CN104604810B - Scale efficient fly maggot breeding equipment and technique - Google Patents

Abstract

The invention provides a kind of scale efficient fly maggot breeding equipment and technique, belong to fly maggot breeding field, this equipment includes at least one cultivating workshop with multi-functional ceiling, at least one charger along biserial type cloth rail running it is provided with in cultivating workshop, hang down and be provided with main orbit in the front of one end of cloth track, main orbit is provided with the railcar shifted for charger at different cloth interorbitals, railcar is provided with horizontal vertical in the transfer orbit of main orbit, the height of transfer orbit is highly consistent with cloth track, mill floor between two row tracks of cloth track constitutes a culturing bed for fly maggot breeding.Equipment also includes connecting has the exchange of alarm to control device.The scale efficient fly maggot breeding equipment of present invention offer and technique, it is possible to achieve the uninterrupted current waterline cultivation of fly larvae, the not impact of climate temperature, automaticity is high, it is possible to realize scale and the high efficiency production of fly larvae.

Description

Scale efficient fly maggot breeding equipment and technique

Technical field

The present invention relates to fly maggot breeding field, be specially a kind of scale efficient fly maggot breeding equipment and technique.

Background technology

The cultural method of the fly larvae of prior art is broadly divided into the methods such as employing box, cage, frame for cultivating; a set of scale fly maggot breeding equipment and using method thereof such as Application No. 201210116603; it is one of this kind of representative cultural method; this type of cultural method structure is more complicated; operation sequence is cumbersome; a lot of steps need manual operation; labor strength is big; production efficiency is relatively low; small-scale production can only be carried out; the extensive high efficiency production of industrialization be cannot really realize, industrialized development and the application of fly maggot breeding seriously constrained.

Summary of the invention

In order to solve disadvantages mentioned above; the invention provides a kind of scale efficient fly maggot breeding equipment and technique; it is complicated that purpose is to solve prior art fly maggot breeding structure; operation sequence is cumbersome, and a lot of steps need manual operation, and labor strength is big; production efficiency is relatively low; small-scale production can only be carried out, it is impossible to really carry out the extensive high efficiency production of industrialization, seriously constrain the industrialized development of fly maggot breeding and the shortcoming of application.

The technical solution used in the present invention is, build a kind of scale efficient fly maggot breeding equipment, the said equipment includes at least one cultivating workshop with multi-functional ceiling, at least one charger along biserial type cloth rail running it is provided with in above-mentioned cultivating workshop, hang down and be provided with main orbit in the front of one end of above-mentioned cloth track, above-mentioned main orbit is provided with the railcar shifted for above-mentioned charger at different cloth interorbitals, above-mentioned railcar is provided with horizontal vertical in the transfer orbit of main orbit, the height of above-mentioned transfer orbit is highly consistent with above-mentioned cloth track, mill floor between two row tracks of above-mentioned cloth track constitutes a culturing bed for fly maggot breeding.

The said equipment also includes controlling device for the exchange controlling above-mentioned charger and railcar operating, and above-mentioned exchange controls device connection alarm.

Further, the bottom of above-mentioned culturing bed is provided with the heat-insulation layer of temperature-controllable, above-mentioned heat-insulation layer includes contact layering successively, heat conduction is layered, it is provided with by the heat-conducting medium containing water or oil in above-mentioned heat conduction layering, it is additionally provided with electromagnetic heating pipeline in above-mentioned heat conduction layering, above-mentioned electromagnetic heating pipeline is connected with culturing bed temperature control equipment by circuit, above-mentioned culturing bed temperature control equipment controls device with above-mentioned exchange and electrically connects, above-mentioned culturing bed temperature control equipment also and interval be all located at contact in layering culturing bed temperature sensor and the media temperature sensor be located in heat-conducting medium electrically connect.

Further, above-mentioned multi-functional ceiling includes the movable awning being controlled opening and closing by air temperature control device, and above-mentioned air temperature control device controls device with above-mentioned exchange and electrically connects；The lower section of above-mentioned movable awning is provided with multiple transparent plastic ceiling, is additionally provided with cooling sparge pipe, is additionally provided with for collecting the water leg spraying current in rainwater and sparge pipe between any two transparent plastic ceiling between above-mentioned plastic ceiling and above-mentioned movable awning.

Further, the bottom of described water leg 15 is connected at the cascade water inlet pipe 16 that described plastic ceiling 13 is gone to the bottom, described cascade water inlet pipe 16 is connected at the Water curtain machine of multi-functional ceiling surrounding sidewall, it is additionally provided with water pump on described cascade water inlet pipe 16, described water pump and described Water curtain machine are electrically connected with described air temperature control device 11 by circuit, and described air temperature control device 11 controls device 8 with described exchange and electrically connects.

Further, the top of above-mentioned plastic ceiling is equipped with air temperature sensor and humidity sensor with going to the bottom, the surrounding sidewall of above-mentioned plastic ceiling is additionally provided with multiple electric rolling, and above-mentioned air temperature sensor all electrically connects with above-mentioned air temperature control device with humidity sensor, electric rolling.

Further, above-mentioned exchange controls device and is also connected with data input device and output device, and above-mentioned data output device includes printer and computer.

Further, the said equipment also includes at least one feed bin, above-mentioned feed bin be connected with above-mentioned cultivating workshop or independent of cultivating workshop outside；Also include at least one material agitator, fly larvae seperator, cleaning machine, a dehydrator.

The technical matters that the present invention uses is to build a kind of fly maggot breeding technique using above-mentioned cultivation equipment, and above-mentioned technique comprises the following steps:

Step one: material prepares, gets out biomass castoff in described feed bin, and biomass castoff is added adjuvant, use described material agitator, regulates the moisture content of biomass castoff and as compost or bed material.

Step 2, the preparation of fly blow and hatching；

Step 3, the adjustment of cultivation equipment prepares, and controls to be adjusted to 25-37 degree by the temperature of the contact layering of culturing bed, the temperature of air is adjusted to less than 37 degree.

Step 4, charging for the first time in first day, utilize above-mentioned charger, the cultivation bed material that uniform ground is adjusted in laying step one in culturing bed, cultivating bed material thickness is 1-5 centimetre, the moisture content cultivating bed material is 45-75%, is sowed seeds to by the young maggot bred in cultivation bed material afterwards, containing children's maggot 2200-7000 bar in every gram of Inoculant in step 2；

Step 5, second time charging in first day, then add the compost that moisture content is 45-95%, compost addition is every square 1～20kg；And charging for the first time and second time feeding interval time are 4-16 hour；

Step 6: second day, continues to add the compost that moisture content is 45-95%, repeats step 3 and step 5, compost the most at least 1-20kg/m², remaining time all identical with step 3 and step 5 with step, and ventilate every day 1 to 2 times；

Step 7: the 3rd day-the n-th day, adding moisture content is the compost of 45%-95%, and time, step, number of times, cultivation bed material consumption, ventilation number are all identical with step 5；

Step 8: (n+1)th day, stops adding compost, carries out the fly larvae of cultivation in multiple culturing beds manually or use fly larvae seperator to implement maggot excrement separating；

Step 9, washes the fresh maggot separated in step 7 in described cleaning machine, and is transported in dehydrator dry, and obtains maggot and does.It is preferred that above-mentioned children maggot is housefly, city fly, lucilia sericata, chrysomyia megacephala (big head golden fly), lucilia cuprina, calliphora erythrocephala, false stable fly, Sarcophga fuscicauda, stratiomyiid.

It is preferred that above-mentioned biomass castoff is animal wastes, kitchen excess, biomass processing garbage in step one, above-mentioned adjuvant is the combination of one or more in chicken and duck feces, extruding excrement, wood flour, rice chaff, mushroom slag, straw, tealeaf residue, wheat bran.

Compared with prior art, scale provided by the present invention efficient fly maggot breeding equipment and technique, it is possible to achieve the uninterrupted current line type cultivation of fly larvae, the not impact of climate temperature, automaticity is high, it is possible to realize scale and the high efficiency production of fly larvae.

Accompanying drawing explanation

Fig. 1 is the cultivating workshop structural representation of the present invention.

Fig. 2 is the cultivating workshop structural representation with false ceiling of the present invention.

Fig. 3 is the partial detailed figure of Fig. 2.

Fig. 4 is the structural representation of the culturing bed heat-insulation layer of the present invention.

Fig. 5 is the control principle drawing of the present invention.

Detailed description of the invention

Elaborate a lot of detail in the following description so that fully understanding the present invention.But the present invention can implement to be much different from alternate manner described here, those skilled in the art can do similar popularization in the case of intension of the present invention, and therefore the present invention is not limited by following public specific embodiment.

Below in conjunction with the accompanying drawings and embodiment, the detailed description of the invention of the present invention is described further.

Embodiment 1

In the present embodiment, in conjunction with accompanying drawing, the structure of the present invention is described in detail.

Refer to Fig. 1 to Fig. 5, the scale efficient fly maggot breeding equipment that the present invention provides includes at least one cultivating workshop with multi-functional ceiling 1, at least one charger 3 travelled along biserial type cloth track 2 it is provided with in cultivating workshop, hang down and be provided with main orbit 4 in the front of one end of cloth track 2, main orbit 4 is provided with the railcar 5 shifted for charger 3 at different cloth interorbitals, railcar 5 is provided with horizontal vertical in the transfer orbit 6 of main orbit 4, the height of transfer orbit 6 is highly consistent with cloth track 2, mill floor between two row tracks of cloth track 2 constitutes a culturing bed 7 for fly maggot breeding.Equipment also includes controlling device 8 for the exchange controlling charger 3 and railcar 5 operating, and exchange controls device 8 connection alarm.Cultivating workshop can be with large-scale production; when exchange control device 8 detects the signals such as the temperature of collection, humidity or fault, alarm sends alarm, and notice workshop management personnel process in time; prevent cultivation temperature and cross the generation of high phenomenon, prevent the quick nymphosis of fly larvae.The present invention uses the charger 3 that trackization is transported simultaneously; culturing bed and charging process are unified into one; can scale, the efficient charging completed during whole fly maggot breeding and cultivation; overcome and use the maggot culturing method of the modes such as box, cage, cultivation posture, culturing pool cannot produce the most on a large scale or actual commercial application at present; production efficiency is relatively low; labor intensity is very big, the shortcoming that working condition is arduous.

The bottom of culturing bed 7 is provided with the heat-insulation layer of temperature-controllable, heat-insulation layer includes contacting layering 71, heat conduction layering 72 successively, it is provided with by the heat-conducting medium 75 containing water or oil in heat conduction layering, it is additionally provided with electromagnetic heating pipeline 73 in heat conduction layering, electromagnetic heating pipeline 73 is connected with culturing bed temperature control equipment 74 by circuit, culturing bed temperature control equipment 74 and exchange control device 8 and electrically connect, culturing bed temperature control equipment 74 also and interval be all located at contact in layering 71 culturing bed temperature sensor and the media temperature sensor being located in heat-conducting medium 75 electrically connect.The setting of heat-insulation layer; make either winter or summer; the temperature cultivating bed material can be maintained at the temperature range of the most suitable growth of fly larvae all the time, it is to avoid the scale fly maggot breeding of prior art is affected by temperature in four seasons is different, the most all can scale efficiently produce.

Multi-functional ceiling 1 includes that the movable awning 12 being controlled opening and closing by air temperature control device 11, air temperature control device 11 control device 8 with exchange and electrically connect；The lower section of movable awning 12 is provided with multiple transparent plastic ceiling 13, it is additionally provided with cooling sparge pipe 14 between plastic ceiling 13 and movable awning 12, is additionally provided with between any two transparent plastic ceiling 13 for collecting the water leg 15 spraying current in rainwater and sparge pipe.The setting of air temperature control device 11, effectively controls humidity and the temperature of air, prevents too high or too low temperature.Keep cultivating workshop to be in the temperature of optimum fly larvae growth, humidity interval simultaneously.

The bottom of water leg 15 is connected at the cascade water inlet pipe 16 that plastic ceiling 13 is gone to the bottom, cascade water inlet pipe 16 is connected at the Water curtain machine of multi-functional ceiling surrounding sidewall, it is additionally provided with water pump on cascade water inlet pipe 16, water pump and Water curtain machine are electrically connected with air temperature control device 11 by circuit, and air temperature control device 11 controls device 8 with exchange and electrically connects.Temperature and the water adding humidity are collected by water leg 15 by being used for, and recycle for cooling cascade, prevent the waste of water resource, meanwhile, save the cost produced.

The top of plastic ceiling 13 is equipped with air temperature sensor and humidity sensor with going to the bottom, the surrounding sidewall of plastic ceiling 13 is additionally provided with electric rolling 17, and air temperature sensor all electrically connects with air temperature control device 11 with humidity sensor, electric rolling 17.Electric rolling timing ventilation every day, prevents fly larvae growing environment from deteriorating.

Exchange controls device 8 and is also associated with data input device and output device, and data output device includes printer and computer.Input equipment can be digital touch display screen type or button, is preferably touch display screen type in the present embodiment.Data output device includes printer and computer, for by the data dynamic collection of whole breeding process, providing evidence or data for future reference for production from now on.

Equipment also includes at least one feed bin, feed bin be connected with cultivating workshop or independent of cultivating workshop outside；Also include at least one material agitator, fly larvae seperator, cleaning machine, a dehydrator.As the auxiliary equipment of whole scale efficient fly maggot breeding equipment, constituting a complete cultivation flow process so that whole fly maggot breeding high-efficient automatic, production efficiency is high, the convenient production forming scale.

Embodiment 2

In the present embodiment, in conjunction with accompanying drawing, the process step of the invention is described in detail.

Refer to Fig. 1 to Fig. 5, and in conjunction with the embodiments 1, the fly maggot breeding technique of scale efficient fly maggot breeding equipment in the use embodiment 1 that the present invention provides, comprise the following steps:

Step one: material prepares, gets out biomass castoff in feed bin, and biomass castoff adds adjuvant, spent material blender, regulate the moisture content of biomass castoff and as compost or bed material.

Step 2, the preparation of fly blow and hatching.

Step 3, the adjustment of cultivation equipment prepares, and controls to be adjusted to 25-37 degree by the temperature of the contact layering 71 of culturing bed 7, the temperature of air is adjusted to less than 37 degree.In the present embodiment, preferably the temperature of contact layering 71 is 32 degree, and preferably air themperature is 35 degree.

Step 4, charging for the first time in first day, utilize charger 3 as claimed in claim 1, the cultivation bed material that uniform ground is adjusted in laying step one in culturing bed 7, cultivating bed material thickness is 1-5 centimetre, the moisture content cultivating bed material is 45-75%, is sowed seeds to by the young maggot bred in cultivation bed material afterwards, containing children's maggot 2200-7000 bar in every gram of Inoculant in step 2.In the present embodiment, preferably children's maggot bar number is 5500.

Step 5, second time charging in first day, then add the compost that moisture content is 45-95%, compost addition is every square 1～20kg；And charging for the first time and second time feeding interval time are 4-16 hour.

Step 6: second day, continues to add the compost that moisture content is 45-95%, repeats step 3 and step 5, compost the most at least 1-20kg/m², remaining time all identical with step 3 and step 5 with step, and ventilate every day 1 to 2 times.

Step 7: the 3rd day-the n-th day, adding moisture content is the compost of 45%-95%, and time, step, number of times, cultivation bed material consumption, ventilation number are all identical with step 5；.

Step 8: (n+1)th day, stops adding and cultivates bed material, carries out the fly larvae of cultivation in multiple culturing beds manually or use fly larvae seperator to implement maggot excrement separating.

Step 9, washes the fresh maggot separated in step 8 in cleaning machine, and is transported in dehydrator dry, and obtains maggot and does.

It is preferred that children maggot is housefly, city fly, lucilia sericata, chrysomyia megacephala (big head golden fly), lucilia cuprina, calliphora erythrocephala, false stable fly, Sarcophga fuscicauda, stratiomyiid.In the present embodiment, housefly is preferably used.

It is preferred that biomass castoff is animal wastes, kitchen excess, biomass processing garbage in step one, adjuvant is the combination of one or more in chicken and duck feces, extruding excrement, wood flour, rice chaff, mushroom slag, straw, tealeaf residue, wheat bran.In the present embodiment, preferably biomass castoff is pig manure, and adjuvant is rice chaff and mushroom slag.

Although the present invention is open as above with preferred embodiment; but it is not for limiting the present invention; any those skilled in the art are without departing from the spirit and scope of the present invention; can make possible variation and amendment, therefore protection scope of the present invention should be defined in the range of standard with the claims in the present invention.

Claims (9)

1. a scale efficient fly maggot breeding equipment, it is characterized in that, described equipment includes at least one cultivating workshop with multi-functional ceiling (1), at least one charger (3) travelled along biserial type cloth track (2) it is provided with in described cultivating workshop, hang down and be provided with main orbit (4) in the front of one end of described cloth track (2), described main orbit (4) is provided with the railcar (5) shifted for described charger (3) at different cloth interorbitals, described railcar (5) is provided with horizontal vertical in the transfer orbit (6) of main orbit (4), the height of described transfer orbit (6) is highly consistent with described cloth track (2), mill floor between two row tracks of described cloth track (2) constitutes a culturing bed (7) for fly maggot breeding；

Described equipment also includes controlling device (8) for the exchange controlling described charger (3) and railcar (5) operates, and described exchange controls device (8) and connects and have alarm；

Described equipment also includes at least one feed bin, described feed bin be connected with described cultivating workshop or independent of cultivating workshop outside；Also include at least one material agitator, fly larvae seperator, cleaning machine, a dehydrator.

Scale the most according to claim 1 efficient fly maggot breeding equipment, it is characterized in that, the bottom of described culturing bed (7) is provided with the heat-insulation layer of temperature-controllable, described heat-insulation layer includes contact layering (71) successively, heat conduction layering (72), it is provided with aqueous or oily heat-conducting medium (75) in described heat conduction layering, electromagnetic heating pipeline (73) also it is equipped with in described heat conduction layering (72), described electromagnetic heating pipeline (73) is connected with culturing bed temperature control equipment (74) by circuit, described culturing bed temperature control equipment (74) controls device (8) with described exchange and electrically connects, described culturing bed temperature control equipment (74) is also and the culturing bed temperature sensor contacted in layering (71) and the media temperature sensor electrical connection being located in heat-conducting medium (75) are all located in interval.

Scale the most according to claim 1 efficient fly maggot breeding equipment; it is characterized in that; described multi-functional ceiling (1) includes the movable awning (12) being controlled opening and closing by air temperature control device (11), and described air temperature control device (11) controls device (8) with described exchange and electrically connects；The lower section of described movable awning (12) is provided with multiple transparent plastic ceiling (13), it is additionally provided with cooling sparge pipe (14) between described plastic ceiling (13) and described movable awning (12), is additionally provided with between any two transparent plastic ceiling (13) for collecting the water leg (15) spraying current in rainwater and sparge pipe.

Scale the most according to claim 3 efficient fly maggot breeding equipment; it is characterized in that; the bottom of described water leg (15) is connected at the cascade water inlet pipe (16) that described plastic ceiling (13) is gone to the bottom; described cascade water inlet pipe (16) is connected at the Water curtain machine of multi-functional ceiling surrounding sidewall; it is additionally provided with water pump on described cascade water inlet pipe (16); described water pump and described Water curtain machine are electrically connected with described air temperature control device (11) by circuit, and described air temperature control device (11) controls device (8) with described exchange and electrically connects.

Scale the most according to claim 3 efficient fly maggot breeding equipment; it is characterized in that; the top of described plastic ceiling (13) is equipped with air temperature sensor and humidity sensor with going to the bottom; the surrounding sidewall of described plastic ceiling (13) is additionally provided with multiple electric rolling (17), and described air temperature sensor, humidity sensor, electric rolling (17) all electrically connect with described air temperature control device (11).

Scale the most according to claim 1 efficient fly maggot breeding equipment, it is characterised in that described exchange controls device (8) and is also associated with data input device and output device, and described data output device includes printer and computer.

7. use the breeding technique of cultivation equipment as described in any one of claim 1-6, it is characterised in that described technique comprises the following steps:

Step one: material prepares, gets out biomass castoff in described feed bin, and biomass castoff is added adjuvant, use described material agitator, regulates the moisture content of biomass castoff and as compost or bed material；

Step 2, the preparation of fly blow and hatching；

Step 3, the adjustment of cultivation equipment prepares, and the temperature that the contact of culturing bed (7) is layered (71) controls to be adjusted to 25-37 degree, and the temperature of air is adjusted to less than 37 degree；

Step 4, charging for the first time in first day, utilize charger as claimed in claim 1 (3), the cultivation bed material that uniform ground is adjusted in laying step one in culturing bed (7), cultivating bed material thickness is 1-5 centimetre, the moisture content cultivating bed material is 45-75%, is sowed seeds to by the young maggot bred in cultivation bed material afterwards, containing children's maggot 2200-7000 bar in every gram of Inoculant in step 2；

Step 5, second time charging in first day, then add the compost that moisture content is 45-95%, compost addition is every square 1～20kg；And charging for the first time and second time feeding interval time are 4-16 hour；

Step 6: second day, continues to add the compost that moisture content is 45-95%, repeats step 3 and step 5, and compost the most at least 1-20kg/m2, remaining time and step are all identical with step 3 and step 5, and ventilate every day 1 to 2 times；

Step 7: the 3rd day-the n-th day, adding moisture content is the compost of 45%-95%, and time, step, number of times, compost consumption, ventilation number are all identical with step 5；

Step 8: (n+1)th day, stops adding compost, carries out the fly larvae of cultivation in multiple culturing beds manually or use fly larvae seperator to implement maggot excrement separating；

Step 9, washes the fresh maggot separated in step 8 in described cleaning machine, and is transported in dehydrator dry, and obtains maggot and does.

8. breeding technique as claimed in claim 7, it is characterised in that described children maggot is housefly, city fly, lucilia sericata, chrysomyia megacephala (big head golden fly), lucilia cuprina, calliphora erythrocephala, false stable fly, Sarcophga fuscicauda, stratiomyiid.

9. breeding technique as claimed in claim 7, it is characterized in that, biomass castoff described in step one is animal wastes, kitchen excess, biomass processing garbage, and described adjuvant is the combination of one or more in chicken and duck feces, extruding excrement, wood flour, rice chaff, mushroom slag, straw, tealeaf residue, wheat bran.