Fig. 3 is a schematic view of the overall structure of embodiment 2 of the present application.

Fig. 4 is a schematic view of the position of the threading hole on the lamp socket according to embodiment 3 of the present application.

Fig. 5 is a schematic structural diagram of a lamp socket according to embodiment 4 of the present application.

Fig. 6 is a circuit block diagram of embodiment 4 of the present application.

Description of reference numerals: 1. a lamp cap; 11. a lamp socket; 111. a placement groove; 112. a through hole; 113. threading holes; 12. a lamp cover; 121. caulking grooves; 2. collecting insect trays; 3. a light source for attracting insects; 4. a high voltage grid; 5. a color plate; 61. a solar panel; 62. a storage battery; 63. a battery case; 631. a box body; 632. a box cover; 64. a rechargeable battery; 71. a photodetector; 72. a controller; 73. a timer.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Example 1: the embodiment of the application discloses bugZapper for big-arch shelter. Referring to fig. 1, the deinsectization lamp for the greenhouse comprises a lamp cap 1 and a pest collecting disc 2 located below the lamp cap 1, wherein the lamp cap 1 is connected with the pest collecting disc 2 through a stand column arranged at intervals in the circumferential direction, a pest trapping light source 3 is arranged in the middle of the lower surface of the lamp cap 1, the pest trapping light source 3 is an LED light source, and a high-voltage net grid 4 is further arranged between the lamp cap 1 and the pest collecting disc 2. The upper end of each upright post is hinged with an installation rod close to the lamp cap 1, a color plate 5 is fixed on the installation rod, and pest sticking glue is coated on the side surfaces of two sides of the color plate 5.

In the use process, the phototaxis of the pests is utilized, the pest luring light source 3 lures the pests into the pest killing lamp, and the pests kill the pests through electric shock by the high-voltage net grids 4 when passing through the high-voltage net grids 4. The color plate 5 can emit corresponding light waves to attract pests, and the pests are stuck by glue after flying to the color plate 5, so that the purpose of attracting and killing the pests is achieved.

Referring to fig. 1 and 2, the lamp cap 1 includes a lamp holder 11 and a lamp cover 12, a placement groove 111 is opened at the top of the lamp holder 11, the insect-attracting light source 3 is fixed at the bottom center of the lamp holder 11 by a bolt, and one end of the insect-attracting light source 3 penetrates into the placement groove 111. The circumferential edge position of the lamp holder 11 is provided with a plurality of through holes 112 for bolts to pass through, the circumferential edge position of the top cover is provided with a plurality of threaded holes corresponding to the through holes 112 one by one, and the lamp cover 12 is arranged above the lamp holder 11 and covers the notch of the placing groove 111. The end of the bolt is threaded into the threaded hole after passing through the through hole 112 from top to bottom. The top surface of top cap has seted up caulking groove 121, and the threaded connection has the couple still on the top cap, and the couple has two, and two couples are in the both sides of caulking groove 121 respectively.

The lamp cap 1 is provided with a power supply unit which provides electric energy for the high-voltage net grid 4 and the insect-attracting light source 3.

Referring to fig. 2, the power supply unit includes a solar panel 61 and a storage battery 62. The storage battery 62 is detachably fixed in the placing groove 111 through bolts, and the storage battery 62 is electrically connected with the insect-attracting light source 3 and the high-voltage grid 4 through electric wires. The solar panel 61 is embedded in the embedding groove 121, and during normal use, the top cover can limit the movement of the solar panel 61 through the embedding groove 121, and when the solar panel 61 needs to be detached, the solar panel 61 only needs to be pried out of the embedding groove 121.

In daytime and when the illumination is good, the solar panel 61 absorbs the sunlight irradiated on the solar panel 61, converts the light energy into electric energy, and stores the electric energy in the storage battery 62 to supplement the electric energy lost in the storage battery 62. And at night, the storage battery 62 supplies the high-voltage grid 4 and the insect-attracting light source 3 with the stored electric energy.

Example 2: the difference from embodiment 1 is that, referring to fig. 3, the power supply unit includes a battery case 63 and a rechargeable battery 64. Offer the notch with standing groove 111 intercommunication on the lamp lid 12, relative lamp lid 12's top surface, the area of notch is little a lot, and the notch is in the top cap top surface and is close to on the position of side, therefore the central point of top cap puts and can be used for the installation couple, in this embodiment, only need a couple be used for hanging hang whole bugZapper can.

Referring to fig. 3, the battery case 63 includes a case body 631 mounted in the placement groove 111 by bolts, and a case cover 632 at a notch and detachably coupled to the case body 631. The rechargeable battery 64 is detachably installed in the case 631, and the case 631 is connected with the insect-attracting light source 3 and the high-voltage grid 4 through power supply lines.

The operator only needs to prepare at least two sets of rechargeable batteries 64, one set being placed in the battery compartment 63 to supply electric power, and the other set being charged from the outside. When the rechargeable batteries 64 in the battery box 63 have no electric energy, the external rechargeable batteries 64 are charged, and the workers can replace the batteries.

Example 3: the difference from the embodiment 1 is that, referring to fig. 4, a threading hole 113 communicating with the placing groove 111 is opened on the side wall of the lamp holder 11, and the threading hole 113 is used for the electric wire to be threaded into the placing groove 111. When the solar panel 61 cannot provide power to the battery 62, for example, in a cloudy environment or a greenhouse with too strong sunlight shielding capability, an additional power source is needed to supplement the power to the battery 62, and power transmission lines are laid to connect the battery 62 and the additional power source. One end of the power transmission wire is inserted into the placing groove 111 through the threading hole 113 and connected to the storage battery 62, and the other end of the power transmission wire is provided with an appropriate additional power source according to the specific situation. For example, the ambient light is good, but the greenhouse blocks the sunlight, then the additional power source may be a solar panel 61, which is equivalent to moving the solar panel 61 out of the greenhouse for better access to the light. When the outside is cloudy, the solar panel 61 cannot obtain the light energy, and the additional power source can be the external power grid or even a generator.

Example 4: the difference from embodiment 1 is that, referring to fig. 5 and 6, the light detector 71, the controller 72, and the timer 73 are mounted on the lamp socket 11. The photodetector 71, the controller 72, and the timer 73 are installed in the placement groove 111, but one end of the photodetector 71 for detecting the outside light passes through the lamp socket 11 and is located outside. In order to prevent the light emitted from the insect attracting light source 3 from interfering with the light detector 71, the light detector 71 cannot pass out from the bottom of the lamp holder 11 to the outside. In this embodiment, the photodetector 71 protrudes from a side wall of the lamp holder 11.

The light detector 71 is a light sensor, and the light detector 71 is used for detecting the light intensity of the outside and outputting a corresponding detection signal. The controller 72 is a processor, the controller 72 is coupled to the timer 73 and the light detector 71, respectively, the controller 72 receives the detection signal and compares the detection signal with a preset signal, and when the detection signal is greater than the preset signal, the controller 72 controls the power supply unit to supply power to the insect attracting light source 3 and the high voltage grid 4. When the detection signal is not greater than the preset signal, the controller 72 controls the power supply unit to cut off the power to the insect attracting light source 3 and the high voltage grid 4.

At the same time when the power supply unit starts supplying power, the controller 72 controls the timer 73 to start, and the timer 73 starts counting time. Once the power supply unit interrupts the power supply, the timer 73 counts time, and when the counted time of the timer 73 reaches a preset time, the timer 73 sends an end signal to the controller 72, and the controller 72 controls the power supply unit to stop the power supply. The preset signal and the preset time can be adjusted by workers to fit practical use.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a deinsectization lamp for big-arch shelter, includes lamp cap (1), lamp cap (1) lower surface is equipped with lures worm light source (3), its characterized in that: the lamp cap (1) is provided with a power supply unit which is electrically connected with the insect-attracting light source (3) and supplies power to the insect-attracting light source (3); the light cap (1) is provided with a light detector (71) and a controller (72), the light detector (71) is used for detecting the illumination intensity in the greenhouse and outputting a detection signal, and the controller (72) is coupled to the light detector (71) to receive the detection signal and respond to the detection signal to control the power supply and the power failure of the power supply unit.

2. The pest control lamp for the greenhouse of claim 1, wherein: the power supply unit comprises a solar panel (61) and a storage battery (62), the solar panel (61) is installed on the upper surface of the lamp cap (1), the storage battery (62) is located in the lamp cap (1), the solar panel (61) is electrically connected with the storage battery (62) and charges the storage battery (62), and the storage battery (62) is electrically connected with the insect trapping light source (3) and supplies power for the insect trapping light source (3).

3. The pest control lamp for the greenhouse of claim 2, wherein: lamp cap (1) includes lamp stand (11) and lamp lid (12), the bottom and the moth-killing light source (3) of lamp stand (11) are connected, and lamp stand (11) top offer supply standing groove (111) that battery (62) were placed, lamp lid (12) detachably connect at the top of lamp stand (11) and cover standing groove (111) notch, solar panel (61) are installed in one side that lamp lid (12) deviate from lamp stand (11).

4. The pest control lamp for the greenhouse of claim 3, wherein: the lamp holder is characterized in that a threading hole (113) communicated with the placing groove (111) is formed in the side wall of the lamp holder (11), and a power transmission wire penetrates into the placing groove (111) through the threading hole (113).

5. The pest control lamp for the greenhouse of claim 3, wherein: the lamp holder (11) and the lamp cover (12) are connected through bolts, and the bolts penetrate through the lamp holder (11) from the lower surface of the lamp holder (11) and then are connected to the lamp cover (12) in a threaded mode.

6. The pest control lamp for the greenhouse of claim 1, wherein: the power supply unit comprises a battery box (63) and a rechargeable battery (64), the battery box (63) is fixed on the lamp cap (1), the rechargeable battery (64) is detachably installed in the battery box (63), and a power supply line is connected between the battery box (63) and the insect attracting light source (3).

7. The pest control lamp for the greenhouse of claim 6, wherein: the lamp cap is characterized in that a placing groove (111) is formed in the lamp cap (1), the notch of the placing groove (111) is formed in the top surface of the lamp cap (1), the battery box (63) comprises a box body (631) and a box cover (632), the box body (631) is installed in the placing groove (111), and the box cover (632) is located at the notch of the placing groove (111) and is detachably connected to the box body (631).

8. The pest control lamp for the greenhouse of claim 1, wherein: the lamp cap (1) is further provided with a timer (73), the controller (72) is coupled to the timer (73) to control the starting of the timer (73), and the timer (73) is used for interrupting the power supply of the power supply unit to the insect attracting light source (3) after the timing is finished.

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