CN209105990U - It is a kind of to have the feeding worm hollow slot for receiving worm plate - Google Patents

Abstract

The utility model relates to the technical fields of the mechanical equipment of cultured insect, more particularly to a kind of feeding worm hollow slot for having receipts worm plate, including hollow hollow slot ontology, the hollow cavity of the hollow hollow slot ontology is for supporting worm, length direction in the hollow cavity of the hollow hollow slot ontology along hollow hollow slot ontology is evenly distributed with parallel transverse and is provided with multiple inclined plates one, the top of the inclined plate one, which is provided with, receives worm plate, the utility model structure is simple, design is reasonable, when the size for supporting worm hollow slot is bigger, mature larva can be made to climb by neighbouring inclined plate one in time to receive in worm plate, it does not need manually to separate, the labor intensity and aquaculture cost of worker greatly reduces, it improves cultivation rate and effectively saves space.

Description

It is a kind of to have the feeding worm hollow slot for receiving worm plate

Technical field

The utility model relates to the technical field of the mechanical equipment of cultured insect more particularly to a kind of feeding worms for having receipts worm plate Hollow slot.

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 when the size for supporting worm hollow slot is bigger, is located in the middle larva when cultivation, because Bigger with a distance from side wall from feeding worm hollow slot, the distance for needing to creep is long, and the larva of some maturations will be made to climb not Into hollow slot, the separation of phoenix worm larva is influenced, it is necessary to manually go to separate larva, make the workload of worker Greatly, while to continuous raising certain influence is also resulted in, cost of labor also accordingly increases, while also due to what is separated is too late When, lead to the low output of cultivation.

Utility model content

The purpose of this utility model is to solve the above problems, and it is equal to provide a kind of length direction along hollow hollow slot ontology Cloth parallel transverse is provided with multiple inclined plates one, and the top of the inclined plate one, which is provided with, receives worm plate, in the ruler for supporting worm hollow slot When very little bigger, distant mature larva with a distance from the side wall from hollow hollow slot can pass through similar inclined plate One climbs into receipts worm plate, does not need manually to go to separate, while can continuously put into small grub, the yield of cultivation according to larval density The labor intensity of worker and the feeding worm hollow slot for having receipts worm plate of cost greatly reduces in height.

To solve the above-mentioned problems, technical solution adopted in the utility model is:

It is a kind of to have the feeding worm hollow slot for receiving worm plate, including hollow hollow slot ontology, the hollow hollow slot ontology Hollow cavity for supporting worm, along the length of hollow hollow slot ontology in the hollow cavity of the hollow hollow slot ontology Direction is evenly distributed with parallel transverse and is provided with multiple inclined plates one, and the top of the inclined plate one, which is provided with, receives worm plate.

The receipts worm plate is arc panel, and the both ends of the arc panel are being respectively positioned on the slot of hollow hollow slot ontology just Top or stretching hollow slot sheet are external；When the both ends of the arc panel stretch out hollow hollow slot sheet it is external when, institute It is provided with below the both ends for the arc panel stated and receives worm cylinder.

The receipts worm plate be opening up U-shaped board, the U-shaped board it is closed at both ends.

The anti-escape plate of L-type, the opening of the anti-escape plate of the L-type are provided with above the two sidewalls of the U-shaped board Downward.

The other side of the receipts worm plate is provided with inclined plate two, and the inclined plate two and inclined plate one are symmetrically positioned in two-by-two receives worm The two sides of plate.

The side of the inclined plate one is provided with symmetrical inclined plate three, inclined plate one and inclined plate three and hollow hollow slot sheet The inner sidewall of body forms up-small and down-big necking type and receives worm plate.

The inclined plate three side mutually close with the upper end of inclined plate one is provided with transverse slat, between having between two transverse slats Gap.

The gain effect of the utility model is:

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology for the utility model Length direction in hollow cavity along hollow hollow slot ontology is evenly distributed with parallel transverse and is provided with multiple inclined plates one, the inclined plate One top be provided with receive worm plate, mature larva due to when volume ratio is just hatched larva it is big, so it relatively just hatching when Larva also compares that To Be Protected from Heat, it can be climbed by neighbouring inclined plate one receives in worm plate, does not need manually to go to separate, hollow hollow The cultivation density of the intracorporal larva of the hollow cavity of slot ontology becomes smaller, and can continuously put into small grub according to larval density.This is practical New structure is simple, and design rationally, when the size for supporting worm hollow slot is bigger, can make mature larva near in time Inclined plate one climb into receive worm plate in, do not need manually to separate, the labor intensity and aquaculture cost of worker greatly reduce, improve Cultivation rate and effectively save space.

Detailed description of the invention

Fig. 1 is one of the structural schematic diagram of the utility model.

Fig. 2 is the second structural representation of the utility model.

Fig. 3 is one of the structural schematic diagram of the receipts worm plate of the utility model.

Fig. 4 is the side view of Fig. 3.

Fig. 5 is the second structural representation of the receipts worm plate of the utility model.

Fig. 6 is the side view of Fig. 5.

Fig. 7 is the third structural representation of the receipts worm plate of the utility model.

Fig. 8 is the four of the structural schematic diagram of the receipts worm plate of the utility model.

Fig. 9 is the five of the structural schematic diagram of the receipts worm plate of the utility model.

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8 and Fig. 9, serial number in figure: 1 is hollow hollow slot sheet Body, 2 be hollow cavity, 3 be inclined plate one, 4 be arc panel, 5 be receive worm cylinder, 6 be U-shaped board, 7 be the anti-escape plate of L-type, 8 be inclined plate Two, 9 be that inclined plate three, 10 is transverse slat, 11 be bottom plate and 12 is that up-small and down-big necking type receives worm plate.

Embodiment one: referring to Fig. 1, Fig. 3 and Fig. 4, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, including hollow Hollow slot ontology 1, the hollow cavity of the hollow hollow slot ontology 1 is with 2 in feeding worm, the hollow hollow slot sheet Length direction in the hollow cavity 2 of body 1 along hollow hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, institute The top for the inclined plate 1 stated, which is provided with, receives worm plate.

The receipts worm plate is arc panel 4, and the both ends of the arc panel 4 are respectively positioned on the slot of hollow hollow slot ontology 1 Surface.

Working principle: hollow hollow slot ontology 1 is placed on bottom plate 11, toward the hollow of hollow hollow slot ontology 1 Addition feed and the larva just hatched are raised in cavity 2, when larva grows up to mature larva, due to mature children Polypide product is more fat, and being relatively free of for mature larva will compare that To Be Protected from Heat, it will climb into arc by neighbouring inclined plate 1 In shape plate 4, entered in the slot of hollow hollow slot ontology 1 by the both ends of arc panel 4, since the temperature in arc panel 4 is opposite It is relatively low in the temperature in the hollow cavity 2 of hollow hollow slot ontology 1, the cultivation of the larva in this when hollow cavity 2 Density becomes smaller, and can continuously put into small grub according to larval density, due to ceaselessly there is mature larva to crawl into hollow hollow In the slot of slot ontology 1, it is possible to ceaselessly put into small grub in hollow cavity 2, climb into the slot of hollow hollow slot ontology 1 Interior mature larva can be collected by insect sucking device.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model Length direction in hollow cavity 2 along hollow slot ontology is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, the inclined plate 1 Top be provided with receive worm plate, mature larva due to when volume ratio is just hatched larva it is big, so it relatively just hatching when children Worm also compares that To Be Protected from Heat, it can be climbed into arc panel 4 by neighbouring inclined plate 1, not need manually to go to separate, hollow hollow The cultivation density of larva in the hollow cavity 2 of slot ontology 1 becomes smaller, and can continuously put into small grub according to larval density.This reality Simple with new structure, design rationally, when the size for supporting worm hollow slot is bigger, can be such that mature larva passes through attached in time Close inclined plate 1 climbs into arc panel 4, does not need manually to separate, and the labor intensity and aquaculture cost of worker greatly reduces, It improves cultivation rate and effectively saves space.

Embodiment two: referring to fig. 2, Fig. 3 and Fig. 4, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, the present embodiment Two structure is basically the same as the first embodiment, and something in common no longer repeats, the difference is that: when the arc panel 4 Both ends stretch out hollow hollow slot ontology 1 it is outer when, be provided with below the both ends of the arc panel 4 and receive worm cylinder 5.

Working principle: hollow hollow slot ontology 1 is placed on bottom plate 11, the lower section setting at the both ends of arc panel 4 Worm cylinder is received 5 to be placed on bottom plate 11, in the hollow cavity 2 of hollow hollow slot ontology 1 addition feed and the larva just hatched into Row raising, since mature larva volume is more fat, is 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 into arc panel 4 by neighbouring inclined plate 1, be fallen into accordingly from the both ends of arc panel 4 Receipts worms cylinder 5 in, since the temperature in arc panel 4 compares relative to the temperature in the hollow cavity 2 of hollow hollow slot ontology 1 Low, the cultivation density of the larva in this when hollow cavity 2 becomes smaller, and can continuously put into small grub according to larval density, by In ceaselessly there is mature larva to crawl into arc panel 4, then enters back into and receive in worm cylinder 5, it is possible to ceaselessly toward hollow cavity Small grub is put into body 2, the mature larva fallen into receipts worm cylinder 5, which can directly pour into collecting box, to be collected.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model The hollow length direction along hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1 in hollow cavity 2, described The top of inclined plate 1 be provided with receive worm plate, mature larva due to when volume ratio is just hatched larva it is big, so it has just been incubated relatively Larva also compares that To Be Protected from Heat when change, it can be climbed into arc panel 4 by neighbouring inclined plate one, then be fallen into from the both ends of arc panel 4 It receives in worm cylinder 5, does not need manually to go to separate, the cultivation density of the larva in the hollow cavity 2 of hollow hollow slot ontology 1 becomes It is small, small grub can continuously be put into according to larval density.The utility model structure is simple, and design rationally, is supporting worm hollow slot When size is bigger, mature larva can be made to climb into arc panel 4 by neighbouring inclined plate 1 in time, then fall into and receive worm cylinder 5, it does not need manually to separate, the mature larva fallen into receipts worm cylinder 5, which can directly pour into collecting box, to be collected, it is more convenient, The labor intensity and aquaculture cost that worker greatly reduces, improve cultivation rate and collection rate, effectively save space.

Embodiment three: referring to Fig. 1, Fig. 5 and Fig. 6, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, the present embodiment Three structure is basically the same as the first embodiment, and something in common no longer repeats, the difference is that: the receipts worm plate is opening U-shaped board 6 upward, the U-shaped board 6 it is closed at both ends.

Working principle: hollow hollow slot ontology 1 is placed on bottom plate 11, toward the hollow of hollow hollow slot ontology 1 Addition feed and the larva just hatched are raised in cavity 2, when larva grows up to mature larva, due to mature children Polypide product is more fat, and being relatively free of for mature larva will compare that To Be Protected from Heat, it will be climbed into U-shaped by neighbouring inclined plate one Plate 6, since the temperature in U-shaped board 6 compares relative to the temperature in the space in the hollow cavity 2 of hollow hollow slot ontology 1 Low, the cultivation density of the larva in this when hollow cavity 2 becomes smaller, and can continuously put into small grub according to larval density, by In ceaselessly there is mature larva to crawl into U-shaped board 6, it is possible to ceaselessly put into small grub in hollow cavity 2, climb into U-shaped Mature larva in plate 6 can be collected by insect sucking device.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model Length direction in hollow cavity 2 along hollow hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, described The top of inclined plate 1 be provided with receive worm plate, mature larva due to when volume ratio is just hatched larva it is big, so it has just been incubated relatively Larva also compares that To Be Protected from Heat when change, it can be climbed into U-shaped board 6 by neighbouring inclined plate 1, not need manually to go to separate, hollow Hollow slot ontology 1 hollow cavity 2 in the cultivation density of larva become smaller, small children can be continuously put into according to larval density Worm.The utility model structure is simple, and design rationally, when the size for supporting worm hollow slot is bigger, can make mature children in time Worm is climbed into U-shaped board by neighbouring inclined plate one, does not need manually to separate, and labor intensity and the cultivation of worker greatly reduces Cost improves cultivation rate and effectively saves space.

Example IV: referring to Fig. 1, Fig. 5 and Fig. 7, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, the present embodiment Four structure is basically the same as the first embodiment, and something in common no longer repeats, the difference is that: the two sides of the U-shaped board 6 Be provided with the anti-escape plate 7 of L-type above wall, the anti-escape plate 7 of the L-type it is opening down.

Working principle: hollow hollow slot ontology 1 is placed on, toward the hollow cavity of hollow hollow slot ontology 1 Addition feed and the larva just hatched are raised in body 2, when larva grows up to mature larva, due to mature larva Volume is more fat, and being relatively free of for mature larva will compare that To Be Protected from Heat, it will be climbed into U-shaped by neighbouring inclined plate 1 Plate 6, since the temperature in U-shaped board 6 compares relative to the temperature in the space in the hollow cavity 2 of hollow hollow slot ontology 1 Low, the cultivation density of the larva in this when hollow cavity 2 becomes smaller, and can continuously put into small grub according to larval density, by In ceaselessly there is mature larva to crawl into U-shaped board, it is possible to ceaselessly put into small grub in hollow cavity, climb into U-shaped board 6 Interior mature larva can be collected by insect sucking device, and the anti-escape plate 7 of L-type can effectively prevent from climbing into U-shaped board 6 Mature larva climbs out of in U-shaped board 6 along the side wall of U-shaped board 6, leads to the low output of cultivation, and worker grabs insect everywhere, gives work belt Carry out very big inconvenience.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model Length direction in hollow cavity 2 along hollow hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, described The top of inclined plate 1 be provided with receive worm plate, mature larva due to when volume ratio is just hatched larva it is big, so it has just been incubated relatively Larva also compares that To Be Protected from Heat when change, it can be climbed into U-shaped board 6 by neighbouring inclined plate 1, not need manually to go to separate, hollow Hollow slot ontology 1 hollow cavity 2 in the cultivation density of larva become smaller, small children can be continuously put into according to larval density Worm.The utility model structure is simple, and design rationally, when the size for supporting worm hollow slot is bigger, can make mature children in time Worm is climbed into U-shaped board 6 by neighbouring inclined plate one, does not need manually to separate, and the anti-escape plate 7 of L-type effectively prevents mature children Worm climbs out of U-shaped board 6 along the side wall of U-shaped board 6, and the labor intensity and aquaculture cost of worker greatly reduces, improves cultivation Yield and effectively save space.

Embodiment five: referring to Fig. 1 and Fig. 8, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, the present embodiment five Structure is basically the same as the first embodiment, and something in common no longer repeats, the difference is that: the side setting of the inclined plate 1 There is the inner sidewall of symmetrical inclined plate 39, inclined plate 1 and inclined plate 39 and hollow hollow slot ontology 1 to be formed up-small and down-big Necking type receives worm plate 12, and the inclined plate 39 side mutually close with the upper end of inclined plate 1 is provided with transverse slat 10, two cross There is gap between plate 10.

Working principle: hollow hollow slot ontology 1 is placed on bottom plate 11, toward the hollow of hollow hollow slot ontology 1 Addition feed and the larva just hatched are raised in cavity 2, when larva grows up to mature larva, due to mature children Polypide product is more fat, and being relatively free of for mature larva will compare that To Be Protected from Heat, it will by neighbouring inclined plate 1 or tiltedly Plate 39 climbs into up-small and down-big necking type and receives in worm plate 12, since the temperature in up-small and down-big necking type receipts worm plate 12 is opposite Children relatively low in the temperature in the space in the hollow cavity 2 of hollow hollow slot ontology 1, in this when hollow cavity 2 The cultivation density of worm becomes smaller, and can continuously put into small grub according to larval density, due to ceaselessly there is mature larva to crawl into The receipts worm plate of small lower big necking type, it is possible to ceaselessly put into small grub in hollow cavity, climb into up-small and down-big contracting The mature larva that the shape of the mouth as one speaks is received in worm plate 12 can be collected by insect sucking device, be up-small and down-big necking type due to receiving worm plate Worm plate 12 is received, can effectively prevent the mature larva climbed into up-small and down-big necking type receipts worm plate 12 along up-small and down-big The inner sidewall that necking type receives worm plate 12 climbs out of, and leads to the low output of cultivation, and worker grabs insect everywhere, comes very very much not to work belt Just.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model Length direction in hollow cavity 2 along hollow hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, described The top of inclined plate 1, which is provided with, receives worm plate, and the side of the inclined plate 1 is provided with symmetrical inclined plate 39, mature larva Larva is big when just hatching due to volume ratio, thus it relatively just hatching when larva also compare that To Be Protected from Heat, it can be by neighbouring oblique Plate 1 or inclined plate 39 climb into up-small and down-big necking type and receive in worm plate 12, do not need manually to go to separate, hollow hollow slot The cultivation density of larva in the hollow cavity 2 of ontology 1 becomes smaller, and can continuously put into small grub according to larval density.This is practical New structure is simple, and design rationally, when the size for supporting worm hollow slot is bigger, can make mature larva near in time Inclined plate one or inclined plate three climb into up-small and down-big necking type and receive in worm plate 12, do not need manually to separate, up-small and down-big contracting The shape of the mouth as one speaks, which receives worm plate 12, effectively prevents mature larva from climbing out of receipts worm along the inner sidewall that up-small and down-big necking type receives worm plate 12 In plate, the labor intensity and aquaculture cost of worker greatly reduces, improve the yield of cultivation and effectively saves space.

Embodiment six: referring to Fig. 1 and Fig. 9, the utility model is a kind of the feeding worm hollow slot for receiving worm plate, the present embodiment six Structure is basically the same as the first embodiment, and something in common no longer repeats, the difference is that: the other side of the arc panel is set It is equipped with inclined plate 28, the inclined plate 28 and inclined plate 1 are symmetrically positioned in the two sides of arc panel 4 two-by-two.

Working principle: hollow hollow slot ontology 1 is placed on bottom plate 11, toward the hollow of hollow hollow slot ontology 1 Addition feed and the larva just hatched are raised in cavity 2, when larva grows up to mature larva, due to mature children Polypide product is more fat, and being relatively free of for mature larva will compare that To Be Protected from Heat, it will by neighbouring inclined plate 1 or tiltedly Plate 28 climbs into arc panel 4, in the slot that hollow hollow slot ontology 1 is carried out by the both ends of arc panel 4, due in arc panel 4 Temperature it is relatively low relative to the temperature in the hollow cavity 2 of hollow hollow slot ontology 1, in this when hollow cavity 2 The cultivation density of larva becomes smaller, and can continuously put into small grub according to larval density, due to ceaselessly there is mature larva to crawl into In the slot of hollow hollow slot ontology 1, it is possible to ceaselessly put into small grub in hollow cavity 2, climb into hollow hollow Mature larva in the slot of slot ontology 1 can be collected by insect sucking device.

When in use, the size for supporting worm hollow slot is bigger, due to hollow hollow slot ontology 1 for the utility model Length direction in hollow cavity 2 along hollow hollow slot ontology 1 is evenly distributed with parallel transverse and is provided with multiple inclined plates 1, described The other side of arc panel 4 is provided with inclined plate 28, and the top of the inclined plate 1, which is provided with, receives worm plate, mature larva due to 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 pass through neighbouring inclined plate 1 Or inclined plate 28 climbs into arc panel 4, does not need manually to go to separate, the children in the hollow cavity 2 of hollow hollow slot ontology 1 The cultivation density of worm becomes smaller, and can continuously put into small grub according to larval density.The utility model structure is simple, and design is reasonable, When the size for supporting worm hollow slot is bigger, mature larva can be made to climb by neighbouring inclined plate one in time and received in worm plate, It does not need manually to separate, and due to the setting of inclined plate 1 and inclined plate 28, greatly improves mature larva and climb into arc Efficiency in plate 4, greatly improves breeding efficiency, the labor intensity and aquaculture cost of worker greatly reduces, effectively Save space.

Basic principles, main features, and advantages of the present invention has been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Only the principles of the present invention, the utility model also has respectively on the premise of not departing from the spirit and scope of the utility model Kind changes and improvements, these changes and improvements are both fallen in the range of claimed invention.The requires of the utility model Protection scope defined by appended claims and its equivalent.

Claims (7)

1. a kind of have the feeding worm hollow slot for receiving worm plate, including hollow hollow slot ontology, the hollow hollow slot ontology Hollow cavity is for supporting worm, it is characterised in that: along hollow hollow slot in the hollow cavity of the hollow hollow slot ontology The length direction of ontology is evenly distributed with parallel transverse and is provided with multiple inclined plates one, and the top of the inclined plate one, which is provided with, receives worm plate.

2. a kind of feeding worm hollow slot for having receipts worm plate according to claim 1, it is characterised in that: the receipts worm plate is arc Shape plate, the both ends of the arc panel are respectively positioned on the surface of the slot of hollow hollow slot ontology or stretch out hollow slot ontology Outside；When the both ends of the arc panel stretch out hollow hollow slot sheet it is external when, the lower section at the both ends of the arc panel is equal It is provided with and receives worm cylinder.

3. a kind of feeding worm hollow slot for having receipts worm plate according to claim 1, it is characterised in that: the receipts worm plate is to open Mouth U-shaped board upward, the U-shaped board it is closed at both ends.

4. a kind of feeding worm hollow slot for having receipts worm plate according to claim 3, it is characterised in that: the two of the U-shaped board Be provided with the anti-escape plate of L-type above side wall, the anti-escape plate of the L-type it is opening down.

5. according to a kind of any feeding worm hollow slot for having receipts worm plate of claim 2-4, it is characterised in that: the receipts worm The other side of plate is provided with inclined plate two, and the inclined plate two and inclined plate one are symmetrically positioned in the two sides for receiving worm plate two-by-two.

6. a kind of feeding worm hollow slot for having receipts worm plate according to claim 1, it is characterised in that: the side of the inclined plate one Be provided with symmetrical inclined plate three, inclined plate one and inclined plate three and hollow hollow slot ontology inner sidewall formed it is up-small and down-big Necking type receives worm plate.

A kind of there is the feeding worm hollow slot for receiving worm plate 7. according to claim 6, it is characterised in that: the inclined plate three and tiltedly The mutually close side in the upper end of plate one is provided with transverse slat, has gap between two transverse slats.