CN217673277U - Cover-throwing type machine nest - Google Patents

Abstract

The utility model provides a throw formula of covering nest, including the nest body and set up first cover and the second cover in the relative both sides in nest body top respectively, first cover and second cover can rotate relatively the nest body through drive mechanism respectively and be in the same place or launch with the lock, rotate with the lock when first cover and the relative nest body of second cover are in the same place, first cover and second cover are closed state, thereby unmanned aerial vehicle and the nest body for parking on the parking apron provide rain-proof sun-proof heat retaining effect, rotate with the launch when first cover and the relative nest body of second cover, first cover and second cover are the expansion state, thereby for the unmanned aerial vehicle's of parking on the parking apron take off or provide the condition that lands, and simultaneously, because the top of nest body is equipped with the apron that is used for parking unmanned aerial vehicle, unmanned aerial vehicle can directly park on the parking apron, and unmanned aerial vehicle can be direct when taking off, need not to go out unmanned aerial vehicle through the form of taking off the platform lift and go into the nest.

Description

Throw formula of covering machine nest

Technical Field

The utility model relates to an unmanned air vehicle technique field especially relates to a throw formula of covering machine nest.

Background

Along with the continuous deepening of unmanned aerial vehicle trade application, discover a lot of not enough that current unmanned aerial vehicle exists gradually, under the difficult condition of solving of unmanned aerial vehicle short slab itself, just thought to solve through other supplementary convenient modes, unmanned aerial vehicle automatic nest is just that most schemes are commercial is used for solving the not enough problem of unmanned aerial vehicle continuation of the journey.

Current unmanned aerial vehicle nest all adopts the upper cover level to open and shut, and the form that rethread platform goes out the unmanned aerial vehicle nest to go into the nest form, adopts this kind of configuration to have a lot of shortcomings: firstly, when the machine nest is opened, the internal movable mechanism of the machine nest is exposed outside and is easy to dust and rust; secondly, the platform for placing the unmanned aerial vehicle is required to be pushed to ascend and descend, and the fault rate of the lifting platform can be increased under the condition that the whole platform meets the rigidity; thirdly, the processing difficulty is too high, and the parallelism of the four lifting shafts is difficult to ensure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to current unmanned aerial vehicle nest by all adopt the upper cover level to open and shut, rethread platform lift goes out unmanned aerial vehicle nest and goes into the mode of nest, and the inside movable establishment of nest of its existence can expose externally, and the problem of the fault high rate of dust and rust and placing unmanned aerial vehicle's platform is easy to be gone on and is provided one kind and throw formula of covering nest.

The utility model provides an above-mentioned technical problem adopted technical scheme as follows:

a flip-type nest comprises a nest body, a first cover and a second cover which are respectively arranged at two opposite sides of the top end of the nest body, wherein the first cover and the second cover can respectively rotate relative to the nest body through the drive of a transmission mechanism so as to be buckled together or unfolded,

drive mechanism is including setting up the machine nest body with the outer first rocking arm of the both sides wall of the relative both sides of first cover, setting are in the machine nest body with the outer second rocking arm of the both sides wall of the relative both sides of second cover and setting are in this internal and by driving motor driven synchronous reverse gearbox, be equipped with a first axis of rotation on the synchronous reverse gearbox and with first axis of rotation interval set up and with first axis of rotation opposite direction's second axis of rotation, stretch out respectively at the both ends of first axis of rotation the relative both sides wall of machine nest body with the one end of first rocking arm is rotated and is connected, the other end of first rocking arm rotates respectively and connects on the head rod that sets up in the first cover, stretch out respectively at the both ends of second axis of rotation the relative both sides wall of machine nest body with the one end of second rocking arm rotates and is connected, the other end of second rocking arm rotates respectively and connects on the second connecting rod that sets up in the second cover.

Further, drive mechanism still including set up the machine nest body with outside the both sides wall of the relative both sides of first cover with first rocking arm interval set up and follow first rocking arm rotates and pivoted third rocking arm, set up be in the machine nest body with outside the both sides wall of the relative both sides of second cover with second rocking arm interval set up and follow the second rocking arm rotates and pivoted fourth rocking arm, set up be in first axis of rotation one side and rotate and pivoted third axis of rotation and set up be in just rotate and pivoted fourth axis of rotation along with the second axis of rotation in second axis of rotation one side, the both ends of third axis of rotation are stretched out respectively the relative both sides wall of machine nest body with the one end of third rocking arm is rotated and is connected, the other end of third rocking arm rotates respectively and connects on two first rotation mount pads that set up in the first cover, the both ends of fourth axis of rotation stretch out respectively the relative both sides wall of machine nest body with the one end of fourth rocking arm rotates and is connected, the other end of fourth rocking arm rotates respectively and is in set up in the second cover rotates two mount pads.

Furthermore, two ends of the first connecting rod are respectively arranged on two third rotary mounting seats arranged in the first machine cover, and two ends of the second connecting rod are respectively arranged on two fourth rotary mounting seats arranged in the second machine cover.

Furthermore, first aircraft bonnet includes a first roof, the bottom of first roof is equipped with one and is used for fixing the first locating frame of first roof, two first rotation mount pad and two the third rotates the mount pad and corresponds the setting respectively on the frame of first locating frame along its length direction's both sides, still be equipped with two first connecting plates that set up along its width direction interval in proper order in the first locating frame.

Further, the second cover includes a second roof, the bottom of second roof is equipped with one and is used for fixing the second locating frame of second roof, two the second rotates mount pad and two the fourth rotates the mount pad and corresponds the setting respectively on the frame of the both sides of second locating frame along its length direction, still be equipped with two second connecting plates that set up along its width direction interval in proper order in the second locating frame.

Furthermore, the first cover further comprises a first side plate and a second side plate which are respectively connected to the bottoms of two opposite sides of the first top plate along the length direction of the first top plate, and a third side plate which is arranged at the bottom of one side of the first top plate far away from the nest body and is connected with the first side plate and the second side plate.

Further, the second cover further comprises a fourth side plate and a fifth side plate which are respectively connected to the bottoms of two opposite sides of the second top plate along the length direction of the second cover, and a sixth side plate which is arranged on the second top plate, is far away from the bottom of one side of the machine nest body, and is connected with the fourth side plate and the fifth side plate.

Furthermore, the two sides of the first machine cover along the length direction and the two sides of the second machine cover along the length direction are respectively provided with an LED lamp.

Furthermore, two ends of the first rotating shaft, the second rotating shaft, the third rotating shaft and the fourth rotating shaft are respectively provided with a rotating shaft fixing seat, and the rotating shaft fixing seats are respectively arranged on the machine nest fixing frames in the machine nest body.

Furthermore, the first cover and the second cover are made of glass fiber reinforced plastic.

According to the throwing cover type nest of the above embodiment of the present invention, comprising a nest body and a first cover and a second cover respectively disposed on opposite sides of the top end of the nest body, wherein the first cover and the second cover are respectively opposite to each other by the driving of the transmission mechanism, the nest body rotates to be buckled together or unfolded, when the first cover and the second cover are opposite to each other by the driving of the transmission mechanism, the nest body rotates to be buckled together, the first cover and the second cover are in a closed state, thereby providing the functions of rain-proof, sun-proof and heat preservation for the unmanned aerial vehicle and the nest body parked on the parking apron, when the first cover and the second cover are opposite to each other by the driving of the transmission mechanism, the nest body rotates to be unfolded, first cover and second cover are the expansion state to for the taking off or the landing of the unmanned aerial vehicle of parking on the parking apron provide the condition, simultaneously, because the top of machine nest body is equipped with a parking apron that is used for parking unmanned aerial vehicle, unmanned aerial vehicle can directly park on the parking apron to unmanned aerial vehicle can directly take off when taking off, need not to go out the nest with unmanned aerial vehicle through the form that the platform goes up and down and go into the nest, effectively avoided current unmanned aerial vehicle nest effectively because all adopt the upper cover level to open and shut, the rethread platform rises and goes out the mode that the nest goes into the nest with unmanned aerial vehicle, the inside movable establishment of machine nest of its existence can expose externally, dust and rust easily and the problem of the fault rate of the platform of placing unmanned aerial vehicle.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an overall schematic view (closed state) of a flip-type nest according to an embodiment of the present invention.

Fig. 2 is another overall schematic view (in an expanded state) of the flip-type nest according to an embodiment of the present invention.

Figure 3 is a side view of the flip-top nest provided in figure 2.

Fig. 4 is a schematic structural view of a nest body of the flip-type nest according to an embodiment of the present invention.

Fig. 5 is a schematic view of another overall structure of the flip-type nest according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a transmission mechanism of the flip-type nest according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a first cover of the flip-type nest according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a second cover of the flip-type nest according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1 to 8 in the lump, an embodiment of the present invention provides a flip-type airfield, including an airfield body 10, a first cover 20 and a second cover 30 respectively disposed on opposite sides of a top end of the airfield body 10, the first cover 20 and the second cover 30 being respectively opposite to each other through driving of a transmission mechanism 40, the airfield body 10 rotates to be locked together or unfolded, a parking apron 11 for parking an unmanned aerial vehicle is disposed on the top end of the airfield body 10, when the first cover 20 and the second cover 30 are opposite to each other through driving of the transmission mechanism 40, the first cover 20 and the second cover 30 are in a closed state to provide a rainproof, sunscreen and heat-insulating effect for the unmanned aerial vehicle and the airfield body 10 parked on the landing apron 11, when the first cover 20 and the second cover 30 are opposite to each other through driving of the transmission mechanism 40, the airfield body 10 rotates to be unfolded, the first cover 20 and the second cover 30 are in an unfolded state to provide a rainproof, so that the unmanned aerial vehicle parked on the landing apron 11, when the unmanned aerial vehicle is parked on the landing apron body, the landing apron body is in a state, the unmanned aerial vehicle is capable of being lifted up, and the landing platform is capable of avoiding the unmanned aerial vehicle from being lifted, and the landing platform is capable of being lifted on the landing platform, and the landing platform, the unmanned aerial vehicle is capable of being lifted by the unmanned aerial vehicle, and the unmanned aerial vehicle is capable of being lifted from the landing platform, and the landing platform.

In this embodiment, the transmission mechanism 40 includes a first rocker arm 41 disposed outside two side walls of two opposite sides of the nest body 10 and the first cover 20, a second rocker arm 42 disposed outside two side walls of two opposite sides of the nest body 10 and the second cover 20, and a synchronous reverse transmission 43 disposed in the nest body 10 and driven by the driving motor 50, a first rotation shaft 431 and a second rotation shaft 432 spaced apart from the first rotation shaft 431 and having a rotation direction opposite to that of the first rotation shaft 431 are disposed on the synchronous reverse transmission 43, two ends of the first rotation shaft 431 respectively extend out of two opposite side walls of the nest body 10 and are rotatably connected to one end of the first rocker arm 41, the other end of the first rocker arm 41 is respectively rotatably connected to a first connecting rod 44 disposed in the first cover 20, the two ends of the second rotating shaft 431 respectively extend out of the two opposite side walls of the nest body 10 and are rotatably connected with one end of the second rocker arm 42, the other end of the second rocker arm 42 is respectively rotatably connected with the second connecting rod 45 arranged in the second cover 30, so that when the first cover 20 and the second cover 30 are in a closed state and the first cover 20 and the second cover 30 need to be unfolded, the driving motor 50 rotates clockwise according to a control instruction so as to transmit torque to the input shaft of the synchronous reverse gearbox 43, the synchronous reverse gearbox 43 outputs two consistent transmission ratios, the first rotating shaft 431 with opposite rotating directions rotates anticlockwise, the second rotating shaft 432 rotates clockwise, the first rotating shaft 431 drives the first rocker arm 41 to rotate anticlockwise, and the second rotating shaft 432 drives the second rocker arm 42 to rotate clockwise, the first cover 20 and the second cover 30 are further driven to be respectively unfolded towards two opposite sides of the top end of the airframe body 10, so that the first cover 20 and the second cover 30 are opened, and conditions are provided for takeoff or landing of the unmanned aerial vehicle parked on the parking apron 11; when first cover 20 and second cover 30 are the expansion state, need will first cover 20 and second cover 30 are closed, driving motor 50 rotates anticlockwise so that pass the moment of torsion to the input shaft of synchronous reverse gearbox 43 according to control instruction, synchronous reverse rotation gearbox 43 outputs two drive ratios unanimously, and first rotation axis 431 that rotate opposite direction rotates clockwise, second rotation axis 432 anticlockwise, and first rotation axis 431 drive first rocker 41 rotates clockwise, second rotation axis 432 drive second rocker 42 anticlockwise, and then drive first cover 20 with second cover 30 lock is in the same place, thereby will first cover 20 and second cover 30 are closed, provide rain-proof sun-proof heat retaining effect for unmanned aerial vehicle and the airframe body 10 that park on parking apron 11.

In this embodiment, the transmission mechanism 40 further includes a third swing arm 46 disposed outside two side walls of two opposite sides of the nest body 10 and the first cover 20 and spaced apart from the first swing arm 41 and rotating with the rotation of the first swing arm 41, a fourth swing arm 47 disposed outside two side walls of two opposite sides of the nest body 10 and the second cover 30 and spaced apart from the second swing arm 42 and rotating with the rotation of the second swing arm 42, a third rotation shaft 48 disposed on one side of the first rotation shaft 431 and rotating with the rotation of the first rotation shaft 431, and a fourth rotation shaft 49 disposed on one side of the second rotation shaft 432 and rotating with the rotation of the second rotation shaft 432, two ends of the third rotation shaft 48 respectively extend out of two opposite side walls of the nest body 10 and are rotatably connected with one end of the third swing arm 46, the other end of the third swing arm 46 is respectively rotatably connected to two first rotary mounting seats 21 arranged in the first cover 20, two ends of the fourth rotary shaft 49 respectively extend out of two opposite side walls of the machine nest body 10 to be rotatably connected with one end of the fourth swing arm 47, the other end of the fourth swing arm 47 is respectively rotatably connected to two second rotary mounting seats 31 arranged in the second cover 30, thus, when the first cover 20 and the second cover 30 are in a closed state and the first cover 20 and the second cover 30 need to be unfolded, the driving motor 50 rotates clockwise according to a control instruction so as to transmit torque to the input shaft of the synchronous reverse gearbox 43, the synchronous reverse gearbox 43 outputs two identical transmission ratios, the first rotary shaft 431 with opposite rotation directions rotates counterclockwise, the second rotary shaft 432 rotates clockwise, and the first rotary shaft 431 drives the first swing arm 41 to rotate counterclockwise, the third rocker arm 46 rotates counterclockwise with the counterclockwise rotation of the first rocker arm 41, the second rotating shaft 432 drives the second rocker arm 42 to rotate clockwise, and the fourth rocker arm 47 rotates clockwise with the clockwise rotation of the second rocker arm 42, so as to drive the first cover 20 and the second cover 30 to be buckled together, so that the first cover 20 and the second cover 30 are closed, a condition is provided for the take-off or landing of the unmanned aerial vehicle parked on the apron 11, and meanwhile, the stability of the unfolding process of the first cover 20 and the second cover 30 can be improved through the arrangement of the third rocker arm 46 and the fourth rocker arm 47; when the first cover 20 and the second cover 30 are in the unfolded state and the first cover 20 and the second cover 30 need to be closed, the driving motor 50 rotates counterclockwise according to a control command so as to transmit torque to the input shaft of the synchronous reverse transmission 43, the synchronous reverse transmission 43 outputs two transmission ratios in accordance, the first rotating shaft 431 and the second rotating shaft 432 rotate clockwise in opposite directions, the first rotating shaft 431 drives the first rocker 41 to rotate clockwise, the third rocker 46 drives the first rocker 41 to rotate clockwise along with the clockwise rotation, the second rotating shaft 432 drives the second rocker 42 to rotate counterclockwise, the fourth rocker 47 drives the second rocker 42 to rotate counterclockwise along with the counterclockwise rotation, and then the first cover 20 and the second cover 30 are buckled together, so that the first cover 20 and the second cover 30 are closed, a sun-proof, rain-proof and heat-proof effect is provided for the unmanned aerial vehicle and the vehicle body 10 on the parking apron 11, and the stability of the first cover 20 and the second cover 30 can be improved through the arrangement of the third rocker 46 and the fourth rocker 47.

In this embodiment, two ends of the first connecting rod 44 are respectively disposed on two third rotation mounting seats 22 disposed in the first cover 20, and two ends of the second connecting rod 45 are respectively disposed on two fourth rotation mounting seats 32 disposed in the second cover 30.

In this embodiment, two ends of the first rotating shaft 431, the second rotating shaft 432, the third rotating shaft 48 and the fourth rotating shaft 49 are respectively provided with a rotating shaft fixing seat 70, the rotating shaft fixing seats 70 are respectively arranged on the machine nest fixing frame 12 in the machine nest body 10, and each rotating shaft fixing seat 70 plays a role of fixing and supporting.

In this embodiment, the first cover 20 includes a first top plate 23, a first positioning frame 24 for fixing the first top plate 23 is disposed at the bottom of the first top plate 23, the two first rotating installation seats 21 and the two third rotating installation seats 22 are respectively and correspondingly disposed on two side frames of the first positioning frame 24 along the length direction thereof, and a plurality of first connection plates 25 sequentially disposed at intervals along the width direction thereof are further disposed in the first positioning frame 24.

In this embodiment, the second cover 30 includes a second top plate 33, a second positioning frame 34 for fixing the second top plate 33 is disposed at the bottom of the second top plate 33, two second rotary mounting seats 31 and two fourth rotary mounting seats 34 are respectively and correspondingly disposed on the two side frames of the second positioning frame along the length direction thereof, and two second connecting plates 35 sequentially disposed along the width direction thereof at intervals are further disposed in the second positioning frame 34.

In this embodiment, the first cover 20 further includes a first side plate 25 and a second side plate 26 respectively connected to bottoms of two opposite sides of the first top plate 23 along the length direction thereof, and a third side plate 27 disposed at a bottom of one side of the first top plate 23 away from the nest body 10 and connected to the first side plate 25 and the second side plate 26.

In this embodiment, the second cover 30 further includes a fourth side plate 35 and a fifth side plate 36 respectively connected to the bottoms of the two opposite sides of the second top plate 33 along the length direction thereof, and a sixth side plate 37 disposed at the bottom of the side of the second top plate 33 far away from the nest body 10 and connected to the fourth side plate 35 and the fifth side plate 36.

In this embodiment, the first cover 20 and the second cover 30 are respectively provided with an LED lamp 60 along both sides of the length direction thereof, and the LED lamps 60 play a role of warning when the machine nest executes actions.

In this embodiment, the material of first cover 20 and second cover 30 is the glass steel material, has eliminated traditional cover and has leaded to the phenomenon to unmanned aerial vehicle 4G signal, magnetic compass, GPS interference owing to adopt the panel beating material.

In this embodiment, the bottom of the nest body 10 is further provided with a plurality of support legs 13.

In this embodiment, the bottom of the nest body 10 is further provided with a plurality of rollers 14.

In this embodiment, a 4G antenna cabin 80 capable of being pushed out manually is further disposed on one side of the nest body 10.

According to the utility model discloses the throw formula of covering nest of above-mentioned embodiment, be in including the nest body and set up respectively the first cover and the second cover of the relative both sides in nest body top, first cover and second cover can be relative through drive mechanism's drive respectively the nest body rotates with the lock together or expand, works as first cover and second cover are relative through drive mechanism's drive the nest body rotates with the lock when being in the same place, first cover and second cover are closed state to for unmanned aerial vehicle and the nest body of parking on the parking apron provide rain-proof sun-proof heat retaining effect, work as first cover and second cover are relative through drive mechanism's drive the nest body rotates when expanding, first cover and second cover are the expansion state to for the unmanned aerial vehicle's of parking on the parking apron take off or the landing provides the condition, simultaneously, because the top of nest body is equipped with a parking apron that is used for parking, unmanned aerial vehicle can directly park on the parking apron to can be direct when taking off, need not to go out the unmanned aerial vehicle's that the lift of parking on the apron or the landing provides the condition of landing, and the unmanned aerial vehicle is the unmanned aerial vehicle's effective nest-off and the lift that the unmanned aerial vehicle had taken off and the outside and has avoided the unmanned aerial vehicle to go into the nest and the problem of the unmanned aerial vehicle activity of the nest mechanism, and has gone into the unmanned aerial vehicle and has taken off the nest to be higher than the unmanned aerial vehicle and has taken off the problem of the nest and has taken off the unmanned aerial vehicle and has taken off the nest and has taken off the problem of the outside and has been put on the nest.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (10)

1. A throwing cover type nest is characterized by comprising a nest body, a first cover and a second cover, wherein the first cover and the second cover are respectively arranged on two opposite sides of the top end of the nest body, the first cover and the second cover can respectively rotate relative to the nest body through the driving of a transmission mechanism so as to be buckled together or unfolded, wherein,

drive mechanism is including setting up the machine nest body with the outer first rocking arm of the both sides wall of the relative both sides of first cover, setting are in the machine nest body with the outer second rocking arm of the both sides wall of the relative both sides of second cover and setting are in this internal and by driving motor driven synchronous reverse gearbox, be equipped with a first axis of rotation on the synchronous reverse gearbox and with first axis of rotation interval set up and with first axis of rotation opposite direction's second axis of rotation, stretch out respectively at the both ends of first axis of rotation the relative both sides wall of machine nest body with the one end of first rocking arm is rotated and is connected, the other end of first rocking arm rotates respectively and connects on the head rod that sets up in the first cover, stretch out respectively at the both ends of second axis of rotation the relative both sides wall of machine nest body with the one end of second rocking arm rotates and is connected, the other end of second rocking arm rotates respectively and connects on the second connecting rod that sets up in the second cover.

2. The throwing-cover type nest according to claim 1, wherein the transmission mechanism further comprises a third rocker arm which is arranged outside two side walls of two opposite sides of the nest body and the first cover at an interval and rotates along with the rotation of the first rocker arm, a fourth rocker arm which is arranged outside two side walls of two opposite sides of the nest body and the second cover at an interval and rotates along with the rotation of the second rocker arm, a third rotation shaft which is arranged on one side of the first rotation shaft and rotates along with the rotation of the first rotation shaft, and a fourth rotation shaft which is arranged on one side of the second rotation shaft and rotates along with the rotation of the second rotation shaft, two ends of the third rotation shaft respectively extend out of the two opposite side walls of the nest body and are rotatably connected with one end of the third rocker arm, the other end of the third rocker arm is respectively rotatably connected to two first rotation installation seats arranged in the first cover, two side walls of the fourth rotation shaft respectively extend out of the two opposite side walls of the nest body and are rotatably connected to one end of the fourth rocker arm, and the other end of the fourth rocker arm is rotatably installed on the two second rotation installation seats arranged in the second cover.

3. The throwing-cover type nest according to claim 2, wherein two ends of the first connecting rod are respectively arranged on two third rotary mounting seats arranged in the first cover, and two ends of the second connecting rod are respectively arranged on two fourth rotary mounting seats arranged in the second cover.

4. The throwing-cover type nest according to claim 3, wherein the first cover comprises a first top plate, a first positioning frame for fixing the first top plate is arranged at the bottom of the first top plate, the two first rotating installation seats and the two third rotating installation seats are respectively and correspondingly arranged on two side frames of the first positioning frame along the length direction of the first positioning frame, and two first connecting plates are further arranged in the first positioning frame at intervals along the width direction of the first positioning frame.

5. The throwing-cover type nest according to claim 3, wherein the second cover comprises a second top plate, a second positioning frame for fixing the second top plate is arranged at the bottom of the second top plate, the two second rotating installation seats and the two fourth rotating installation seats are respectively and correspondingly arranged on the two side frames of the second positioning frame along the length direction of the second positioning frame, and two second connecting plates are further arranged in the second positioning frame at intervals along the width direction of the second positioning frame.

6. The flip-top type nest of claim 4, wherein the first cover further comprises a first side plate and a second side plate respectively connected to bottoms of two opposite sides of the first top plate along the length direction of the first top plate, and a third side plate arranged at a bottom of one side of the first top plate away from the nest body and connected to the first side plate and the second side plate.

7. The flip-top nest of claim 5, wherein the second cover further comprises a fourth side plate and a fifth side plate respectively connected to the bottoms of two opposite sides of the second top plate along the length direction of the second cover, and a sixth side plate arranged at the bottom of one side of the second top plate far away from the nest body and connected to the fourth side plate and the fifth side plate.

8. The flip-top nest of claim 1, wherein the first cover and the second cover are respectively provided with an LED light along both sides of the first cover and along the second cover.

9. The throwing-cover type nest according to claim 2, wherein a rotating shaft fixing seat is respectively arranged at two ends of the first rotating shaft, the second rotating shaft, the third rotating shaft and the fourth rotating shaft, and the rotating shaft fixing seats are respectively arranged on a nest fixing frame in the nest body.

10. The flip-top nest of claim 1, wherein the first and second covers are made of glass fiber reinforced plastic.

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