CN216363285U - Rotary brush type self-cleaning electric shock insecticidal lamp - Google Patents

Abstract

The utility model relates to a rotary brush type self-cleaning electric shock insecticidal lamp which comprises a first supporting seat, a second supporting seat, an electric shock insecticidal assembly arranged between the first supporting seat and the second supporting seat, a rotary brush assembly arranged between the first supporting seat and the second supporting seat, and a driving assembly arranged on the first supporting seat and used for driving the rotary brush assembly to rotate circumferentially. According to the technical scheme, the plurality of rotary brush assemblies capable of rotating around the circumference of the electric shock insecticidal lamp assembly are arranged on the periphery of the electric shock insecticidal lamp assembly, so that the contact area between the brush bristles and a power grid can be increased, and the insects left on the power grid can be cleaned more quickly and efficiently. The utility model has the characteristics of strong self-cleaning capability, high cleaning efficiency, good working stability and the like.

Description

Rotary brush type self-cleaning electric shock insecticidal lamp

Technical Field

The utility model relates to the technical field of insecticidal lamps, in particular to a rotary brush type self-cleaning electric shock insecticidal lamp.

Background

In the field of agricultural planting, insect pests can greatly influence the yield and quality of crops, and in recent years, domestic scholars propose a green pest prevention and control technology, and adopt environment-friendly measures such as ecological regulation, biological prevention and control, physical prevention and control, scientific medicine application and the like to achieve the purposes of controlling the insect pests of the crops and reducing the pollution of chemical pesticides. At present, the use of the insecticidal lamp is an important means of green prevention and control, compared with the traditional pesticide spraying method, the insecticidal lamp is lower in cost, saves manpower and material resources, and has the characteristics of longer service life, greenness, no pollution, wide insecticidal variety range, stable performance and the like. The frequency vibration type electric insecticidal lamp is one of the commonly used insecticidal lamps in agricultural production practice, the insecticidal principle is that by utilizing the phototaxis characteristic of insects, the insects are attracted to an insecticidal power grid area by adopting a light source with a special waveband, two layers of coils of the power grid are respectively connected with a positive electrode and a negative electrode, the insects fly into the power grid and simultaneously touch the positive electrode and the negative electrode of the power grid, and are killed or disabled by electric shock due to current short circuit.

At present, the main problem that the existing electric shock insecticidal lamp on the market has is that after the lamp is used for a period of time, because a large amount of pests may secrete some sticky substances after being electrocuted, and the distance between two layers of coils of a power grid is very small, the pests can be stuck on the power grid or clamped between the two layers of coils after being electrocuted, the pest sticking and sticking phenomena can influence the insecticidal capacity and efficiency of the power grid, and when the pests are accumulated to a certain degree, the insecticidal efficacy of the whole insecticidal lamp can be greatly reduced or even lose effect. Most insecticidal lamps in the market do not have the self-cleaning function of the power grid, and a few insecticidal lamps have the self-cleaning function, but have the following defects: firstly, the power grid is an internal and external double-layer electrified upright post, and insect cleaning is carried out in a relative rotation mode at regular time. And secondly, the power grid is cleaned by longitudinally densely distributing electrified stand columns and arranging annular brushes on the outer side in a timed up-and-down movement manner. The two cleaning modes have limited cleaning capability, incomplete insect cleaning part and unobvious actual effect, and a large amount of residual insects still remain after use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rotating brush type self-cleaning electric shock insecticidal lamp which can automatically clean insect bodies, has high cleaning efficiency and can continuously, stably and efficiently work.

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

a rotating brush type self-cleaning electric shock insecticidal lamp comprises a first supporting seat, a second supporting seat, an electric shock insecticidal assembly arranged between the first supporting seat and the second supporting seat, a rotating brush assembly arranged between the first supporting seat and the second supporting seat, and a driving assembly arranged on the first supporting seat and used for driving the rotating brush assembly to rotate circumferentially.

Furthermore, the electric shock insect killing assembly comprises an insect trapping lamp tube and an electric network arranged outside the insect trapping lamp tube; a support column assembly is arranged between the first support seat and the second support seat, the power grid is wound on the periphery of the support column assembly, and the power grid is connected with a power supply; the support column assembly comprises four support columns installed between the first support seat and the second support seat.

Furthermore, the rotating brush component comprises a plurality of cleaning brushes, and each cleaning brush comprises a support rod and bristles arranged on the support rod; and a sliding rail is arranged on the second supporting seat, and the bottom of the supporting rod is in sliding fit with the sliding rail. When insecticidal lamp automatically cleaning, drive assembly can drive clean brush, and the face of cylinder that constitutes along the electric wire netting is rotatory around the axle center, and the brush hair can sweep the gap between the electric wire netting coil at the rotation in-process to reach the clear worm effect, this kind of mode is compared and is reciprocated in current brush and brush vertical electrified stand, and the brush is bigger with coil contact range, the more thorough of clearance.

Furthermore, a shell covers the first supporting seat, and the driving assembly is located in the shell; the driving assembly comprises a direct current motor, a gear, an internal tooth rotating bearing and a turntable; the direct current motor is arranged on a support frame positioned above the internal tooth rotating bearing, and the support frame is connected with the top of the shell through a connecting column; the outer ring of the internal tooth rotating bearing is fixedly arranged at the top of the first supporting seat, and the gear is positioned in the middle of the internal tooth rotating bearing; an output shaft of the direct current motor penetrates through the support frame and then is connected with the gear, the gear is meshed with the inner teeth of the inner-tooth rotating bearing, and the inner ring of the inner-tooth rotating bearing is connected with the turntable; the upper end of the supporting rod penetrates through the first supporting seat and then is connected with the rotary table.

Furthermore, the middle of the second supporting seat is provided with a funnel-shaped cavity, an insect storage bin is arranged below the cavity, and the insect storage bin is connected with the second supporting seat. Under the action of the cleaning brush, the pests killed or stunned by electricity slide downwards into the cavity and slide downwards into the pest storage bin along the inner wall of the cavity.

According to the technical scheme, the plurality of rotary brush assemblies capable of rotating around the circumference of the electric shock insecticidal lamp assembly are arranged on the periphery of the electric shock insecticidal lamp assembly, so that the contact area between the brush bristles and a power grid can be increased, and the insects left on the power grid can be cleaned more quickly and efficiently. The utility model has the characteristics of strong self-cleaning capability, high cleaning efficiency, good working stability and the like.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the present invention.

Wherein:

1. the insect-attracting lamp comprises a shell, 2, a direct current motor, 3, a supporting frame, 4, a rotary table, 5, an internal tooth rotating bearing, 6, a gear, 7, bristles, 8, a power grid, 9, a supporting rod, 10, a second supporting seat, 11, a cavity, 12, a first supporting seat, 13 and an insect-attracting lamp tube.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-2, the self-cleaning electric shock insecticidal lamp with a rotating brush type comprises a first support base 12, a second support base 10, an electric shock insecticidal assembly installed between the first support base 12 and the second support base 10, a rotating brush assembly installed between the first support base 12 and the second support base 10, and a driving assembly installed on the first support base 12 for driving the rotating brush assembly to rotate circumferentially.

Further, the electric shock insect killing assembly comprises an insect attracting lamp tube 13 and an electric network 8 arranged outside the insect attracting lamp tube 13. A support column assembly is arranged between the first support seat 12 and the second support seat 10, and the power grid 8 is wound into a spiral shape along the periphery of the support column assembly. The support column assembly comprises four support columns installed between a first support seat 12 and a second support seat 10. The 4 support columns are evenly arranged in a square shape by taking the insect-attracting lamp tube 13 as the center, and the power grid 8 connected with the positive pole and the negative pole is wound into a spiral shape along the 4 upright columns and is circular when overlooked. The electric wire netting is a spiral electric wire netting which is fixedly wound by winding 4 supporting columns with steel wires, the spiral electric wire netting can be seen as a layer of metal wire circular rings with certain intervals in the vertical direction, and the insect-attracting lamp tube is arranged at the central part of the metal wire netting and emits light with specific wavelength to attract insects.

Further, the rotating brush assembly comprises a plurality of cleaning brushes, and each cleaning brush comprises a supporting rod 9 and bristles 7 arranged on the supporting rod 9. A sliding rail is arranged on the second supporting seat 10, and the bottom of the supporting rod 9 is in sliding fit with the sliding rail. Preferably, the number of cleaning brushes is three evenly distributed. The cleaning brush is longitudinally fixed on the outer side of the power grid, and the brush bristles are deep into gaps among the power grid. The upper end of the cleaning brush is connected with the turntable 4, and the lower end of the cleaning brush is in sliding fit with the second supporting seat 10. During normal work, clean brush is static, and after working a period, drive assembly drives carousel 4 and rotates, and then drives three clean brush rotation, and the brush hair 7 of each clean brush can sweep the clearance between the electric wire netting coil along the cylinder curved surface that electric wire netting 8 formed to glue down the worm body of sticking or blocking, reach the effect of self-cleaning electric wire netting. In addition, the nano anti-sticking coating can be coated outside the power grid, the coating can greatly reduce the chance that insects stick on the power grid, and the capability of automatically cleaning the insects of the insect-killing lamp is improved by combining the rotary brush cleaning mechanism.

Further, a shell 1 is covered above the first supporting seat 12, and the driving assembly is located in the shell 1; the driving assembly comprises a direct current motor 2, a gear 6, an internal tooth rotary bearing 5 and a turntable 4; the direct current motor 2 is arranged on a support frame 3 positioned above the internal tooth rotating bearing 5, and the support frame 3 is connected with the top of the shell 1 through a connecting column; the outer ring of the internal-tooth rotating bearing 6 is fixedly arranged at the top of the first supporting seat 12, and the gear 6 is positioned in the middle of the internal-tooth rotating bearing 5; an output shaft of the direct current motor 2 penetrates through the support frame 3 and then is connected with a gear 6, the gear 6 is meshed with the inner teeth of the inner-tooth rotating bearing 5, and the inner ring of the inner-tooth rotating bearing 5 is fixedly connected with the turntable 4; the upper end of the supporting rod 9 penetrates through the first supporting seat 12 and then is connected with the rotary disc 4. When the electric shock insecticidal assembly needs automatic cleaning, the direct current motor 2 is started to drive the gear 6 to rotate, and the inner ring 5 of the internal tooth rotating bearing meshed with the gear 6 rotates along with the gear. The inner ring of the inner-tooth rotating bearing 5 is connected with the rotating disc 4 through a bolt, and when the inner ring of the inner-tooth rotating bearing 5 rotates, the rotating disc 4 rotates along with the inner-tooth rotating bearing. The rotary table 4 is connected with the upper end of the supporting rod of the cleaning brush through a bolt, and the rotary table 4 rotates to drive the brush to rotate around the insect-attracting lamp tube 13 together. The bottom of the supporting rod 9 of the cleaning brush is provided with a sliding block, and the second supporting seat 10 is provided with a sliding rail. The slide block is arranged corresponding to the slide rail. When the cleaning brush rotates along with the rotary table, the sliding block slides along the sliding rail. The housing 1 serves to protect and seal the internal drive structure.

Furthermore, a funnel-shaped cavity 11 is arranged in the middle of the second supporting seat 10, and an insect storage bin is arranged below the cavity. And the funnel-shaped cavity is used for placing the time control circuit board. The lower part of the cavity can be selectively connected with an insect storage bin or an insect storage net according to requirements. Under the action of the cleaning brush, the pests killed or stunned by electricity slide downwards into the cavity and slide downwards into the pest storage bin along the inner wall of the cavity.

Further, the insecticidal lamp also comprises a time control circuit board and a light sensor. The insecticidal lamp has light control and time control functions, and the light control function and the time control function are realized by adopting the existing control mode. The optical sensor can sense an external light source, the optical sensor does not work in the daytime, and the insecticidal lamp is automatically turned on to start insecticidal work in the dark. The timing circuit board is provided with a timer, and the brush can be rotated to clean every 24 hours.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (4)

1. The utility model provides a rotatory brush formula automatically cleaning electric shock insecticidal lamp which characterized in that: the device comprises a first supporting seat, a second supporting seat, an electric shock insecticidal assembly arranged between the first supporting seat and the second supporting seat, a rotary brush assembly arranged between the first supporting seat and the second supporting seat, and a driving assembly arranged on the first supporting seat and used for driving the rotary brush assembly to rotate circumferentially; the rotary brush component comprises a plurality of cleaning brushes, and each cleaning brush comprises a support rod and bristles arranged on the support rod; and a sliding rail is arranged on the second supporting seat, and the bottom of the supporting rod is in sliding fit with the sliding rail.

2. A rotary brush type self-cleaning electric shock insecticidal lamp according to claim 1, wherein: the electric shock insect killing assembly comprises an insect trapping lamp tube and an electric network arranged outside the insect trapping lamp tube; a support column assembly is arranged between the first support seat and the second support seat, the power grid is wound on the periphery of the support column assembly, and the power grid is connected with a power supply; the support column assembly comprises four support columns installed between the first support seat and the second support seat.

3. A rotary brush type self-cleaning electric shock insecticidal lamp according to claim 2, wherein: a shell is covered above the first supporting seat, and the driving assembly is positioned in the shell; the driving assembly comprises a direct current motor, a gear, an internal tooth rotating bearing and a turntable; the direct current motor is arranged on a support frame positioned above the internal tooth rotating bearing, and the support frame is connected with the top of the shell through a connecting column; the outer ring of the internal tooth rotating bearing is fixedly arranged at the top of the first supporting seat, and the gear is positioned in the middle of the internal tooth rotating bearing; an output shaft of the direct current motor penetrates through the support frame and then is connected with the gear, the gear is meshed with the inner teeth of the inner-tooth rotating bearing, and the inner ring of the inner-tooth rotating bearing is fixedly connected with the turntable; the upper end of the supporting rod penetrates through the first supporting seat and then is connected with the rotary table.

4. A rotary brush type self-cleaning electric shock insecticidal lamp according to claim 2, wherein: the middle of the second supporting seat is provided with a funnel-shaped cavity, a pest storage bin is arranged below the cavity, and the pest storage bin is connected with the second supporting seat.

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