CN210432687U - Upper and lower alternately rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to power grid - Google Patents

Abstract

The utility model discloses an upper and lower alternative rubbing and pulling shaking type insecticidal lamp for preventing winged insects from adhering to a power grid, an outer power grid is sleeved on an outer layer of an inner power grid, two ends of the outer power grid and the inner power grid are respectively connected with a device plate and an insect receiving disc in a sliding and embedding way through a sliding rod, the top ends of the inner power grid and the outer power grid extend into the device plate and are connected with a lifting slat, a spring is arranged on the lifting slat to pull the lifting slat to slowly rise and quickly fall, a fan-shaped eccentric wheel connected with a motor is arranged below the lifting slat, the fan-shaped eccentric wheel is adopted to rotate two power grids arranged at the top for lifting and descending reciprocating type alternative actions to generate a rubbing and pulling effect, the spring arranged on the lifting slat generates a pulling force, the lifting slat is pulled slowly to rise by the spring, when the lifting slat descends, the lifting slat is influenced by the spring, the inner net frame and the outer net frame are rubbed and pulled to avoid the blocking phenomenon of the worm body, and the electric control operation is convenient, so that the electric control device has strong popularization.

Description

Upper and lower alternately rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to power grid

Technical Field

The utility model belongs to the technical field of agricultural deinsectization insecticidal equipment, mainly relate to the upper and lower shake formula insecticidal lamp of rubbing one's hands in turn of preventing winged insect adhesion electric wire netting.

Background

Electric shock formula insecticidal lamp uses more generally in the aspect of agricultural deinsectization insecticidal, nevertheless the use of insecticidal lamp often can appear winged insect and pounce on throw the insecticidal lamp and be struck off on the electric wire netting of insecticidal lamp after the electric shock, the mode of handling this kind of adhesion and adopting on the electric wire netting at present is artifical sweeping or strike off through electric mode, nevertheless hang in the eminence because of the insecticidal lamp, artifical sweeping is wasted time and energy the operation inconvenient, and electric mode strikes off and can appear the insect shutoff and scrape the net gape and cause the electric scraping device unable use of jam phenomenon, electric wire netting adhesion insect handles the electric shock effect that can influence follow-up winged insect and pounce on and throw the electric wire netting and produce, greatly reduced insecticidal lamp's availability factor.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a prevent that winged insect adhesion electric wire netting from rubbing in turn from top to bottom and draw shake formula insecticidal lamp, adopt the electric wire netting to promote the reciprocating motion of back quick decline slowly, produce and rub the effect of drawing with the hands, with the adhesion the polypide on the electric wire netting pull with the vibration and break away from the electric wire netting through rubbing with the hands.

Prevent that winged insect from gluing the upper and lower shake formula insecticidal lamp of rubbing with hands alternately of electric wire netting, including outer electric wire netting, interior electric wire netting, outer net slide bar on the net, interior net slide bar, device board, motor, intranet lift slat, outer net lift slat, first fan-shaped eccentric wheel and second fan-shaped eccentric wheel, outer electric wire netting is set up in outer electric wire netting skin, outer net top is extended and is set up outer net slide bar on, and the bottom extension sets up outer net slide bar down, inner electric wire netting top is extended and is set up inner net slide bar down, outer net and interior electric wire netting both ends slip respectively and inlay and set up device board and connect the worm dish, outer net slide bar that outer net top both sides extension set up passes two first last slide bar holes that the symmetry was equipped with on the device board and is connected with outer net lift slat both ends, inner net top slide bar that interior electric wire netting top both sides extension set up passes two second last slide bar holes that the symmetry was equipped with on the device board and is, a plurality of inner net slat springs are connected and arranged on the inner net slat, one end of each inner net slat spring pulls the inner net slat, and the other end of each inner net slat spring is fixed on the upper plate surface of the device plate; the connection is provided with a plurality of outer net slat springs on the outer net slat, outer net slat spring one end is dragged outer net lift slat, and the other end is fixed on the last face of device board, outer net lift slat below sets up the first fan-shaped eccentric wheel of connecting the motor shaft, intranet lift slat below sets up the second fan-shaped eccentric wheel of connecting the motor shaft, the motor shaft is extended in by the motor, the outer net down slide bar cunning that outer net bottom extends is arranged in the outer net pole lifting sleeve that the quotation set up on the parasite catching tray in, the intranet down slide bar cunning that interior electric net bottom extends is arranged in the outer net pole lifting sleeve that the quotation set up on the parasite catching tray in.

The device board is provided with a connection control circuit board electrically connected with the motor and an external power line hole used for penetrating and connecting the control circuit board.

The bottom of the device box is vertically provided with a light strip rod body used for trapping insects and throwing, the bottom of the light strip rod body is provided with an arc-shaped frame body supported on the upper disc surface of the insect receiving disc, and the light strip rod body plays a role in stabilizing and fixing when the inner and outer net frames are alternately rubbed and pulled to generate vibration.

The bottom of the insect receiving plate is connected with the insect receiving barrel in a bayonet connection mode or in a thread connection mode.

The net rack bodies of the outer electric network and the inner electric network are hexagonal, and the shell covers and the insect receiving plates, which are arranged on the device plates, are hexagonal.

The middle part of the insect receiving plate is provided with an insect falling hole.

The lower plate surface of the device plate and the upper plate surface of the insect receiving plate are vertically provided with a plurality of fixing rods for connecting the lower plate surface and the upper plate surface.

The hanging wall face of insect receiving plate is equipped with a plurality of and is used for the outer net pole lifting sleeve of slide bar under the slip inlay outer net and a plurality of and is used for the interior net pole lifting sleeve of slide bar under the slip inlay inner net, and outer net pole lifting sleeve is located interior net pole lifting sleeve skin.

One end of the motor shaft is arranged in the motor, a second fan-shaped eccentric wheel and a first fan-shaped eccentric wheel sequentially penetrate through the other end of the motor shaft, and fan-shaped end faces of the second fan-shaped eccentric wheel and the first fan-shaped eccentric wheel are arranged on the motor shaft in a backscattering mode in a staggered mode.

Arc-shaped concave surfaces are formed in the middle of the inner net lifting slat and the middle of the outer net lifting slat and used for enabling the fan-shaped eccentric wheel to be arranged on the arc-shaped concave surfaces in an overhead mode, the fan-shaped end face of the fan-shaped eccentric wheel rotates along the arc-shaped concave surfaces, and the rotating overhead slat of the fan-shaped eccentric wheel performs eccentric ascending and descending reciprocating motion.

The both ends of intranet lift slat are provided with the second plate pole hole that is used for wearing to put fixed interior online slide bar, the both ends of outer net lift slat are provided with the first plate pole hole that is used for wearing to put fixed outer online slide bar.

The utility model discloses beneficial effect who has: the electric power grid automatic lifting device has the advantages that the fan-shaped eccentric wheel is adopted to rotate two overhead power grids to lift and descend in a reciprocating type alternative mode, a rubbing and pulling effect is generated, the spring arranged on the lifting slat generates pulling force, the lifting slat is pulled by the spring to slowly rise, when the lifting slat descends, the lifting slat is influenced by the pulling force of the spring again and descends rapidly, an impact effect is generated, impact shaking is generated when the lifting slat descends, insect bodies adhered to the power grids are separated from the power grids through rubbing and pulling and vibrating, the phenomenon that the insect bodies are blocked is avoided due to rubbing and pulling of the inner net rack and the outer net rack, electric control operation is.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the device board of the present invention.

Fig. 3 is a schematic side view of the device board of the present invention.

Fig. 4 is a schematic view of the lifting slat structure of the present invention.

Fig. 5 is a schematic diagram of the structure of the external power grid and the internal power grid of the present invention.

Fig. 6 is the schematic view of the lamp strip rod and the arc frame structure of the present invention.

Reference numerals: the insect catching device comprises an outer power grid 1, an inner power grid 2, a shell cover 3, a mounting plate 4, an insect catching disc 5, a control circuit board 6, a wire hole 61, an inner net lifting slat 7, a first slat hole 81, a second slat hole 71, an outer net lifting slat 8, a motor shaft 9, a motor 10, an outer net upper slide bar 11, an inner net upper slide bar 21, a first sector eccentric wheel 12, a second sector eccentric wheel 121, a first upper slide bar hole 110, a second upper slide bar hole 210, a fixed connecting bar 13, an insect catching barrel 14, a light strip bar 15, an arc-shaped frame body 16, an inner net lower slide bar 200, an outer net lower slide bar 100, an outer net bar lifting sleeve 101, an inner net bar lifting sleeve 201, an inner net slat spring 70 and an outer net slat spring 80.

Detailed Description

Referring to fig. 1-6, prevent winged insect adhesion electric wire netting from rubbing and pulling shake formula insecticidal lamp in turn from top to bottom, including outer electric wire netting 1, interior electric wire netting 2, outer net slide bar 11, interior online slide bar 21, device board 4, motor 10, intranet lift slat 7, outer net lift slat 8, first fan-shaped eccentric wheel 12 and second fan-shaped eccentric wheel 121, outer electric wire netting 1 is nested in the outer layer of inner electric wire netting 2, outer electric wire netting 1 top extends and sets up outer net slide bar 11 on, and the bottom extends and sets up outer net slide bar 100 down, inner electric wire netting 2 top extends and sets up interior online slide bar 21, and the bottom extends and sets up slide bar 200 under the inner net, outer electric wire netting 1 and inner electric wire netting 2 both ends slide respectively and inlay and set up device board 4 and connect worm dish 5, outer net slide bar 11 on the extension setting of outer net 1 top both sides passes two first slide bar holes 110 that symmetry was equipped with on the device board 4 and is connected with outer net, interior electric wire netting 2 top both sides extend the interior online slide bar 21 that sets up and pass two second slide bar holes 210 that the symmetry was equipped with on the device board 4 and be connected with intranet lift slat 7 both ends, outer net lift slat 8 below sets up the first fan-shaped eccentric wheel 12 of connecting motor shaft 9, intranet lift slat 7 below sets up the second fan-shaped eccentric wheel 121 of connecting motor shaft 9, extend in motor shaft 9 is by motor 10, outer net lower slide bar 100 of outer net 1 bottom extension is slided and is inlayed in the outer net pole lift sleeve 101 that the disc surface set up on the parasite catching disc 5, slide bar 200 is slided and is inlayed in the outer net pole lift sleeve 101 that the disc surface set up on the parasite catching disc 5 under the interior net of 2 bottom extension of interior electric wire netting.

The device plate 4 is provided with a control circuit board 6 electrically connected with the motor 10 and an external power line hole 61 for penetrating and connecting the control circuit board 6.

The bottom of the device box 3 is vertically provided with a light strip rod body 15 used for trapping insects and throwing, the bottom of the light strip rod body 15 is provided with an arc-shaped frame body 16 supported on the upper disc surface of the insect receiving disc 5, and the light strip rod body plays a role in stabilizing and fixing when the inner and outer net frames are alternately rubbed and pulled to generate vibration.

The bottom of the insect receiving plate 5 is connected with the insect receiving barrel 14 in a bayonet connection mode or connected with the insect receiving barrel 14 in a threaded connection mode.

The net rack bodies of the external electric network 1 and the internal electric network 2 are hexagonal, and the shell cover 3 and the insect receiving disc 5 which are arranged on the device plate 4 through the device plate 4 and the cover are hexagonal.

The middle part of the insect receiving plate 5 is provided with an insect falling hole.

The lower plate surface of the device plate 4 and the upper plate surface of the insect receiving plate 5 are vertically provided with a plurality of fixed connecting rods 13 for connecting the device plate and the insect receiving plate.

The upper disc surface of the insect receiving disc 5 is provided with a plurality of outer net rod lifting sleeves 101 used for being embedded with the outer net lower sliding rods 100 in a sliding manner and a plurality of inner net rod lifting sleeves 201 used for being embedded with the inner net lower sliding rods 200 in a sliding manner, and the outer net rod lifting sleeves 101 are positioned on the outer layers of the inner net rod lifting sleeves 201.

One end of the motor shaft 9 is arranged in the motor, and the other end of the motor shaft 9 is sequentially penetrated by the second fan-shaped eccentric wheel 121 and the first fan-shaped eccentric wheel 12.

When in use, the motor 10 drives the motor shaft 9 to rotate, the sector end faces of the second sector eccentric wheel 121 and the first sector eccentric wheel 12 arranged at one end of the motor shaft 9 are staggered and in a backscattering shape, when the motor shaft 9 rotates, the second sector eccentric wheel 121 and the first sector eccentric wheel 12 are driven to rotate, the inner net lifting slat 7 and the outer net lifting slat 8 are respectively arranged above the second sector eccentric wheel 121 and the first sector eccentric wheel 12, because the arc concave surfaces are arranged in the middle of the slats of the inner net lifting slat 7 and the outer net lifting slat 8, the sector eccentric wheels are arranged on the arc concave surfaces, the sector end faces of the sector eccentric wheels rotate along the arc concave surfaces, the rotating overhead slats of the sector eccentric wheels do reciprocating motion of eccentric ascending and descending, meanwhile, the two ends of the inner net lifting slat 7 are provided with second slat holes 71 for penetrating and fixing the inner net upper sliding slats 21, the two ends of the outer net lifting slat 8 are provided with first slat holes 81 for penetrating and, a plurality of inner net slat springs 70 are connected to the inner net slat 7, one end of each inner net slat spring 70 pulls the inner net slat 7, and the other end of each inner net slat spring is fixed on the upper plate surface of the device plate 4; a plurality of outer net slat springs 80 are connected and arranged on the outer net slat 8, one end of each outer net slat spring 80 pulls the outer net slat 8, and the other end is fixed on the upper plate surface of the device plate 4, therefore, the inner net slat 7 is under the action of the tension of the connecting spring, the inner electric nets connected at two ends of the inner net slat are slowly lifted and quickly descended, the outer net slat 8 is under the action of the tension of the connecting spring, the outer electric nets connected at two ends of the outer net slat 8 are also slowly lifted and quickly descended, the lower sliding rods arranged at the bottom ends of the inner electric nets and the outer electric nets slide up and down in the rod lifting sleeve of the insect receiving disc, at the moment, the inner electric nets and the outer electric nets alternately reciprocate to generate twisting and pulling effects, the springs arranged on the lifting slats generate pulling force, the springs pull force to pull the lifting slats to slowly lift, and the lifting, the electric power grid insect catching device is capable of rapidly descending to generate an impact effect, and generates impact shaking when descending, insect bodies adhered to the electric power grid are separated from the electric power grid through rubbing and pulling and vibrating, the phenomenon that the insect bodies are blocked is avoided by rubbing and pulling the inner net rack and the outer net rack, and the electric power control operation is convenient and has strong popularization.

The description and use of the present invention are illustrative and explanatory only and are not intended to limit the scope of the present invention to the embodiments described above. Variations and modifications of the embodiments disclosed herein are fully possible, and alternative and equivalent various components of the embodiments are well known to those skilled in the art. It will also be apparent to those skilled in the art that the present invention may be embodied in other forms, structures, arrangements, proportions, and with other components, materials, and parts, and that other modifications and variations, without departing from the spirit or essential characteristics thereof, may be made to the embodiments disclosed herein.

Claims (10)

1. Prevent winged insect adhesion electric wire netting from rubbing in turn from top to bottom and draw shake formula insecticidal lamp, its characterized in that: slide bar (21), device box, device board (4), insect receiving disc (5), motor (10), intranet lift slat (7), intranet lift slat (8), first fan-shaped eccentric wheel (12) and second fan-shaped eccentric wheel (121) on outer net (1), outer net (2), outer net (1) top is extended and is set up outer net slide bar (11), and the bottom extends and set up slide bar (100) under the outer net, interior electric net (2) top is extended and is set up interior net slide bar (21), and the bottom extends and sets up slide bar (200) under the inner net, outer net (1) and inner net (2) both ends slide embedding respectively and set up device board (4) and insect receiving disc (5), outer net (1) top both sides are extended and are set up outer net slide bar (11) on passing device board (4) that two first slide bar holes (110) and outer net that symmetry were equipped with on outer net lift disc (4) are gone up to outer net (1) top both sides Two ends of the falling strip plate (8) are connected, inner net sliding rods (21) which extend from two sides of the top of the inner electric net (2) penetrate through two second upper sliding rod holes (210) symmetrically formed in the device plate (4) to be connected with two ends of the inner net lifting strip plate (7), a plurality of inner net strip plate springs (70) are connected to the inner net lifting strip plate (7), one end of each inner net strip plate spring (70) pulls the inner net lifting strip plate (7), and the other end of each inner net strip plate spring is fixed on the upper plate surface of the device plate (4); a plurality of outer screen plate springs (80) are connected and arranged on the outer screen lifting plate (8), one end of the outer screen slat spring (80) pulls the outer screen lifting slat (8), the other end is fixed on the upper plate surface of the device plate (4), a first fan-shaped eccentric wheel (12) connected with a motor shaft (9) is arranged below the outer net lifting slat (8), a second fan-shaped eccentric wheel (121) connected with a motor shaft (9) is arranged below the inner net lifting slat (7), the motor shaft (9) extends out from the motor (10), the outer net lower slide rod (100) extending from the bottom end of the outer net (1) is slidably embedded in an outer net rod lifting sleeve (101) arranged on the upper disc surface of the insect receiving disc (5), an inner net lower sliding rod (200) extending from the bottom end of the inner electric network (2) is slidably embedded in an outer net rod lifting sleeve (101) arranged on the disc surface of the insect receiving disc (5).

2. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the device plate (4) is provided with a connection control circuit board (6) electrically connected with the motor (10) and an external power line hole (61) used for penetrating and connecting the control circuit board (6).

3. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the bottom of the device box is vertically provided with a light strip rod body (15) used for trapping insects and throwing, the bottom of the light strip rod body (15) is provided with an arc frame body (16) supported on the upper disc surface of the insect receiving disc (5), and the light strip rod body plays a role in stabilizing and fixing when the inner and outer net frames are alternately rubbed and pulled to generate vibration.

4. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the bottom of the insect receiving disc (5) is connected with the insect receiving barrel (14) in a bayonet connection mode or connected with the insect receiving barrel (14) in a threaded connection mode.

5. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the net rack bodies of the outer power grid (1) and the inner power grid (2) are hexagonal, and the shell cover (3) and the insect receiving disc (5) which are arranged on the device plate (4) are hexagonal.

6. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the lower plate surface of the device plate (4) and the upper plate surface of the insect receiving plate (5) are vertically provided with a plurality of fixing rods (13) for connecting the device plate and the insect receiving plate.

7. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the upper disc surface of the insect receiving disc (5) is provided with a plurality of outer net rod lifting sleeves (101) used for being embedded with outer net lower sliding rods (100) in a sliding mode and a plurality of inner net rod lifting sleeves (201) used for being embedded with inner net lower sliding rods (200) in a sliding mode, and the outer net rod lifting sleeves (101) are located on the outer layer of the inner net rod lifting sleeves (201).

8. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: one end of the motor shaft (9) is arranged in the motor, a second fan-shaped eccentric wheel (121) and a first fan-shaped eccentric wheel (12) penetrate through the other end of the motor shaft (9) in sequence, and fan-shaped end faces of the second fan-shaped eccentric wheel (121) and the first fan-shaped eccentric wheel (12) are arranged on the motor shaft (9) in a backscattering mode in a staggered mode.

9. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: arc-shaped concave surfaces are formed in the middle of the inner net lifting slat (7) and the outer net lifting slat (8) and used for enabling fan-shaped end surfaces of the fan-shaped eccentric wheels to be arranged on the arc-shaped concave surfaces of the slats.

10. The up-down alternate rubbing and pulling shaking type insect killing lamp for preventing winged insects from adhering to the power grid as claimed in claim 1, wherein: the both ends of intranet lift slat (7) are provided with second plate pole hole (71) that are used for wearing to put fixed intranet on slide bar (21), the both ends of extranet lift slat (8) are provided with first plate pole hole (81) that are used for wearing to put fixed extranet on slide bar (11).

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