CN210671746U

CN210671746U - Full-automatic black soldier fly raising equipment

Info

Publication number: CN210671746U
Application number: CN201921044197.3U
Authority: CN
Inventors: 吴孟昆; 陈淑敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-07-05
Filing date: 2019-07-05
Publication date: 2020-06-05
Anticipated expiration: 2029-07-05

Abstract

The utility model discloses a full-automatic heisui river horsefly raising equipment contains: a containing body provided with a feeding space; a temperature detector for detecting a temperature value in the feeding space and outputting a stirring signal when the temperature value is higher than a stirring standard value; a stirring unit is provided with a stirring blade which extends into the feeding space and is driven to rotate by a power source; and the control unit is respectively in signal connection with the temperature detector and the stirring unit, and controls the power source of the stirring unit to start after receiving the stirring signal so as to drive the stirring blade to start rotating. Utilize this stirring vane can break up the organic matter in this raising space for larva and organic matter can be even contact with the outside air is comprehensive, in order to help its heat dissipation cooling.

Description

Full-automatic black soldier fly raising equipment

Technical Field

The utility model discloses an utilize stirring unit, can be fast and even raise the device of raising that the space cooled down to black soldier fly.

Background

The black soldier fly is a saprophagous insect in the family of soldier fly, and the larva of the black soldier fly eats rotten organic matters such as kitchen residues, livestock and poultry excrement, animal and plant corpses and the like, is an important part in a natural clastic food chain, is used for decomposition, is also good protein, can be used for feeding animals such as chicken and pigs and the like, and is widely used for resource utilization and serving as a feed insect recently due to the characteristics of rapid propagation, large biomass, wide feeding property, high absorption and conversion rate, easiness in management, low feeding cost, good animal palatability and the like.

With the breeding research on hermetia illucens, the habit of the hermetia illucens is gradually known, and the life cycle of the hermetia illucens is about 28 days: the egg period is about 3-4 days, the larva period is about 18 days, and after the pupa period of about 4 days, the black soldier fly can emerge into an adult, and the adult black soldier fly only remains about 5 days of life. The black soldier fly larvae have six instars, the food intake is increased along with the increase of the instars, and before the black soldier fly larvae grow into the aged larvae and are to be pupated, the black soldier fly larvae leave the foodstuff matrix to find dry and cool parts for pupation, except that the black soldier fly likes the dry and cool parts such as gaps and the like in the pre-pupation period, the black soldier fly larvae are also prevented from being eaten as food by companions after the pupation, and after the pupae eclosion becomes an adult, only the juice on the food water and the leaves is taken, and the female flies lay eggs after the flying mate mating is completed.

At present, breeding of hermetia illucens is carried out in a simple plastic container, edible biological waste materials of the hermetia illucens, such as kitchen residues or bean dregs, are placed, the water content is controlled to be 60% -70%, the incubated hermetia illucens can eat the food, and then the human collected hermetia illucens growing to a prepupation stage are used as livestock feed.

In the prior art, an artificial breeding device is adopted, such as a new patent No. M569133, "biological power ecological cycle box", which is issued by taiwan in china 11/1/2018, and discloses: the nutrient layer comprises at least a bottom layer and a first layer body, wherein the first layer body is stacked above the bottom layer and is provided with a bearing area, the bottom of the bearing area is provided with a net body, the bottom layer is provided with a nutrient collecting area, and the nutrient collecting area corresponds to the net body; at least one organic substance and at least one decomposer are placed in the bearing area of the first layer body, the decomposer is used for disturbing organic substances such as kitchen waste and the like and decomposing the organic substances into plant nutrients rich in various amino acids, enzymes and active substances, the plant nutrients are provided for the bearing area, local nutrients fall on the bottom layer through the net body, a user can recycle the nutrients, such as earthworm cast, earthworm liquid fertilizer and the like, the problem caused by waste organic substances can be effectively solved, and the main advantage of the environment is improved through natural circulation.

The former patent can be used to dispose organic matters such as kitchen waste and other decomposed organic matters such as earthworm and black soldier fly in the organic matter collecting region of the first layer body, so as to achieve the effect of decomposing the waste organic matters such as household kitchen waste. However, in summer, the larvae of hermetia illucens generate high temperature when decomposing organic matters and fermenting, so that the larvae die thermally or the growth of the larvae is influenced. In winter, the temperature is too low, which can cause the larva to freeze or affect the growth, so it is not ideal for use.

Therefore, there is a new patent No. 108202150 entitled "feeding device for black soldier fly" applied by taiwan in china in 2.20.2.2019, which discloses: comprises the following steps: a containing body provided with a feeding space; at least one heat exchange tube fixed on the containing body, wherein the heat exchange tube passes through the feeding space, and two ends of the heat exchange tube are respectively provided with an input end and an output end. And inputting a fluid into the input end, and outputting the fluid from the output end after the fluid exchanges heat with the larvae or organic matters in the feeding space. Thereby the temperature in the feeding space can be rapidly reduced or increased to help the growth of the larva or the fermentation of organic matters.

This patent prior art utilizes the heat exchange mode, and the quick structure of raising the temperature is raised to raising the space and cooling down. But because hermetia illucens larva and organic matter mix together, in addition contain moisture and make it cohere into the form of group, consequently can cause near hot exchange tube's organic matter can cool down rapidly, and the organic matter of keeping away from hot exchange tube then cooling effect is not good to it is uneven to lead to holistic heat dissipation, and can seriously influence hermetia illucens larva's growth. And the fluid flow is started for a long time to carry out heat exchange, so that a large amount of energy is consumed.

Therefore, in view of the above disadvantages of the black soldier fly breeding device, the utility model provides a full-automatic black soldier fly breeding device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic black soldier fly raising equipment, through temperature detector, stirring unit and the signal connection of the control unit, quick even heat dissipation cooling in the space is raised in the automatic control to reduce the power consumption of temperature regulation machine by a wide margin, can effectual energy saving, and help the administrator to know the temperature state of black soldier fly raising equipment rapidly.

A full-automatic black soldier fly raising equipment includes: a containing body provided with a feeding space; the temperature detector is fixed on the accommodating body so as to detect a temperature value in the feeding space, and outputs a stirring signal when the temperature value is higher than a stirring standard value; the stirring unit is fixed on the accommodating body and is provided with a stirring blade which extends into the feeding space and is driven to rotate by a power source; and the control unit is respectively in signal connection with the temperature detector and the stirring unit, and is used for controlling the power source of the stirring unit to start after receiving the stirring signal so as to drive the stirring blade to start rotating.

The control unit is used for inputting and setting the stirring standard value, and the stirring standard value is set to be 27 ℃.

The stirring unit is fixed at the lower position or the upper position of the accommodating body, the stirring blade extends into the bottom or the top of the feeding space, and the stirring blade is provided with a single blade or a plurality of blades.

The stirring blade is provided with a shaft rod in an extending mode, the other end of the shaft rod is provided with a first belt pulley, a first belt is sleeved on the first belt pulley, and the first belt is driven to rotate by the power source.

The stirring blade is provided with a plurality of accommodating bodies and a plurality of stirring blades, the other end of the shaft rod of each stirring blade is respectively provided with a second belt pulley, transmission is respectively sleeved between every two adjacent second belt pulleys by a second belt, and the power source enables the stirring blades to synchronously rotate through mutual transmission of the first belt pulley, the first belt, the second belt pulley and the second belt.

The stirring blade is provided with a shaft rod in an extending mode, and the other end of the shaft rod is directly connected with the power source for transmission.

The control unit is provided with a sending unit for sending the stirring signal to a remote handheld electronic device, and a mobile application program is installed on the handheld electronic device for receiving the stirring signal, directly controlling the stirring unit to be started or closed through the handheld electronic device, and remotely inputting the stirring standard value.

Further be equipped with a cold and hot exchange tube and a temperature regulation machine, cold and hot exchange tube is fixed in the holding body, cold and hot exchange tube passes through raise the space, again two ends of cold and hot exchange tube are equipped with an input and an output respectively, the temperature regulation machine with the input reaches the output is connected to supply a circulation transport fluid, the control unit signal connection to the temperature regulation machine, the temperature detector and in when the temperature value is higher than a cooling standard value, export a cooling signal, the control unit in receive behind the cooling signal automatic control the temperature regulation machine begins to start.

The control unit is used for inputting and setting the temperature reduction standard value, and the temperature reduction standard value is set to be 33 ℃.

The control unit is provided with a sending unit, so that the cooling signal is transmitted to a remote handheld electronic device, a mobile application program is installed on the handheld electronic device to receive the cooling signal, the temperature regulator is directly controlled to be started or closed through the handheld electronic device, and the cooling standard value is remotely input.

Above-mentioned stirring unit sets up in a power pressure cylinder, a slide rail is located to power pressure cylinder, again power pressure cylinder is equipped with a flexible depression bar, the one end of flexible depression bar combine in the power supply, thereby it is in a plurality of the holding body the temperature detector is detected raise in the space the temperature value is higher than the stirring standard value, then control power pressure cylinder in slide rail is slided to and is gone up the position department of raising the space, borrows again by flexible depression bar stretches out, in order to drive stirring vane removes to raising the space in the stirring heat dissipation.

The bottom of the accommodating body is provided with an opening or a plurality of openings which are communicated to the feeding space, the opening position is provided with a valve or a plurality of valves, the bottom of the feeding space is planar or funnel-shaped, and the periphery of the opening of the accommodating body is inwards bent to be provided with a blocking part.

According to the technical characteristics, the following effects can be achieved:

1. when the temperature value in the feeding space is detected to be higher than a stirring standard value (such as 27 ℃), the power source of the stirring unit is automatically controlled to start to drive the stirring blades to rotate, so that the larvae and the organic matters can be uniformly dispersed and are in full contact with the outside air to help the larvae and the organic matters to dissipate heat and cool.

2. When the temperature value in the feeding space is detected to be higher than a temperature reduction standard value (such as 33 ℃), the temperature regulator is automatically controlled to start, and low-temperature fluid is input to pass through the cold-heat exchange pipe and can be in contact with larvae and organic matters in the feeding space to carry out heat exchange so as to take away heat energy generated by the larvae and the organic matters, so that the temperature in the feeding space can be rapidly reduced, the energy consumption of the temperature regulator is greatly reduced, and energy can be effectively saved.

3. Further can be with stirring signal and cooling signal, convey long-range handheld electronic device to directly start or close temperature regulation machine and stirring unit with manual mode control through this handheld electronic device, and remote input stirring standard value and cooling standard value can help the administrator to know the temperature status of black soldier fly raising equipment rapidly.

Drawings

Fig. 1 is a perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 3 is a schematic usage diagram of the first embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a third embodiment of the present invention.

Fig. 6 is a schematic structural view of a fourth embodiment of the present invention.

Fig. 7 is a schematic structural view of a fifth embodiment of the present invention.

[ notation ] to show

1 accommodating body 11 feeding space

12 opening 13 valve

14 blocking part 2 cold-heat exchange tube

21 input terminal 22 output terminal

3 temperature regulator 4 temperature detector

5 stirring blade of stirring unit 51

52 shaft 53 first pulley

54 first belt 55 power source

6 control unit 61 transmitting unit

62 hand-held electronic device 1A containing body

2A cold and hot exchange tube 3A temperature regulator

4A temperature detector 5A stirring unit

51A stirring vane 52A shaft lever

53A first pulley 54A first belt

55A power source 56A second pulley

57A second belt 6A control unit

1B accommodating body 11B feeding space

2B cold-hot exchange tube 3B temperature regulator

4B temperature detector 5B stirring unit

51B stirring blade 6B control unit

1C accommodating body 2C heat exchange tube

4C temperature detector of 3C temperature regulator

5C stirring unit 52C shaft

55C power source 6C control unit

1D accommodating body 11D feeding space

5D stirring unit of 4D temperature detector

51D stirring blade 55D power source

7D power cylinder 71D slide rail

72D telescoping strut F organic.

Detailed Description

By integrating the technical characteristics, the main efficacy of the full-automatic black soldier fly raising equipment of the utility model can be clearly shown in the following embodiments.

Referring to fig. 1 and 2, a first embodiment of the present invention includes: the holding body 1, cold and hot exchange tube 2, thermoregulator 3, temperature detector 4, stirring unit 5 and control unit 6, wherein:

the accommodating body 1 is provided with a circular feeding space 11, larvae of hermetia illucens can be fed in the feeding space 11, and organic matters such as kitchen residue or animal excrement and the like which can be eaten are put in the feeding space. An opening 12 is formed at the bottom of the accommodating body 1 and penetrates the feeding space 11, and a valve 13 or a plurality of valves 13 are arranged at the position of the opening 12, and the opening of the valve 13 can be controlled automatically or manually. The periphery of the opening of the accommodating body 1 is bent inward to form a blocking portion 14 to prevent the larva from climbing out of the breeding space 11. The bottom of the feeding space 11 is formed in a plane shape or a funnel shape.

A heat exchange tube 2 fixed to the accommodating body 1 and passing through the feeding space 11. The heat exchanger tubes 2 are arranged in a transverse row through the feeding space 11. Two ends of the heat exchange tube 2 are respectively provided with an input end 21 and an output end 22, the input end 21 and the output end 22 penetrate the outer edge of the accommodating body 1, so that a fluid is input from the input end 21, and is output from the output end 22 after the fluid exchanges heat with the larvae and the organic matters in the feeding space 11. The fluid may be a liquid or a gas.

The temperature regulator 3 is connected to the input end 21 and the output end 22 for circularly conveying the fluid for heat exchange.

The temperature detector 4 is fixed on the accommodating body 1 for detecting a temperature value in the feeding space 11, and outputting a stirring signal when the temperature value is higher than a stirring standard value, or outputting a cooling signal when the temperature value is higher than a cooling standard value.

And a stirring unit 5 fixed at a lower position of the accommodating body 1. The stirring unit 5 is provided with a stirring blade 51 extending into the bottom of the feeding space 11. The stirring blade 51 is extended to form a shaft 52, the other end of the shaft 52 is provided with a first belt pulley 53, the first belt pulley 53 is sleeved with a first belt 54, the first belt 54 is driven by a power source 55 to rotate, and the shaft 52 is connected with the stirring blade 51 to rotate in the feeding space 11 through the transmission of the first belt 54. The stirring blade 51 may have a single blade or a plurality of blades.

A control unit 6, which is respectively connected to the temperature regulator 3, the temperature detector 4 and the stirring unit 5 by signals, for automatically controlling the power source 55 of the stirring unit 5 to start up to drive the stirring blade 51 to rotate after receiving the stirring signal. And the control unit 6 automatically controls the temperature regulator 3 to start up after receiving the temperature-reducing signal, so as to output the fluid for heat exchange. The control unit 6 is also provided for inputting and setting the stirring standard value and the cooling standard value, wherein the stirring standard value is set to 27 ℃, and the cooling standard value is set to 33 ℃. The control unit 6 is further provided with a sending unit 61 for sending the stirring signal and the cooling signal to a remote handheld electronic device 62, and a mobile application program (APP) is installed on the handheld electronic device 62 for receiving the stirring signal and the cooling signal, and the temperature regulator 3 and the stirring unit 5 can be directly and manually controlled to be started or closed through the handheld electronic device 62, and the stirring standard value and the cooling standard value can be remotely input, so that a manager can be helped to quickly know the temperature state of the black soldier fly raising equipment.

When in use, as shown in fig. 3, a proper number of black soldier fly larvae can be placed in the feeding space 11 of the accommodating body 1, and organic matter F such as kitchen residue or animal waste which can be eaten by the larvae can be regularly placed in the feeding space for feeding the larvae, and the larvae and the organic matter F can be in contact with the heat exchange tube 2. By opening the valve 13, the larvae or the organic matter F can be discharged at any time. When the temperature is high in summer, the temperature regulator 3 may be a cooling machine for reducing the temperature in the feeding space 11. When the temperature is low in winter, the temperature regulator 3 can be a heater to increase the temperature in the feeding space 11, and the first embodiment of the present invention is mainly used for cooling in summer, so that the heater is not used. The first embodiment of the present invention is described with the cooling machine cooling the inside of the feeding space 11. Thus, when the organic matter F is fermented by decomposition of the larvae, high temperature is generated, causing the temperature in the rearing space 11 to rise. When the temperature detector 4 detects that the temperature value in the feeding space 11 is higher than the stirring standard value (27 ℃), it outputs the stirring signal. After receiving the stirring signal, the control unit 6 controls the power source 55 of the stirring unit 5 to start, so as to drive the stirring blade 51 to rotate. Utilize this stirring vane 51 can break up this organic matter F of bulk for this larva and this organic matter F can be even scatter, and with the comprehensive contact of external air, in order to help its heat dissipation cooling.

And when the temperature in the feeding space 11 continues to rise. When the temperature detector 4 detects that the temperature value in the feeding space 11 is higher than the standard temperature reduction value [ 33 ℃), it will output the temperature reduction signal. The control unit 6 controls the temperature adjusting machine 3 to start after receiving the temperature lowering signal, and the input end is not drawn with the low temperature fluid, so that the fluid can flow through the heat exchange tube 2 which is horizontally arranged in parallel, and can contact with the larva and the organic matter F in the rearing space 11 to exchange heat, so as to take away the heat energy generated by the larva and the organic matter F, and the rearing space 11 can be rapidly cooled. Meanwhile, the larvae and the organic matters F in the feeding space 11 can be fully and comprehensively contacted with the heat exchange tube 2 by means of the continuous rotation of the stirring blades 51, so that the heat dissipation and cooling of the larvae and the organic matters F are facilitated, the energy consumption of the temperature regulator 4 can be greatly reduced, and the energy is effectively saved. The heat energy after heat exchange can be taken away by the fluid, output through the output end 22, sent back to the temperature regulator 3 for heat dissipation, and then repeatedly and circularly conveyed for heat exchange, thereby continuously reducing the temperature of the feeding space 11. If the temperature of the feeding space 11 needs to be raised in winter, the temperature regulator 4 can be a heater, and the implementation mode is the same, and will not be described again.

Referring to fig. 4, a second embodiment of the present invention includes: the container body 1A, the heat exchange tube 2A, the temperature regulator 3A, the temperature detector 4A, the stirring unit 5A and the control unit 6A. The difference between the second embodiment and the first embodiment of the present invention is only that a plurality of accommodating bodies 1A and a plurality of stirring blades 51A are provided, and the other end of the shaft 52A of each stirring blade 51A is provided with a first belt pulley 53A and a second belt pulley 56A, and between each adjacent second belt pulleys 56A, the transmission can be respectively set by a second belt pulley 57A, so that the single power source 55A can be started, and the mutual transmission of the first belt pulleys 53A, the first belts 54A, the second belt pulleys 56A and the second belts 57A can be utilized to synchronously rotate the stirring blades 51A for heat dissipation, thereby achieving the same efficacy as the first embodiment.

Referring to fig. 5, a third embodiment of the present invention includes: a container body 1B, a heat exchange tube 2B, a temperature regulator 3B, a temperature detector 4B, a stirring unit 5B and a control unit 6B. The difference between the third embodiment and the first embodiment of the present invention is only located above the position where the stirring unit 5B is fixed to the accommodating body 1B, and the stirring blade 51B of the stirring unit 5B extends into the top of the feeding space 11B, so as to be installed in cooperation with different types of the feeding space 11B, thereby achieving the same effect as the first embodiment.

Please refer to the sixth view, a fourth embodiment of the present invention includes: a container body 1C, a heat exchange tube 2C, a temperature regulator 3C, a temperature detector 4C, a stirring unit 5C and a control unit 6C. The difference between the fourth embodiment and the first embodiment is only that the other end of the shaft 52C is directly connected to the power source 55C for transmission, so as to achieve the same effect as the first embodiment.

Referring to fig. 7, in a fifth embodiment of the present invention, the stirring unit 5D is disposed on a power cylinder 7D, and the power cylinder 7D is disposed on a slide rail 71D and slides left and right. The power cylinder 7D is further provided with a retractable pressure lever 72D, one end of the retractable pressure lever 72D is coupled to the power source 55D of the stirring unit 5D, and the retractable action of the retractable pressure lever 72D can drive the stirring blade 51D to move up and down. When the temperature detector 4D of any accommodating body 1D detects that the temperature value in the feeding space 11D is higher than the standard stirring value, the power cylinder 7D is controlled to slide on the slide rail 71D to the position above the feeding space 11D, and then extends out of the telescopic pressure rod 72D to drive the stirring blade 51D to move downward to the feeding space 11D for stirring and heat dissipation. Thus, the slide rail 71D can slide the single stirring unit 5D to stir and dissipate heat from the plurality of accommodating bodies 1D.

The above embodiments are combined to fully understand the operation, use and efficacy of the present invention, and the above embodiments are only preferred embodiments of the present invention, and the scope of the present invention can not be limited thereby, i.e. the scope of the claims and the contents of the creation description are all included in the scope covered by the present invention.

Claims

1. A full-automatic black soldier fly raising device comprises a containing body, a raising space and a feeding mechanism, wherein the containing body is provided with the raising space; the method is characterized in that: the temperature detector is fixed on the accommodating body so as to detect a temperature value in the feeding space, and outputs a stirring signal when the temperature value is higher than a stirring standard value;

the stirring unit is fixed on the accommodating body and is provided with a stirring blade which extends into the feeding space and is driven to rotate by a power source;

and the control unit is respectively in signal connection with the temperature detector and the stirring unit, and is used for controlling the power source of the stirring unit to start after receiving the stirring signal so as to drive the stirring blade to start rotating.

2. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the control unit is used for inputting and setting the stirring standard value, and the stirring standard value is set to be 27 ℃.

3. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the stirring unit is fixed at the lower position or the upper position of the accommodating body, the stirring blade extends into the bottom or the top of the feeding space, and the stirring blade is provided with a single blade or a plurality of blades.

4. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the stirring blade is provided with a shaft rod in an extending mode, the other end of the shaft rod is provided with a first belt pulley, a first belt is sleeved on the first belt pulley, and the first belt is driven to rotate by the power source.

5. The fully automatic black soldier fly raising apparatus of claim 4, wherein: the stirring device is provided with a plurality of accommodating bodies and a plurality of stirring blades, the other end of the shaft rod of each stirring blade is respectively provided with a second belt pulley, transmission is respectively sleeved between every two adjacent second belt pulleys by virtue of a second belt, and the power source enables the stirring blades to synchronously rotate through mutual transmission of the first belt pulley, the first belt, the second belt pulley and the second belt.

6. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the stirring blade is provided with a shaft rod in an extending mode, and the other end of the shaft rod is directly connected with the power source for transmission.

7. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the control unit is provided with a sending unit for sending the stirring signal to a remote handheld electronic device, and a mobile application program is installed on the handheld electronic device for receiving the stirring signal, directly controlling the stirring unit to be started or closed through the handheld electronic device, and remotely inputting the stirring standard value.

8. The fully automatic black soldier fly raising apparatus of claim 1, wherein: further be equipped with a cold and hot exchange tube and a temperature regulation machine, cold and hot exchange tube is fixed in the holding body, cold and hot exchange tube passes through raise the space, again two ends of cold and hot exchange tube are equipped with an input and an output respectively, the temperature regulation machine with the input reaches the output is connected to supply a circulation transport fluid, the control unit signal connection to the temperature regulation machine, the temperature detector and in when the temperature value is higher than a cooling standard value, export a cooling signal, the control unit in receive behind the cooling signal automatic control the temperature regulation machine begins to start.

9. The fully automatic black soldier fly raising apparatus of claim 8, wherein: the control unit is used for inputting and setting the cooling standard value, and the cooling standard value is set to be 33 ℃.

10. The fully automatic black soldier fly raising apparatus of claim 8, wherein: the control unit is provided with a sending unit, so that the cooling signal is transmitted to a remote handheld electronic device, a mobile application program is installed on the handheld electronic device to receive the cooling signal, the temperature regulator is directly controlled to be started or closed through the handheld electronic device, and the cooling standard value is remotely input.

11. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the stirring unit sets up in a power and presses the jar, a slide rail is located to the power and presses the jar, again the power presses the jar and is equipped with a flexible depression bar, the one end of flexible depression bar combine in the power supply, thereby it is in a plurality of the holding body the temperature detector is listened raise in the space the temperature value is higher than the stirring standard value, then control the power press jar in slide rail is slided and is arrived raise the position department in space, borrow again by flexible depression bar stretches out, in order to drive stirring vane removes to raising and stirs the heat dissipation in the space.

12. The fully automatic black soldier fly raising apparatus of claim 1, wherein: the bottom of the accommodating body is provided with an opening or a plurality of openings which are communicated to the feeding space, the opening position is provided with a valve or a plurality of valves, the bottom of the feeding space is provided with a plane shape or a funnel shape, and the periphery of the opening of the accommodating body is inwards bent to be provided with a blocking part.