CN212212402U - Automatic feeding device for tenebrio molitor breeding and tenebrio molitor breeding system - Google Patents

Abstract

The utility model discloses an automatic throw edible device for yellow meal worm is bred, including being close to the track subassembly that yellow meal worm breeding area arranged, be equipped with mobilizable dolly on the track subassembly, be equipped with the food on the dolly and fight, send edible subassembly and throw edible tube subassembly, send edible subassembly intercommunication between the food is fought and is thrown edible tube subassembly in order to be used for carrying the foodstuff in fighting to throwing edible tube subassembly, throw edible tube subassembly and include many towards the horizontal edible pipe of throwing who establishes in yellow meal worm breeding area top, many the entry ends of throwing the esophagus all simultaneously with send edible subassembly intercommunication, many lengths of throwing the esophagus differ, so that many throw edible tube exit ends and evenly arrange in yellow meal worm breeding area top in order to be used for evenly throwing the food when the dolly removes. The utility model also discloses a yellow mealworm farming systems. The utility model has the advantages of convenient operation is swift, intelligent degree is high, throw edible efficient, throw edible even, can greatly reduced artifical intensity of labour, the automatic farming systems of adaptation that can be fine.

Description

Automatic feeding device for tenebrio molitor breeding and tenebrio molitor breeding system

Technical Field

The utility model mainly relates to insect aquaculture equipment field, concretely relates to an automatic feeding device for yellow mealworm is bred, still relate to a yellow mealworm farming systems.

Background

Yellow mealworm is a species of Insecta, Coleoptera, Papilionaceae and Trionychus, commonly called bread worm, and is the most ideal feed insect for artificial breeding. The larvae of the yellow mealworm contain various saccharides, amino acids, vitamins, hormones, enzymes and mineral substances such as phosphorus, iron, potassium, sodium, calcium and the like besides high crude protein and fat content, have high nutritional value, can be directly used as living animal protein feeds for feeding frogs, turtles, scorpions, centipedes, ants, high-quality fishes, appreciative birds, medicinal animals, precious fur animals, rare livestock and poultry and the like, can be used in the industries of food, health products, cosmetics and the like after being processed, and is considered as a 'treasure house of protein feeds' due to the fact that the protein nutritional ingredients are high in various living animal protein feeds.

The life cycle of the yellow mealworms is divided into four parts of eggs, larvae, pupae and adults, the cultivation of the yellow mealworms starts from the eggs, the yellow mealworms can be used for raising commercial products such as pets after the yellow mealworms grow into mature larvae, and the pupae and the adults are used as reserved eggs to be cultivated in the next batch. In the process of larva breeding and growing, the volume of the larva is gradually increased, so that the breeding area of the larva needs to be continuously increased to ensure that the breeding density of the larva is within a certain range. Meanwhile, the insect feces are generated in the growth process, and the insect skin is sloughed for multiple times along with the growth, which also needs to be separated in time, because the separated insect feces and insect skin can be used for other commercial production, for example, the insect feces is prepared into fertilizer, the insect skin is prepared into medicine, and the commercial value is generated in time; and secondly, if the separation is not carried out, the culture environment and the culture area are influenced, and the growth of the culture medium is further influenced. Meanwhile, in the breeding process, larvae with different insect ages need to be fed. The yellow mealworms need to be fed with strong food, but the food searching performance is very poor, so that the feeding needs to be uniform and in place, each breeding area needs to have food, and the yellow mealworms in each area in the same batch can be effectively ensured to grow uniformly. In the prior art, the artificial breeding is carried out by utilizing individual breeding pots or breeding boxes, and the feeding is also carried out artificially. This has the following technical problems:

firstly, because the number of the culture pots or culture boxes is large, the manual feeding mode causes great labor intensity and the feeding is very hard.

Secondly, the working efficiency of manual feeding is extremely low, errors can occur due to the large number of the yellow mealworms, and a certain breeding pot or a breeding box is omitted, so that the bred yellow mealworms die.

And thirdly, the habits of each feeding worker are inconsistent, and the feeding hand feeling of the same worker is inconsistent, so that the feeding uniformity and the feeding accuracy are extremely poor. Too much food is thrown in some areas, so that the food is long in retention time and goes bad and is wasted; the yellow mealworms in the same batch are not uniform enough in growth due to too little feeding in some areas; even dead insects appear, which seriously affects the subsequent commercial use.

And fourthly, the intelligent degree of manual feeding is low, and the automatic feeding device cannot be adapted to automatic breeding equipment. If a set of automatic culture system is designed aiming at the existing artificial culture mode, the culture efficiency is improved, and then the existing artificial feeding mode is taken as an indispensable feeding ring in the culture operation, and the existing artificial feeding mode cannot meet the requirement of the automatic culture operation.

SUMMERY OF THE UTILITY MODEL

The utility model solves the technical problem that: to the problems existing in the prior art, the automatic feeding device for the yellow mealworm cultivation is convenient and quick to operate, high in intelligent degree, high in feeding efficiency, even in feeding, capable of greatly reducing the labor intensity of workers and well adapting to the automatic cultivation system, and the yellow mealworm cultivation system is further provided.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides an automatic throw edible device for tenebrio molitor is bred, includes the track subassembly that is close to tenebrio molitor breeding area and arranges, be equipped with mobilizable dolly on the track subassembly, be equipped with on the dolly and eat fill, send edible subassembly and throw edible tube subassembly, send edible subassembly intercommunication between eating fill and throwing edible tube subassembly in order to be used for carrying the foodstuff in fighting to throwing edible tube subassembly, throw edible tube subassembly and include many towards the horizontal edible pipe of throwing who establishes in tenebrio molitor breeding area top, many the entry end of throwing the esophagus all communicates with sending edible subassembly simultaneously, many throw the length of esophagus differ so that many throw edible tube exit ends and evenly arrange in tenebrio breeding area top in order to be used for evenly throwing the food when the dolly removes.

As a further improvement, the food feeding assembly comprises a driving piece, a feeding piece and a hollow feeding pipe, the middle end of the feeding pipe is provided with a feeding port, the feeding port is used for communicating with the discharge port of the food hopper, the head end of the feeding pipe is communicated with the food feeding pipe assembly, the feeding piece is arranged in the feeding pipe, the driving piece is arranged at the tail end of the feeding pipe and is connected with the feeding piece, the feeding piece is used for driving the feeding piece to move in the feeding pipe so as to convey food materials entering the feeding pipe from the food hopper to the food feeding pipe assembly.

As a further improvement of the utility model, the driving piece includes the rotating electrical machines, the pay-off piece includes spiral auger stem, the rotating electrical machines drive spiral auger stem in conveying pipe internal rotation motion in order to carry out the foodstuff and carry.

As a further improvement, be equipped with lift drive assembly and mounting platform on the dolly, the food is fought and is sent the edible subassembly to all install on mounting platform, lift drive assembly install between travelling car and mounting platform, be used for the drive to eat fight, send the edible subassembly and throw the edible tube subassembly oscilaltion, in order to evenly throw edible, carry out not high yellow mealworm breed district.

As a further improvement of the utility model, many the entry tip of throwing the esophagus is all entangled fixedly by a articulated pipe simultaneously, the articulated pipe is installed on sending the outlet end of eating the subassembly through vertical rotation axis is articulated, in order to be used for making many to throw the horizontal rotation of esophagus and fold up when the operation is eaten to the non-throwing.

As a further improvement of the present invention, the outlet end of the feeding assembly is provided with a folding rotating motor, and the folding rotating motor is connected with the rotating shaft and used for driving the plurality of feeding pipes to horizontally rotate for folding.

As a further improvement, the lift drive assembly includes vertical arrangement's lift cylinder, the lift cylinder is fixed in on the dolly, the drive end and the mounting platform of lift cylinder are connected.

As a further improvement, the lift drive assembly includes X shape lift folding leg and horizontal push cylinder, the upper end of X shape lift folding leg with be connected with mounting platform, and the lower extreme can be spacing to slide on the dolly, horizontal push cylinder is used for promoting the lower extreme horizontal slip of X shape lift folding leg in order to realize going up and down.

As a further improvement, the lift drive assembly includes the vertical lifting frame who is fixed in on the dolly, mounting platform is spacing in lifting frame with liftable ground, lifting frame's top is equipped with the rotation drive axle that the level was arranged, mounting platform passes through rope and rotation drive axle fixed connection more than two, when rotation drive axle is rotatory the rope progressively is encircleed on the rotation drive axle, in order to be used for progressively pulling up mounting platform.

A flour weevil culture system comprises more than two flour weevil culture transmission devices, wherein one side of each of the more than two flour weevil culture transmission devices is provided with the automatic feeding device for flour weevil culture.

Compared with the prior art, the utility model has the advantages of:

firstly, the utility model discloses an automatic throw edible device through setting up mobilizable dolly, eating fill, send edible subassembly and throw edible pipe subassembly, can realize automatic throw edible operation, has stopped the people among the prior art completely and has fed some technical problem that food brought, not only greatly reduced artifical intensity of labour, saved the human cost, throw edible work efficiency moreover high, can not appear omitting the mistake.

Secondly the utility model discloses an automatic throw edible device, through setting up special edible pipe subassembly of throwing, the foodstuff that is sent edible subassembly to carry will drop from the exit end that the esophagus was thrown to the root, and then even distribution that drops is on yellow mealworm culture area. In the feeding process, the trolley also moves slowly from left to right, so that the transverse and longitudinal uniform feeding on the whole conveying belt device is realized. Meanwhile, as the pipe diameters of the feeding pipes are all the same, the foodstuff dropped from each feeding pipe is also uniform and consistent. The technical problem of poor feeding uniformity caused by manual feeding in the prior art is completely solved. The uniform feeding not only can not cause food waste, but also can excellently ensure that the yellow mealworms in the same batch grow uniformly, thereby effectively ensuring the subsequent commercial use.

Thirdly, the utility model discloses an automatic throw edible device, intelligent degree is high, strong adaptability, the automatic farming systems's of adaptation demand that can be splendid.

Fourth, the utility model discloses an automatic throw edible device is equipped with lift drive assembly and mounting platform on the dolly, eats the fill and send edible subassembly to all install on mounting platform, can evenly throw edible to the yellow mealworm breed district of co-altitude. Make this device can also deal with the mealworm breeding device of multilayer for intelligent degree is higher, and adaptability is stronger.

Drawings

Fig. 1 is a schematic diagram of the structure principle of the automatic feeding device of the utility model when used in cooperation with the yellow mealworm cultivation equipment.

Fig. 2 is a schematic view of the three-dimensional structure of the automatic feeding device of the present invention.

Fig. 3 is a schematic view of the structure principle of the automatic feeding device of the present invention when opened for feeding.

Fig. 4 is a schematic view of the structure principle of the automatic feeding device of the present invention after feeding and folding.

Illustration of the drawings:

1. a track assembly; 2. a trolley; 21. a food bucket; 22. a feeding assembly; 221. a drive member; 222. a feeding member; 223. a feed pipe; 23. a feeding tube assembly; 231. administering to the esophagus; 24. a lift drive assembly; 25. mounting a platform; 26. the tube is hinged.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and drawings.

As shown in figures 1 to 4, the utility model provides an automatic feeding device for tenebrio molitor is bred, including being close to the track subassembly 1 that the tenebrio molitor breeding area arranged, track subassembly 1 includes two parallel arrangement's spacing slide rail. The track assembly 1 is provided with a movable trolley 2, namely the trolley 2 can translate along the track assembly 1. In this embodiment, the car 2 is provided with a power system, and an AGV car in the prior art can be used. Dolly 2 is equipped with the food and fights 21, send edible subassembly 22 and throw edible pipe subassembly 23, send edible subassembly 22 to communicate between food and fight 21 and throw edible pipe subassembly 23, in order to be used for carrying the foodstuff in the food is fought 21 to throwing edible pipe subassembly 23, throw edible pipe subassembly 23 and include many towards the horizontal edible pipe 231 that throws of yellow meal worm breed district top, many inlet ends of throwing esophagus 231 all communicate with sending edible subassembly 22 simultaneously, many lengths of throwing esophagus 231 differ, so that many throw esophagus 231 exit ends evenly arrange in yellow meal worm breed district top in order to be used for when dolly 2 removes evenly throw the food. The specific implementation principle is as follows:

as shown in figure 1, an automatic flour weevil breeding system is assumed to be provided, the system is provided with A, B, C, D levels of four conveyor belt devices from left to right, each level is provided with a plurality of conveyor belts, and each level is used for breeding eggs, larvae, pupae and imagoes of the flour weevil correspondingly. On one side of the system, a track assembly 1 is provided, on which track assembly 1 a movable trolley 2 is provided. As shown in fig. 3, fig. 3 only shows a certain layer of the conveyor belt in the B-level conveyor belt device, the feeding tube assembly 23 includes a plurality of feeding tubes 231 horizontally disposed above the tenebrio molitor breeding area (in this embodiment, the layer of conveyor belt), the inlet ends of the plurality of feeding tubes 231 are all simultaneously communicated with the feeding assembly 22, and the lengths of the plurality of feeding tubes 231 are different, so that the outlet ends of the plurality of feeding tubes 231 are uniformly arranged above the tenebrio molitor breeding area. In this embodiment, the distance between the outlet end of the longest feeding tube 231 and the outlet end of the second long feeding tube 231 is 5 cm, the distance between the outlet end of the second long feeding tube 231 and the outlet end of the third long feeding tube 231 is 5 cm, and so on, so that the outlet ends of the feeding tubes 231 are uniformly arranged above the tenebrio molitor breeding area.

When feeding is needed, the food hopper 21 is filled with food. Then the trolley 2 stops at the leftmost side of the yellow mealworm cultivation area, and the food conveying assembly 22 conveys the food in the food hopper 21 to the food feeding pipe assembly 23. At this time, the food material conveyed by the feeding assembly 22 will fall from the outlet ends of the feeding pipes 231, and then fall uniformly and distributed on the yellow mealworm cultivation area (in this embodiment, the conveying belt device). In the feeding process, the trolley 2 also moves slowly from left to right, so that the transverse and longitudinal uniform feeding on the whole conveying belt device is realized. Because the pipe diameters of the feeding pipes 231 are all the same, the food materials falling from the feeding pipes 231 are all uniform, the food discharging is smooth, and the food quantity is large. As long as the feeding tube assembly 23 stops running, each feeding tube 231 stops discharging and feeding, and the whole control process is convenient and quick. In this embodiment, this automatic throw edible device and whole automatic farming systems's central control module are connected, through input the time that wants to feed on the operation interface, moving speed, throw edible pipe assembly 23 running speed etc. just can form fine butt joint with automatic farming systems, fine satisfying the demand of automatic farming operation.

In other embodiments, it is assumed that the automatic breeding system is not provided, but a plurality of breeding pots or breeding boxes in the prior art, but the track assembly 1 is provided at one side of the plurality of breeding pots or breeding boxes, so that the plurality of breeding pots or breeding boxes can be automatically and uniformly fed.

Therefore, a set of technical functional groups is formed by mutually supporting and matching a plurality of technical characteristics and technical structures of the track assembly 1, the trolley 2, the food hopper 21, the food delivery assembly 22 and the plurality of food delivery pipes 231, and automatic translational food delivery can be ensured just by arranging the track assembly 1 and the trolley 2; just because the food hopper 21 and the food conveying assembly 22 are arranged, the uniform and continuous food supply towards a plurality of feeding pipes 231 can be ensured; just because set up many different lengths and throw esophagus 231, can guarantee that the foodstuff is even, the distribution that drops that lasts is on the yellow mealworm cultivation area. Through the special scientific design, the method has the following technical advantages:

firstly, the utility model discloses an automatic throw edible device through setting up mobilizable dolly 2, eating fill 21, send edible subassembly 22 and throw edible pipe subassembly 23, can realize automatic throw edible operation, has stopped the people among the prior art completely and has fed some technical problems that food brought, not only greatly reduced artifical intensity of labour, saved the human cost, throw edible work efficiency high moreover, can not appear omitting the mistake.

Secondly, the utility model discloses an automatic throw edible device through setting up special edible tube subassembly 23 of throwing, is sent the foodstuff that edible subassembly 22 carried to come and will drop from the export end that the esophagus 231 was thrown to the root, and then even distribution that drops is on yellow mealworm culture area. In the feeding process, the trolley 2 also moves slowly from left to right, so that the transverse and longitudinal uniform feeding on the whole conveying belt device is realized. Meanwhile, as the pipe diameters of the feeding pipes 231 are all the same, the foodstuff dropped from each feeding pipe 231 is also uniform and consistent. The technical problem of poor feeding uniformity caused by manual feeding in the prior art is completely solved. The uniform feeding not only can not cause food waste, but also can excellently ensure that the yellow mealworms in the same batch grow uniformly, thereby effectively ensuring the subsequent commercial use.

Thirdly, the utility model discloses an automatic throw edible device, intelligent degree is high, strong adaptability, the automatic farming systems's of adaptation demand that can be splendid.

As shown in fig. 2, further, in the preferred embodiment, the food feeding assembly 22 includes a driving member 221, a feeding member 222 and a hollow feeding pipe 223, a feeding inlet is opened at the middle end of the feeding pipe 223 for communicating with the discharging outlet of the food hopper 21, the head end of the feeding pipe 223 communicates with the food feeding pipe assembly 23, the feeding member 222 is disposed in the feeding pipe 223, the driving member 221 is disposed at the tail end of the feeding pipe 223 and connected with the feeding member 222 for driving the feeding member 222 to move in the feeding pipe 223 so as to convey the food materials entering the feeding pipe 223 from the food hopper 21 to the food feeding pipe assembly 23.

As shown in fig. 2, in the present embodiment, the driving member 221 includes a rotating motor, and the feeding member 222 includes a spiral screw rod (threads of the spiral screw rod are visible in fig. 2), and the rotating motor drives the spiral screw rod to rotate in the feeding tube 223 for feeding foodstuff. The food feeding device has the advantages of simple and compact structure, continuous and uniform food feeding, strong food feeding power and capability of well ensuring that food materials falling from the feeding pipes 231 are uniform and consistent.

In other embodiments, the driving member 221 may be configured as a horizontal telescopic cylinder, the feeding member 222 includes a material pushing rod disposed in the feeding tube 223, a protruding pushing plate is disposed at a front end of the material pushing rod, a rear end of the material pushing rod is connected to a driving end of the horizontal telescopic cylinder, and the horizontal telescopic cylinder drives the material pushing rod to move in the feeding tube 223 in a telescopic manner so as to push the foodstuff into each feeding tube 231.

Further, in the preferred embodiment, the trolley 2 is provided with a lifting driving assembly 24 and a mounting platform 25, the food hopper 21 and the food feeding assembly 22 are both mounted on the mounting platform 25, and the lifting driving assembly 24 is mounted between the moving trolley 2 and the mounting platform 25 and used for driving the food hopper 21, the food feeding assembly 22 and the food feeding pipe assembly 23 to lift up and down so as to feed yellow mealworm cultivation areas with different heights uniformly. Through the special arrangement, the device can also cope with a multi-layer tenebrio molitor breeding device (namely a multi-layer conveying belt) shown in fig. 1, so that the intelligent degree is higher, and the adaptability is stronger. When the feeding tube assembly 23 goes up and down, in order to prevent the feeding tube assembly 23 from blocking the feeding transmission belts of the upper and lower layers, the feeding tube assembly 23 may be set in a foldable manner as described below, or the feeding transmission belts of each layer may be set in a horizontally retractable and translatable manner, which is not repeated herein.

Further, in the preferred embodiment, the entrance ends of the feeding tubes 231 are all simultaneously fixed by a hinged pipe 26, and the hinged pipe 26 is hinged to the exit end of the feeding assembly 22 through a vertical rotating shaft for folding the feeding tubes 231 by rotating horizontally during non-feeding operation. For example, after feeding the flour weevil breeding conveyor on the lowest layer is completed, the feeding pipes 231 may be horizontally rotated to be folded (the folded state shown in fig. 4), then lifted to the flour weevil breeding conveyor on the second layer, and then the feeding pipes 231 may be horizontally rotated to be opened (the opened state shown in fig. 3), and then feeding on the second layer is performed.

Further, in the preferred embodiment, the exit end of the feeding assembly 22 is provided with a folding rotary motor (not shown), which is connected to the rotary shaft for driving the feeding tubes 231 to rotate horizontally for folding, so as to achieve automatic folding and unfolding.

As shown in fig. 2, in the present embodiment, the lifting driving assembly 24 includes an X-shaped lifting folding frame and a horizontal pushing cylinder (not shown), the upper end of the X-shaped lifting folding frame is connected with the mounting platform 25 (in the present embodiment, it is slidably hinged), and the lower end thereof can slide on the trolley 2 in a limited manner, and the horizontal pushing cylinder is used for pushing the lower end of the X-shaped lifting folding frame to slide horizontally to achieve lifting.

Of course, in other embodiments, the lift drive assembly 24 includes a vertically disposed lift cylinder secured to the cart 2, the drive end of the lift cylinder being connected to the mounting platform 25. Or in other preferred embodiments, the lifting driving assembly 24 includes a lifting frame vertically fixed on the trolley 2, the mounting platform 25 is limited in the lifting frame in a lifting manner, a horizontally arranged rotating driving shaft is arranged at the top of the lifting frame, the mounting platform 25 is fixedly connected with the rotating driving shaft through more than two ropes, and when the rotating driving shaft rotates, the ropes are gradually wound on the rotating driving shaft to gradually pull up the mounting platform 25.

The utility model also provides a flour weevil farming systems, including the flour weevil farming transmission device more than two, one side that transmission device was bred to the flour weevil more than two is equipped with as above arbitrary the automation that is used for the flour weevil to breed throw edible device.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, a plurality of modifications and decorations without departing from the principle of the present invention should be considered as the protection scope of the present invention.

Claims (10)

1. An automatic feeding device for yellow mealworm cultivation is characterized by comprising a track assembly (1) which is arranged close to a yellow mealworm cultivation area, a movable trolley (2) is arranged on the track component (1), a food bucket (21), a food conveying component (22) and a food feeding pipe component (23) are arranged on the trolley (2), the food conveying component (22) is communicated between the food hopper (21) and the food feeding pipe component (23) and is used for conveying food in the food hopper (21) into the food feeding pipe component (23), throw edible pipe subassembly (23) and include many towards transversely throwing esophagus (231) that yellow meal worm cultivated area top was established, many the entry end of throwing esophagus (231) all communicates with sending edible subassembly (22) simultaneously, many the length of throwing esophagus (231) differs so that many throw esophagus (231) exit end and evenly arrange in yellow meal worm cultivated area top in order to be used for throwing the food evenly when dolly (2) remove.

2. The automatic feeding device for tenebrio molitor breeding according to claim 1, wherein the feeding assembly (22) comprises a driving member (221), a feeding member (222) and a hollow feeding pipe (223), a feeding port is formed in the middle end of the feeding pipe (223) and is used for being communicated with a discharging port of the feeding hopper (21), the head end of the feeding pipe (223) is communicated with the feeding pipe assembly (23), the feeding member (222) is arranged in the feeding pipe (223), the driving member (221) is arranged at the tail end of the feeding pipe (223) and is connected with the feeding member (222) and is used for driving the feeding member (222) to move in the feeding pipe (223) so as to convey foodstuff entering the feeding pipe (223) from the feeding hopper (21) to the feeding pipe assembly (23).

3. The automatic feeding device for tenebrio molitor breeding according to claim 2, wherein the driving member (221) comprises a rotary motor, the feeding member (222) comprises a spiral auger rod, and the rotary motor drives the spiral auger rod to rotate in the feeding pipe (223) for feeding foodstuff.

4. The automatic feeding device for the tenebrio molitor breeding according to claim 1, wherein a lifting driving assembly (24) and a mounting platform (25) are arranged on the trolley (2), the food hopper (21) and the food feeding assembly (22) are both mounted on the mounting platform (25), and the lifting driving assembly (24) is mounted between the moving trolley (2) and the mounting platform (25) and used for driving the food hopper (21), the food feeding assembly (22) and the food feeding pipe assembly (23) to lift up and down so as to feed tenebrio molitor breeding areas with different heights uniformly.

5. The automatic feeding device for yellow mealworm cultivation as claimed in claim 1, wherein the inlet ends of the feeding pipes (231) are all simultaneously sleeved and fixed by a hinged pipe (26), and the hinged pipe (26) is hinged and installed on the outlet end of the feeding assembly (22) through a vertical rotating shaft for horizontally rotating the feeding pipes (231) for folding when not feeding.

6. The automatic feeding device for yellow mealworm cultivation as claimed in claim 5, wherein the outlet end of the feeding assembly (22) is provided with a folding rotating motor connected with a rotating shaft for driving a plurality of feeding pipes (231) to rotate horizontally for folding.

7. The automatic feeding device for tenebrio molitor breeding according to claim 4, wherein the lifting driving assembly (24) comprises a vertically arranged lifting cylinder fixed on the trolley (2), and a driving end of the lifting cylinder is connected with the mounting platform (25).

8. The automatic feeding device for the yellow mealworm cultivation in claim 4, wherein the lifting driving assembly (24) comprises an X-shaped lifting folding frame and a horizontal pushing cylinder, the upper end of the X-shaped lifting folding frame is connected with the mounting platform (25), the lower end of the X-shaped lifting folding frame can slide on the trolley (2) in a limiting way, and the horizontal pushing cylinder is used for pushing the lower end of the X-shaped lifting folding frame to slide horizontally to achieve lifting.

9. The automatic feeding device for tenebrio molitor breeding according to claim 4, wherein the lifting driving assembly (24) comprises a lifting frame vertically fixed on the trolley (2), the mounting platform (25) is limited in the lifting frame in a lifting manner, a horizontally arranged rotating driving shaft is arranged at the top of the lifting frame, the mounting platform (25) is fixedly connected with the rotating driving shaft through more than two ropes, and the ropes are gradually wound on the rotating driving shaft when the rotating driving shaft rotates so as to gradually pull up the mounting platform (25).

10. A tenebrio molitor breeding system comprises more than two tenebrio molitor breeding and conveying devices, wherein the automatic feeding device for tenebrio molitor breeding and conveying devices as claimed in any one of claims 1 to 9 is arranged on one side of the more than two tenebrio molitor breeding and conveying devices.

Images