CN115136940B - Escape-proof electric fly catcher - Google Patents

Abstract

The invention relates to the technical field of fly-catcher, in particular to an escape-preventing electric fly catcher, which comprises a catching device, a collecting device and a driving device, wherein the driving device is arranged in the collecting device; the catching device comprises a catching chassis, and a plurality of first tooth plate groups are arranged on the upper surface of the catching chassis; the collecting device comprises a collecting chassis and a fly collecting box, the fly collecting box is detachably covered on the upper surface of the collecting chassis, and the fly collecting box and the collecting chassis are combined to form a fly collecting cavity. The fly catcher is reasonable in structural design, can efficiently catch flies, reduces the escape rate of the flies, and improves the fly storage effect.

Description

Escape-proof electric fly catcher

Technical Field

The invention relates to the technical field of fly traps, in particular to an escape-preventing electric fly trap.

Background

Along with the improvement of living conditions of people, the environmental protection awareness of health is higher, and the environmental maintenance is also a target point of attention of people, so that the demands for the fly catcher are also increasing. At present, different fly capturing products are also derived from the market, and the traditional fly swatter is available, but has the defect of low capturing and killing efficiency; fly sticking paper is also arranged, and flies are stuck on the sticking paper to realize trapping and killing, but the fly trapping capacity is limited, and the flies need to be replaced frequently, so that the resource waste is caused; the pesticide is adopted, but flies are killed by chemical medicaments, so that the environment is polluted and the pesticide is harmful to human bodies; in addition, although some electric fly-catching devices exist on the market at present and can automatically catch flies, in actual use, the fly-catching effect is poor, particularly, flies are not easy to enter a fly-collecting cavity from a fly-collecting opening, and flies are easy to fly out and escape through the fly-collecting opening, so that the fly catching failure is caused.

Disclosure of Invention

The invention aims to provide an escape-preventing electric fly catcher which has reasonable structural design, can efficiently catch flies, simultaneously reduces the escape rate of the flies and improves the fly storage effect.

To achieve the purpose, the invention adopts the following technical scheme:

the electric fly catcher comprises a catching device, a collecting device and a driving device, wherein the driving device is arranged in the collecting device, the driving device and the collecting device are both arranged above the catching device, the driving device drives the collecting device to rotate on the catching device, and the catching device, the collecting device and the driving device are detachably arranged;

the capturing device comprises a capturing chassis, wherein a plurality of groups of first tooth plate groups are arranged on the upper surface of the capturing chassis, and the plurality of groups of first tooth plate groups are distributed radially with the center of the capturing chassis;

the collecting device comprises a collecting chassis and a fly collecting box, the fly collecting box is detachably covered on the upper surface of the collecting chassis, the fly collecting box and the collecting chassis are combined to form a fly collecting cavity, the collecting chassis comprises a fan-shaped capturing part and a circular rotating part, one end of the fan-shaped capturing part is connected with the circular rotating part, and a fly capturing notch is formed in the connecting part;

the circular rotating part is rotatably covered on the capturing device, a fly collecting opening is formed in the circular rotating part and used for being communicated with the fly collecting cavity, a second tooth plate group is arranged at the inlet of the fly collecting opening, the second tooth plate group is in staggered fit with the first tooth plate group, and a tube bundle part is arranged at the outlet of the fly collecting opening in a protruding mode;

the lower surface of the fan-shaped capturing part is provided with a third tooth plate group, the end part of the third tooth plate group is positioned at the end part of the fly capturing notch, and the third tooth plate group and the first tooth plate group are mutually matched in a staggered manner.

Preferably, the second tooth plate group comprises a plurality of second horizontal tooth plates, the second horizontal tooth plates and the collecting chassis are in parallel, and one end of each second horizontal tooth plate is fixedly arranged on the circular rotating part;

the second horizontal tooth plates are distributed in a step-shaped manner, and the lengths of the second horizontal tooth plates are sequentially increased along the radial direction away from the fly collecting opening.

Preferably, the diameter of the opening of the tube bundle part is gradually reduced in a direction away from the fly collecting port.

Preferably, a first through hole, an annular flange and an annular groove are formed in the center of the capturing chassis, the annular flange is arranged around the first through hole in a protruding mode, and a positioning clamping groove is formed in the inner wall of the annular flange; the annular groove is concavely arranged around the annular flange, and the bottom of the annular groove is matched with the circular rotating part;

the driving device comprises a motor box, the motor box is provided with an annular clamping part and a positioning clamping part, the annular clamping part and the positioning clamping part are arranged on the outer wall of the motor box in a protruding mode, the bottom of the annular clamping part is abutted to the top of the annular flange, and the positioning clamping part is matched with the positioning clamping groove;

the fly collecting box is internally provided with a cylindrical isolation part, the cylindrical isolation part is used for being sleeved outside the motor box, and the bottom of the cylindrical isolation part is abutted to the top of the annular clamping part;

the circular rotating part is provided with a second through hole, and the second through hole is matched with the motor box.

Preferably, the driving device further comprises a driving motor and a transmission gear, wherein the driving motor is arranged in the motor box, and the transmission gear is arranged at the driving end of the driving motor in a transmission manner;

the motor box is provided with an assembly notch, and the transmission gear is exposed out of the motor box through the assembly notch;

and a gear groove is formed in the cylindrical isolation part, and the transmission gear is meshed with the gear groove.

Preferably, the first tooth plate group comprises a plurality of first horizontal tooth plates and a plurality of first vertical tooth plates, the first horizontal tooth plates are in a parallel state with the capturing chassis, one end of each first horizontal tooth plate is fixedly arranged on the outer wall of the annular flange, and the first horizontal tooth plates are located between the annular flange and the annular groove; the first vertical tooth piece is positioned between the annular groove and the capturing chassis, and is in a vertical state with the capturing chassis;

the third tooth plate group comprises a plurality of second vertical tooth plates which are in a vertical state with the collecting chassis;

the first horizontal tooth plates and the second horizontal tooth plates are arranged in a staggered fit mode, and the first vertical tooth plates and the second vertical tooth plates are arranged in a staggered fit mode.

Preferably, the plurality of first vertical tooth plates and the plurality of second vertical tooth plates are respectively distributed at intervals in an arc shape, and the lengths of the first vertical tooth plates and the second vertical tooth plates are sequentially increased;

the arc of the first vertical tooth plate is opposite to the arc of the first tooth plate group.

Preferably, a power switch is arranged on the outer wall of the motor box, the power switch is positioned above the motor box, and the power switch is electrically connected with the driving motor;

the motor box is further provided with a USB rechargeable battery seat and a storage battery rechargeable battery seat, the USB rechargeable battery seat is used for installing a USB rechargeable battery, the storage battery rechargeable battery seat is used for installing the storage battery, and the USB rechargeable battery and the storage battery are respectively and electrically connected with the driving motor.

Preferably, a bait slot is arranged between the adjacent first tooth plate groups.

Preferably, a gap distance between the fan-shaped capturing portion and the first vertical tooth sheet is greater than 0.3mm.

One of the above technical solutions has the following beneficial effects:

(1) When the third tooth plate group of the fan-shaped capturing part is overlapped with one of the first tooth plate groups of the capturing chassis, flies between the third tooth plate group and the first tooth plate group to be overlapped are driven to enter the fly capturing notch of the circular rotating part, at the moment, the flies can escape from the sealed circular rotating part, when the fly capturing opening rotates to the position above the fully packaged flies, the flies must climb upwards to enter the fly capturing cavity through the fly capturing opening due to the blocking of the second tooth plate group, and at the moment, the flies are successfully captured, and the fly capturing effect is achieved. Because part of the flies fly into the fly collecting cavity and then move around in the fly collecting cavity, the flies can find the fly collecting opening to escape outwards, and the tube bundle part is arranged at the fly collecting opening in a protruding way, so that the flies are difficult to escape in the fly collecting cavity, and the fly storage effect is improved. The fly catcher is reasonable in structural design, can efficiently catch flies, reduces the escape rate of the flies, and improves the fly storage effect.

(2) All demountable installation between capturing device, collection device and the drive arrangement, the user can dismantle the aftertreatment with each part of electronic flytrap according to actual conditions, including handle the back with the fly in the collection device, wash capturing device and collection device alone, avoid the drive arrangement to damage the condition such as, improve the practicality of product.

Drawings

FIG. 1 is a schematic structural view of an escape-preventing electric fly catcher of the present invention;

FIG. 2 is a schematic cross-sectional view of an escape-preventing electric fly catcher of the present invention;

FIG. 3 is an exploded schematic view of the escape-preventing electric fly catcher of the present invention;

FIG. 4 is a schematic top view of the catch arrangement of the escape-preventing electric fly catcher of the present invention;

FIG. 5 is a schematic structural view of a collecting chassis of the escape-preventing electric fly catcher of the present invention;

FIG. 6 is a schematic structural view of a fly-collecting case of the escape-preventing electric fly catcher of the present invention;

FIG. 7 is a schematic structural view of a driving device of the escape-preventing electric fly catcher of the present invention;

in the accompanying drawings: catch device 1, catch chassis 11, first through hole 111, annular flange 112, annular groove 113, positioning clip groove 114, first tooth plate group 12, first horizontal tooth plate 12A, first vertical tooth plate 12B, bait groove 13, collecting device 2, fly collecting chamber 20, collecting chassis 21, sector catch 211, circular rotation part 212, fly catching notch 2121, fly collecting port 2122, second through hole 2123, fly collecting box 22, cylindrical isolation part 221, gear groove 2211, second tooth plate group 23, second horizontal tooth plate 23A, tube bundle part 24, third tooth plate group 25, second vertical tooth plate 25B, driving device 3, motor box 31, annular clip part 311, positioning clip part 312, driving motor 32, fitting notch 313, USB charging battery holder 314, battery charging battery holder 315, transmission gear 33, power switch 34, and battery 35.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

1-7, an escape-proof electric fly catcher comprises a catching device 1, a collecting device 2 and a driving device 3, wherein the driving device 3 is arranged in the collecting device 2, the driving device 3 and the collecting device 2 are both arranged above the catching device 1, the driving device 3 drives the collecting device 2 to rotate on the catching device 1, and the catching device 1, the collecting device 2 and the driving device 3 are all detachably arranged;

the capturing device 1 comprises a capturing chassis 11, wherein a plurality of groups of first tooth plate groups 12 are arranged on the upper surface of the capturing chassis 11, and the plurality of groups of first tooth plate groups 12 are radially distributed at the center of the capturing chassis 11;

the collecting device 2 comprises a collecting chassis 21 and a fly collecting box 22, the fly collecting box 22 is detachably covered on the upper surface of the collecting chassis 21, the fly collecting box 22 and the collecting chassis 21 are combined to form a fly collecting cavity 20, the collecting chassis 21 comprises a fan-shaped capturing part 211 and a circular rotating part 212, one end of the fan-shaped capturing part 211 is connected with the circular rotating part 212, and a fly capturing gap 2121 is formed at the connecting part;

the circular rotating part 212 is rotatably covered on the capturing device 1, the circular rotating part 212 is provided with a fly collecting port 2122, the fly collecting port 2122 is used for communicating with the fly collecting cavity 20, the inlet of the fly collecting port 2122 is provided with a second tooth sheet group 23, the second tooth sheet group 23 is in staggered fit with the first tooth sheet group 12, and the outlet of the fly collecting port 2122 is convexly provided with a tube bundle part 24;

the lower surface of the fan-shaped capturing portion 211 is provided with a third tooth plate set 25, the end portion of the third tooth plate set 25 is located at the end portion of the fly capturing notch 2121, and the third tooth plate set 25 and the first tooth plate set 12 are mutually matched in a staggered manner.

Although some electric fly-catcher are available on the market at present and can automatically catch flies, in actual use, there are phenomena that flies are not easy to enter the fly-collecting cavity 20 from the fly-collecting port 2122 and flies are easy to fly out and escape through the fly-collecting port 2122, so that the fly catching is failed.

Therefore, the invention provides an escape-preventing electric fly catcher, the collecting device 2 is driven by the driving device 3 to rotate on the catching device 1, when the third tooth plate group 25 of the fan-shaped catching part 211 is overlapped with one of the first tooth plate groups 12 of the catching chassis 11, flies between the third tooth plate group 25 and the first tooth plate group 12 to be overlapped are driven to enter the fly catching gap 2121 of the circular rotating part 212, at the moment, the flies can escape in no place in the sealed circular rotating part 212, and when the fly catching mouth 2122 rotates to the position above the fully packaged flies, the flies must climb upwards to enter the fly catching cavity 20 through the fly catching mouth 2122 due to the blocking of the second tooth plate group 23, and at the moment, the flies are successfully caught, and the fly catching effect is achieved. Since part of the flies fly into the fly collecting cavity 20 and then move around, the flies can escape outwards according to the found fly collecting port 2122, the tube bundle part 24 is arranged at the fly collecting port 2122 in a protruding way, so that the flies are difficult to escape in the fly collecting cavity 20, and the fly storage effect is improved. The fly catcher is reasonable in structural design, can efficiently catch flies, reduces the escape rate of the flies, and improves the fly storage effect.

In addition, the catching device 1, the collecting device 2 and the driving device 3 are all detachably arranged, and a user can detach all parts of the electric fly catcher according to actual conditions, including cleaning the catching device 1 and the collecting device 2 independently after the flies in the collecting device 2 are treated, so that the driving device 3 is prevented from being damaged, and the practicability of products is improved.

To further illustrate, the second teeth set 23 includes a plurality of second horizontal teeth 23A, the plurality of second horizontal teeth 23A are parallel to the collecting chassis 21, and one end of the second horizontal teeth 23A is fixedly disposed on the circular rotating portion 212;

the second horizontal teeth pieces 23A are distributed in a step-shaped manner, and the second horizontal teeth pieces 23A are sequentially arranged along a radial direction away from the fly collecting port 2122 and sequentially increase in length.

In order to further increase the fly catching effect, the plurality of second horizontal teeth plates 23A are distributed in a step shape, that is, the lengths of the second horizontal teeth plates 23A far from the fly collecting port 2122 are longest, the lengths of the second horizontal teeth plates 23A close to the fly collecting port 2122 are shortest, and when the driving device 3 drives the collecting device 2 to rotate, the plurality of second horizontal teeth plates 23A can drive the fly toward the fly collecting port 2122 above.

To illustrate further, the diameter of the opening of the tube bundle 24 tapers in a direction away from the fly trap 2122. To further increase the fly storage effect, the opening diameter of the tube bundle portion 24 is gradually reduced so that flies easily enter the fly collecting chamber 20 but hardly come out of the fly collecting chamber 20. One specific embodiment is as follows: the tube bundle section 24 has a similar structure to a trapezoid elliptic cylinder, the opening size of the bottom is approximately 28mm long and 10mm wide, the opening size of the top is approximately 5mm wide and 21mm long, the height is approximately 10mm, and the inclination angle is 10 degrees, so that the fly is difficult to escape in the fly collecting chamber 20 due to the design.

To further illustrate, a first through hole 111, an annular flange 112 and an annular groove 113 are formed in the center of the capturing chassis 11, the annular flange 112 is arranged around the first through hole 111 in a protruding manner, and a positioning clamping groove 114 is formed in the inner wall of the annular flange 112; the annular groove 113 is concavely arranged around the annular flange 112, and the bottom of the annular groove 113 is matched with the circular rotating part 212;

the driving device 3 comprises a motor box 31, the motor box 31 is provided with an annular clamping part 311 and a positioning clamping part 312, the annular clamping part 311 and the positioning clamping part 312 are arranged on the outer wall of the motor box 31 in a protruding mode, the bottom of the annular clamping part 311 is abutted to the top of the annular flange 112, and the positioning clamping part 312 is matched with the positioning clamping groove 114;

a cylindrical isolation part 221 is arranged in the fly collecting box 22, the cylindrical isolation part 221 is used for being sleeved outside the motor box 31, and the bottom of the cylindrical isolation part 221 is abutted to the top of the annular clamping part 311;

the circular rotating portion 212 is provided with a second through hole 2123, and the second through hole 2123 is matched with the motor box 31.

In the present embodiment, the installation process of the driving device 3 includes: (1) mounting the driving device 3 and the collecting device 2; firstly, the motor box 31 is penetrated from the lower part to the upper part of the second through hole 2123 of the circular rotating part 212, then a cylindrical isolation part 221 in the fly collecting box 22 is sleeved on the outer wall of the motor box 31, the bottom of the cylindrical isolation part 221 is abutted to the top of the annular clamping part 311, and then the motor box 31 is built in the fly collecting cavity 20 formed by combining the circular rotating part 212 and the fly collecting box 22; (2) mounting of the driving device 3 and the catching device 1; first, a preliminary positioning operation is performed, wherein the bottom of the annular clamping part 311 is abutted against the top of the annular flange 112, and the bottom of the motor box 31 is matched with the annular groove 113, so that the position of the motor box 31 is preliminarily limited; and secondly, quick positioning operation is performed, including quick positioning through the positioning clamping groove 114 and the positioning clamping part 312, so that the motor box 31 can quickly find the installation position, and the installation speed is improved.

To illustrate further, the driving device 3 further includes a driving motor 32 and a transmission gear 33, the driving motor 32 is built in the motor box 31, and the transmission gear 33 is installed at the driving end of the driving motor 32 in a transmission manner;

the motor box 31 is provided with an assembly notch 313, and the transmission gear 33 is exposed out of the motor box 31 through the assembly notch 313;

the cylindrical isolation part 221 is provided with a gear groove 2211, and the transmission gear 33 is meshed with the gear groove 2211.

The drive motor 32 drives the transmission gear 33 to rotate, and then the collection chassis 21 and the fly box 22 are simultaneously driven to rotate under the transmission of force through meshed connection with the gear groove 2211. Further, through the rotation speed test of the driving motor 32, it is found that when the rotation speed of the driving motor 32 is too high, flies are caused to be clamped without passing through the fly collecting gap, so that the first tooth plate set 12 and the second tooth plate set 23 are blocked, and the rotation is influenced; the rotational speed of the drive motor 32 is thus between 2r/min and 3r/min, preferably 2r/min.

To further illustrate, the first teeth set 12 includes a plurality of first horizontal teeth 12A and a plurality of first vertical teeth 12B, the first horizontal teeth 12A are parallel to the capturing chassis 11, one end of the first horizontal teeth 12A is fixedly disposed on the outer wall of the annular flange 112, and the first horizontal teeth 12A are located between the annular flange 112 and the annular groove 113; the first vertical teeth 12B is located between the annular groove 113 and the capturing chassis 11, and the first vertical teeth 12B are in a vertical state with the capturing chassis 11;

the third tooth set 25 includes a plurality of second vertical tooth plates 25B, where the second vertical tooth plates 25B are perpendicular to the collecting chassis 21;

the first horizontal tooth plates 12A and the second horizontal tooth plates 23A are in staggered fit, and the first vertical tooth plates 12B and the second vertical tooth plates 25B are in staggered fit. By adjusting the tooth structures of the first tooth set 12 and the third tooth set 25, the whole first horizontal tooth set 12A and the second horizontal tooth set 23A and the first vertical tooth set 12B and the second vertical tooth set 25B are matched in a staggered manner, so that the effect of optimizing the structure is achieved.

To further illustrate, the plurality of first vertical teeth 12B and the plurality of second vertical teeth 25B are respectively distributed at intervals in an arc shape, and the lengths thereof are sequentially increased; the arc of the first vertical teeth 12B is opposite to the arc of the first teeth set 12. The first vertical tooth piece 12B and the second vertical tooth piece 25B which are arranged in the anti-arc direction can drive flies positioned at the periphery of the capturing chassis 11 to the middle in the overlapping process, along with the rotation of the collecting chassis 21, the overlapping parts of the first vertical tooth piece 12B and the second vertical tooth piece 25B are more and more, the flies can escape from no place and can only enter the fly catching gap 2121, and the fly catching efficiency is improved.

To illustrate further, the outer wall of the motor box 31 is provided with a power switch 34, the power switch 34 is located above the motor box 31, and the power switch 34 is electrically connected with the driving motor 32;

the motor case 31 is further provided with a USB rechargeable battery holder 314 and a battery rechargeable battery holder 315, the USB rechargeable battery holder is used for mounting a USB rechargeable battery (not shown in the drawing), the battery rechargeable battery holder 315 is used for mounting the battery 35, and the USB rechargeable battery and the battery 35 are respectively electrically connected to the driving motor 32.

In this embodiment, the user can directly control the switch of the motor by pressing the power switch 34, thereby starting or stopping the use of the electric fly catcher, which is simple and convenient. In addition, the motor 32 can be driven to supply power through two modes of the USB charging battery seat 314 and the storage battery 35, so that the power supply can be replaced conveniently.

Further described, a bait slot 13 is provided between adjacent ones of the first tooth sets 12. In this embodiment, in combination with a design mode of using rechargeable batteries and fly attractants, the electric fly catcher is placed in a dense place of flies, and the electric fly catcher is used in a state that the batteries can be used, and the fly attractants are placed in each bait slot 13, so that the flies are attracted to stop to find food in the way of the attractants, and then the flies are driven into the fly collecting cavity 20 in the rotation process of the collecting chassis 21, so that the fly catching effect is improved, and meanwhile, the automatic catching of the flies is realized.

To further illustrate, the clearance distance between the fan-shaped capturing portion 211 and the first vertical tooth 12B is greater than 0.3mm. When the electric fly catcher rotates, the collecting chassis 21 and the first vertical teeth 12B are easily scratched and rubbed with each other, so that the whole fly catcher does not operate smoothly, and vibration and noise are generated. Thus enlarging the gap distance between the sector catching portion 211 and the first vertical tooth plate 12B, thereby achieving better rotation. The preferred gap distance is 0.6mm.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will occur to those skilled in the art from consideration of this specification without the exercise of inventive faculty, and such equivalent modifications and alternatives are intended to be included within the scope of the invention as defined in the claims.

Claims (7)

1. The anti-escape electric fly catcher is characterized by comprising a catching device, a collecting device and a driving device, wherein the driving device is arranged in the collecting device, the driving device and the collecting device are both arranged above the catching device, the driving device drives the collecting device to rotate on the catching device, and the catching device, the collecting device and the driving device are detachably arranged;

the capturing device comprises a capturing chassis, wherein a plurality of groups of first tooth plate groups are arranged on the upper surface of the capturing chassis, and the plurality of groups of first tooth plate groups are distributed radially with the center of the capturing chassis;

the collecting device comprises a collecting chassis and a fly collecting box, the fly collecting box is detachably covered on the upper surface of the collecting chassis, the fly collecting box and the collecting chassis are combined to form a fly collecting cavity, the collecting chassis comprises a fan-shaped capturing part and a circular rotating part, one end of the fan-shaped capturing part is connected with the circular rotating part, and a fly capturing notch is formed in the connecting part;

the circular rotating part is rotatably covered on the capturing device, a fly collecting opening is formed in the circular rotating part and used for being communicated with the fly collecting cavity, a second tooth plate group is arranged at the inlet of the fly collecting opening, the second tooth plate group is in staggered fit with the first tooth plate group, and a tube bundle part is arranged at the outlet of the fly collecting opening in a protruding mode;

the lower surface of the fan-shaped capturing part is provided with a third tooth plate group, the end part of the third tooth plate group is positioned at the end part of the fly capturing notch, and the third tooth plate group and the first tooth plate group are mutually matched in a staggered manner;

the second tooth plate group comprises a plurality of second horizontal tooth plates, the second horizontal tooth plates and the collecting chassis are in parallel, and one end of each second horizontal tooth plate is fixedly arranged on the circular rotating part;

the second horizontal tooth plates are distributed in a step-shaped manner, and the lengths of the second horizontal tooth plates are sequentially increased along the radial direction away from the fly collecting opening;

the diameter of the opening of the tube bundle part gradually becomes smaller along the direction away from the fly collecting opening;

the center of the capturing chassis is provided with a first through hole, an annular flange and an annular groove, the annular flange is arranged around the first through hole in a protruding mode, and the inner wall of the annular flange is provided with a positioning clamping groove; the annular groove is concavely arranged around the annular flange, and the bottom of the annular groove is matched with the circular rotating part;

the driving device comprises a motor box, the motor box is provided with an annular clamping part and a positioning clamping part, the annular clamping part and the positioning clamping part are arranged on the outer wall of the motor box in a protruding mode, the bottom of the annular clamping part is abutted to the top of the annular flange, and the positioning clamping part is matched with the positioning clamping groove;

the fly collecting box is internally provided with a cylindrical isolation part, the cylindrical isolation part is used for being sleeved outside the motor box, and the bottom of the cylindrical isolation part is abutted to the top of the annular clamping part;

the circular rotating part is provided with a second through hole, and the second through hole is matched with the motor box.

2. An escape-preventing electric flytrap as claimed in claim 1, wherein the driving means further comprises a driving motor and a transmission gear, the driving motor is internally arranged in the motor box, and the transmission gear is installed at the driving end of the driving motor in a transmission manner;

the motor box is provided with an assembly notch, and the transmission gear is exposed out of the motor box through the assembly notch;

and a gear groove is formed in the cylindrical isolation part, and the transmission gear is meshed with the gear groove.

3. An escape-preventing electric fly catcher as claimed in claim 2, wherein the first tooth set includes a plurality of first horizontal tooth plates and a plurality of first vertical tooth plates, the first horizontal tooth plates are parallel to the catching chassis, one end of each first horizontal tooth plate is fixedly arranged on the outer wall of the annular flange, and the first horizontal tooth plates are located between the annular flange and the annular groove; the first vertical tooth piece is positioned between the annular groove and the capturing chassis, and is in a vertical state with the capturing chassis;

the third tooth plate group comprises a plurality of second vertical tooth plates which are in a vertical state with the collecting chassis;

the first horizontal tooth plates and the second horizontal tooth plates are arranged in a staggered fit mode, and the first vertical tooth plates and the second vertical tooth plates are arranged in a staggered fit mode.

4. An escape-preventing electric flytrap as claimed in claim 3, wherein a plurality of said first vertical teeth and a plurality of said second vertical teeth are respectively arranged in an arc-shaped interval, and the lengths thereof are sequentially increased;

the arc of the first vertical tooth plate is opposite to the arc of the first tooth plate group.

5. An escape-preventing electric flytrap as claimed in claim 2, wherein the outer wall of the motor case is provided with a power switch, the power switch is located above the motor case, and the power switch is electrically connected with the driving motor;

the motor box is further provided with a USB rechargeable battery seat and a storage battery rechargeable battery seat, the USB rechargeable battery seat is used for installing a USB rechargeable battery, the storage battery rechargeable battery seat is used for installing the storage battery, and the USB rechargeable battery and the storage battery are respectively and electrically connected with the driving motor.

6. An escape-preventing electric fly catcher as claimed in claim 1, wherein a bait slot is provided between adjacent ones of said first sets of teeth.

7. An escape-preventing electric fly catcher as claimed in claim 3, wherein the gap distance between the fan-shaped catching part and the first vertical teeth plate is greater than 0.3mm.