CN108849769A

CN108849769A - One breeding worm hollow slot and its application method

Info

Publication number: CN108849769A
Application number: CN201810942525.5A
Authority: CN
Inventors: 贺永惠; 段永改; 陈伟
Original assignee: Zhengzhou Agricultural Science And Technology Co Ltd
Current assignee: Zhengzhou Agricultural Science And Technology Co Ltd
Priority date: 2018-08-17
Filing date: 2018-08-17
Publication date: 2018-11-23

Abstract

The present invention relates to the technical fields of the mechanical equipment of cultured insect, a more particularly to breeding worm hollow slot, including hollow frame one, the hollow frame two being arranged in hollow frame one and the connecting plate one being arranged between hollow frame one and the bottom surface of hollow frame two, the hollow frame one, hollow frame two and connecting plate one constitute the hollow slot for collecting and storing larva.The configuration of the present invention is simple, design is reasonable, small grub can continuously be put into be cultivated, simultaneously when feed will reach above in hollow slot, it only need to lift hollow slot in parallel, frass is removed a part from hollow slot below, upper layer, that is, vacating space, continue to put into feed, the labor intensity and aquaculture cost of worker greatly reduces, effectively saves space.

Description

One breeding worm hollow slot and its application method

Technical field

The present invention relates to the technical field of the mechanical equipment of cultured insect more particularly to a breeding worm hollow slot and its uses Method.

Background technique

Phoenix worm is a kind of septic Stratiomyidae insect, can feeding fowl and animal excrement and house refuse, produce high value Animal protein feed, be widely used in handling the wastes such as chicken manure, pig manure and kitchen garbage at present.

Phoenix worm currently on the market has several drawbacks in that when cultivation：It on the one hand is according to when rigid hatching when larva The cultivation density of the volume of time is cultivated, but the feeding speed of phoenix worm larva is very fast, and growth rapidly, is grown into When ripe larva, volume is thousands of times of the volume of larva when just hatching, so needing constantly in developmental process to phoenix Phoenix worm larva is separated, in order to avoid cultivation density is excessive, is unfavorable for the growth of phoenix worm larva, but this needs is a large amount of artificial It goes to separate, keeps the workload of worker very big, cost of labor is also corresponding very high；Two one side according to mature larva stereometer The cultivation density of calculation is cultivated, but since the volume of larva when mature larva is than just hatching is much larger, so in larva Before maturation, cultivation density is smaller, causes the waste of breeding spaces；The present phoenix worm larva of yet another aspect is all put Cultivated inside box or pond, due to during cultivation will ceaselessly feeding, in addition in phoenix worm larva growth course A large amount of excrement can be generated, finally cultured space is taken, therefore, it is necessary to periodically handle excrement.Due to pond and box Structure, when clearing up excrement, since excrement is located at lowest level, so just needing phoenix worm larva, feed and excrement It cleans up inside the chest together, then polypide is separated, therefore, cleaning is got up time-consuming and laborious, increases aquaculture cost.

Summary of the invention

Present invention aim to address the above problems, provide a kind of hollow that can continuously raise, collect and store larva Slot.Mature larva is due to the characteristic for having flight to pupate, in addition, larva when relative to rigid hatching is also compared, To Be Protected from Heat, it can be suitable Slope crawl into hollow slot, do not need manually to go to separate, while can continuously put into small grub according to larval density, simultaneously because Hollow frame two is arranged, and when feed will reach above in hollow slot, lifts hollow slot in parallel, frass under hollow slot Side remove a part, upper layer, that is, vacating space, continue put into feed, do not need by phoenix worm larva, feed and excrement together from It is cleaned up inside chest, the labor intensity of worker and the feeding worm hollow slot of cost greatly reduces

To solve the above-mentioned problems, the technical solution adopted by the present invention is that：

One breeding worm hollow slot, including hollow frame one, the hollow frame two, the Yi Jizhong that are arranged in hollow frame one The connecting plate one being arranged between the bottom surface of empty frame one and hollow frame two, the hollow frame one, hollow frame Frame two and connecting plate one constitute the hollow slot for collecting and storing larva, and the space of hollow two inside of frame is used for Support worm

At least the one of the inside on the top of the hollow frame two, which is sloped downwardly, is provided with slope.

The anti-escape device for preventing larva from escaping from out of hollow slot is provided with above the hollow slot, described is anti-escape Device includes the folding of the outside setting on the flanging of the top inner side setting of hollow frame one and the top of hollow frame two Side.

The flanging of the top inner side setting of the hollow frame one is the flanging of L-type, the hollow frame two Top outside setting flanging be hook flanging, the opening of the flanging of the flanging and hook of the L-type downward, institute The inner end of the flanging for the hook stated is connected with the upper end on slope.

The slope is by forming closed cavity, the closed chamber between connecting plate two and hollow frame two Body is for keeping the temperature.

Thermal insulation material is filled in the closed cavity.

The thermal insulation material is polyurethane or is polystyrene.

Water of the horizontal position on the top of the hollow frame one greater than the top of hollow frame two Prosposition is set, the horizontal position flush of the bottom surface of the hollow frame one and hollow frame two.

The hollow slot is positive square, rectangle or to be round.

The application method of breeding worm hollow slot according to claim 2, includes the following steps：

1. hollow slot is placed on, then hatch toward addition feed inside the space of hollow two inside of frame and just Larva is raised；

2., since mature larva volume is more fat, being relatively free of mature larva when larva grows up to mature larva For will compare that To Be Protected from Heat, it will be climbed to by slope in the relatively low hollow slot of temperature；

3. since the temperature in hollow slot is relatively low relative to the temperature in the space of hollow two inside of frame, in this when The cultivation density of the larva in space in empty frame two becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot, it is possible to ceaselessly put into the space of hollow two inside of frame small Larva, the mature larva climbed into hollow slot can be collected by insect sucking device；

4., since larva and feed are on upper layer, frass puts down hollow slot in lower layer when feed will reach above in hollow slot Row lifts from bottom plate, and the frass of bottom surface escapes on bottom plate from the following opening of the hollow frame two of hollow slot, then suitable Hollow slot bottom surface be inserted into fork, hollow slot is inserted, due to frass have humidity, can be bonded together, hollow frame Excrement in frame two at lower exit port will not be fallen down by fork, and after the frass on bottom plate is removed, hollow slot is placed again On bottom plate, upper layer, that is, vacating space can continue to put into feed.

Gain effect of the invention is：

The present invention, when feed will reach above in hollow slot, lifts hollow slot, worm since hollow frame two is arranged in parallel The following opening of the hollow frame two of excrement from hollow slot leaks out, then frass is removed to a part of, upper layer, that is, vacating space, after Continuous investment feed does not need together to clean up phoenix worm larva, feed and excrement inside chest, work greatly reduces The labour and cost of people；It is provided with anti-escape device on hollow slot, the flanging of the L-type of the top inner side setting of hollow frame one, And hollow frame two outside setting hook flanging can effectively prevent enter hollow slot in mature larva from It is escaped from hollow slot, convenient for collecting mature larva；Due to be provided with collection and store larva hollow slot, mature larva by Larva is big when volume ratio is just hatched, thus it relatively just hatching when larva also compare that To Be Protected from Heat, it can crawl into hollow along slope Slot does not need manually to go to separate, and after mature larva climbs out of, the cultivation of the larva in space in hollow frame two is close Degree becomes smaller, and can continuously put into small grub according to larval density.The configuration of the present invention is simple, design rationally, can continuously be put into small Larva is cultivated, while when feed will reach above in hollow slot, only need to lift hollow slot in parallel, frass from hollow Slot removes a part below, and upper layer, that is, vacating space continues to put into feed, labor intensity and the cultivation of worker greatly reduces Cost effectively saves space.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is one of main view of the invention.

Fig. 3 is the structural schematic diagram for the use state that Fig. 2 is placed on.

Fig. 4 is second structural representation of the invention.

Fig. 5 is the structural schematic diagram for the use state that Fig. 4 is placed on.

Fig. 6 is third structural representation of the invention.

Fig. 7 is the structural schematic diagram for the use state that Fig. 6 is placed on.

Fig. 8 is the four of structural schematic diagram of the invention.

Fig. 9 is the structural schematic diagram for the use state that Fig. 8 is placed on.

Figure 10 is the four of structural schematic diagram of the invention.

Figure 11 is the structural schematic diagram for the use state that Figure 10 is placed on.

Specific embodiment

Below in conjunction with attached drawing, specific embodiments of the present invention will be described in detail.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10 and Figure 11, serial number in figure：1 is hollow Frame one, 2 be hollow frame two, 3 be that connecting plate one, 4 is hollow slot, 5 is slope, 6 is the flanging of L-type, 7 is hook Flanging, 8 be closed cavity, 9 be thermal insulation material, 10 be bottom plate and 11 be connecting plate two.

Embodiment one：Referring to figure 1, figure 2 and figure 3, a breeding worm hollow slot of the invention, including hollow frame 1, setting In hollow frame 1 hollow frame 22 and hollow frame 1 and the bottom surface of hollow frame 22 between set The connecting plate 1 set, the hollow frame 1, hollow frame 22 and connecting plate 1 are constituted for collecting and storing The hollow slot 4 of larva, the space of hollow 22 inside of frame is for supporting worm, the hollow frame, 1 top Horizontal position be higher than hollow frame 22 top horizontal position, the hollow frame 1 and hollow frame two The horizontal position flush of 2 bottom surface.

Working principle：Hollow slot 4 is placed on bottom plate 10, is then added toward the space the inside of hollow 22 inside of frame The larva for adding feed and just hatching is raised, when larva grows up to mature larva, due to mature larva volume ratio More fat, being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb to temperature by the inner sidewall of hollow frame two It spends in relatively low hollow slot 4, since the temperature in hollow slot 4 is relative to the temperature in the space of hollow 22 inside of frame Relatively low, the cultivation density of the larva in space in this when hollow frame 22 becomes smaller, and can be connected according to larval density Continuous investment small grub, due to ceaselessly there is mature larva to crawl into hollow slot 4, it is possible to ceaselessly toward hollow frame two Put into small grub in the space of 2 insides, the mature larva climbed into hollow slot 4 can be collected by insect sucking device, when time When feed will reach above in type groove 4, since larva and feed are on upper layer, frass is in lower layer, by hollow slot 4 in parallel from bottom plate Lift on 10, the frass of bottom surface escapes on bottom plate 10 from the following opening of the hollow frame 22 of hollow slot 4, then along Fork is inserted into the bottom surface of hollow slot 4, and hollow slot 4 is inserted, and since frass has humidity, can be bonded together, hollow frame Excrement in frame 22 at lower exit port will not be fallen down by fork, after the frass on bottom plate 10 is removed, again by hollow slot 4 It is placed on bottom plate 10, upper layer, that is, vacating space, can continue to put into feed.

The configuration of the present invention is simple, design rationally, can continuously put into small grub and be cultivated, while when feeding in hollow slot 4 It when material will reach above, only need to lift hollow slot 4 in parallel, frass be removed a part from hollow slot 4 below, upper layer is vacateed Space can continue to put into feed, not need together to clean up phoenix worm larva, feed and excrement inside chest, greatly The big labor intensity and aquaculture cost for reducing worker, effectively saves space.

Embodiment two：Referring to Fig. 1, Fig. 4 and Fig. 5, a breeding worm hollow slot of the invention, the structure and embodiment of the present embodiment One is essentially identical, and something in common no longer repeats, the difference is that：The inside on the top of the hollow frame 22 Four sides, which tilt down, is provided with slope 5.

The application method of the hollow slot of the present embodiment：

Working principle：Hollow slot 4 is placed on bottom plate 10, is then added toward the space the inside of hollow 22 inside of frame The larva for adding feed and just hatching is raised, when larva grows up to mature larva, due to mature larva volume ratio More fat, being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb to the relatively low hollow slot of temperature by slope 5 In 4, since the temperature in hollow slot 4 is relatively low relative to the temperature in the space of hollow 22 inside of frame, in this when The cultivation density of the larva in space in empty frame 22 becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot 4, it is possible to ceaselessly put into the space of hollow 22 inside of frame Small grub, the mature larva climbed into hollow slot 4 can be collected by insect sucking device, when feed will reach in hollow slot 4 When arriving above, since larva and feed are on upper layer, frass lifts from bottom plate 10 in parallel in lower layer, by hollow slot 4, the worm of bottom surface Excrement escapes on bottom plate 10 from the following opening of the hollow frame 22 of hollow slot 4, is then inserted into along the bottom surface of hollow slot 4 Fork inserts hollow slot 4, since frass has humidity, can be bonded together, in hollow frame 22 at lower exit port Excrement will not be fallen down by fork, by bottom plate 10 frass remove after, hollow slot 4 is placed on again on bottom plate 10, on Layer is vacating space, can continue to put into feed.The inner sidewall of slope 5 of the invention relative to hollow frame 22, more conducively Mature larva climbs into hollow slot 4, and the inner sidewall of hollow frame 22 does not have gradient, is less conducive to mature larva and climbs into In hollow slot 4.

Embodiment three：Referring to Fig. 1, Fig. 6 and Fig. 7, a breeding worm hollow slot of the invention, the structure and embodiment of the present embodiment One is essentially identical, and something in common no longer repeats, the difference is that：It is provided with above the hollow slot 4 for preventing children The anti-escape device that worm escapes from out of hollow slot 4, the anti-escape device include the folding of the top inner side setting of hollow frame 1 The flanging of the outside on side and the top of hollow frame 22 setting.The top inner side of the hollow frame 1 is arranged Flanging be L-type flanging 6, the top of the hollow frame 22 outside setting flanging be hook flanging 7, institute The opening of the flanging 7 of the flanging 6 and hook for the L-type stated downward, the inner end of the flanging 7 of the hook and the upper end on slope 5 It is connected.

Working principle：Hollow slot 4 is placed on bottom plate 10, is then added toward the space the inside of hollow 22 inside of frame The larva for adding feed and just hatching is raised, when larva grows up to mature larva, due to mature larva volume ratio More fat, being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb to the relatively low hollow slot of temperature by slope 5 In 4, since the temperature in hollow slot 4 is relatively low relative to the temperature in the space of hollow 22 inside of frame, in this when The cultivation density of the larva in space in empty frame 22 becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot 4, it is possible to ceaselessly put into the space of hollow 22 inside of frame Small grub, the mature larva climbed into hollow slot 4 can be collected by insect sucking device, the hollow frame 1 The flanging of top inner side setting is the flanging 6 of L-type, and the flanging of the outside setting on the top of the hollow frame 22 is to hook The flanging 7 of shape can effectively prevent the mature larva climbed into hollow slot 4 from climbing out of hollow slot along the side wall of hollow slot, lead The low output of cultivation is caused, worker grabs insect everywhere, carrys out very big inconvenience to work belt, when feed will reach above in hollow slot 4 When, since larva and feed are on upper layer, frass lifts from bottom plate 10 in parallel in lower layer, by hollow slot 4, and the frass of bottom surface is from returning The opening that the hollow frame 22 of type groove 4 is following escapes on bottom plate 10, is then inserted into fork along the bottom surface of hollow slot 4, will Hollow slot 4 is inserted, and since frass has humidity, can be bonded together, the excrement in hollow frame 22 at lower exit port is not It can be fallen down by fork, after the frass on bottom plate 10 is removed, hollow slot 4 is placed on again on bottom plate 10, upper layer is vacateed Space can continue to put into feed.

The configuration of the present invention is simple, design rationally, can continuously put into small grub and be cultivated, while when feeding in hollow slot 4 It when material will reach above, only need to lift hollow slot 4 in parallel, frass be removed a part from hollow slot 4 below, upper layer is vacateed Space can continue to put into feed, not need together to clean up phoenix worm larva, feed and excrement inside chest, together When anti-escape device setting, the flanging 7 of the flanging 6 of L-type and hook effectively prevents mature larva along the side wall of hollow slot Climb out of hollow slot, the labor intensity and aquaculture cost of worker greatly reduce, effectively saves space, improve cultivation at Power is brought convenience to worker.

Example IV：Referring to Fig. 1, Fig. 8 and Fig. 9, a breeding worm hollow slot of the invention, the structure and embodiment of the present embodiment Two is essentially identical, and something in common no longer repeats, the difference is that：The slope 5 passes through connecting plate 2 11 and hollow Closed cavity 8 is formed between frame 22, the closed cavity 8 is for keeping the temperature.

Working principle：Hollow slot 4 is placed on bottom plate 10, is then added toward the space the inside of hollow 22 inside of frame The larva for adding feed and just hatching is raised, when larva grows up to mature larva, due to mature larva volume ratio More fat, being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb to the relatively low hollow slot of temperature by slope 5 In 4, since the temperature in hollow slot 4 is relatively low relative to the temperature in the space of hollow 22 inside of frame, in this when The cultivation density of the larva in space in empty frame 22 becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot 4, it is possible to ceaselessly put into the space of hollow 22 inside of frame Small grub, the mature larva climbed into hollow slot 4 can be collected by insect sucking device, the hollow frame 1 The flanging of top inner side setting is the flanging 6 of L-type, and the flanging of the outside setting on the top of the hollow frame 22 is to hook The flanging 7 of shape can effectively prevent the mature larva climbed into hollow slot 4 from climbing out of hollow slot along the side wall of hollow slot, lead The low output of cultivation is caused, worker grabs insect everywhere, carrys out very big inconvenience to work belt, when feed will reach above in hollow slot 4 When, since larva and feed are on upper layer, frass lifts from bottom plate 10 in parallel in lower layer, by hollow slot 4, and the frass of bottom surface is from returning The opening that the hollow frame 22 of type groove 4 is following escapes on bottom plate 10, is then inserted into fork along the bottom surface of hollow slot 4, will Hollow slot 4 is inserted, and since frass has humidity, can be bonded together, the excrement in hollow frame 22 at lower exit port is not It can be fallen down by fork, after the frass on bottom plate 10 is removed, hollow slot 4 is placed on again on bottom plate 10, upper layer is vacateed Space can continue to put into feed, and when cultivation, larva has certain requirement to temperature, needs to hollow frame 22 The temperature in the space of inside is kept the temperature, and provides a suitable growth temperature to larva, improves cultivation success rate, closed chamber Body 8 is due to closed, space not troposphere, can the temperature in the effective space to hollow 22 inside of frame keep the temperature.

The configuration of the present invention is simple, design rationally, can continuously put into small grub and be cultivated, closed space can be to hollow The temperature in space of the inside of frame 22 kept the temperature, give larva to provide a suitable growth temperature, while working as hollow slot 4 It when interior feed will reach above, only need to lift hollow slot 4 in parallel, frass be removed a part from hollow slot 4 below, upper layer is Vacating space can continue to put into feed, not need together to clean out phoenix worm larva, feed and excrement inside chest Come, while the setting of anti-escape device, the flanging 6 of L-type and the flanging 7 of hook effectively prevent mature larva along hollow slot Side wall climbs out of hollow slot, and the labor intensity and aquaculture cost of worker greatly reduces, effectively saves space, improves feeding Success rate is grown, is brought convenience to worker.

Embodiment five：Referring to Fig. 1, Figure 10 and Figure 11, a breeding worm hollow slot of the invention, the structure and implementation of the present embodiment Example three is essentially identical, and something in common no longer repeats, the difference is that：Thermal insulating material is filled in the closed cavity 8 Material 9, the thermal insulation material 9 is polyurethane or is polystyrene.

Working principle：Hollow slot 4 is placed on bottom plate 10, is then added toward the space the inside of hollow 22 inside of frame The larva for adding feed and just hatching is raised, when larva grows up to mature larva, due to mature larva volume ratio More fat, being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb to the relatively low hollow slot of temperature by slope 5 In 4, since the temperature in hollow slot 4 is relatively low relative to the temperature in the space of hollow 22 inside of frame, in this when The cultivation density of the larva in space in empty frame 22 becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot 4, it is possible to ceaselessly put into the space of hollow 22 inside of frame Small grub, the mature larva climbed into hollow slot 4 can be collected by insect sucking device, the hollow frame 1 The flanging of top inner side setting is the flanging 6 of L-type, and the flanging of the outside setting on the top of the hollow frame 22 is to hook The flanging 7 of shape can effectively prevent the mature larva climbed into hollow slot 4 from climbing out of hollow slot along the side wall of hollow slot, lead The low output of cultivation is caused, worker grabs insect everywhere, carrys out very big inconvenience to work belt, when feed will reach above in hollow slot 4 When, since larva and feed are on upper layer, frass lifts from bottom plate 10 in parallel in lower layer, by hollow slot 4, and the frass of bottom surface is from returning The opening that the hollow frame 22 of type groove 4 is following escapes on bottom plate 10, is then inserted into fork along the bottom surface of hollow slot 4, will Hollow slot 4 is inserted, and since frass has humidity, can be bonded together, the excrement in hollow frame 22 at lower exit port is not It can be fallen down by fork, after the frass on bottom plate 10 is removed, hollow slot 4 is placed on again on bottom plate 10, upper layer is vacateed Space can continue to put into feed, and when cultivation, larva has certain requirement to temperature, needs to hollow frame 22 The temperature in the space of inside is kept the temperature, and provides a suitable growth temperature to larva, improves cultivation success rate, described is close Filled with thermal insulation material 9 in the cavity 8 closed, the thermal insulation material 9 is polyurethane or is polystyrene, can be effective right The temperature in the space of hollow 22 inside of frame is kept the temperature.

The configuration of the present invention is simple, design rationally, can continuously put into small grub and be cultivated, filling in closed space 8 Thermal insulation material 9 temperature in the space of 22 inside of hollow frame can be kept the temperature, give larva to provide a suitable growth Temperature, while when feed will reach above in hollow slot 4, only it need to lift hollow slot 4 in parallel, frass under hollow slot 4 A part is removed on side, and upper layer, that is, vacating space can continue to put into feed, not need phoenix worm larva, feed and excrement one It rises and is cleaned up inside chest, while the setting of anti-escape device, the flanging 6 of L-type and the flanging 7 of hook effectively prevent maturation Larva climb out of hollow slot along the side wall of hollow slot, the labor intensity and aquaculture cost of worker greatly reduces, effectively Space is saved, cultivation success rate is improved, is brought convenience to worker.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and what is described in the above embodiment and the description is only the present invention Principle, various changes and improvements may be made to the invention without departing from the spirit and scope of the present invention, these variation and Improvement is both fallen in the range of claimed invention.The present invention claims protection scope by appended claims and its Equivalent defines.

Claims

1. a breeding worm hollow slot, including hollow frame one, the hollow frame two being arranged in hollow frame one and The connecting plate one being arranged between the bottom surface of hollow frame one and hollow frame two, it is characterised in that：The hollow frame Frame one, hollow frame two and connecting plate one constitute the hollow slot for collecting and storing larva, the hollow frame two The space of inside is for supporting worm.

2. breeding worm hollow slot according to claim 1, it is characterised in that：The top of the hollow frame two At least the one of inside, which is sloped downwardly, is provided with slope.

3. breeding worm hollow slot according to claim 1, it is characterised in that：It is provided with and is used for above the hollow slot The anti-escape device for preventing larva from escaping from out of hollow slot, the anti-escape device include the top inner side setting of hollow frame one Flanging and hollow frame two top outside setting flanging.

4. breeding worm hollow slot according to claim 2, it is characterised in that：In the top of the hollow frame one The flanging of side setting is the flanging of L-type, and the flanging of the outside setting on the top of the hollow frame two is the flanging of hook, The opening of the flanging of the flanging and hook of the L-type downward, the inner end of the flanging of the hook and the upper end phase on slope Connection.

5. breeding worm hollow slot according to claim 1, it is characterised in that：The slope is by connecting plate two in Closed cavity is formed between empty frame two, the closed cavity is for keeping the temperature.

6. breeding worm hollow slot according to claim 4, it is characterised in that：Filled with guarantor in the closed cavity Adiabator.

7. breeding worm hollow slot according to claim 5, it is characterised in that：The thermal insulation material be polyurethane or Person is polystyrene.

8. breeding worm hollow slot according to claim 1, it is characterised in that：The top of the hollow frame one Horizontal position of the horizontal position greater than the top of hollow frame two, the hollow frame one and hollow frame The horizontal position flush of the bottom surface of frame two.

9. breeding worm hollow slot according to claim 1, it is characterised in that：The hollow slot is positive square, rectangular Type or to be round.

10. the application method of breeding worm hollow slot according to claim 2, it is characterised in that：Include the following steps：

Hollow slot is placed on, is then hatched toward addition feed inside the space of hollow two inside of frame and just Larva is raised；

When larva grows up to mature larva, since mature larva volume is more fat, it is relatively free of mature larva For will compare that To Be Protected from Heat, it will be climbed to by slope in the relatively low hollow slot of temperature；

Since the temperature in hollow slot is relatively low relative to the temperature in the space of hollow two inside of frame, in this when The cultivation density of the larva in space in empty frame two becomes smaller, and can continuously put into small grub according to larval density, due to Ceaselessly there is mature larva to crawl into hollow slot, it is possible to ceaselessly put into the space of hollow two inside of frame small Larva, the mature larva climbed into hollow slot can be collected by insect sucking device；

When feed will reach above in hollow slot, since larva and feed are on upper layer, frass puts down hollow slot in lower layer Row lifts from bottom plate, and the frass of bottom surface escapes on bottom plate from the following opening of the hollow frame two of hollow slot, then suitable Hollow slot bottom surface be inserted into fork, hollow slot is inserted, due to frass have humidity, can be bonded together, hollow frame Excrement in frame two at lower exit port will not be fallen down by fork, and after the frass on bottom plate is removed, hollow slot is placed again On bottom plate, upper layer, that is, vacating space can continue to put into feed.