CN113770126A - A high-efficient cleaning device of solar energy deinsectization lamp electric wire netting dismantlement for illumination - Google Patents
A high-efficient cleaning device of solar energy deinsectization lamp electric wire netting dismantlement for illumination Download PDFInfo
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- CN113770126A CN113770126A CN202111152840.6A CN202111152840A CN113770126A CN 113770126 A CN113770126 A CN 113770126A CN 202111152840 A CN202111152840 A CN 202111152840A CN 113770126 A CN113770126 A CN 113770126A
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- block mechanism
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B7/00—Cleaning by methods not provided for in a single other subclass or a single group in this subclass
- B08B7/02—Cleaning by methods not provided for in a single other subclass or a single group in this subclass by distortion, beating, or vibration of the surface to be cleaned
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01M—CATCHING, TRAPPING OR SCARING OF ANIMALS; APPARATUS FOR THE DESTRUCTION OF NOXIOUS ANIMALS OR NOXIOUS PLANTS
- A01M1/00—Stationary means for catching or killing insects
- A01M1/22—Killing insects by electric means
- A01M1/223—Killing insects by electric means by using electrocution
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- Life Sciences & Earth Sciences (AREA)
- Pest Control & Pesticides (AREA)
- Engineering & Computer Science (AREA)
- Insects & Arthropods (AREA)
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Abstract
The invention relates to the technical field of solar energy, and discloses a disassembly-free efficient cleaning device for an electric network of a solar insect killing lamp for illumination. This a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, rotation through the balance drives the drive guide block mechanism and rocks, and make the drive guide block mechanism along the surface slip of upper spring ejector pin one and lower spring ejector pin one, and make drive guide block mechanism and connecting rod shake along the horizontal direction under spring mechanism's drive, with this make electric wire netting mechanism rock along the horizontal direction, make electric wire netting mechanism surface adhesion's pest drop, reach and to clear up the pest that the electric wire netting surface bonds fast, prevent electric wire netting local short circuit or burn, improve the effect of pest cleaning efficiency.
Description
Technical Field
The invention relates to the technical field of solar energy, in particular to a disassembly-free efficient cleaning device for an electric network of a solar insect killing lamp for illumination.
Background
The solar insect killing lamp is a solar illuminating lamp, can be used for trapping and killing insects by utilizing a sensitive specific spectrum according to the characteristic that the insects have phototaxis, can effectively reduce the index of pests near gardens or crop lands, does not need to use chemical agents, absorbs solar energy through a photovoltaic panel and converts the solar energy into electric energy for storage, and is used for lighting at night to attract the pests and electrically killing the pests through a power grid arranged outside a light source, so that the insects can be effectively cleaned and certain protection effect on the environment can be achieved.
Traditional solar energy bugZapper structure is comparatively simple, mainly by the lamp shade, lamp source and electric wire netting are constituteed, the pest can be destroyed after being touched the electric wire netting by the light source attraction, most pest can drop from the electric wire netting surface and send the insect-catching bag of lamp shade below, but have the more pest of a part body fluid can secrete the mucus after the electric wire netting electric shock, and bond on the electric wire netting, consequently the bugZapper needs personnel regularly to clear up, especially will clean the electric wire netting, otherwise along with the pest piles up on the electric wire netting and causes the local short circuit of electric wire netting or burns out easily, and then lead to the electric wire netting deinsectization scope to reduce, be unfavorable for controlling the quantity of pest, and the actual clearance to the bugZapper electric wire netting is comparatively loaded down with trivial details, need frequently to dismantle lamp shade and installation, not only working strength is big still leads to the electric wire netting to damage bad contact's problem.
The invention provides a disassembly-free efficient cleaning device for an electric network of a solar insect killing lamp for illumination, which solves the problems that the traditional solar insect killing lamp is required to be disassembled and cleaned regularly by personnel due to the lack of a corresponding cleaning device, the cleaning process is complicated and slow, the electric network is easy to be damaged accidentally due to poor contact, and the like.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides a disassembly-free efficient cleaning device for an electric network of a solar insect killing lamp for illumination, which has the advantages of cleaning away pests attached to the surface of the electric network at any time and quickly, and preventing the damage of the partial contact failure of the electric network caused by the accumulation of the pests on the electric network, thereby improving the pest cleaning efficiency.
In order to realize the purposes of cleaning the pests attached to the surface of the power grid at any time and quickly and preventing the pests from accumulating on the power grid to cause the damage of the partial contact failure of the power grid, thereby improving the pest cleaning efficiency, the invention provides the following technical scheme: the utility model provides a high-efficient cleaning device of solar energy insecticidal lamp electric wire netting dismantlement for illumination, includes drive guide block mechanism, the center department of drive guide block mechanism rotates and is connected with the balance, the fixed surface of drive guide block mechanism is connected with the connecting rod, the one end fixedly connected with electric wire netting mechanism that drive guide block mechanism was kept away from to the connecting rod, electric wire netting mechanism's fixed surface is connected with the closing plate.
Still include the lamp shade, the inside fixedly connected with upper cover plate of lamp shade, the inside fixedly connected with lower apron of lamp shade.
Still include the vibrating mass mechanism, the lower part of going up the vibrating mass mechanism is provided with vibrating mass mechanism down, the fixed surface who goes up the vibrating mass mechanism is connected with spring ejector pin one, the fixed surface who goes up the vibrating mass mechanism is connected with spring ejector pin two, the fixed surface of vibrating mass mechanism is connected with spring ejector pin one down, the fixed surface of vibrating mass mechanism is connected with spring ejector pin two down.
Preferably, the driving guide block mechanism is arranged inside the lampshade, the upper end and the lower end of the driving guide block mechanism are respectively provided with a slotted hole matched with the rod diameters of the upper spring ejector rod I and the lower spring ejector rod I, the two connecting rods and the two power grid mechanisms are arranged, the two connecting rods and the two power grid mechanisms are respectively in line symmetry with the central axis of the driving guide block mechanism, and two sealing plates are respectively and fixedly connected to two ends of the power grid mechanism.
Preferably, the surface of the lampshade is provided with a groove matched with the sealing plate in size, the sealing plate can slide in the groove, and the surfaces of the upper cover plate and the lower cover plate are respectively provided with a groove hole matched with the second upper spring ejector rod and the second lower spring ejector rod in size.
Preferably, the upper vibrating block mechanism and the lower vibrating block mechanism are the same in size, a groove structure is formed in the surfaces of the upper vibrating block mechanism and the lower vibrating block mechanism, two ends of a first upper spring ejector rod are fixedly connected into a groove of the upper vibrating block mechanism respectively, the first upper spring ejector rod is connected with a groove hole formed in the upper end of a driving guide block mechanism in an inserting and sliding mode, the surface of the first upper spring ejector rod is sleeved with a spring mechanism, the spring mechanism is arranged between the upper vibrating block mechanism and the driving guide block mechanism, at least two upper spring ejector rods are arranged, one ends of the two upper spring ejector rods are fixedly connected with the surface of the upper vibrating block mechanism, the other ends of the two upper spring ejector rods are connected with a groove hole formed in the surface of an upper cover plate in an inserting and sliding mode, the surface of the second upper spring ejector rod is sleeved with a spring mechanism, and the spring mechanism is arranged between the upper vibrating block mechanism and the upper cover plate.
Preferably, two ends of the lower spring ejector rod I are fixedly connected in a groove of the lower vibrating block mechanism respectively, the lower spring ejector rod I is connected in a slotted hole formed in the lower end of the driving guide block mechanism in an inserting mode and in a sliding mode, the surface of the lower spring ejector rod I is sleeved with the spring mechanism, the spring mechanism is arranged between the lower vibrating block mechanism and the driving guide block mechanism, the number of the lower spring ejector rods II is not less than two, one ends of the lower spring ejector rods II are fixedly connected on the surface of the lower vibrating block mechanism, the other ends of the lower spring ejector rods are connected in a slotted hole formed in the surface of the lower cover plate in an inserting mode and in a sliding mode, the surface of the lower spring ejector rod II is sleeved with the spring mechanism, and the spring mechanism is arranged between the lower vibrating block mechanism and the lower cover plate.
Advantageous effects
Compared with the prior art and products, the invention has the beneficial effects that:
1. this a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, rotation through the balance drives the drive guide block mechanism and rocks, and make the drive guide block mechanism along the surface slip of upper spring ejector pin one and lower spring ejector pin one, and make drive guide block mechanism and connecting rod shake along the horizontal direction under spring mechanism's drive, with this make electric wire netting mechanism rock along the horizontal direction, make electric wire netting mechanism surface adhesion's pest drop, reach and to clear up the pest that the electric wire netting surface bonds fast, prevent electric wire netting local short circuit or burn, improve the effect of pest cleaning efficiency.
2. This a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, rock through drive guide block mechanism and drive spring ejector pin one and rock down spring ejector pin one, rock along the vertical direction with vibrating mass mechanism down in this drive, and make spring ejector pin two and spring ejector pin two slide along the slotted hole that upper cover plate and lower apron surface were seted up respectively, and make drive guide block mechanism shake from top to bottom along the vertical direction under spring mechanism's effect, and then make electric wire netting mechanism rock from top to bottom along the vertical direction, reach and effectively will attach to the pest on electric wire netting mechanism surface and shake off, avoid frequently dismantling the lamp shade and shake off electric wire netting mechanism and clear up, thereby improve the effect of pest cleaning efficiency.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of a driving guide block mechanism according to the present invention;
FIG. 3 is a schematic structural diagram of an upper vibrating mass mechanism according to the present invention;
in the figure: 1. a lamp shade; 2. an upper cover plate; 3. a lower cover plate; 4. a drive guide block mechanism; 41. a balance wheel; 42. a connecting rod; 43. a grid mechanism; 44. a sealing plate; 5. an upper vibrating block mechanism; 51. a lower vibrating mass mechanism; 52. a first spring ejector rod is arranged; 53. a second spring ejector rod is arranged; 54. a first lower spring ejector rod; 55. a second lower spring ejector rod;
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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 and 2, in a first embodiment:
the utility model provides a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, including drive guide block mechanism 4, drive guide block mechanism 4 sets up in the inside of lamp shade 1, the slotted hole of upper end and the lower extreme of drive guide block mechanism 4 respectively seted up one and upper spring ejector pin 52 and lower spring ejector pin 54 pole footpath size adaptation, connecting rod 42 and electric wire netting mechanism 43 are provided with two, they are respectively about the central line axis symmetry of drive guide block mechanism 4, and the both ends of electric wire netting mechanism 43 are two fixedly connected with closing plate 44 respectively, the center department of drive guide block mechanism 4 rotates and is connected with balance 41, the fixed surface of drive guide block mechanism 4 is connected with connecting rod 42, the one end fixedly connected with electric wire netting mechanism 43 that driving guide block mechanism 4 was kept away from to connecting rod 42, the fixed surface of electric wire netting mechanism 43 is connected with closing plate 44.
Still include lamp shade 1, the surface of lamp shade 1 offer with the fluting of closing plate 44 size adaptation, closing plate 44 can slide in this fluting, upper cover plate 2 and lower cover plate 3 the surface offer respectively with the slotted hole of two 53 and two 55 pole footpaths adaptations of upper spring ejector pin, the inside fixedly connected with upper cover plate 2 of lamp shade 1, the inside fixedly connected with lower cover plate 3 of lamp shade 1.
In summary, the disassembly-free efficient cleaning device for the solar insect killing lamp power grid for illumination drives the driving guide block mechanism 4 to shake through the rotation of the balance wheel 41, enables the driving guide block mechanism 4 to slide along the surfaces of the upper spring ejector rod 52 and the lower spring ejector rod 54, and enables the driving guide block mechanism 4 and the connecting rod 42 to shake along the horizontal direction under the driving of the spring mechanism, so that the power grid mechanism 43 shakes along the horizontal direction, pests attached to the surface of the power grid mechanism 43 fall off, the purpose of quickly cleaning the pests adhered to the surface of the power grid is achieved, the local short circuit or burning of the power grid is prevented, and the pest cleaning efficiency is improved.
Referring to fig. 1 and 3, the second embodiment:
the utility model provides a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, including drive guide block mechanism 4, drive guide block mechanism 4 sets up in the inside of lamp shade 1, the slotted hole of upper end and the lower extreme of drive guide block mechanism 4 respectively seted up one and upper spring ejector pin 52 and lower spring ejector pin 54 pole footpath size adaptation, connecting rod 42 and electric wire netting mechanism 43 are provided with two, they are respectively about the central line axis symmetry of drive guide block mechanism 4, and the both ends of electric wire netting mechanism 43 are two fixedly connected with closing plate 44 respectively, the center department of drive guide block mechanism 4 rotates and is connected with balance 41, the fixed surface of drive guide block mechanism 4 is connected with connecting rod 42, the one end fixedly connected with electric wire netting mechanism 43 that driving guide block mechanism 4 was kept away from to connecting rod 42, the fixed surface of electric wire netting mechanism 43 is connected with closing plate 44.
Still include vibrating mass mechanism 5, it is the same with the size of vibrating mass mechanism 51 down to go up vibrating mass mechanism 5, a groove structure has all been seted up on their surface, go up the both ends of spring ejector pin 52 respectively fixed connection in the recess of last vibrating mass mechanism 5, and go up spring ejector pin 52 grafting and sliding connection in the slotted hole that drive guide block mechanism 4 upper end was seted up, the surface of going up spring ejector pin 52 has cup jointed spring mechanism, this spring mechanism sets up between last vibrating mass mechanism 5 and drive guide block mechanism 4, it is not less than two to go up spring ejector pin two 53, their one end fixed connection is on the surface of last vibrating mass mechanism 5, the other end grafting and sliding connection are in the slotted hole that upper cover plate 2 surface was seted up, the surface of going up spring ejector pin two 53 has cup jointed spring mechanism, this spring mechanism sets up between last vibrating mass mechanism 5 and upper cover plate 2.
The lower part of the upper vibrating block mechanism 5 is provided with a lower vibrating block mechanism 51, the surface of the upper vibrating block mechanism 5 is fixedly connected with an upper spring ejector rod I52, the surface of the upper vibrating block mechanism 5 is fixedly connected with an upper spring ejector rod II 53, the surface of the lower vibrating block mechanism 51 is fixedly connected with a lower spring ejector rod I54, two ends of the lower spring ejector rod I54 are respectively and fixedly connected in a groove of the lower vibrating block mechanism 51, the lower spring ejector rod I54 is spliced and slidably connected in a groove hole formed in the lower end of the driving guide block mechanism 4, the surface of the lower spring ejector rod I54 is sleeved with a spring mechanism which is arranged between the lower vibrating block mechanism 51 and the driving guide block mechanism 4, the lower spring ejector rod II 55 is provided with at least two parts, one end of the lower spring ejector rod II is fixedly connected on the surface of the lower vibrating block mechanism 51, the other end of the lower spring ejector rod II is spliced and slidably connected in a groove hole formed in the surface of the lower cover plate 3, the surface of the lower spring ejector rod II 55 is sleeved with a spring mechanism, the spring mechanism is arranged between the lower vibrating mass mechanism 51 and the lower cover plate 3, and a lower spring ejector rod II 55 is fixedly connected to the surface of the lower vibrating mass mechanism 51.
To sum up, this a solar energy disinsection lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, rock through drive guide block mechanism 4 and drive upper spring ejector pin 52 and lower spring ejector pin 54 and rock, so drive upper vibrating mass mechanism 5 and lower vibrating mass mechanism 51 rock along the vertical direction, and make upper spring ejector pin two 53 and lower spring ejector pin two 55 slide along the slotted hole that upper cover plate 2 and lower cover plate 3 surface were seted up respectively, and make drive guide block mechanism 4 shake along the vertical direction under spring mechanism's effect, and then make electric wire netting mechanism 43 rock along the vertical direction from top to bottom, reach and effectively shake the pest that adheres to electric wire netting mechanism 43 surface and fall, avoid frequently dismantling lamp shade 1 and electric wire netting mechanism 43 to clear up, thereby improve the effect of pest clearance efficiency.
Please refer to fig. 1-3, example three:
the utility model provides a solar energy disinfestation lamp electric wire netting exempts from to dismantle high-efficient cleaning device for illumination, including drive guide block mechanism 4, drive guide block mechanism 4 sets up in the inside of lamp shade 1, the slotted hole of upper end and the lower extreme of drive guide block mechanism 4 respectively seted up one and upper spring ejector pin 52 and lower spring ejector pin 54 pole footpath size adaptation, connecting rod 42 and electric wire netting mechanism 43 are provided with two, they are respectively about the central line axis symmetry of drive guide block mechanism 4, and the both ends of electric wire netting mechanism 43 are two fixedly connected with closing plate 44 respectively, the center department of drive guide block mechanism 4 rotates and is connected with balance 41, the fixed surface of drive guide block mechanism 4 is connected with connecting rod 42, the one end fixedly connected with electric wire netting mechanism 43 that driving guide block mechanism 4 was kept away from to connecting rod 42, the fixed surface of electric wire netting mechanism 43 is connected with closing plate 44.
Still include lamp shade 1, the surface of lamp shade 1 offer with the fluting of closing plate 44 size adaptation, closing plate 44 can slide in this fluting, upper cover plate 2 and lower cover plate 3 the surface offer respectively with the slotted hole of two 53 and two 55 pole footpaths adaptations of upper spring ejector pin, the inside fixedly connected with upper cover plate 2 of lamp shade 1, the inside fixedly connected with lower cover plate 3 of lamp shade 1.
Still include vibrating mass mechanism 5, it is the same with the size of vibrating mass mechanism 51 down to go up vibrating mass mechanism 5, a groove structure has all been seted up on their surface, go up the both ends of spring ejector pin 52 respectively fixed connection in the recess of last vibrating mass mechanism 5, and go up spring ejector pin 52 grafting and sliding connection in the slotted hole that drive guide block mechanism 4 upper end was seted up, the surface of going up spring ejector pin 52 has cup jointed spring mechanism, this spring mechanism sets up between last vibrating mass mechanism 5 and drive guide block mechanism 4, it is not less than two to go up spring ejector pin two 53, their one end fixed connection is on the surface of last vibrating mass mechanism 5, the other end grafting and sliding connection are in the slotted hole that upper cover plate 2 surface was seted up, the surface of going up spring ejector pin two 53 has cup jointed spring mechanism, this spring mechanism sets up between last vibrating mass mechanism 5 and upper cover plate 2.
The lower part of the upper vibrating block mechanism 5 is provided with a lower vibrating block mechanism 51, the surface of the upper vibrating block mechanism 5 is fixedly connected with an upper spring ejector rod I52, the surface of the upper vibrating block mechanism 5 is fixedly connected with an upper spring ejector rod II 53, the surface of the lower vibrating block mechanism 51 is fixedly connected with a lower spring ejector rod I54, two ends of the lower spring ejector rod I54 are respectively and fixedly connected in a groove of the lower vibrating block mechanism 51, the lower spring ejector rod I54 is spliced and slidably connected in a groove hole formed in the lower end of the driving guide block mechanism 4, the surface of the lower spring ejector rod I54 is sleeved with a spring mechanism which is arranged between the lower vibrating block mechanism 51 and the driving guide block mechanism 4, the lower spring ejector rod II 55 is provided with at least two parts, one end of the lower spring ejector rod II is fixedly connected on the surface of the lower vibrating block mechanism 51, the other end of the lower spring ejector rod II is spliced and slidably connected in a groove hole formed in the surface of the lower cover plate 3, the surface of the lower spring ejector rod II 55 is sleeved with a spring mechanism, the spring mechanism is arranged between the lower vibrating mass mechanism 51 and the lower cover plate 3, and a lower spring ejector rod II 55 is fixedly connected to the surface of the lower vibrating mass mechanism 51.
When cleaning the power grid mechanism 43 of the solar energy insect killing lamp, firstly, the balance wheel 41 which is rotationally connected with the surface of the driving guide block mechanism 4 is driven to rotate, the balance wheel 41 rotates and drives the driving guide block mechanism 4 to rock, the driving guide block mechanism 4 rocks and extrudes the spring mechanisms on the surfaces of the upper spring ejector rod one 52 and the lower spring ejector rod one 54 which are inserted in the slotted holes at the two ends of the driving guide block mechanism 4, so that the driving guide block mechanism 4 rocks repeatedly along the surfaces of the upper spring ejector rod one 52 and the lower spring ejector rod one 54, the driving guide block mechanism 4 rocks repeatedly and drives the connecting rod 42 which is fixedly connected with the surface of the driving guide block mechanism to reciprocate, and the connecting rod 42 reciprocates and drives the power grid mechanism 43 which is fixedly connected with the driving guide block mechanism to rock repeatedly along the horizontal direction.
Meanwhile, the driving guide block mechanism 4 shakes and drives the upper vibrating block mechanism 5 and the lower vibrating block mechanism 51 which are fixedly connected with the upper spring ejector rod 52 and the lower spring ejector rod 54 to shake up and down through the upper spring ejector rod 52 and the lower spring ejector rod 54 which are inserted into the slotted holes at the two ends of the driving guide block mechanism, the upper vibrating block mechanism 5 and the lower vibrating block mechanism 51 shake up and down and drive the upper spring ejector rod two 53 and the lower spring ejector rod two 55 which are fixedly connected with the surfaces of the upper vibrating block mechanism and the lower vibrating block mechanism to reciprocate up and down, so that the upper spring ejector rod two 53 and the lower spring ejector rod two 55 respectively slide along the slotted holes formed on the surfaces of the upper cover plate 2 and the lower cover plate 3, and the upper vibration block mechanism 5 and the lower vibration block mechanism 51 which are fixedly connected with the upper spring ejector rod II 53 and the lower spring ejector rod II 55 bump up and down under the action of a spring mechanism sleeved on the surfaces of the upper spring ejector rod II 53 and the lower spring ejector rod II 55.
The upper vibrating block mechanism 5 and the lower vibrating block mechanism 51 bump up and down and drive the upper spring ejector rod one 52 and the lower spring ejector rod one 54 which are fixedly connected with the upper vibrating block mechanism and the lower vibrating block mechanism to move up and down, the upper spring ejector rod one 52 and the lower spring ejector rod one 54 move up and down and drive the driving guide block mechanism 4 which is inserted with the upper spring ejector rod one 52 and the lower spring ejector rod one 54 to bump up and down, the driving guide block mechanism 4 bumps up and down and drives the connecting rod 42 which is fixedly connected with the surface of the driving guide block mechanism 4 to move up and down, the connecting rod 42 moves up and down and drives the power grid mechanism 43 which is fixedly connected with the driving guide block mechanism 4 to bump and shake up and down in a reciprocating manner along the vertical direction and the horizontal direction, and drives the sealing plate 44 which is fixedly connected with the surface of the power grid mechanism 43 to open a groove along the surface of the lampshade 1 to slide, so that pest impurities adhered to the surface of the power grid mechanism 43 fall off.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a high-efficient cleaning device of dismantlement is exempted from to solar energy insecticidal lamp electric wire netting for illumination which characterized in that: the device comprises a driving guide block mechanism (4), wherein a balance wheel (41) is rotatably connected to the center of the driving guide block mechanism (4), a connecting rod (42) is fixedly connected to the surface of the driving guide block mechanism (4), one end, far away from the driving guide block mechanism (4), of the connecting rod (42) is fixedly connected with a power grid mechanism (43), and a sealing plate (44) is fixedly connected to the surface of the power grid mechanism (43).
2. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 1 is characterized in that: still include lamp shade (1), the inside fixedly connected with upper cover plate (2) of lamp shade (1), apron (3) under the inside fixedly connected with of lamp shade (1).
3. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 2 is characterized in that: still include vibrating mass mechanism (5), the lower part of going up vibrating mass mechanism (5) is provided with vibrating mass mechanism (51) down, the fixed surface who goes up vibrating mass mechanism (5) is connected with spring ejector pin one (52), the fixed surface who goes up vibrating mass mechanism (5) is connected with spring ejector pin two (53), the fixed surface of vibrating mass mechanism (51) is connected with spring ejector pin one (54) down, the fixed surface of vibrating mass mechanism (51) is connected with spring ejector pin two (55) down.
4. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 3 is characterized in that: the driving guide block mechanism (4) is arranged inside the lampshade (1), the upper end and the lower end of the driving guide block mechanism (4) are respectively provided with a slotted hole matched with the rod diameters of the upper spring ejector rod I (52) and the lower spring ejector rod I (54), the connecting rod (42) and the power grid mechanism (43) are arranged in two numbers, the two slotted holes are respectively symmetrical about the central axis of the driving guide block mechanism (4), and two sealing plates (44) are respectively fixedly connected to the two ends of the power grid mechanism (43).
5. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 3 is characterized in that: the surface of the lampshade (1) is provided with a groove matched with the sealing plate (44) in size, the sealing plate (44) can slide in the groove, and the surfaces of the upper cover plate (2) and the lower cover plate (3) are respectively provided with a groove hole matched with the rod diameters of the upper spring ejector rod II (53) and the lower spring ejector rod II (55).
6. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 3 is characterized in that: the upper vibrating block mechanism (5) and the lower vibrating block mechanism (51) are the same in size, the surfaces of the upper vibrating block mechanism and the lower vibrating block mechanism are both provided with a groove structure, two ends of an upper spring ejector rod I (52) are respectively fixedly connected in the grooves of the upper vibrating block mechanism (5), and the upper spring ejector rod I (52) is inserted and connected in a slot hole formed at the upper end of the driving guide block mechanism (4) in a sliding way, the surface of the upper spring ejector rod I (52) is sleeved with a spring mechanism, the spring mechanism is arranged between the upper vibrating block mechanism (5) and the driving guide block mechanism (4), at least two upper spring ejector rods (53) are arranged, one ends of the two upper spring ejector rods are fixedly connected to the surface of the upper vibrating block mechanism (5), the other ends of the two upper spring ejector rods are inserted into and slidably connected with slotted holes formed in the surface of the upper cover plate (2), the surface of the upper spring ejector rod (53) is sleeved with the spring mechanism, the spring mechanism is arranged between the upper vibrating block mechanism (5) and the upper cover plate (2).
7. The disassembly-free efficient cleaning device for the solar insect killing lamp electric network used for illumination according to claim 3 is characterized in that: two ends of the lower spring ejector rod I (54) are fixedly connected in a groove of the lower vibrating block mechanism (51) respectively, the lower spring ejector rod I (54) is connected in an inserting mode and is connected in a groove hole formed in the lower end of the driving guide block mechanism (4) in a sliding mode, a spring mechanism is sleeved on the surface of the lower spring ejector rod I (54), the spring mechanism is arranged between the lower vibrating block mechanism (51) and the driving guide block mechanism (4), at least two lower spring ejector rods II (55) are arranged, one ends of the two lower spring ejector rods are fixedly connected on the surface of the lower vibrating block mechanism (51), the other ends of the two lower spring ejector rods are connected in a groove hole formed in the surface of the lower cover plate (3) in an inserting mode and are connected in a sliding mode, the spring mechanism is sleeved on the surface of the lower spring ejector rod II (55), and the spring mechanism is arranged between the lower vibrating block mechanism (51) and the lower cover plate (3).
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CN202111152840.6A CN113770126A (en) | 2021-09-29 | 2021-09-29 | A high-efficient cleaning device of solar energy deinsectization lamp electric wire netting dismantlement for illumination |
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CN202111152840.6A CN113770126A (en) | 2021-09-29 | 2021-09-29 | A high-efficient cleaning device of solar energy deinsectization lamp electric wire netting dismantlement for illumination |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116076471A (en) * | 2023-03-02 | 2023-05-09 | 灵石县农业农村局 | Agricultural pest trapping and killing device |
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2021
- 2021-09-29 CN CN202111152840.6A patent/CN113770126A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116076471A (en) * | 2023-03-02 | 2023-05-09 | 灵石县农业农村局 | Agricultural pest trapping and killing device |
CN116076471B (en) * | 2023-03-02 | 2024-05-03 | 灵石县农业农村局 | Agricultural pest trapping and killing device |
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Application publication date: 20211210 |