CN110122444B - Insect self-contained observation and dissection transition box processing equipment - Google Patents

Abstract

The invention discloses an insect self-loading type observation and dissection transition box processing device which comprises an adjustable insect induction single grabbing corona turnover mechanism, a spiral nondestructive gliding transmission mechanism, an insect observation device preparation box and an insect observation device loading box, wherein the insect observation device preparation box is arranged right above the insect observation loading box, the insect observation device preparation mechanism is arranged in the insect observation device preparation box, the spiral nondestructive gliding transmission mechanism is arranged on the outer side wall of the insect observation device preparation box, and the adjustable insect induction single grabbing corona turnover mechanism is arranged on the spiral nondestructive gliding transmission mechanism. The invention belongs to the technical field of biological experiment tools, and particularly provides an observation and dissection transition box processing device which utilizes a black light lamp to attract corona insects to realize spiral nondestructive transmission and uses a rapidly formed malleable sol material for self-contained wrapping of the insects.

Description

Insect self-contained observation and dissection transition box processing equipment

Technical Field

The invention belongs to the technical field of biological experiment tools, and particularly relates to processing equipment for an insect self-contained observation and dissection transition box.

Background

Insect ethology is a science that studies the type, pattern and mechanism of behavior generation of insects. Insect behaviours also branch from insect behavioural ecology, insect behavioural physiology, insect behavioural genetics, and the like. Insect science is a science in which insects are the subject of research, and people engaged in insect research are called entomologists, and insect scientists throughout the world perform observation, collection, feeding and anatomical tests on insects.

In animal teaching and extracurricular science and technology activities, in order to facilitate students to understand more intuitively, tiny organisms such as insects with smaller body types and the like are observed and then dissected frequently. At present, in the observation and dissection practical exercises, students generally hold a magnifier to directly observe an object to be observed by the students, and because the size of insects is small, the insects are difficult to fix, and crawling or flying of the insects can increase the difficulty of observing the insects by the magnifier, so that the operation is inconvenient; or the existing insect observation box for the biological experiment is used, but before the observation box is used, the insects need to be grabbed one by hands and placed into the insect observation box, the observation box needs to be supported by one hand in the process of being placed into the observation box, the box cover of the observation box is opened by one hand, and the insects are easy to escape when being placed into the observation box and covered by the box cover; in addition, some insects with smaller body sizes can be damaged by careless grasping in the grasping process, and the insects can directly grasp very cautious people by hands, so that the mood of an observer is seriously influenced, and the observation effect is influenced; the existing insect observation box for the biological experiment is generally characterized in that a box cover is arranged at the top of the observation box, a magnifier is fixed on the surface of the box cover, and the insects in the observation box are observed through the magnifier; meanwhile, the insects are generally static in the observation box, when the walking state of the insects needs to be observed, the observation box needs to be shaken, because the inner wall of the observation box is harder, the insects can collide with the inner wall of the observation box by shaking the observation box, the insects are easy to die, the subsequent observation and dissection of the insects are not facilitated, the existing insect observation box for the biological experiment is high in cost and complex in manufacturing process, and needs to be recycled and reused for many times, for some non-professional mechanisms, the existing insect observation box for the biological experiment is high in cost, the insect observation box for the biological experiment is very easy to damage due to improper operation after being distributed to students, the insect observation box for schools and other education mechanisms causes losses, the popularization of insect observation and dissection teaching is inconvenient, in addition, when the number of the experimenters is large, a large number of the insect observation boxes need to be carried and distributed to the experimenters, and the weight of the, is inconvenient to carry.

The patent application with application number 201620484317.1 discloses an insect observation box, which comprises a lower box body, an upper box body, a box cover and a magnifying lens; the top of the lower box body is open, the bottom of the upper box body is open, and the upper box body covers the top of the lower box body; the top of the upper box body is provided with a cylindrical observation port; a support sleeve is sleeved on the periphery of the observation port, and the magnifying lens is placed at the top of the support sleeve; the box cover is arranged outside the supporting rod sleeve, the magnifying lens is fixedly pressed on the supporting sleeve, a round hole is formed in the top of the box cover, and the diameter of the round hole is slightly smaller than that of the magnifying lens. This insect observation box needs the observer to go up the box body and takes off when using, then snatch the insect and put down in the box body, again with last box body lid on box body down, the problem that the insect was easily escaped when snatching and placing the insect does not solve, and all need snatch with the hand when observing at every turn, not only waste time and energy, and snatch very careful people with the hand, seriously influence observer's mood, cause psychological and physiological discomfort to the observer, easily cause the observation result inaccurate, the magnifying glass is fixed setting, only can observe the partial region, there is the limitation in observation scope and angle, and it can make insect and inner wall produce the collision and easily cause the insect dead to rock the observation, be unfavorable for follow-up to the observation of insect, the going on of work such as dissection, and when a large amount of insect observation boxes pile up the transport together, and large in weight, difficult transport.

Application number 201620136336.5's patent application discloses an insect observation box, comprises a box bod, an observation section of thick bamboo is installed to the box body top, it is transparent section of thick bamboo to observe the section of thick bamboo, it is provided with the spiral cover to observe the section of thick bamboo top, just spiral cover demountable installation in observe on the section of thick bamboo, the box body side is equipped with the through-hole, and the sealed viewing glass of installing on the through-hole, the viewing glass is the magnifying glass, the box body is the shading box body. This insect observation box when using, still need the observer to put into insect observation box after snatching the insect and observe again, the snatch process is wasted time and energy and easily causes the insect to escape, the bare-handed insect of snatching very carefully people and easily cause the harm to the insect of observer, be unfavorable for follow-up observation to the insect, the smooth of work such as dissection goes on, observation mirror fixed mounting is in through-hole department, the scope and the angle of observation are limited, when the insect climbs to the observation section of thick bamboo inner wall, the insect can not be observed to the observation mirror then, still need to prepare in addition that the magnifying glass observes the insect on the observation section of thick bamboo inner wall, the operation process is loaded down with trivial details, and when the observation end needs dissect, still need open the spiral cover and take out the insect, because the observation section of thick bamboo is narrow from top to wide, and inconvenient take out the insect, delay.

Disclosure of Invention

In order to solve the existing problems, the invention provides a processing device of an insect self-contained observation and dissection transition box, which creatively applies the insect self-contained transition box to the field of biological insect observation and dissection, namely, applies the existing rapidly-formed malleable sol material to the insect dissection observation box by combining materials, creatively provides the concept of trapping, observation and dissection of the transition box, in particular provides a novel insect observation and dissection transition box which has simple manufacturing process, rapid formation and single-hand control and is convenient for observing insects at all angles and a processing device thereof, has very light and high efficiency as a whole, further creatively provides the integration of insect observation and dissection transition box forming and insect grasping and self-contained integration, automatically captures insects while the insects are observed and dissected the transition box forming and are closed in the insect observation and dissection transition box, the insect observation and dissection box is suitable for various places needing a large amount of insect observation and dissection operations for a plurality of times, can be used as required, can be manufactured into a large amount of insect dissection observation boxes for observing insects in a short time, combines optical and insect observation equipment manufacturing technologies according to phototaxis of the insects, realizes the technical effect of attracting and grabbing the insects one by one through rotating and limiting loading, does not need an observer to grab the insects by bare hands, overcomes the physiological fear of the observer when grabbing the insects for a long time, ensures that the observer can observe and dissect the insects in a comfortable atmosphere, can automatically and nondestructively slide the insects in real time, has small weight, and can easily carry a large amount of the novel insect observation and dissection transition boxes even for children, very light, be convenient for transport, the observer can hold its one hand and observe the insect in the box from a plurality of angles during the observation, overcome present stereoplasm observation box easily die when rocking observation insect, be difficult for observing, many people observe the technical problem that need prepare a plurality of various different specifications's of a series of observation box etc, realized that the harmless observation insect just is difficult for being scratched by technical effect such as insect and dissect, can directly puncture after the observation is finished and take out the insect and dissect, convenient the snatching of realizing the insect fast, corona, conveying and parcel operation.

The technical scheme adopted by the invention is as follows: the invention relates to processing equipment for an insect self-loading type observation and dissection transition box, which comprises an adjustable insect induced single grabbing corona turnover mechanism, a spiral nondestructive gliding transmission mechanism, an insect observation device preparation box and an insect observation device loading box, wherein the insect observation device preparation box is arranged right above the insect observation loading box; the adjustable insect-induced single-grabbing corona mechanism comprises an insect crawling one-way channel, an adjustable corona insect turning device and a turning device fixing enclosing baffle body, the turning device fixing enclosing baffle body is arranged on the spiral nondestructive downward-sliding conveying mechanism, the adjustable corona insect turning device is arranged in the turning device fixing enclosing baffle body, and the insect crawling one-way channel is detachably arranged on the outer wall of the front end of the turning device enclosing baffle body; the insect observation device preparation mechanism comprises a corona insect gliding shielding device, an arc-shaped convex forming pushing device, an upper malleable sol blowing forming device, a lower malleable sol blowing forming device and an extrusion bonding driving assembly one by one, wherein the corona insect gliding shielding device, the upper malleable sol blowing forming device, the lower malleable sol blowing forming device and the arc-shaped convex forming pushing device are arranged in an insect observation device preparation box one by one, the corona insect gliding shielding device is arranged on the inner side wall of the insect observation device preparation box one by one and is close to a spiral lossless gliding conveying mechanism, the arc-shaped convex forming pushing device is arranged on the inner wall of the insect observation device preparation box, the arc-shaped convex forming pushing device is arranged right above the corona insect gliding shielding device one by one, and the upper malleable sol blowing forming device is arranged between the arc-shaped convex forming pushing device and the corona insect gliding shielding device one by one, the corona insect glides one by one and shelters from the device and locates ductility sol forming device and the ductility sol of lower down between the forming device that blows, ductility sol of lower down blow forming device locate corona insect gliding one by one and shelter from device below.

Further, the adjustable corona insect turning device comprises a turning rotating shaft, a clamping rotating shaft, a fixed rotating shaft, a receiving turning assembly and a turning motor, the adjustable corona insect turning device is arranged in a windmill shape, one end of the turning rotating shaft is hinged on one inner side wall of a fixed enclosure of the turning device, the other end of the turning rotating shaft is rotatably arranged on the other non-adjacent inner side wall of the fixed enclosure of the turning device, the fixed enclosure of the turning device plays a role in fixing and bearing the turning rotating shaft, the fixed enclosure of the turning device is arranged in a boat shape, the clamping rotating shaft is slidably sleeved on the turning rotating shaft, the fixed rotating shaft is hinged on the inner side wall of the fixed enclosure of the turning device, one end of the fixed rotating shaft is rotatably sleeved outside the clamping rotating shaft, the other end of the fixed rotating shaft is hinged on the inner side wall of the fixed enclosure of the turning device, the clamping rotating shaft and the overturning rotating shaft are arranged in a hollow cavity of the fixed rotating shaft, the bearing and overturning assemblies are uniformly arranged on the outer wall of the fixed rotating shaft, and the overturning motor is arranged on the side wall of the fixed enclosure body of the overturning device; the outer wall of the fixed rotating shaft is uniformly provided with a plurality of groups of tightening rope through holes, the receiving and overturning assembly is arranged on the fixed rotating shaft at the tightening rope through holes, the number of the tightening rope through holes is equal to that of the receiving and overturning assembly, the receiving and overturning assembly comprises a receiving and overturning cavity, a sliding partition plate, a telescopic reset spring and a tightening rope, the receiving and overturning cavity is arranged on the outer side wall of the fixed rotating shaft at the tightening rope through holes, the receiving and overturning cavity is a bucket-shaped hollow cavity with an opening at the upper end, the receiving and overturning cavity comprises an insect receiving cavity and a receiving control cavity, the receiving control cavity is arranged close to the fixed rotating shaft, the insect receiving cavity is far away from the fixed rotating shaft, the outer side wall of the fixed rotating shaft is uniformly provided with a plurality of groups of receiving and overturning cavities, the number of the receiving and overturning cavities is equal to that of the tightening rope through holes, the micro-current power grid can corona the insects falling on the micro-current power grid for a short time, the current of the micro-current power grid is 3-5MA, the insects can be guaranteed to be corona and not be electrocuted, the sliding partition plate is arranged on the inner walls of two sides of the insect accepting and overturning cavity, the sliding partition plate is arranged between the insect accepting and overturning cavity and the insect accepting and controlling cavity, the sliding partition plate is convenient for separating the insect accepting and overturning cavity from the insect accepting and accepting controlling cavity and adjusting the volume of the insect accepting and accepting cavity according to the volume of the insects to be observed, supporting sliding shafts are arranged on two side walls of the sliding partition plate, supporting sliding shaft sliding grooves are arranged on two non-adjacent side walls of the insect accepting and overturning cavity, the number of the supporting sliding shaft sliding grooves is equal to that of the supporting sliding shafts, the supporting sliding shafts are clamped in the supporting sliding shaft sliding grooves, and can slide stably in the supporting sliding shaft, the telescopic reset spring and the tightening rope are arranged in the bearing control cavity, one end of the telescopic reset spring is arranged on the side wall of the sliding partition plate, the other end of the telescopic reset spring is arranged on the outer side wall of the fixed rotating shaft, the telescopic spring can conveniently and quickly reset the sliding partition plate, one end of the tightening rope is arranged on the sliding partition plate, the other end of the tightening rope penetrates through a through hole of the tightening rope and is arranged on the turning rotating shaft, the turning motor is arranged on the side wall of the fixed enclosing barrier body of the turning device, the output end of the turning motor is connected with the turning rotating shaft, a plurality of groups of turning rotating shaft clamping pieces and clamping rotating shaft clamping piece clamping grooves are uniformly arranged around one end of the turning rotating shaft close to the clamping rotating shaft, the turning rotating shaft clamping pieces and the clamping rotating shaft clamping piece clamping grooves are arranged at intervals, and a plurality of groups of clamping rotating shaft, the clamping rotating shaft and the overturning rotating shaft clamping piece clamping grooves are arranged at intervals, the clamping rotating shaft clamping piece can be clamped in the clamping rotating shaft clamping piece clamping grooves in a sliding mode, the clamping rotating shaft clamping piece is equal to the clamping rotating shaft clamping piece clamping grooves in number, the overturning rotating shaft clamping piece can be clamped in the overturning rotating shaft clamping piece clamping grooves in a sliding mode, the overturning rotating shaft clamping piece is equal to the overturning rotating shaft clamping piece clamping grooves in number, a plurality of groups of clamping pieces and fixed rotating shaft clamping piece clamping grooves are arranged on the outer side wall of the clamping rotating shaft, the clamping pieces and the fixed rotating shaft clamping piece clamping grooves are arranged at intervals, a plurality of groups of fixed rotating shaft clamping pieces and clamping piece clamping grooves are arranged on the inner side wall of the fixed rotating shaft, the fixed rotating shaft clamping pieces and the clamping piece clamping grooves are arranged at intervals, the clamping pieces can be clamped in the clamping piece clamping grooves in a sliding mode, and the clamping pieces are equal in, but fixed pivot joint spare slip joint is located in fixed pivot joint spare joint groove, the quantity in fixed pivot joint spare and fixed pivot joint spare joint groove equals.

Further, the insect observation device preparation box comprises a suction fan placing cavity and a sol blowing forming foaming device placing cavity, the insect observation device preparation box is arranged in a rectangular hollow cavity, the suction fan placing cavity is far smaller than the sol blowing forming foaming device placing cavity, a corona insect gliding feed inlet is arranged on the side wall of the insect observation device preparation box, a sol material discharging door and a control button are arranged on the other side wall of the insect observation device preparation box, a discharging door handle is arranged on the sol material discharging door, the sol material discharging door can conveniently perform discharging operation, the discharging door handle can conveniently open the sol material discharging door, the control button is arranged on the side edge of the sol material discharging door, and the control button comprises a switch button, an overturning button, a foaming button, a shielding button and a wrapping button, the corona insect one-by-one gliding shielding device comprises a corona insect lower chute, a shielding rotating rod and a shielding motor, wherein one end of the corona insect lower chute is provided with a corona insect wrapping feed inlet, the corona insect wrapping feed inlet is arranged at the corona insect lower chute feed inlet, one end of the corona insect lower chute is arranged on the inner side wall of an insect observation device preparation box at the corona insect wrapping feed inlet, the other end of the corona insect lower chute is arranged between an upper ductility sol blowing forming device and a lower ductility sol blowing forming device, a wrapping through hole is arranged on the bottom wall of the corona insect lower chute, the wrapping through hole is arranged under an arc-shaped bulge forming lower pressing device, a sol blowing forming foaming device placing cavity plays a role in fixing and bearing the corona insect lower chute, the shielding rotating rod is rotatably arranged on the inner side wall of the sol blowing forming foaming device placing cavity, collosol blowing forming foaming device places the chamber and plays fixed and bearing's effect to sheltering from the bull stick, shelter from the bull stick and locate corona insect gliding chute top, it is equipped with a plurality of groups of flexible baffle to shelter from align to grid on the bull stick, flexible baffle can rotate in corona insect gliding chute, flexible baffle is used for blockking that the insect that slides down makes its an independent gliding from corona insect parcel feed inlet down, and flexible baffle can guarantee not to harm the insect when rotating simultaneously, shelter from the motor and locate collosol blowing forming foaming device and place on the intracavity lateral wall, the output that shelters from the motor links to each other with sheltering from the bull stick, shelter from the motor and rotate the drive and shelter from the bull stick and rotate, shelter from the bull stick and drive flexible baffle and rotate and make an independent gliding of insect to pack the insect into respectively one by one in the not closed insect observation box.

Further, the upper ductility sol blowing forming device comprises an upper ductility sol material foaming channel, an upper ductility sol material loading carrier, an upper ductility sol material sliding channel, an upper extrusion bonding plate, a first air blower and an upper foaming rotating assembly, wherein the upper ductility sol material loading carrier is arranged on the inner side wall of a placing cavity of the sol blowing forming foaming device, the upper ductility sol material loading carrier is arranged in a rectangular cavity with an opening at the upper part, the upper ductility sol material loading carrier is arranged in a manner that the two ends of the upper ductility sol material loading carrier are high and the middle of the upper ductility sol material loading carrier is low and inclined, the upper ductility sol material sliding channel is arranged on the bottom wall of the upper ductility sol material loading carrier, the upper ductility sol material sliding channel is communicated with the upper ductility sol material loading carrier, the upper ductility sol material sliding channel is arranged in a rectangular hollow cavity with an upper opening and a lower opening, and the upper ductility sol material can smoothly, the upper ductility sol material foaming channel is vertically arranged at the lower end of the upper ductility sol material sliding channel, the upper extrusion bonding plate is arranged on the upper ductility sol material foaming channel, the first air blower is arranged on the inner side wall of the sol blowing forming foaming device placing cavity, and the upper foaming rotating assembly is arranged on the inner side wall of the sol blowing forming foaming device placing cavity; the upper malleable sol material foaming channel comprises an upper blowing cavity, an upper material loading cavity and an upper foaming layer forming cavity, the upper material loading cavity is connected with the lower end of the upper malleable sol material sliding channel, the upper blowing cavity is communicated with the upper material loading cavity, the upper blowing cavity and the upper foaming layer forming cavity are arranged at two sides of the upper material loading cavity and are arranged obliquely upwards, the height from the upper blowing cavity to the upper wall of the sol blowing forming foaming device placing cavity is less than the height from the upper material loading cavity to the upper wall of the sol blowing forming foaming device placing cavity, the height from the upper foaming layer forming cavity to the upper wall of the sol blowing forming foaming device placing cavity is less than the height from the upper material loading cavity to the upper wall of the sol blowing forming foaming device placing cavity, and the sol material can effectively ensure that a through hole between the upper blowing cavity and the upper foaming layer forming cavity can be blocked when foaming operation is carried out, prevent gas leakage, it is the cavity setting of both ends open-ended to go up ductility sol material bubbling passageway, it link up with last ductility sol material loading carrier and last material loading chamber respectively to go up ductility sol material gliding passageway, be equipped with ductility sol material gliding control piece in the last ductility sol material gliding passageway, it plays fixed and bearing's effect to last ductility sol material gliding control piece to go up ductility sol material gliding control piece, it includes control handle, last control bull stick and last control rotor plate to go up ductility sol material gliding control piece, it locates on last control bull stick to go up the rotation of control bull stick, it locates on the control bull stick to go up the rotation of control rotor plate, it is used for controlling the break-make of sol material to go up ductility sol material control piece gliding, the sol material can be preferably polyvinyl acetate and other materials which have extensibility and can be quickly formed and solidified, the first air blower is arranged on the side wall of the placing cavity of the sol blowing forming and foaming device, the placing cavity of the sol blowing forming and foaming device has the fixing and bearing effects on the air blower together, an upper air blowing pipe I, an upper air blowing pipe II and an upper air blowing pipe III are arranged at the air blowing port of the first air blower, an upper air blowing nozzle I is arranged on the upper air blowing pipe I, the upper air blowing nozzle I is arranged in a duckbill shape, the upper air blowing nozzle I is arranged at the opening part of the upper air blowing cavity close to the first air blower, an upper air blowing nozzle II is arranged on the upper air blowing pipe II, the upper air blowing nozzle II is arranged in a duckbill shape, the upper air blowing nozzle II is arranged on the outer wall of the upper bubbling layer forming cavity far away from the opening part of the second air blower 83, an upper air blowing nozzle III is arranged in a duckbill shape, the last blast tuyere three is arranged on the outer wall of the lower part of an opening of an upper foaming layer forming cavity far away from a second air blower 83, an upper extrusion bonding plate sliding groove is arranged on the upper foaming layer forming cavity, the upper extrusion bonding plate is arranged in the upper extrusion bonding plate sliding groove in a sliding clamping manner, a first air blower can blow a sol material in an upper material loading cavity into an upper ductility foaming layer through a first upper blast pipe, the upper foaming rotating assembly comprises an upper ductility foaming layer rotating rod, an upper ductility foaming layer limiting part and a rotating motor, the upper ductility foaming layer rotating rod is rotatably arranged on a side wall in a sol blowing forming foaming device placing cavity, the sol blowing forming foaming device placing cavity plays a role in fixing and bearing on the upper ductility foaming layer rotating rod, the upper ductility foaming layer rotating rod is provided with an upper fixing limiting part, the upper ductility foaming layer limiting part is arranged on the upper ductility foaming layer rotating rod, go up ductility foaming layer locating part between the distance slightly be greater than the width of last ductility sol material foaming passageway, the rotation motor is located on the sol blowing shaping foaming device places the intracavity lateral wall, the sol blowing shaping foaming device is placed the chamber and is played fixed and bearing's effect to the rotation motor, the output of rotation motor links to each other with last ductility foaming layer bull stick.

Further, extensibility sol material shaping device down includes extensibility sol material bubble passageway down, extensibility sol material load carrier down, extensibility sol material gliding passageway down, extrusion bonding board, air-blower two and lower foaming runner assembly down, extensibility sol material load carrier down locates on the shaping foaming device of sol blowing places the intracavity lateral wall, extensibility sol material load carrier down is the setting of open-ended rectangular cavity body above being, extensibility sol material load carrier down is the setting of low slope in the middle of the high both ends, extensibility sol material gliding passageway down locates extensibility sol material load body diapire down, extensibility sol material gliding passageway down link up with extensibility sol material load carrier down and links to each other, extensibility sol material gliding passageway down is under the setting of open-ended rectangular cavity body down, extensibility sol material down can be followed extensibility sol material gliding passageway down and slided smoothly, the lower extension sol material foaming channel is vertically arranged at the lower end of the lower extension sol material sliding channel, the lower extrusion bonding plate is arranged on the lower extension sol material foaming channel, the second air blower is arranged on the side wall of the sol blowing forming foaming device in the cavity, and the lower foaming rotating assembly is arranged on the side wall of the sol blowing forming foaming device in the cavity; the lower extending sol material foaming channel comprises a lower blowing cavity, a lower material loading cavity and a lower foaming layer forming cavity, the lower material loading cavity is connected with the lower end of the lower extending sol material sliding channel, the lower blowing cavity is communicated with the lower material loading cavity, the lower blowing cavity and the lower foaming layer forming cavity are arranged on two sides of the lower material loading cavity and are arranged obliquely upwards, the height from the lower blowing cavity to the upper wall of the sol blowing forming foaming device placing cavity is smaller than the height from the lower material loading cavity to the upper wall of the sol blowing forming foaming device placing cavity, the height from the lower foaming layer forming cavity to the upper wall of the sol blowing forming foaming device placing cavity is smaller than the height from the lower material loading cavity to the upper wall of the sol blowing forming foaming device placing cavity, and the sol material can effectively block through holes between the lower blowing cavity and the lower foaming layer forming cavity when foaming operation is carried out, prevent gas leakage, extensibility sol material frothing channel down is both ends open-ended cavity setting, extensibility sol material gliding passageway down link up with extensibility sol material loading body down and extensibility sol material frothing channel down respectively and links to each other, be equipped with extensibility sol material control down in the extensibility sol material gliding passageway down, extensibility sol material gliding passageway down plays fixed and bearing's effect to extensibility sol material control down, extensibility sol material control down includes down control handle, lower control bull stick and lower control runner plate, the control bull stick rotates down and locates on the extensibility sol material gliding passageway inside wall down, the control runner plate rotates and locates on the control bull stick down, the control handle is located down on the control bull stick down, extensibility sol material is used for controlling the break-make of control sol material down, the second air blower is arranged on the inner side wall of the placement cavity of the sol blowing forming foaming device, the placement cavity of the sol blowing forming foaming device plays a role in fixing and bearing the second air blower, a first lower air blowing pipe, a second lower air blowing pipe and a third lower air blowing pipe are arranged at the air blowing opening of the second air blower, a first lower air blowing nozzle is arranged on the first lower air blowing pipe and is arranged in a duckbill shape, the first lower air blowing nozzle is arranged at the opening part of the second air blowing cavity close to the second air blower, a second lower air blowing nozzle is arranged on the second lower air blowing pipe and is arranged in a duckbill shape, the second lower air blowing nozzle is arranged on the outer wall above the opening part of the second air blowing cavity far away from the second air blowing nozzle, a third lower air blowing nozzle is arranged on the third lower air blowing pipe and is arranged in a duckbill shape, and is arranged on the outer wall below the opening part of the second air blowing nozzle far away from the lower foaming forming, the foaming forming device is characterized in that a lower extrusion bonding plate sliding groove is formed in the lower foaming forming cavity, the lower extrusion bonding plate sliding clamping is arranged in the lower extrusion bonding plate sliding groove, a first blast pipe can blow down a sol material in the material loading cavity into a lower extension foaming layer, a lower foaming rotating component comprises a lower extension foaming layer rotating rod, a lower extension foaming layer limiting part and a transmission belt, the lower extension foaming layer rotating rod is rotatably arranged on the inner side wall of the sol blowing forming foaming device, the sol blowing forming foaming device is used for placing the cavity to play the role of fixing and bearing the lower extension foaming layer rotating rod, a lower fixed limiting part is arranged on the lower extension foaming layer rotating rod, the lower extension foaming layer limiting part is arranged on the lower extension foaming layer rotating rod, and the distance between the lower extension foaming layer limiting part is slightly larger than the width of the lower extension sol material foaming channel, the transmission belt is wound on the upper fixed limiting part and the lower fixed limiting part, and the upper fixed limiting part and the lower fixed limiting part play a role in fixing and limiting the transmission belt.

Furthermore, the extrusion bonding driving assembly comprises a movable supporting rod, an incomplete rack sliding frame sliding groove, an incomplete rack sliding frame, an incomplete gear and a bonding motor, the incomplete rack sliding frame sliding groove is arranged on the inner side wall of the placing cavity of the sol blow molding foaming device, the incomplete rack sliding frame is slidably clamped in the incomplete rack sliding frame sliding groove, the incomplete gear is rotatably arranged in the incomplete rack sliding frame, the movable supporting rod is arranged on the incomplete rack sliding frame, the upper extrusion bonding plate and the lower extrusion bonding plate are respectively connected with the side wall of the movable supporting rod, the incomplete rack sliding frame is arranged in a circular rectangle shape, incomplete racks are arranged on the two non-adjacent side inner walls in the incomplete sliding rack frame, the incomplete gear is meshed with the incomplete rack, and the incomplete rack sliding frame can stably slide in the incomplete rack sliding frame sliding groove, the bonding motor is arranged on the inner side wall of the placement cavity of the sol blowing forming foaming device, the placement cavity of the sol blowing forming foaming device plays a role in fixing and bearing the bonding motor, the output shaft of the bonding motor is connected with the center of the incomplete gear, the bonding motor rotates to drive the incomplete gear to rotate, the incomplete gear rotates to drive the incomplete rack sliding frame to slide up and down in the incomplete rack sliding frame sliding groove, the incomplete rack sliding frame drives the movable supporting rod to move up and down, and the movable supporting rod drives the upper extrusion bonding plate and the lower extrusion bonding plate to move up and down.

Furthermore, the arc-shaped protrusion forming and pressing device comprises an arc-shaped protrusion forming and pressing assembly, a limiting telescopic resetting assembly, an air induction pipe and a suction fan, the arc-shaped protrusion forming and pressing assembly is arranged on the inner side wall of the placing cavity of the sol blowing forming and foaming device, the suction fan and the limiting telescopic resetting assembly are arranged on the inner side wall of the placing cavity of the suction fan, an air induction pipe outlet is arranged on the placing cavity of the suction fan, one end of the air induction pipe is arranged on the suction fan, and the other end of the air induction pipe penetrates through the limiting telescopic resetting assembly and the air induction pipe outlet and is arranged on the arc-shaped protrusion forming and pressing assembly; the arc-shaped bulge forming pressing component comprises an upper fixing piece, a lower fixing piece, an electric hydraulic rod, a suction cavity, an arc-shaped bulge forming pressing piece and a clamping piece, wherein the upper fixing piece is arranged on the upper wall of a sol blowing forming foaming device placing cavity, the sol blowing forming foaming device placing cavity plays a role in fixing and bearing the upper fixing piece, the electric hydraulic rod is arranged on the bottom wall of the upper fixing piece, the suction cavity is arranged at the movable end of the electric hydraulic rod, the suction cavity is a cylindrical hollow cavity with an open lower end, a suction hole is formed in the side wall of the suction cavity, the other end of the suction pipe penetrates through a limiting telescopic reset component and a suction pipe outlet to be connected with the suction hole, the arc-shaped bulge forming pressing piece is arranged at the lower end of the suction cavity, the arc-shaped bulge forming pressing piece is communicated with the lower end of the suction cavity, and is arranged in an, the arc-shaped protrusion forming lower pressing piece is arranged above the upper ductility sol blowing forming device of the upper ductility sol blowing forming device, the arc-shaped protrusion forming lower pressing piece is arranged right above the wrapping through hole, the lower fixing piece is arranged on the bottom wall of the inner side of the sol blowing forming foaming device placing cavity, the sol blowing forming foaming device placing cavity plays a role in fixing and bearing the lower fixing piece, the clamping piece is arranged in an annular shape, the diameter of the clamping piece is equal to that of the arc-shaped protrusion forming lower pressing piece, the diameter of the wrapping through hole is larger than that of the arc-shaped protrusion forming lower pressing piece, the clamping piece is arranged on the lower fixing piece, the clamping piece is arranged below the lower ductility sol blowing forming device, and the clamping piece is arranged right below the wrapping through hole; the spacing flexible reset assembly includes spacing ring, spacing ring fixed plate and reset spring, reset spring's one end is located the suction fan and is placed on the inboard diapire of chamber, reset spring's the other end is located to the spacing ring fixed plate, the spacing ring is located on the spacing ring fixed plate, the other end of induced duct passes the spacing ring and links to each other with the induced duct export and locates suction hole department with the induced duct, the spacing ring plays fixed and spacing effect to the induced duct.

Further, the spiral lossless downward sliding conveying mechanism comprises a spiral downward sliding fixed enclosing baffle, a corona insect receiving piece, a spiral downward sliding assembly, a downward sliding driving assembly and a corona insect downward sliding pipe, the downward sliding driving assembly is arranged on the side wall of the insect observation device preparation box, the insect observation device preparation box plays a role in fixing and bearing the downward sliding driving assembly, the spiral downward sliding fixed enclosing baffle is arranged on the downward sliding driving assembly, the spiral downward sliding fixed enclosing baffle is arranged in an arc-shaped hollow cavity, the corona insect receiving piece is arranged at one end of the spiral downward sliding fixed enclosing baffle, which is close to the adjustable insect inducing single grabbing corona turnover mechanism, the spiral downward sliding fixed enclosing baffle plays a role in fixing and bearing the corona insect receiving piece, a downward sliding through hole is arranged on the bottom wall of the overturning device fixed enclosing baffle, and the corona insect receiving piece is a trapezoidal hollow cavity with an upper opening and a lower opening and a wide upper opening and a narrow lower opening, an opening above the corona insect receiving piece is connected with a downward sliding through hole, an opening below the corona insect receiving piece is connected with a spiral downward sliding fixing surrounding baffle body, a spiral downward sliding assembly is arranged in the spiral downward sliding fixing surrounding baffle body, a corona insect downward sliding through hole is formed in the bottom wall of one end, close to a downward sliding driving assembly, of the spiral downward sliding fixing surrounding baffle body, a corona insect downward sliding feed port is formed in the side wall of the insect observation device preparation box, one end of a corona insect downward sliding pipe is connected with the corona insect downward sliding through hole, and the other end of the corona insect downward sliding pipe is connected with the corona insect downward sliding feed port; the spiral downward sliding assembly comprises an spiral rotating rod and a downward sliding rotating shaft, the spiral rotating rod is rotatably arranged on the inner side wall of the spiral downward sliding fixed enclosure, the spiral rotating rod is provided with flexible spiral blades, preferably, the flexible spiral blades are made of flexible silica gel materials, so that lossless spiral transmission of insects can be guaranteed, the downward sliding rotating shaft penetrates through the spiral downward sliding fixed enclosure and is connected with the spiral rotating rod, and the spiral downward sliding fixed enclosure plays a role in fixing and bearing the corona insect receiving piece, the spiral downward sliding assembly and the corona insect downward sliding pipe; the gliding drive assembly comprises a gliding motor placing cavity and a gliding motor, the gliding motor placing cavity is formed in the end of the spiral gliding fixed enclosing baffle, the gliding motor placing cavity is an arc-shaped hollow cavity, the gliding motor is arranged in the gliding motor placing cavity, the output end of the gliding motor is connected with the gliding rotating shaft, the gliding motor rotates to drive the gliding rotating shaft to rotate, the gliding rotating shaft drives the spiral rotating rod to rotate, and the spiral rotating rod drives the flexible spiral blade to rotate, so that the lossless spiral conveying operation of insects is completed.

Furthermore, the insect crawling one-way channel is a rectangular cavity with two open ends, the insect crawling one-way channel and the cross-sectional area are slightly larger than the maximum cross-sectional area of one insect, only one insect can crawl in at one time, an attracting source is arranged at one end, close to the adjustable insect inducing single crawling corona turnover mechanism, of the insect crawling one-way channel, the attracting source can be a black light lamp, and the black light lamp can attract the insects to crawl into the insect crawling one-way channel automatically.

Further, insect viewing device loads the case and is the setting of rectangle cavity, rectangle cavity structures is firm, is difficult for producing deformation, insect viewing device loads and is equipped with parcel sliding opening down on the case upper wall, the good insect of parcel can follow the smooth gliding in the parcel sliding opening down, insect viewing device loads and is equipped with the discharge door on the case lateral wall, the discharge door is used for taking out the good insect of parcel, be equipped with ejection of compact handle on the discharge door, ejection of compact handle can conveniently open the discharge door.

The invention with the structure has the following beneficial effects: the insect self-contained observation anatomical transition box processing equipment provided by the invention is high in practicability, light and easy to operate, the insect self-contained observation anatomical transition box is creatively applied to the field of biological insect observation anatomical, optics and entomology are combined according to phototaxis of insects and are applied to insect grabbing, the insects can be attracted by utilizing the phototaxis of the insects due to the arrangement of the single-tube double-light-source lamp in the insect crawling one-way channel, the technical effect of attracting and grabbing the insects one by one is realized, an observer does not need to grab the insects by hands, the physiological fear of the observer when the insects are grabbed is overcome for a long time, the observer can observe in an atmosphere comfortable to the body and mind, and the observation result is more accurate; the adjustable corona insect turning device can perform safe and nondestructive transient corona operation on insects by combining electricity, so that the insects cannot escape in the turning and conveying process, and the working efficiency is further improved; the spiral nondestructive gliding conveying mechanism can convey corona insect nondestructive spirals to the insect observation device preparation mechanism, the arrangement of the flexible spiral blade can effectively reduce the acceleration of the insect when the insect glides, the insect is ensured to glide smoothly without being damaged, and the insect can glide undamaged effectively; the insect observation device preparation mechanism combines the material science to apply the prior sol-like material which can be rapidly formed and has extensibility to an insect dissection observation box to rapidly, conveniently and automatically complete the wrapping operation of falling insects, the corona insects slide down one by one to shield the insects which slide down, and effectively ensure that the insects are accurately wrapped one by one, the upper extensibility sol blowing forming device, the lower extensibility sol blowing forming device, the extrusion bonding driving component and the arc protrusion forming pressing component can perform real-time automatic lossless wrapping operation on the insects, the technical problem that the prior hard observation box is easy to die when the insects are observed in a shaking manner is solved, the technical effect that the insects are observed nondestructively and are not easy to be caught by the insects is realized, the concepts of trapping, observation and dissection of the transition box are creatively provided, and particularly, a novel transition box which is simple in manufacturing process and rapid to form and is controllable by one hand and is convenient for observing the insects at a full angle The insect observation and dissection transition box and the processing equipment thereof have the advantages that the whole body is very light and high in efficiency, the insect observation and dissection transition box forming and insect grabbing self-assembly integration is further creatively provided, the insect is automatically grabbed and is closed into the insect observation and dissection transition box while the insect observation and dissection transition box forming is realized, the insect observation and dissection transition box is suitable for various places needing to carry out insect observation and dissection operation for a large number of times, the insect observation and dissection transition box can be used as required, a large number of insect dissection observation boxes closing the insect to be observed can be manufactured in a short time, the insect can be directly poked and taken out after the observation is finished, the insect observation and dissection transition box is convenient and rapid, an observer in the whole process can finish the insect grabbing, corona, conveying and wrapping operation without directly touching the insect, the equipment is high in practicability.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a self-contained insect observation and dissection transition box processing device of the invention;

FIG. 2 is a rear view of the overall structure of an insect self-contained observation anatomical transition box processing apparatus of the present invention;

FIG. 3 is a schematic view of a mechanism for manufacturing an insect observation device of an insect self-contained observation and dissection transition box processing device according to the invention;

FIG. 4 is an enlarged view of a portion A of FIG. 3;

FIG. 5 is a perspective view of an insect viewing device preparation box of an insect self-contained viewing anatomical transition box processing apparatus of the present invention;

FIG. 6 is a schematic view of the inside of a preparation box of an insect observation device of the insect self-contained observation anatomical transition box processing equipment of the present invention;

FIG. 7 is a schematic structural view of an adjustable insect-induced single-grasping corona turnover mechanism of the insect self-contained observation and dissection transition box processing equipment of the invention;

FIG. 8 is a cross-sectional view of an insect crawling one-way passage of the insect self-contained observation anatomical transition box processing device of the present invention;

FIG. 9 is a partial schematic view of an adjustable insect-induced single-grasping corona turnover mechanism of an insect self-contained observation and dissection transition box processing device according to the present invention;

FIG. 10 is a schematic structural view of an adjustable insect turning device of the self-contained insect observation and dissection transition box processing equipment of the invention;

FIG. 11 is a schematic view of the interior of an adjustable insect turning device of the self-contained insect observation and dissection transition box processing equipment of the present invention;

FIG. 12 is a cross-sectional view of an adjustable insect turning device of the self-contained insect viewing anatomical transition box processing apparatus of the present invention;

FIG. 13 is a schematic structural view of an overturning rotating shaft of the insect self-contained observation anatomical transition box processing device of the present invention;

FIG. 14 is a cross-sectional view of an adjustable insect turning device of the self-contained insect viewing anatomical transition box processing apparatus of the present invention;

FIG. 15 is a schematic view showing the connection between the clamping rotary shaft and the fixed rotary shaft of the insect self-contained observation dissection transition box processing device of the present invention;

FIG. 16 is a schematic view of an arc-shaped protrusion forming and pressing device of the insect self-contained observation anatomical transition box processing equipment of the present invention;

FIG. 17 is a cross-sectional view of an arc-shaped protrusion forming and pressing device of a self-contained insect observation and dissection transition box processing device of the invention;

FIG. 18 is a schematic view of a spiral nondestructive downslide transfer mechanism of a self-contained insect observation anatomical transition box processing apparatus of the present invention;

FIG. 19 is a schematic view of a spiral nondestructive downslide conveyor of an insect self-contained observation anatomical transition box processing apparatus of the present invention;

FIG. 20 is a plan sectional view of an upper and lower malleable sol blow molding apparatus of a self-contained insect viewing dissecting transition box processing device of the present invention;

wherein, 1, an adjustable insect-induced single grabbing corona turnover mechanism, 2, a spiral lossless downward-sliding conveying mechanism, 3, an insect observation device preparation mechanism, 4, an insect observation device preparation box, 5, an insect observation device loading box, 6, an insect crawling one-way channel, 7, an adjustable corona insect turnover device, 8, a turnover device fixed baffle body, 9, a corona insect downward-sliding shielding device one by one, 10, an arc-shaped protrusion forming downward-pressing device, 11, an upper-ductility sol air-blowing forming device, 12, a lower-ductility sol air-blowing forming device, 13, an extrusion bonding driving component, 14, a turnover rotating shaft, 15, a clamping rotating shaft, 16, a fixed rotating shaft, 17, a carrying turnover component, 18, a turnover motor, 19, a tightening rope through hole, 20, a carrying turnover cavity, 21, a sliding partition plate, 22, a telescopic reset spring, 23, a tightening rope, 24, an insect carrying cavity, 25. a receiving control cavity, 26, a micro-current electric network, 27, a supporting sliding shaft, 28, a supporting sliding shaft sliding groove, 29, a turning rotating shaft clamping piece, 30, a clamping rotating shaft clamping piece clamping groove, 31, a black light lamp 32, a clamping rotating shaft clamping piece, 33, a turning rotating shaft clamping piece clamping groove, 34, a clamping piece, 35, a fixed rotating shaft clamping piece clamping groove, 36, a fixed rotating shaft clamping piece, 37, a clamping piece clamping groove, 38, a suction fan placing cavity, 39, a sol blowing forming foaming device placing cavity, 40, a corona insect downward sliding feeding hole, 41, a sol material discharging door, 42, a control key, 43, a discharging door handle, 44, a switch key, 45, a turning key, 46, a foaming key, 47, a shielding key, 48, a wrapping key, 49, a corona insect downward sliding groove, 50, a shielding rotating rod, 51, a shielding motor, 52 and a corona insect wrapping feeding hole, 53. a wrapping through hole, 54, a flexible baffle, 55, an upper ductility sol material foaming channel, 56, an upper ductility sol material loading carrier, 57, an upper ductility sol material sliding channel, 58, an upper extrusion bonding plate, 59, a first blower, 60, an upper foaming rotating assembly, 61, an upper blowing cavity, 62, an upper material loading cavity, 63, an upper foaming layer forming cavity, 64, an upper ductility sol material sliding control piece, 65, an upper control grip, 66, an upper control rotating rod, 67, an upper control rotating plate, 68, a first upper blowing pipe, 69, a second upper blowing pipe, 70, a third upper blowing pipe, 71, a first upper blowing nozzle, 72, a second upper blowing nozzle, 73, a third upper blowing nozzle, 74, an upper extrusion bonding plate sliding groove, 75, an upper ductility foaming layer rotating rod, 76, an upper ductility foaming layer limiting piece, 77, a rotating motor, 78, an upper fixing limiting piece, 79 and a lower ductility sol material foaming channel, 80. a lower extending sol material loading body, 81, a lower extending sol material sliding channel, 82, a lower extrusion bonding plate, 83, a second air blower, 84, a lower foaming rotating assembly, 85, a lower air blowing cavity, 86, a lower material loading cavity, 87, a lower foaming layer forming cavity, 88, a lower extending sol material control part, 89, a lower control handle, 90, a lower control rotating rod, 91, a lower control rotating plate, 92, a first lower blast pipe, 93, a second lower blast pipe, 94, a third lower blast pipe, 95, a first lower blast nozzle, 96, a second lower blast nozzle, 97, a third lower blast nozzle, 98, a lower extrusion bonding plate sliding groove, 99, a lower extending foaming layer rotating rod, 100, a lower extending foaming layer limiting part, 101, a transmission belt, 102, a lower fixing limiting part, 103, a movable supporting rod, 104, an incomplete sliding groove of the sliding rack frame, 105, an incomplete sliding rack sliding frame, 106, an incomplete gear, 107. a bonding motor, 108, an incomplete rack, 109, an arc-shaped protrusion forming pressing-down component, 110, a limiting telescopic resetting component, 111, an air guiding pipe, 112, a suction fan, 113, an air guiding pipe outlet, 114, an upper fixing piece, 115, a lower fixing piece, 116, an electric hydraulic rod, 117, an air suction cavity, 118, an arc-shaped protrusion forming pressing-down piece, 119, a clamping piece, 120, an air suction hole, 121, a limiting ring, 122, a limiting ring fixing plate, 123, a resetting spring, 124, a spiral downward sliding fixing surrounding baffle body, 125, a corona insect receiving piece, 126, a spiral downward sliding component, 127, a downward sliding driving component, 128, a corona insect downward sliding pipe, 129, a corona insect downward sliding through hole, 130, a spiral rotating rod, 131, a downward sliding rotating shaft, 132, a downward sliding through hole, 133, a flexible spiral blade, 134, a downward sliding motor placing cavity, 135, a downward sliding motor, 136, a wrapping downward sliding opening, 137, a, A discharging handle.

Detailed Description

The technical solutions of the present invention will be further described in detail with reference to specific implementations, and all the portions of the present invention not described in detail are the prior art.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-20, the insect self-contained observation and dissection transition box processing equipment of the invention comprises an adjustable insect-induced single-grabbing corona turnover mechanism 1, a spiral nondestructive downward-sliding conveying mechanism 2, an insect observation device preparation mechanism 3, an insect observation device preparation box 4 and an insect observation device loading box 5, wherein the insect observation device preparation box 4 is arranged right above the insect observation device loading box 5, the insect observation device preparation mechanism 3 is arranged in the insect observation device preparation box 4, the spiral nondestructive downward-sliding conveying mechanism 2 is arranged on the outer side wall of the insect observation device preparation box 4, and the adjustable insect-induced single-grabbing corona turnover mechanism 1 is arranged on the spiral nondestructive downward-sliding conveying mechanism 2; the adjustable insect-induced single-grabbing corona overturning mechanism 1 comprises an insect crawling one-way channel 6, an adjustable corona insect overturning device 7 and an overturning device fixing surrounding baffle body 8, wherein the overturning device fixing surrounding baffle body 8 is arranged on the spiral nondestructive downward sliding conveying mechanism 2, the adjustable corona insect overturning device 7 is arranged in the overturning device fixing surrounding baffle body 8, and the insect crawling one-way channel 6 is detachably arranged on the outer wall of the front end of the overturning device fixing surrounding baffle body 8; the insect observation device preparation mechanism 3 comprises a corona insect gliding shielding device 9, an arc-shaped convex forming pushing device 10, an upper ductility sol blowing forming device 11, a lower ductility sol blowing forming device 12 and an extrusion bonding driving component 13, wherein the corona insect gliding shielding device 9, the upper ductility sol blowing forming device 11, the lower ductility sol blowing forming device 12 and the arc-shaped convex forming pushing device 10 are arranged in an insect observation device preparation box 4 one by one, the corona insect gliding shielding device 9 is arranged on the inner side wall of the insect observation device preparation box 4 one by one and is close to a spiral lossless gliding conveying mechanism 2, the arc-shaped convex forming pushing device 10 is arranged on the inner wall of the insect observation device preparation box 4, and the arc-shaped convex forming pushing device 10 is arranged right above the corona insect gliding shielding device 9 one by one, go up ductility sol forming device 11 that blows and locate arc protruding shaping push down device 10 and corona insect and slide down one by one and shelter from between the device 9, corona insect slides down one by one and shelters from device 9 and locates last ductility sol forming device 11 and lower ductility sol forming device 12 that blows between, lower ductility sol forming device 12 that blows locates corona insect slides down one by one and shelters from device 9 below.

The adjustable corona insect turning device 7 comprises a turning rotating shaft 14, a clamping rotating shaft 15, a fixed rotating shaft 16, a receiving turning assembly 17 and a turning motor 18, the adjustable corona insect turning device 7 is in a windmill-shaped setting, one end of the turning rotating shaft 14 is hinged on the inner side wall of a fixed enclosure baffle body 8 of the turning device, the other end of the turning rotating shaft 14 is rotatably arranged on the other non-adjacent inner side wall of the fixed enclosure baffle body 8 of the turning device, the fixed enclosure baffle body 8 of the turning device is in a ship-shaped setting, the clamping rotating shaft 15 is slidably sleeved on the turning rotating shaft 14, the fixed rotating shaft 16 is hinged on the inner side wall of the fixed enclosure baffle body 8 of the turning device, one end of the fixed rotating shaft 16 is rotatably sleeved outside the clamping rotating shaft 15, the other end of the fixed rotating shaft 16 is hinged on the inner side wall of the fixed enclosure baffle body 8 of the turning device, the clamping rotating shaft 15, the receiving and overturning components 17 are uniformly arranged on the outer wall of the fixed rotating shaft 16, and the overturning motor 18 is arranged on the side wall of the fixed surrounding baffle body 8 of the overturning device; the outer wall of the fixed rotating shaft 16 is uniformly provided with a plurality of groups of tightening rope through holes 19, the receiving and overturning assembly 17 is arranged on the fixed rotating shaft 16 at the tightening rope through holes 19, the number of the tightening rope through holes 19 is equal to that of the receiving and overturning assembly 17, the receiving and overturning assembly 17 comprises a receiving and overturning cavity 20, a sliding partition plate 21, a telescopic reset spring 22 and a tightening rope 23, the receiving and overturning cavity 20 is arranged on the outer side wall of the fixed rotating shaft 16 at the tightening rope through holes 19, the receiving and overturning cavity 20 is a bucket-shaped hollow cavity with an open upper end, the receiving and overturning cavity 20 comprises an insect receiving cavity 24 and a receiving control cavity 25, the receiving control cavity 25 is arranged close to the fixed rotating shaft 16, the insect receiving cavity 24 is arranged far away from the fixed rotating shaft 16, the outer side wall of the fixed rotating shaft 16 is uniformly provided with a plurality of groups of the receiving and overturning cavities 20, and the number of the receiving and overturning cavities 20 is, the insect receiving cavity 24 is internally provided with a micro-current power grid 26, the current of the micro-current power grid 26 is 3-5MA, the sliding partition plate 21 is arranged on the inner walls of two sides of the receiving and overturning cavity 20 which are not adjacent to each other in a sliding manner, the sliding partition plate 21 is arranged between the insect receiving cavity 24 and the receiving control cavity 25, two side walls of the sliding partition plate 21 are provided with supporting sliding shafts 27, two non-adjacent side walls of the receiving and overturning cavity 20 are provided with supporting sliding shaft sliding grooves 28, the number of the supporting sliding shaft sliding grooves 28 is equal to that of the supporting sliding shafts 27, the supporting sliding shafts 27 are arranged in the supporting sliding shaft sliding grooves 28 in a sliding manner, the telescopic reset spring 22 and the tightening rope 23 are arranged in the receiving control cavity 25, one end of the telescopic reset spring 22 is arranged on the side wall of the sliding partition plate 21, and the other end of the telescopic reset spring 22, one end of the tightening rope 23 is arranged on the sliding partition plate 21, the other end of the tightening rope 23 passes through the tightening rope through hole 19 and is arranged on the turning rotating shaft 14, the output end of the turning motor 18 is connected with the turning rotating shaft 14, a plurality of groups of turning rotating shaft clamping pieces 29 and clamping rotating shaft clamping piece clamping grooves 30 are uniformly arranged around one end of the turning rotating shaft 14 close to the clamping rotating shaft 15, the turning rotating shaft clamping pieces 29 and the clamping rotating shaft clamping piece clamping grooves 30 are arranged at intervals, a plurality of groups of clamping rotating shaft clamping pieces 32 and turning rotating shaft clamping piece clamping grooves 33 are arranged on the inner side wall of the clamping rotating shaft 15, the clamping rotating shaft 15 and the turning rotating shaft clamping pieces clamping grooves 33 are arranged at intervals, the clamping rotating shaft clamping pieces 32 can be slidably clamped in the clamping rotating shaft clamping piece clamping grooves 30, and the clamping rotating shaft clamping pieces 32 are equal to the clamping rotating shaft clamping pieces clamping grooves 30 in number, the turning rotary shaft clamping piece 29 is slidably clamped in the turning rotary shaft clamping piece clamping groove 33, the number of the turnover rotating shaft clamping pieces 29 is equal to that of the turnover rotating shaft clamping piece clamping grooves 33, a plurality of groups of clamping pieces 34 and fixed rotating shaft clamping piece clamping grooves 35 are arranged on the outer side wall of the clamping rotating shaft 15, the clamping pieces 34 and the fixed rotating shaft clamping piece clamping grooves 35 are arranged at intervals, a plurality of groups of fixed rotating shaft clamping pieces 36 and clamping piece clamping grooves 37 are arranged on the inner side wall of the fixed rotating shaft 16, the fixed rotating shaft clamping piece 36 and the clamping piece clamping groove 37 are arranged at intervals, the clamping piece 34 can be clamped in the clamping piece clamping groove 37 in a sliding way, the number of the clamping pieces 34 is equal to that of the clamping piece clamping grooves 37, the fixed rotating shaft clamping piece 36 can be clamped in the fixed rotating shaft clamping piece clamping groove 35 in a sliding way, the number of the fixed rotary shaft clamping pieces 36 and the number of the fixed rotary shaft clamping piece clamping grooves 35 are equal.

The insect observation device preparation box 4 comprises a suction fan placing cavity 38 and a sol blowing forming foaming device placing cavity 39, the insect observation device preparation box 4 is arranged in a rectangular hollow cavity, the suction fan placing cavity 38 is far smaller than the sol blowing forming foaming device placing cavity 39, a corona insect downward sliding feed inlet 40 is arranged on the side wall of the insect observation device preparation box 4, a sol material discharging door 41 and a control key 42 are arranged on the other side wall of the insect observation device preparation box 4, a discharging door handle 43 is arranged on the sol material discharging door 41, the control key 42 is arranged on the side edge of the sol material discharging door 41, the control key 42 comprises a switch key 44, an overturning key 45, a foaming key 46, a shielding key 47 and a wrapping key 48, and the corona insect downward sliding shielding device 9 comprises a corona insect lower chute 49, a shielding rotating rod 50 and a shielding motor 51 one by one, one end of a corona insect lower chute 49 is provided with a corona insect package feed inlet 52, the corona insect package feed inlet 52 is arranged at the 40-position of a corona insect lower slide feed inlet, one end of the corona insect lower chute 49 is arranged on the inner side wall of an insect observation device preparation box 4 at the 52-position of the corona insect package feed inlet, the other end of the corona insect lower chute 49 is arranged between an upper malleable sol blowing forming device 11 and a lower malleable sol blowing forming device 12, a package through hole 53 is arranged on the bottom wall of the corona insect lower chute 49, the package through hole 53 is arranged under an arc-shaped bulge forming lower pressing device 10, a shielding rotating rod 50 is rotatably arranged on the inner side wall of a sol blowing forming foaming device placing cavity 39, the shielding rotating rod 50 is arranged above the corona insect lower chute 49, and a plurality of groups of flexible baffles 54 are uniformly arranged on the shielding rotating rod, the shielding motor 51 is arranged on the inner side wall of the placing cavity 39 of the sol blowing forming foaming device, the output end of the shielding motor 51 is connected with the shielding rotating rod 50, the shielding motor 51 rotates to drive the shielding rotating rod 50 to rotate, and the shielding rotating rod 50 drives the flexible baffle 54 to rotate to enable an insect to slide down independently so as to put the insect into the unclosed insect observation box one by one respectively.

The upper ductility sol blowing forming device 11 comprises an upper ductility sol material foaming channel 55, an upper ductility sol material loading carrier 56, an upper ductility sol material sliding channel 57, an upper extrusion bonding plate 58, a first air blower 59 and an upper foaming rotating assembly 60, wherein the upper ductility sol material loading carrier 56 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, the upper ductility sol material loading carrier 56 is arranged in a rectangular cavity with an upper opening, the upper ductility sol material loading carrier 56 is arranged in a high-middle-low inclined manner at two ends, the upper ductility sol material sliding channel 57 is arranged at the bottom wall of the upper ductility sol material loading carrier 56, the upper ductility sol material sliding channel 57 is communicated with the upper ductility sol material loading carrier 56, and the upper ductility sol material sliding channel 57 is arranged in a rectangular hollow cavity with an upper opening and a lower opening, the upper ductility sol material foaming channel 55 is vertically arranged at the lower end of the upper ductility sol material sliding channel 57, the upper extrusion bonding plate 58 is arranged on the upper ductility sol material foaming channel 55, the first air blower 59 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, and the upper foaming rotating assembly 60 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39; the upper malleable sol material foaming channel 55 comprises an upper blowing cavity 61, an upper material loading cavity 62 and an upper foaming layer forming cavity 63, the upper material loading cavity 62 is connected with the lower end of the upper malleable sol material sliding channel 57, the upper blowing cavity 61 is communicated with the upper material loading cavity 62, the upper blowing cavity 61 and the upper foaming layer forming cavity 63 are arranged at two sides of the upper material loading cavity 62 and are arranged obliquely upwards, the height from the upper blowing cavity 61 to the upper wall of the sol blowing forming foaming device placing cavity 39 is less than the height from the upper material loading cavity 62 to the upper wall of the sol blowing forming foaming device placing cavity 39, the height from the upper foaming layer forming cavity 63 to the upper wall of the sol blowing forming foaming device placing cavity 39 is less than the height from the upper material loading cavity 62 to the upper wall of the sol blowing forming foaming device placing cavity 39, the upper malleable sol material foaming channel 55 is arranged in a hollow cavity with two open ends, the upper ductility sol material sliding channel 57 is respectively communicated with the upper ductility sol material loading carrier 56 and the upper material loading cavity 62, an upper ductility sol material sliding control piece 64 is arranged in the upper ductility sol material sliding channel 57, the upper ductility sol material sliding control piece 64 comprises an upper control handle 65, an upper control rotating rod 66 and an upper control rotating plate 67, the upper control rotating rod 66 is rotatably arranged on the inner side wall of the upper ductility sol material sliding channel 57, the upper control rotating plate 67 is rotatably arranged on the upper control rotating rod 66, the upper control handle 65 is arranged on the upper control rotating rod 66, the sol material can be preferably polyvinyl acetate and other materials with ductility and capable of being rapidly formed and solidified, the air blower one 59 is arranged on the inner side wall of the sol air blowing forming and foaming device placing cavity 39, and an upper air blowing pipe one 68 is arranged at an air blowing port of the air blower one 59, The upper air blowing pipe II 69 and the upper air blowing pipe III 70, wherein an upper air blowing nozzle I71 is arranged on an upper air blowing pipe I68, the upper air blowing nozzle I71 is arranged in a duckbill shape, the upper air blowing nozzle I71 is arranged at an opening part of the upper air blowing cavity 61 close to the air blower I59, an upper air blowing nozzle II 72 is arranged on the upper air blowing pipe II 69, the upper air blowing nozzle II 72 is arranged in a duckbill shape, the upper air blowing nozzle II 72 is arranged on an upper outer wall of the opening part of the upper foaming layer forming cavity 63 far away from the air blower I59, an upper air blowing nozzle III 73 is arranged on the upper air blowing pipe III 70, the upper air blowing nozzle III 73 is arranged in a duckbill shape, the upper air blowing nozzle III 73 is arranged on an outer wall below the opening part of the upper foaming layer forming cavity 63 far away from the air blower I59, an upper extrusion bonding plate sliding groove 74 is arranged on the upper foaming layer forming cavity 63, and the upper extrusion bonding plate 58 is arranged in the upper extrusion bonding plate sliding groove 74, go up foaming rotating assembly 60 and include ductility blister layer bull stick 75, go up ductility blister layer locating part 76 and rotation motor 77, go up ductility blister layer bull stick 75 and rotate and locate on the sol blowing forming foaming device places the chamber 39 inside wall, sol blowing forming foaming device places chamber 39 and plays fixed and bearing's effect to last ductility blister layer bull stick 75, it is equipped with fixed locating part 78 on the ductility blister layer bull stick 75 to go up, last ductility blister layer locating part 76 is located on ductility blister layer bull stick 75, the distance between last ductility blister layer locating part 76 slightly is greater than the width of ductility sol material foaming channel 55, rotation motor 77 is located on the sol blowing forming foaming device places the chamber 39 inside wall, the output of rotation motor 77 links to each other with last ductility blister layer bull stick 75.

The lower extending sol blowing forming device 12 comprises a lower extending sol material foaming channel 79, a lower extending sol material loading carrier 80, a lower extending sol material sliding channel 81, a lower extrusion bonding plate 82, an air blower two 83 and a lower foaming rotating assembly 84, wherein the lower extending sol material loading carrier 80 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, the lower extending sol material loading carrier 80 is arranged on the upper opening rectangular cavity body, the lower extending sol material loading carrier 80 is arranged on the two ends of the lower extending sol material loading carrier 80, the lower extending sol material sliding channel 81 is arranged on the bottom wall of the lower extending sol material loading carrier 80, the lower extending sol material sliding channel 81 is connected with the lower extending sol material loading carrier 80 in a penetrating way, and the lower extending sol material sliding channel 81 is arranged on the upper and lower opening rectangular cavity body, the lower extensible sol material foaming channel 79 is vertically arranged at the lower end of the lower extensible sol material sliding channel 81, the lower extrusion bonding plate 82 is arranged on the lower extensible sol material foaming channel 79, the second air blower 83 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, and the lower foaming rotating assembly 84 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39; the lower malleable sol material bubbling channel 79 comprises a lower blowing cavity 85, a lower material loading cavity 86 and a lower foaming layer forming cavity 87, the lower material loading cavity 86 is connected with the lower end of the lower malleable sol material sliding channel 81, the lower blowing cavity 85 is communicated with the lower material loading cavity 86, the lower blowing cavity 85 and the lower foaming layer forming cavity 87 are arranged at two sides of the lower material loading cavity 86 and are arranged obliquely upwards, the height from the lower blowing cavity 85 to the upper wall of the sol blowing forming and foaming device placing cavity 39 is less than the height from the lower material loading cavity 86 to the upper wall of the sol blowing forming and foaming device placing cavity 39, the height from the lower foaming layer forming cavity 87 to the upper wall of the sol blowing forming and foaming device placing cavity 39 is less than the height from the lower material loading cavity 86 to the upper wall of the sol blowing forming and foaming device placing cavity 39, the lower malleable sol material bubbling channel 79 is arranged in a hollow cavity with two open ends, the downward extending sol material sliding channel 81 is respectively connected with the downward extending sol material loading body 80 and the downward extending sol material foaming channel 79 in a penetrating way, the downward extending sol material sliding channel 81 is provided with the downward extending sol material control piece 88, the downward extending sol material control piece 88 comprises a lower control handle 89, a lower control rotating rod 90 and a lower control rotating plate 91, the lower control rotating rod 90 is rotatably arranged on the inner side wall of the downward extending sol material sliding channel 81, the lower control rotating plate 91 is rotatably arranged on the lower control rotating rod 90, the lower control handle 89 is arranged on the lower control rotating rod 90, the two air blowers are arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, the air blowing openings of the two air blowers 83 are provided with a first lower air blowing pipe 92, a second lower air blowing pipe 93 and a third lower air blowing pipe 94, the first air blowing nozzle 95 is arranged on the first air blowing pipe 92, the lower first blast nozzle 95 is arranged in a duckbill shape, the lower first blast nozzle 95 is arranged at the opening part of the lower blowing cavity 85 close to the second air blower 83, the lower second blast nozzle 96 is arranged on the lower second blast pipe 93, the lower second blast nozzle 96 is arranged in a duckbill shape, the lower second blast nozzle 96 is arranged on the upper outer wall of the opening part of the lower foaming layer forming cavity 87 far away from the second air blower 83, the lower third blast nozzle 97 is arranged on the lower third blast pipe 94, the lower third blast nozzle 97 is arranged in a duckbill shape, the lower third blast nozzle 97 is arranged on the lower outer wall of the opening part of the lower foaming layer forming cavity 87 far away from the second air blower 83, a lower extrusion bonding plate sliding groove 98 is arranged on the lower foaming layer forming cavity 87, the lower extrusion bonding plate 82 is arranged in the lower extrusion bonding plate sliding groove 98 in a sliding clamping manner, the lower foaming rotating assembly 84 comprises a lower extension foaming layer rotating rod 99, a lower extension limiting part 100 and a transmission belt 101, lower extension nature foaming layer bull stick 99 rotates and locates on the sol shaping foaming device that blows places the chamber 39 inside wall, be equipped with down fixed locating part 102 on extension nature foaming layer bull stick 99 down, extension nature foaming layer locating part 100 down locates on extension nature foaming layer bull stick 99 down, the distance between extension nature foaming layer locating part 100 down slightly is greater than the width of extension nature sol material foaming channel 79 down, drive belt 101 is around connecing on locating last fixed locating part 78 and lower fixed locating part 102.

The extrusion bonding driving assembly 13 comprises a movable supporting rod 103, an incomplete rack sliding frame sliding groove 104, an incomplete rack sliding frame 105, an incomplete gear 106 and a bonding motor 107, wherein the incomplete rack sliding frame sliding groove 104 is arranged on the inner side wall of the sol blowing forming foaming device placing cavity 39, the incomplete rack sliding frame 105 is arranged in the incomplete rack sliding frame sliding groove 104 in a sliding and clamping manner, the incomplete gear 106 is rotatably arranged in the incomplete rack sliding frame 105, the movable supporting rod 103 is arranged on the incomplete rack sliding frame 105, the upper extrusion bonding plate 58 and the lower extrusion bonding plate 82 are respectively connected with the side wall of the movable supporting rod 103, the incomplete rack sliding frame 105 is arranged in a rounded rectangle manner, incomplete racks 108 are arranged on the inner walls of two adjacent sides of the incomplete rack sliding frame 105, and the incomplete gears 106 are meshed with the incomplete racks 108, the bonding motor 107 is arranged on the inner side wall of the sol blow molding foaming device placing cavity 39, an output shaft of the bonding motor 107 is connected with the center of the incomplete gear 106, the bonding motor 107 rotates to drive the incomplete gear 106 to rotate, the incomplete gear 106 rotates to drive the incomplete rack sliding frame 105 to slide up and down in the incomplete rack sliding frame sliding groove 104, the incomplete rack sliding frame 105 drives the movable supporting rod 103 to move up and down, and the movable supporting rod 103 drives the upper extrusion bonding plate 58 and the lower extrusion bonding plate 82 to move up and down.

The arc-shaped protrusion forming and pressing device 10 comprises an arc-shaped protrusion forming and pressing assembly 109, a limiting telescopic resetting assembly 110, an induced duct 111 and a suction fan 112, wherein the arc-shaped protrusion forming and pressing assembly 109 is arranged on the inner side wall of a sol blowing forming and foaming device placing cavity 39, the suction fan 112 and the limiting telescopic resetting assembly 110 are arranged on the inner side wall of a suction fan placing cavity 38, an induced duct outlet 113 is arranged on the suction fan placing cavity 38, one end of the induced duct 111 is arranged on the suction fan 112, and the other end of the induced duct 111 passes through the limiting telescopic resetting assembly 110 and the induced duct outlet 113 and is arranged on the arc-shaped protrusion forming and pressing assembly 109; the arc-shaped convex forming pushing assembly 109 comprises an upper fixing piece 114, a lower fixing piece 115, an electric hydraulic rod 116, a suction cavity 117, an arc-shaped convex forming pushing piece 118 and a clamping piece 119, wherein the upper fixing piece 114 is arranged on the upper wall of a sol blowing forming foaming device placing cavity 39, the electric hydraulic rod 116 is arranged on the bottom wall of the upper fixing piece 114, the suction cavity 117 is arranged at the movable end of the electric hydraulic rod 116, the suction cavity 117 is a cylindrical hollow cavity with an open lower end, a suction hole 120 is formed in the side wall of the suction cavity 117, the other end of the suction pipe 111 passes through a limiting telescopic resetting assembly 110 and a suction pipe outlet 113 to be connected with the suction hole 120, the arc-shaped convex forming pushing piece 118 is arranged at the lower end of the suction cavity 117, the arc-shaped convex forming pushing piece 118 is communicated with the lower end of the suction cavity 117, and the arc-shaped convex forming pushing piece, the arc-shaped protrusion forming lower pressing piece 118 is arranged above the upper ductility sol blowing forming device 11, the arc-shaped protrusion forming lower pressing piece 118 is arranged right above the wrapping through hole 53, the lower fixing piece 115 is arranged on the bottom wall of the inner side of the sol blowing forming foaming device placing cavity 39, the clamping piece 119 is arranged in an annular shape, the diameter of the clamping piece 119 is equal to that of the arc-shaped protrusion forming lower pressing piece 118, the diameter of the wrapping through hole 53 is larger than that of the arc-shaped protrusion forming lower pressing piece 118, the clamping piece 119 is arranged on the lower fixing piece 115, the clamping piece 119 is arranged below the lower ductility sol blowing forming device 12, and the clamping piece 119 is arranged right below the wrapping through hole 53; the limiting telescopic reset assembly 110 comprises a limiting ring 121, a limiting ring fixing plate 122 and a reset spring 123, one end of the reset spring 123 is arranged on the inner bottom wall of the suction fan placing cavity 38, the other end of the reset spring 123 is arranged on the limiting ring fixing plate 122, the limiting ring 121 is arranged on the limiting ring fixing plate 122, and the other end of the induced air pipe 111 penetrates through the limiting ring 121 and an induced air pipe outlet 113 to be connected with the air suction hole 120 and is arranged at the air suction hole 120.

The spiral lossless downward sliding conveying mechanism 2 comprises a spiral downward sliding fixed enclosing and blocking body 124, a corona insect receiving piece 125, a spiral downward sliding assembly 126, a downward sliding driving assembly 127 and a corona insect downward sliding pipe 128, the downward sliding driving assembly 127 is arranged on the side wall of the insect observation device preparation box 4, the spiral downward sliding fixed enclosing and blocking body 124 is arranged on the downward sliding driving assembly 127, the spiral downward sliding fixed enclosing and blocking body 124 is arranged in an arc-shaped hollow cavity, the corona insect receiving piece 125 is arranged at one end, close to the adjustable insect induced single grabbing corona turnover mechanism 1, of the spiral downward sliding fixed enclosing and blocking body 124, a downward sliding through hole 132 is arranged on the bottom wall of the turnover device fixed enclosing and blocking body 8, the corona insect receiving piece 125 is arranged in a trapezoidal hollow cavity with an upper opening and a lower opening, an opening above the corona insect receiving piece 125 is connected with the downward sliding through hole 132, and an opening below the corona insect receiving piece 125 is connected with the spiral downward, the spiral downward sliding assembly 126 is arranged in the spiral downward sliding fixed baffle 124, a corona insect downward sliding through hole 129 is formed in the bottom wall of one end, close to the downward sliding driving assembly 127, of the spiral downward sliding fixed baffle 124, a corona insect downward sliding feed port 40 is formed in the side wall of the insect observation device preparation box 4, one end of the corona insect downward sliding pipe 128 is connected with the corona insect downward sliding through hole 129, and the other end of the corona insect downward sliding pipe 128 is connected with the corona insect downward sliding feed port 40; the spiral lower sliding assembly 126 comprises a spiral rotating rod 130 and a lower sliding rotating shaft 131, the spiral rotating rod 130 is rotatably arranged on the inner side wall of the spiral lower sliding fixing surrounding baffle body 124, the spiral rotating rod 130 is provided with flexible spiral blades 133, and the lower sliding rotating shaft 131 penetrates through the spiral lower sliding fixing surrounding baffle body 124 and is connected with the spiral rotating rod 130; gliding drive assembly 127 includes that gliding motor places chamber 134 and gliding motor 135, gliding motor places chamber 134 and locates the fixed stopper 124 end that encloses of spiral gliding, gliding motor places chamber 134 and is the setting of arc cavity, gliding motor 135 locates gliding motor and places in the chamber 134, gliding motor 135's output links to each other with gliding pivot 131, gliding motor 135 rotates and drives gliding pivot 131 and rotate, and gliding pivot 131 drives spiral rod 130 and rotates, and spiral rod 130 drives flexible helical blade 133 and rotates to accomplish the harmless spiral transfer operation to the insect.

The insect crawling one-way channel 6 is a rectangular cavity with two open ends, the insect crawling one-way channel 6 and the cross-sectional area are slightly larger than the maximum cross-sectional area of one insect, and an attraction source is arranged at one end, close to the adjustable insect inducing single grabbing corona turnover mechanism 1, of the insect crawling one-way channel 6.

Insect viewing device loads case 5 and is the setting of rectangle cavity, be equipped with parcel gliding port 136 down on the insect viewing device loads the 5 upper walls of case, be equipped with discharge door 137 on the insect viewing device loads the 5 lateral walls of case, be equipped with ejection of compact handle 138 on the discharge door 137.

In particular, in the initial state, the user holds the door handle 43 to open the sol material discharge door 41 and place the polyvinyl acetate material into the upper and lower stretchable sol material carriers 56 and 80, the observer presses the foaming button 46, the first air blower 59, the second air blower 83, the bonding motor 107 and the rotating motor 77 start to operate, the observer holds the door handle 43 to open the sol material discharge door 41 and holds the upper and lower control grips 65 and 89 with hands and rotates clockwise to open the upper and lower control rotary plates 67 and 91, the sol material falls into the upper and lower stretchable sol material foaming passages 55 and 79 along the upper and lower stretchable sol material sliding passages 57 and 81, respectively, the first air blower 59 starts to blow air to the first upper and lower air blowing pipes 68, the second upper and third air blowing pipes 69 and 70 at the same time, the second air blower 83 blows air to the first lower air blowing pipe 92, the second lower air blowing pipe 93 and the third lower air blowing pipe 94 simultaneously, the first upper air blowing pipe 68 blows air to the upper air blowing cavity 61 through the first upper air blowing nozzle 71 to blow the sol material and blow the sol material along the upper foaming layer forming cavity 63, the first lower air blowing pipe 92 blows air to the lower air blowing cavity 85 through the first lower air blowing nozzle 95 to blow the polyvinyl acetate and blow the sol material along the lower foaming layer forming cavity 87, meanwhile, the bonding motor 107 rotates to drive the incomplete gear 106 to rotate, the incomplete gear 106 drives the incomplete rack sliding frame 105 to slide up and down stably in the incomplete rack sliding frame sliding groove 104, the incomplete rack sliding frame 105 drives the movable supporting rod 103 to move up and down, the movable supporting rod 103 drives the upper extrusion bonding plate 58 and the lower extrusion bonding plate 82 to slide up and down in the upper extrusion bonding plate sliding groove 74 and the lower extrusion bonding plate sliding groove 98 respectively, thereby carrying out extrusion bonding operation on the upper ductility foaming layer and the lower ductility foaming layer, effectively ensuring that the upper ductility foaming layer and the lower ductility foaming layer continuously and stably convey forwards, leading the upper blast pipe II 69 and the upper blast pipe III 70 to simultaneously carry out limit blowing advancing on the upper ductility foaming layer through the upper blast nozzle II 72 and the upper blast nozzle III 73 respectively and leading the upper ductility foaming layer to fall on the upper ductility foaming layer rotating rod 75, leading the lower blast pipe II 93 and the lower blast pipe III 94 to simultaneously carry out limit blowing advancing on the lower ductility foaming layer through the lower blast nozzle II 96 and the lower blast nozzle III 97 respectively and leading the lower ductility foaming layer to fall on the lower ductility foaming layer rotating rod 99, leading the rotating motor 77 to rotate and drive the upper ductility foaming layer rotating rod 75 to rotate, leading the upper ductility foaming layer rotating rod 75 to drive the upper ductility foaming layer and the transmission belt 101 to rotate, leading the lower ductility foaming layer rotating rod 99 to drive the lower ductility foaming layer to rotate, the user places the insect crawling one-way channel 6 into the insect viewing device loading box 5 after the lower malleable effervescent layer falls on the lower malleable effervescent layer rotating rod 99 and the upper malleable effervescent layer falls on the upper malleable effervescent layer rotating rod 75; the user presses the switch button 44, the black light lamp 31, the micro-current power grid 26 and the down-slide motor 135 start to work, the black light lamp 31 emits light to attract insects, the insects crawl forward along the insect crawling one-way channel 6 one by one, the user presses the turning button 45, the turning motor 18 starts to work, the turning motor 18 rotates clockwise to drive the turning rotating shaft 14 to rotate clockwise, the clamping rotating shaft clamping piece 32 is positioned on one side of the turning rotating shaft clamping piece 29 in an initial state, the two parts are not meshed, the fixed rotating shaft 16 keeps static, the turning rotating shaft 14 rotates to drive the tightening rope 23 to rotate clockwise to tighten, the tightening rope 23 drives the sliding partition plate 21 to move towards the direction close to the turning rotating shaft 14, so that the insect receiving cavity 24 is opened, the user slides the sliding partition plate 21 according to the size of the insect to be observed to enable the volume in the insect receiving cavity 24 to be larger than the insect to be observed, and when the volume adjustment, the turning motor 18 and the turning rotary shaft 14 stop rotating, the user pushes the clamping rotary shaft 15 into the fixed rotary shaft 16 along the turning rotary shaft 14 and clamps the clamping rotary shaft 14 to make the clamping rotary shaft clamping piece 32 slide into the clamping groove of the turning rotary shaft 14, at the same time, the turning rotary shaft clamping piece 29 is positioned in the clamping rotary shaft clamping piece clamping groove 30, the clamping rotary shaft 15 outer side wall clamping piece 34 is positioned in the clamping piece clamping groove 37, the fixed rotary shaft clamping piece 36 is positioned in the fixed rotary shaft clamping piece clamping groove 35 outside the clamping rotary shaft 15, the turning rotary shaft 14 is clamped with the clamping rotary shaft 15, the clamping rotary shaft 15 is clamped with the fixed rotary shaft 16, the turning rotary shaft 14 rotates to drive the turning rotary shaft clamping piece 29 to rotate clockwise, the turning rotary shaft clamping piece 29 drives the clamping rotary shaft clamping piece 32 to rotate clockwise, the clamping rotary shaft clamping piece 32 drives the clamping rotary shaft 15 to rotate clockwise, the fixed rotating shaft 16 drives the bearing and overturning assembly 17 to rotate clockwise, the tightening rope 23 and the overturning rotating shaft 14 are kept relatively static, the sliding partition plate 21 relatively bears and overturns the cavity 20 relatively static, when the insect bearing cavity 24 rotates to the outlet of the insect crawling one-way channel 6, the insects at the outlet of the insect crawling one-way channel 6 fall into the insect bearing cavity 24 along the insect crawling one-way channel 6 and are simultaneously corona by the micro-current power grid 26, the insects behind the falling insects are blocked in the insect one-way crawling channel by the arc-shaped side wall of the insect bearing cavity 24 until the next insect bearing cavity 24 rotates to the outlet of the insect crawling one-way channel 6, the bearing and overturning cavity 20 drives the insect bearing cavity 24 to rotate clockwise, when the insect bearing cavity 24 rotates upwards from the opening to the downward from the opening, the insects corona in the insect bearing cavity 24 are conveyed to the corona insect bearing piece 125 along the downward sliding through hole 132 in the bottom wall of the insect bearing cavity 24 due to gravity In advance the fixed enclosure 124 of spiral gliding, gliding motor 135 rotates and drives gliding pivot 131 to rotate, gliding pivot 131 drives spiral rod 130 to rotate, spiral rod 130 drives flexible helical blade 133 to rotate, flexible helical blade 133 carries out the harmless spiral conveying and conveys it to corona insect glide in to corona insect, fall into corona insect gliding pipe 128 and fall into corona insect lower chute 49 along corona insect lower chute 128 through corona insect glide, during initial state, arc protruding shaping push-down piece 118 is located ductility bubbling layer top, electronic hydraulic stem 116 is the contraction state, the observer presses sheltering button 47, sheltering motor 51 begins work, sheltering motor 51 rotates and drives sheltering rotating rod 50 to rotate, sheltering rotating rod 50 rotates a fixed angle at interval of time, sheltering rotating rod 50 rotates once and drives flexible baffle 54 to rotate from the current position to the position department of next flexible baffle 54 and make the insect glide to parcel one by one to parcel 54 one time Through hole 53 department, the observer presses down parcel button 48, suction fan 112 and electronic hydraulic stem 116 begin work, suction fan 112 inhales the operation through induced duct 111 to the inside of arc shape protruding shaping holding down piece 118, thereby make the last ductility bubbling layer that is located arc shape protruding holding down piece 118 below upwards inhale and be the protruding form of hemisphere arc, thereby the last ductility bubbling layer fully contacts with the air and solidifies the shaping fast in the process of breathing in, electronic hydraulic stem 116 extends downwards and drives arc shape protruding shaping holding down piece 118 and move downwards when the insect slides down to the polyvinyl acetate bubbling layer from parcel through hole 53, thereby arc shape protruding holding down piece 118 drives the last ductility bubbling layer of the protruding form of hemisphere arc to move down through parcel through hole 53 and lower ductility bubbling layer and fastener 119 carry out the block thereby get off the protruding last ductility bubbling layer of the protruding form of hemisphere arc and part ductility bubbling layer joint down, the upper malleable bubbling layer rotating rod 75 drives the upper malleable bubbling layer and the transmission belt 101 to continue rotating, the transmission belt drives the lower malleable bubbling layer rotating rod 99 and the lower polyvinyl acetate bubbling layer to rotate, so as to transmit the new complete upper malleable bubbling layer and the lower polyvinyl acetate bubbling layer to the lower part of the arc-shaped convex forming lower pressing piece 118, the clamped upper malleable bubbling layer and the lower polyvinyl acetate bubbling layer are bonded together to form an arc-shaped convex insect observation box and trap insects positioned between the upper malleable bubbling layer and the lower polyvinyl acetate bubbling layer in the insect observation box, the formed insect observation box with the insects falls into the insect observation device loading box 5 along the lower wrapping sliding port 136, after the wrapping is completed, an observer presses the control key 42 to stop the work of all mechanisms, holds the discharging handle 138 by hand to open the discharging door 137 and takes out the wrapped insects to distribute the experimenter for observation and dissection one by one, and (5) directly puncturing the wrapping layer after the observation is finished, and taking out the insects for dissection.

The actual operation process is simple and easy, only the observer moves the observation and preparation device to the insect to be grabbed, the operation switch button 44 emits light by using the black light lamp 31 to attract and grab the insect, the micro-current power grid 26 is used for corona the insect, the spiral nondestructive downward sliding conveying mechanism 2 is operated to spirally convey the insect, the overturning button 45 is operated to enable the adjustable corona insect overturning device 7 to carry and overturn the insect, the foaming button 46 is operated to control the insect observation device preparation mechanism 3 to foam the sol material, the shielding button 47 is operated to control the corona insect to slide one by one to shield and intercept the insect, the wrapping button 48 is operated to control the arc protrusion forming pressing component 109 to wrap the insect, and finally the wrapped insect is taken out. The device realizes the technical effects of attracting and grabbing insects, turning over corona, spiral conveying and real-time wrapping, is simple and easy to implement, saves time and labor, is low in cost and has wide market popularization value.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides an insect is observed from dress formula and is dissected transition box processing equipment which characterized in that: the insect observation device is characterized by comprising an adjustable insect induced single grabbing corona turnover mechanism, a spiral lossless gliding conveying mechanism, an insect observation device preparation box and an insect observation device loading box, wherein the insect observation device preparation box is arranged right above the insect observation loading box; the adjustable insect-induced single-grabbing corona mechanism comprises an insect crawling one-way channel, an adjustable corona insect turning device and a turning device fixing enclosing baffle body, the turning device fixing enclosing baffle body is arranged on the spiral nondestructive downward-sliding conveying mechanism, the adjustable corona insect turning device is arranged in the turning device fixing enclosing baffle body, and the insect crawling one-way channel is detachably arranged on the outer wall of the front end of the turning device enclosing baffle body; the adjustable corona insect turning device comprises a turning rotating shaft, a clamping rotating shaft, a fixed rotating shaft, a bearing turning assembly and a turning motor, one end of the turning rotating shaft is hinged on one inner side wall of the fixed surrounding baffle body of the turning device, the other end of the turning rotating shaft is rotatably arranged on the other non-adjacent inner side wall of the fixed surrounding baffle body of the turning device, the clamping rotating shaft is sleeved on the overturning rotating shaft in a sliding way, the fixed rotating shaft is hinged on the inner side wall of the fixed enclosure of the overturning device, one end of the fixed rotating shaft is rotatably sleeved outside the clamping rotating shaft, the other end of the fixed rotating shaft is hinged on the inner side wall of the fixed enclosure of the turnover device, the clamping rotating shaft and the overturning rotating shaft are arranged in a hollow cavity of the fixed rotating shaft, the bearing and overturning assemblies are uniformly arranged on the outer wall of the fixed rotating shaft, and the overturning motor is arranged on the side wall of the fixed enclosure body of the overturning device; the insect observation device preparation box comprises a suction fan placing cavity and a sol blowing forming foaming device placing cavity, a corona insect downward sliding feed inlet is formed in the side wall of the insect observation device preparation box, a sol material discharging door and a control button are arranged on the other side wall of the insect observation device preparation box, a discharging door handle is arranged on the sol material discharging door, and the control button is arranged on the side edge of the sol material discharging door; the insect observation device preparation mechanism comprises a corona insect gliding shielding device, an arc-shaped convex forming pushing device, an upper malleable sol blowing forming device, a lower malleable sol blowing forming device and an extrusion bonding driving component one by one, wherein the corona insect gliding shielding device, the upper malleable sol blowing forming device, the lower malleable sol blowing forming foaming device and the arc-shaped convex forming pushing device are arranged in an insect observation device preparation box one by one, the corona insect gliding shielding device is arranged on the inner side wall of the insect observation device preparation box one by one and is close to a spiral lossless gliding conveying mechanism, the arc-shaped convex forming pushing device is arranged on the inner wall of the insect observation device preparation box, the arc-shaped convex forming pushing device is arranged right above the corona insect gliding shielding device one by one, and the upper malleable sol blowing forming device is arranged between the arc-shaped convex forming pushing device and the corona insect gliding shielding device one by one, the corona insect one-by-one gliding shielding device is arranged between the upper extensible sol blowing forming device and the lower extensible sol blowing forming foaming device, and the lower extensible sol blowing forming foaming device is arranged below the corona insect one-by-one gliding shielding device; the corona insect one-by-one gliding shielding device comprises a corona insect lower chute, a shielding rotating rod and a shielding motor, wherein one end of the corona insect lower chute is provided with a corona insect wrapping feed inlet, the corona insect wrapping feed inlet is arranged at the corona insect lower chute feed inlet, one end of the corona insect lower chute is arranged on the inner side wall of an insect observation device preparation box at the corona insect wrapping feed inlet, the other end of the corona insect lower chute is arranged between an upper malleable sol blowing forming device and a lower malleable sol blowing forming device, a wrapping through hole is arranged on the bottom wall of the corona insect lower chute, the wrapping through hole is arranged under an arc-shaped bulge forming pushing device, the shielding rotating rod is rotatably arranged on the inner side wall of a placing cavity of the sol blowing forming foaming device, the shielding rotating rod is arranged above the corona insect lower chute, and a plurality of groups of flexible baffles are uniformly arranged on the shielding rotating, the shielding motor is arranged on the inner side wall of the placing cavity of the sol blowing forming foaming device, and the output end of the shielding motor is connected with the shielding rotating rod; the upper ductility sol blowing forming device comprises an upper ductility sol material foaming channel, an upper ductility sol material loading body, an upper ductility sol material sliding channel, an upper extrusion bonding plate, a first air blower and an upper foaming rotating assembly, wherein the upper ductility sol material loading body is arranged on the inner side wall of a sol blowing forming foaming device placing cavity; the lower extension sol blowing forming device comprises a lower extension sol material foaming channel, a lower extension sol material loading carrier, a lower extension sol material sliding channel, a lower extrusion bonding plate, an air blower II and a lower foaming rotating assembly, wherein the lower extension sol material loading carrier is arranged on the inner side wall of a sol blowing forming foaming device placing cavity, the lower extension sol material sliding channel is arranged on the bottom wall of the lower extension sol material loading carrier, the lower extension sol material foaming channel is vertically arranged at the lower end of the lower extension sol material sliding channel, the lower extrusion bonding plate is arranged on the lower extension sol material foaming channel, the air blower II is arranged on the inner side wall of the sol blowing forming foaming device placing cavity, and the lower foaming rotating assembly is arranged on the inner side wall of the sol blowing forming foaming device placing cavity; the extrusion bonding driving assembly comprises a movable supporting rod, an incomplete rack sliding frame sliding groove, an incomplete rack sliding frame, an incomplete gear and a bonding motor, the incomplete rack sliding frame sliding groove is formed in the inner side wall of a placing cavity of the sol blowing forming foaming device, the incomplete rack sliding frame is arranged in the incomplete rack sliding frame sliding groove in a sliding clamping mode, the incomplete gear is arranged in the incomplete rack sliding frame in a rotating mode, the movable supporting rod is arranged on the incomplete rack sliding frame, the upper extrusion bonding plate and the lower extrusion bonding plate are respectively connected with the side wall of the movable supporting rod, the incomplete rack sliding frame is arranged in a circular rectangle mode, incomplete racks are arranged on the inner walls of two sides, which are not adjacent, in the incomplete sliding rack frame, the incomplete gear is meshed with the incomplete racks, the bonding motor is arranged on the inner side wall of the placing cavity of the sol blowing forming foaming device, the output shaft of the bonding motor is connected with the center of the incomplete gear; the arc-shaped protrusion forming and pressing device comprises an arc-shaped protrusion forming and pressing component, a limiting telescopic reset component, an induced air pipe and a suction fan, the arc-shaped protrusion forming and pressing component is arranged on the inner side wall of the cavity of the sol blowing forming and foaming device, the suction fan and the limiting telescopic reset component are arranged on the inner side wall of the cavity of the suction fan, the suction fan is arranged on the cavity of the suction fan, an induced air pipe outlet is formed in one end of the induced air pipe and is arranged on the suction fan, and the other end of the induced air pipe penetrates through the limiting telescopic reset component and the induced air pipe outlet and is arranged on the arc-shaped protrusion.

2. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the adjustable corona insect turning device is arranged in a windmill shape, the fixed enclosing and blocking body of the turning device is arranged in a boat shape, a plurality of groups of tightening rope through holes are uniformly arranged on the outer wall of the fixed rotating shaft, the supporting and turning assembly is arranged on the fixed rotating shaft at the tightening rope through holes, the number of the tightening rope through holes is equal to that of the supporting and turning assembly, the fixed rotating shaft is arranged in a cylindrical hollow cavity with two open ends, the supporting and turning assembly comprises a supporting and turning cavity, a sliding partition plate, a telescopic reset spring and a tightening rope, the supporting and turning cavity is arranged on the outer side wall of the fixed rotating shaft at the tightening rope through holes, the supporting and turning cavity is arranged in a bucket-shaped hollow cavity with an open upper end, the supporting and turning cavity comprises an insect supporting cavity and a supporting and controlling cavity, the supporting and controlling cavity is arranged close to the fixed rotating shaft, and the insect, a plurality of groups of supporting and overturning cavities are uniformly arranged on the outer side wall of the fixed rotating shaft, the number of the supporting and overturning cavities is equal to that of the through holes of the tightening ropes, a micro-current power grid is arranged in the insect supporting cavity, sliding clapboards are arranged on the inner walls of two sides of the supporting and overturning cavities which are not adjacent to each other in a sliding way, the sliding clapboards are arranged between the insect supporting cavity and the supporting and controlling cavity, supporting sliding shafts are arranged on two side walls of the sliding clapboards, supporting sliding shaft sliding grooves are arranged on two non-adjacent side walls of the supporting and overturning cavities, the number of the supporting sliding shaft sliding grooves is equal to that of the supporting sliding shafts, the supporting sliding shafts are arranged in the supporting sliding shaft sliding grooves in a sliding and clamping way, the telescopic reset spring and the tightening ropes are arranged in the supporting and controlling cavity, one end of the telescopic reset spring is arranged on the side, one end of the tightening rope is arranged on the sliding partition plate, the other end of the tightening rope penetrates through a tightening rope through hole and is arranged on the overturning rotating shaft, the output end of the overturning motor is connected with the overturning rotating shaft, a plurality of groups of overturning rotating shaft clamping pieces and clamping rotating shaft clamping piece clamping grooves are uniformly arranged around one end, close to the clamping rotating shaft, of the overturning rotating shaft, the overturning rotating shaft clamping pieces and the clamping rotating shaft clamping piece clamping grooves are arranged at intervals, a plurality of groups of clamping rotating shaft clamping pieces and overturning rotating shaft clamping piece clamping grooves are arranged on the inner side wall of the clamping rotating shaft, the clamping rotating shaft and the overturning rotating shaft clamping pieces are arranged at intervals, the clamping rotating shaft clamping pieces can be slidably clamped in the clamping rotating shaft clamping piece clamping grooves, the clamping rotating shaft clamping pieces are equal in number to the clamping rotating shaft clamping piece clamping grooves, and the overturning rotating shaft clamping pieces can be slidably clamped in the overturning rotating shaft clamping piece, the utility model discloses a fixed pivot joint, including fixed pivot joint, upset pivot joint and fixed pivot joint groove, the quantity in upset pivot joint and upset pivot joint groove equals, be equipped with a plurality of group's joint spare and fixed pivot joint spare joint groove on the lateral wall of joint pivot, joint spare is the interval setting with fixed pivot joint spare joint groove, be equipped with a plurality of groups fixed pivot joint spare and joint spare joint groove on the fixed pivot inside wall, fixed pivot joint spare and joint spare joint groove are the interval setting, joint spare slidable joint locates in the joint spare joint groove, the quantity in joint spare and joint spare joint groove equals, fixed pivot joint spare slidable joint locates in fixed pivot joint spare joint groove, the quantity in fixed pivot joint spare and fixed pivot joint spare joint groove equals.

3. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the upper malleable sol material loading body is arranged in a rectangular cavity with an opening at the upper part, the upper malleable sol material loading body is arranged in a manner that the two ends of the upper malleable sol material loading body are high and the middle of the upper malleable sol material loading body is low in inclination, the upper malleable sol material sliding channel is communicated with the upper malleable sol material loading body and is arranged in a rectangular hollow cavity with an upper opening and a lower opening, the upper malleable sol material foaming channel comprises an upper blowing cavity, an upper material loading cavity and an upper foaming layer forming cavity, the upper material loading cavity is connected with the lower end of the upper malleable sol material sliding channel, the upper blowing cavity is communicated with the upper material loading cavity, the upper blowing cavity and the upper foaming layer forming cavity are arranged at two sides of the upper material loading cavity and are arranged in an inclined upward manner, and the height from the upper blowing cavity to the upper wall of the sol blowing forming foaming device placing cavity is less than the height from the upper material loading cavity, the height from the upper foaming layer forming cavity to the upper wall of the sol blowing forming foaming device placing cavity is smaller than the height from the upper material loading cavity to the upper wall of the sol blowing forming foaming device placing cavity, the upper ductility sol material foaming channel is a hollow cavity with two open ends, the upper ductility sol material sliding channel is respectively communicated and connected with the upper ductility sol material loading carrier and the upper material loading cavity, an upper ductility sol material sliding control part is arranged in the upper ductility sol material sliding channel, the upper ductility sol material sliding control part comprises an upper control grip, an upper control rotating rod and an upper control rotating plate, the upper control rotating rod is rotatably arranged on the inner side wall of the upper ductility sol material sliding channel, the upper control rotating plate is rotatably arranged on the upper control rotating rod, the upper control grip is arranged on the upper control rotating rod of the air blower, and the sol blowing forming foaming device placing cavity inner side wall, the air blower comprises a first air blower body, a second air blower body and a third air blower body, wherein the first air blower body, the second air blower body and the third air blower body are arranged at the air blowing opening of the first air blower body, an upper air blowing nozzle I is arranged on the first air blower body, the first air blowing nozzle I is arranged at an opening, close to the first air blower body, of an upper air blowing cavity, an upper air blowing nozzle II is arranged on the second air blower body, the second air blowing nozzle II is arranged in a duckbilled shape, the upper air blowing nozzle II is arranged on the outer wall, far away from the opening of the second air blower body, of the upper foaming forming cavity, an upper extrusion bonding plate sliding groove is arranged on the third air blowing pipe, a third air blowing nozzle is arranged in a duckbilled shape, the third air blowing nozzle is arranged on the outer wall, far away from the opening of the second air blower body, of the upper foaming forming cavity, an upper extrusion bonding plate sliding clamp is arranged in the upper extrusion bonding plate sliding groove, and the upper foaming rotating assembly comprises an upper malleable layer rotating rod, Go up ductility blister layer locating part and rotation motor, go up the ductility blister layer bull stick and rotate and locate the sol shaping foaming device of blowing and place the intracavity lateral wall on, go up and be equipped with fixed locating part on the ductility blister layer bull stick, go up on the ductility blister layer locating part is located the ductility blister layer bull stick, go up the distance between ductility blister layer locating part and slightly be greater than the width of ductility sol material foaming channel, the rotation motor is located on the sol shaping foaming device of blowing places the intracavity lateral wall, the output that rotates the motor links to each other with last ductility blister layer bull stick.

4. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: lower extensibility sol material load body is top open-ended rectangle cavity setting, lower extensibility sol material gliding passageway link up with lower extensibility sol material load body and links to each other, lower extensibility sol material gliding passageway is upper and lower open-ended rectangle cavity setting, lower extensibility sol material foaming passageway includes down the blowing chamber, down the material loads the chamber and lower foaming layer becomes the chamber, material loading chamber and lower foaming layer become the chamber down, material loading chamber and lower extensibility sol material gliding passageway lower extreme link to each other down, the blowing chamber links up with lower material loading chamber link up, material loading chamber both sides and slope upwards set up down are located to lower blowing chamber and lower foaming layer becomes the chamber, the height that lower blowing chamber placed the chamber upper wall to sol blowing forming foaming device is less than the height that lower material loaded the chamber and placed the chamber upper wall to sol blowing forming foaming device, lower foaming layer becomes the chamber and places the chamber upper wall to sol blowing forming foaming device highly be less than lower material loading chamber and dissolves layer forming chamber and set up the height that lower material loaded the chamber Glue the height that shaping foaming device placed the chamber upper wall of blowing, lower extension nature sol material foaming passageway is both ends open-ended cavity setting, lower extension nature sol material gliding passageway link up with lower extension nature sol material loading body and lower extension nature sol material foaming passageway respectively and links to each other, be equipped with extension nature sol material control down in the extension nature sol material gliding passageway, lower extension nature sol material control includes down control handle, lower control bull stick and lower control commentaries on classics board, lower control bull stick rotates and locates on lower extension nature sol material gliding passageway inside wall, lower control bull stick rotates and locates on the lower control bull stick, the control handle is located down on the control bull stick, air-blower two is located on the shaping foaming device places the intracavity lateral wall of blowing, air-blower two's air-blast mouth department is equipped with down blast pipe one, The lower blowing pipe two and the lower blowing pipe three, be equipped with down blast nozzle one on the lower blowing pipe one, lower blast nozzle one is duckbilled type setting, the opening part that the chamber of blowing is close to air-blower two is located down to blast nozzle one down, be equipped with down blast nozzle two on the lower blowing pipe two, lower blast nozzle two is duckbilled type setting, lower blast nozzle two is located down on the upper outer wall of the opening part that the bubble shaping chamber kept away from air-blower two, be equipped with down blast nozzle three on the blast pipe three down, lower blast nozzle three is duckbilled type setting, lower blast nozzle three is located down on the below outer wall of the opening part that the bubble shaping chamber kept away from air-blower two, be equipped with down extrusion bonding board sliding tray down on the bubble shaping chamber down, down extrusion bonding board sliding clamping is located down in the extrusion bonding board sliding tray down, the foaming rotating assembly includes down extensibility revolving bar, down, Lower extension nature foaming layer locating part and drive belt, lower extension nature foaming layer bull stick rotates and locates on the sol blowing shaping foaming device places the intracavity lateral wall, be equipped with down fixed locating part on the lower extension nature foaming layer bull stick, lower extension nature foaming layer locating part is located on the lower extension nature foaming layer bull stick, the distance between lower extension nature foaming layer locating part slightly is greater than the width of lower extension nature sol material foaming passageway, the drive belt is around connecing to be located on fixed locating part and the lower fixed locating part.

5. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the arc-shaped protrusion forming pressing component comprises an upper fixing piece, a lower fixing piece, an electric hydraulic rod, a suction cavity, an arc-shaped protrusion forming pressing piece and a clamping piece, wherein the upper fixing piece is arranged on the upper wall of a sol blowing forming foaming device placing cavity, the electric hydraulic rod is arranged on the bottom wall of the upper fixing piece, the suction cavity is arranged at the movable end of the electric hydraulic rod, the suction cavity is a cylindrical hollow cavity with an opening at the lower end, a suction hole is formed in the side wall of the suction cavity, the other end of an induced duct penetrates through a limiting telescopic reset component and an induced duct outlet to be connected with the suction hole, the arc-shaped protrusion forming pressing piece is arranged at the lower end of the suction cavity, the arc-shaped protrusion forming pressing piece is communicated with the lower end of the suction cavity, the arc-shaped protrusion forming pressing piece is arranged in an inverted bowl shape, and the arc-, the lower fixing piece is arranged on the bottom wall of the inner side of the sol blow molding foaming device placing cavity, the clamping piece is arranged annularly, the diameter of the clamping piece is equal to that of the arc-shaped bulge forming lower pressing piece, the diameter of the wrapping through hole is larger than that of the arc-shaped bulge forming lower pressing piece, the clamping piece is arranged on the lower fixing piece, the clamping piece is arranged below the lower extensible sol blow molding foaming device, and the clamping piece is arranged right below the wrapping through hole; the limiting telescopic reset assembly comprises a limiting ring, a limiting ring fixing plate and a reset spring, one end of the reset spring is arranged on the bottom wall of the suction fan placing cavity, the other end of the reset spring is arranged on the limiting ring fixing plate, the limiting ring is arranged on the limiting ring fixing plate, and the other end of the induced air pipe penetrates through the limiting ring and is connected with the induced air pipe outlet and the induced air pipe hole and is arranged at the induced air hole.

6. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the spiral lossless downward-sliding conveying mechanism comprises a spiral downward-sliding fixed enclosing and blocking body, a corona insect receiving piece, a spiral downward-sliding assembly, a downward-sliding driving assembly and a corona insect downward-sliding pipe, the downward-sliding driving assembly is arranged on the side wall of a preparation box of the insect observation device, the spiral downward-sliding fixed enclosing and blocking body is arranged on the downward-sliding driving assembly, the spiral downward-sliding fixed enclosing and blocking body is arranged in an arc-shaped hollow cavity, the corona insect receiving piece is arranged at one end, close to an adjustable insect induction single grabbing corona turnover mechanism, of the spiral downward-sliding fixed enclosing and blocking body, a downward-sliding through hole is formed in the bottom wall of the turnover device fixed enclosing and blocking body, the corona insect receiving piece is a trapezoidal hollow cavity with an upper opening and a lower opening, the upper opening of the corona insect receiving piece is connected with the downward-sliding through hole, and the, the corona insect gliding device comprises a corona insect gliding pipe, a corona insect gliding driving assembly, a spiral gliding assembly, a corona insect gliding driving assembly and a corona insect gliding driving assembly, wherein the spiral gliding assembly is arranged in a spiral gliding fixing enclosure; the spiral lower sliding assembly comprises a spiral rotating rod and a lower sliding rotating shaft, the spiral rotating rod is rotatably arranged on the inner side wall of the spiral lower sliding fixing enclosure, the spiral rotating rod is provided with flexible spiral blades, and the lower sliding rotating shaft penetrates through the spiral lower sliding fixing enclosure and is connected with the spiral rotating rod; the gliding driving assembly comprises a gliding motor placing cavity and a gliding motor, the gliding motor placing cavity is formed in the end of the spiral gliding fixed enclosing barrier, the gliding motor placing cavity is an arc-shaped hollow cavity, the gliding motor is arranged in the gliding motor placing cavity, and the output end of the gliding motor is connected with the gliding rotating shaft.

7. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the insect observation device preparation case is the setting of rectangle cavity, the chamber is placed to the suction fan and is less than the collosol shaping foaming device of blowing far away and places the chamber, the control button includes switch button, upset button, foaming button, shelters from button and parcel button.

8. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the insect crawling one-way channel is a rectangular cavity with two open ends, and an attracting source is arranged at one end, close to the adjustable insect inducing single grabbing corona turnover mechanism, of the insect crawling one-way channel.

9. The insect self-contained viewing anatomical transition box processing apparatus of claim 1, further comprising: the insect observation device loading box is a rectangular hollow cavity, a package downward sliding opening is formed in the upper wall of the insect observation device loading box, a discharge door is arranged on the side wall of the insect observation device loading box, and a discharge handle is arranged on the discharge door.

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