CN215898506U - Automatic shading deinsectization mechanism and full-automatic camphor seedling device - Google Patents

Abstract

The utility model discloses an automatic shading and pest killing mechanism and a full-automatic camphor seedling raising device, wherein the automatic shading and pest killing mechanism comprises a shed body, and a first conveying roller and a second conveying roller are arranged in the roof of the shed. The utility model provides a full-automatic camphor tree seedling device of growing seedlings, includes the canopy body, the canopy body is at the bottom of shed roof, wall body and the canopy, including foretell automatic shading deinsectization mechanism and automatic loosening soil mechanism, an automatic loosening soil mechanism, including the canopy body, the internal at least one worm that is equipped with of canopy, the top is located at the bottom of the canopy to the worm, and the one end of worm is connected with the output of second motor, and it has at least one and worm assorted gear to distribute on the axis direction of worm, and the side center of gear is equipped with the connecting axle, and the other end that the gear was kept away from to the connecting axle is connected with the dish that loosens the soil. The deinsectization lamp is arranged above the ventilation plate. The utility model can automatically shade and deinsectize camphor tree seedlings according to the illumination intensity, and can also loosen the soil of camphor tree seedlings at ordinary times.

Description

Automatic shading deinsectization mechanism and full-automatic camphor seedling device

Technical Field

The utility model relates to the technical field of seedling raising devices, in particular to a full-automatic camphor tree seedling raising device.

Background

The camphor and camphor leaves of camphor trees are widely applied, are important economic tree species in China, actively develop research on camphor tree seedling culture, and can effectively improve the quality and benefit of camphor tree artificial forest cultivation in China.

The camphor tree seedlings are warm and good for growing in moist soil, need to be shaded in the seedling growing process of the camphor tree seedlings to prevent exposure to sunlight, need to be subjected to insect killing operation in the cultivation process, and need to be subjected to soil loosening treatment at ordinary times, so that an excellent growing environment is created for the camphor tree seedlings.

At present, lack one kind can automatic shading deinsectization and can loosen the soil the full-automatic camphor tree seedling device of operation to the camphor tree seedling.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic shading and insect killing mechanism, an automatic soil loosening mechanism and a full-automatic camphor tree seedling raising device, which can automatically shade and kill insects of camphor tree seedlings according to illumination intensity and can loosen soil of camphor tree seedlings at ordinary times.

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

in a first aspect, the utility model provides an automatic shading and pest killing mechanism which comprises a shed body, wherein the shed body comprises a shed roof and a wall body, a first conveying roller and a second conveying roller are arranged in the shed roof, shading cloth capable of being wound on the first conveying roller is arranged on the first conveying roller, light-transmitting cloth capable of being wound on the second conveying roller is arranged on the second conveying roller, the shading cloth is connected with the light-transmitting cloth, a conveying belt is sleeved between the first conveying roller and the second conveying roller, the output end of a first motor is connected with one end of the first conveying roller or one end of the second conveying roller, a photosensor is arranged outside the shed body, a pest killing lamp is arranged on the inner wall of the wall body, and the photosensor is electrically connected with the first motor and the pest killing lamp respectively. The effect does, can let shading cloth or printing opacity cloth expand between first transfer roller and second transfer roller according to the different of the illumination that photosensitive sensor received, perhaps opens and shuts the bugZapper according to the illumination difference that photosensitive sensor received.

Further, the photosensitive sensor is provided with a first threshold value and a second threshold value;

when the light intensity received by the photosensitive sensor exceeds a first threshold value, the photosensitive sensor transmits a signal to the first motor, and the first motor rotates forwards to enable the shading cloth wound on the first conveying roller to be unfolded between the first conveying roller and the second conveying roller;

when the illumination intensity received by the photosensitive sensor is lower than a first threshold value and higher than a second threshold value, the photosensitive sensor transmits a signal to the first motor, the first motor rotates reversely, and the light-transmitting cloth wound on the second conveying roller is unfolded between the first conveying roller and the second conveying roller;

when the illumination intensity received by the photosensitive sensor is lower than the second threshold value, the photosensitive sensor transmits a signal to the insect killing lamp, the insect killing lamp is turned on, and when the illumination intensity received by the photosensitive sensor is higher than the second threshold value, the photosensitive sensor transmits a signal to the insect killing lamp, and the insect killing lamp is turned off.

Further, the extension lengths of the shading cloth and the light-transmitting cloth are both larger than the distance between the first conveying roller and the second conveying roller. The effect of the utility model is that the sunlight which is too strong is prevented from irradiating on the camphor tree seedlings through the gap between the shading cloth and the second conveying roller.

Furthermore, an insect discharge channel is obliquely arranged below the insect killing lamp, and an outlet of the insect discharge channel is positioned below the insect discharge channel and communicated with the wall body. The insect killing lamp has the effects that the corpses of insects killed by the insect killing lamp can be discharged outside the wall body, and the corpses of the insects are prevented from being accumulated in the insect killing lamp or falling on camphor seedlings.

In a second aspect, the utility model provides an automatic soil loosening mechanism which comprises a shed body, wherein the shed body comprises a wall body and a shed bottom, at least one worm is arranged in the shed body and is arranged above the shed bottom, one end of the worm is connected with the output end of a second motor, at least one gear matched with the worm is distributed in the axis direction of the worm, a connecting shaft is arranged in the center of the side face of the gear, the other end, away from the gear, of the connecting shaft is connected with a soil loosening disc coaxial with the connecting shaft, at least one soil loosening sheet is obliquely arranged on the other end face, away from the connecting shaft, of the soil loosening disc, a seedling raising barrel with two through ends is arranged on the soil loosening disc, a ventilating plate is connected to the outer side of the upper end of the seedling raising barrel, a bottom plate is connected to the outer side of the lower end of the seedling raising barrel, and the ventilating plate and the bottom plate are both connected to the inner wall of the wall body. The camphor tree seedling loosening machine has the advantages that each second motor can loosen the soil of camphor tree seedlings in the seedling raising buckets, and automation and batch loosening of soil loosening operation are achieved.

Furthermore, the soil loosening disc and the seedling raising barrel are coaxially arranged, so that the soil loosening disc can rotate by taking the axis of the seedling raising barrel as a rotating shaft, and at least one protruding part is distributed on the surface of the inner side of the seedling raising barrel. The soil loosening plate has the advantages that the soil loosening pieces on the soil loosening plate can move relative to the protrusions on the seedling raising barrel, and the soil loosening effect can be effectively improved.

Furthermore, a positioning ring coaxial with the seedling raising barrel is arranged in the seedling raising barrel, the radius of the positioning ring is smaller than that of the seedling raising barrel, and the soil loosening sheets are annularly distributed outside a ring of the soil loosening disc projected on the positioning ring. The seedling raising machine has the effects that the camphor tree seedlings can be located at the center of the seedling raising barrel, and the roots of the camphor tree seedlings are prevented from being damaged by the soil loosening sheets during soil loosening operation.

The third aspect, a full-automatic camphor tree seedling device of growing seedlings, including the canopy body, the canopy body is at the bottom of shed roof, wall body and the canopy, including foretell automatic shading deinsectization mechanism and foretell automatic mechanism of loosening the soil, first transfer roller, second transfer roller, conveyer belt, printing opacity cloth, first motor, photosensitive sensor and shading cloth among the automatic shading deinsectization mechanism constitute automatic shading mechanism and locate in the shed roof, and the bucket of growing seedlings and the dish that loosens the soil among the automatic mechanism of loosening the soil constitute the bucket of growing seedlings of loosening the soil and locate the top at the bottom of the canopy, and the ventilative board top is located to the bugZapper. The cultivation method has the effects that in the cultivation process of the camphor tree seedlings, shading treatment, deinsectization treatment and soil loosening treatment can be automatically carried out on the camphor tree seedlings, the camphor tree seedlings can be prevented from suffering from sunshine insolation and insect damage, and the camphor tree seedlings are favorable for growth.

Further, the side wall of the greenhouse body is provided with a liquid inlet pipe and a liquid outlet pipe between the height of the ventilating plate and the height of the bottom plate, the liquid inlet pipe is arranged above the liquid outlet pipe, the liquid inlet pipe is communicated with a liquid storage tank, the liquid inlet pipe and the liquid outlet pipe are both provided with electromagnetic valves, and the surface of the seedling raising barrel is provided with through holes. The effect of the device is that the electromagnetic valve can control nutrient solution to enter the seedling raising barrel and control waste liquid to be discharged from the liquid outlet pipe, and the through hole can facilitate the nutrient solution to enter the seedling raising barrel and the waste liquid to be discharged from the seedling raising barrel.

Furthermore, the greenhouse body is internally provided with a heat preservation lamp and a temperature sensor, the heat preservation lamp is arranged above the ventilating plate, and the temperature sensor is electrically connected with the heat preservation lamp. The effect is that, when the internal temperature of canopy was crossed lowly, temperature sensor transmitted the signal and gives the heat preservation lamp, starts the heat preservation lamp, promotes the internal temperature of canopy.

The utility model has the following beneficial effects:

1. through the arrangement of the automatic shading and insect killing mechanism, shading treatment or insect killing treatment can be automatically carried out on camphor tree seedlings according to the illumination intensity;

2. through the setting of the automatic mechanism that loosens the soil, can loosen the soil the operation to a plurality of camphor-tree seedlings automatically, be favorable to camphor-tree seedling to grow.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the automatic shade mechanism;

FIG. 3 is a schematic top view of the soil loosening and seedling raising barrel;

fig. 4 is a schematic side view of a section structure of a soil loosening seedling raising barrel.

The reference numerals are explained below: 1. a photosensitive sensor; 2. a temperature sensor; 3. a deinsectization lamp; 4. a pest expelling channel; 5. a second motor; 6. a worm; 7. a gear; 8. a connecting shaft; 9. a soil loosening disc; 10. a soil loosening sheet; 11. a boss portion; 12. a positioning ring; 13. a seedling raising barrel; 14. a base plate; 15. a liquid outlet pipe; 16. an electromagnetic valve; 17. A liquid inlet pipe; 18. a gas permeable plate; 19. a liquid storage tank; 20. a wall body; 21. a heat preservation lamp; 22. a first transfer roller; 23. a shade cloth; 24. a conveyor belt; 25. a light-transmitting cloth; 26. a second transfer roller; 27. a first motor; 28. A shed body; 29. a through hole; 30. a shed bottom; 30. a wall body; 31. and (5) shed roof.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, or the orientations or positional relationships that are conventionally placed when the products of the present invention are used, and are used only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element that is referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "open," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1 and 2, in a first aspect, the present invention provides an automatic light-shielding and insect-killing mechanism, which includes a canopy 28, the canopy 28 includes a canopy 31 and a wall 20, a first conveying roller 22 and a second conveying roller 26 are disposed in the canopy 31, a light-shielding cloth 23 capable of being wound on the first conveying roller 22 is disposed on the first conveying roller 22, a light-transmitting cloth 25 capable of being wound on the second conveying roller 26 is disposed on the second conveying roller 26, the light-shielding cloth 23 is connected to the light-transmitting cloth 25, a conveying belt 24 is sleeved between the first conveying roller 22 and the second conveying roller 26, an output end of a first motor 27 is connected to one end of the first conveying roller 22 or the second conveying roller 26, a photosensor 1 is disposed outside the canopy 28, an insect-killing lamp 3 is disposed on an inner wall of the wall 20, and the photosensor 1 is electrically connected to the first motor 27 and the insect-killing lamp 3, respectively. The light blocking cloth 23 or the light transmitting cloth 25 can be spread between the first carrying roller 22 and the second carrying roller 26 according to the difference of the light received by the photosensor 1, or the vermin exterminating lamp 3 can be turned on or off according to the difference of the light received by the photosensor 1.

Specifically, the photosensitive sensor 1 is provided with a first threshold value and a second threshold value;

when the light intensity received by the photosensor 1 exceeds a first threshold value, the photosensor 1 transmits a signal to the first motor 27, and the first motor 27 rotates forwards, so that the shading cloth 23 wound on the first conveying roller 22 is unfolded between the first conveying roller 22 and the second conveying roller 26;

when the intensity of the light received by the photosensor 1 is lower than a first threshold value and higher than a second threshold value, the photosensor 1 transmits a signal to the first motor 27, and the first motor 27 rotates reversely, so that the light-transmitting cloth 25 wound on the second conveying roller 26 is unfolded between the first conveying roller 22 and the second conveying roller 26;

when the illumination intensity received by the photosensitive sensor 1 is lower than the second threshold value, the photosensitive sensor 1 transmits a signal to the insect-killing lamp 3, the insect-killing lamp 3 is turned on, and when the illumination intensity received by the photosensitive sensor 1 is higher than the second threshold value, the photosensitive sensor 1 transmits a signal to the insect-killing lamp 3, and the insect-killing lamp 3 is turned off.

As shown in fig. 1 and 2, specifically, the extending lengths of the light-shielding cloth 23 and the light-transmitting cloth 25 are both longer than the distance between the first conveying roller 22 and the second conveying roller 26. Prevent the strong sunlight from irradiating on the camphor tree seedlings through the gap between the shading cloth 23 and the second conveying roller 26.

As shown in fig. 1, specifically, an insect discharge passage 4 is obliquely arranged below the insect killing lamp 3, and an outlet of the insect discharge passage 4 is located below the insect discharge passage 4 and is communicated with a wall 20. Can discharge the corpse of the insect that deinsectization lamp 3 killed outside wall body 20, avoid the corpse of insect to pile up in deinsectization lamp 3 or fall on the camphor tree seedling.

As shown in fig. 1, 3 and 4, in a second aspect, the present invention provides an automatic soil loosening mechanism, including a shed 28, the greenhouse body 28 includes wall body 20 and the canopy end 30, be equipped with at least one worm 6 in the greenhouse body 28, the worm 6 is located the canopy end 30 top, the one end of worm 6 is connected with the output of second motor 5, it has at least one and worm 6 assorted gear 7 to distribute on the axis direction of worm 6, the side center of gear 7 is equipped with connecting axle 8, the other end that gear 7 was kept away from to connecting axle 8 is connected with the coaxial dish 9 that loosens soil of connecting axle 8, it is equipped with at least one piece 10 that loosens the soil to slope on the other terminal surface that connecting axle 8 was kept away from to loosen the dish 9, it is equipped with the bucket 13 of growing seedlings that both ends link up on the dish 9 to loosen the soil, the bucket 13 upper end outside of growing seedlings is connected with ventilative board 18, the bucket 13 lower extreme outside of growing seedlings is connected with bottom plate 14, ventilative board 18 and bottom plate 14 all connect on wall body 20 inner wall. Every second motor 5 can loosen the soil to a plurality of camphor tree seedlings of raising seedlings in the bucket 13, has realized the automation and the batchization of the operation of loosening the soil.

As shown in fig. 1, 3 and 4, the soil loosening disc 9 is disposed coaxially with the seedling raising barrel 13, so that the soil loosening disc 9 can rotate around the axis of the seedling raising barrel 13, and at least one protrusion 11 is distributed on the inner surface of the seedling raising barrel 13. The soil loosening sheets 10 on the soil loosening disc 9 can move relative to the protrusions 11 on the seedling raising barrel 13, and the soil loosening effect can be effectively improved.

As shown in fig. 1, 3 and 4, specifically, a positioning ring 12 coaxial with the seedling raising barrel 13 is arranged in the seedling raising barrel 13, the radius of the positioning ring 12 is smaller than that of the seedling raising barrel 13, and the soil loosening pieces 10 are annularly distributed outside the ring of the soil loosening disc 9 on which the positioning ring 12 projects. Can make camphor tree seedling be located the center of the bucket 13 of growing seedlings, prevent that the piece 10 that loosens the soil from destroying the root of camphor tree seedling when the operation of loosening the soil.

As shown in fig. 1, in a third aspect, a full-automatic camphor seedling raising device includes a canopy body 28, the canopy body 28 includes a canopy top 31, a wall body 20 and a canopy bottom 30, and includes the above-mentioned automatic shading and insect killing mechanism and the above-mentioned automatic soil loosening mechanism, a first conveying roller 22, a second conveying roller 26, a conveying belt 24, a transparent cloth 25, a first motor 27, a photosensitive sensor 1 and a shading cloth 23 in the automatic shading and insect killing mechanism constitute the automatic shading mechanism to be located in the canopy top 31, a seedling raising barrel 13 and a soil loosening disc 9 in the automatic soil loosening mechanism constitute a soil loosening and seedling raising barrel 13 to be located above the canopy bottom 30, and a pest killing lamp 3 is located above the ventilation plate 18. In the cultivation process of camphor tree seedlings, the camphor tree seedlings can be automatically subjected to shading treatment, deinsectization treatment and soil loosening treatment, can be prevented from suffering from sunshine insolation and insect damage, and is favorable for growth of the camphor tree seedlings.

As shown in fig. 1, in particular, a liquid inlet pipe 17 and a liquid outlet pipe 15 are arranged on the side wall of the shed body 28 between the height of the air permeable plate 18 and the height of the bottom plate 14, the liquid inlet pipe 17 is arranged above the liquid outlet pipe 15, the liquid inlet pipe 17 is communicated with a liquid storage tank 19, electromagnetic valves 16 are arranged on the liquid inlet pipe 17 and the liquid outlet pipe 15, and through holes 29 are arranged on the surface of the seedling raising barrel 13. The solenoid valve 16 can control the nutrient solution and enter into aside the bucket 13 of growing seedlings and control the waste liquid and discharge from drain pipe 15, and the through-hole 29 can make things convenient for in the nutrient solution gets into the bucket 13 of growing seedlings and the waste liquid is discharged from the bucket 13 of growing seedlings.

As shown in fig. 1, in particular, a heat preservation lamp 21 and a temperature sensor 2 are arranged in the canopy body 28, the heat preservation lamp 21 is arranged above the ventilation plate 18, and the temperature sensor 2 is electrically connected with the heat preservation lamp 21. When the temperature in the shed body 28 is too low, the temperature sensor 2 transmits a signal to the heat preservation lamp 21, and the heat preservation lamp 21 is started to raise the temperature in the shed body 28.

The working principle of the utility model is illustrated as follows: when the light intensity received by the photosensor 1 exceeds a first threshold value, the photosensor 1 transmits a signal to the first motor 27, and the first motor 27 rotates forwards, so that the shading cloth 23 wound on the first conveying roller 22 is unfolded between the first conveying roller 22 and the second conveying roller 26;

when the intensity of the light received by the photosensor 1 is lower than a first threshold value and higher than a second threshold value, the photosensor 1 transmits a signal to the first motor 27, and the first motor 27 rotates reversely, so that the light-transmitting cloth 25 wound on the second conveying roller 26 is unfolded between the first conveying roller 22 and the second conveying roller 26;

when the illumination intensity received by the photosensitive sensor 1 is lower than a second threshold value, the photosensitive sensor 1 transmits a signal to the insect-killing lamp 3, the insect-killing lamp 3 is turned on, when the illumination intensity received by the photosensitive sensor 1 is higher than the second threshold value, the photosensitive sensor 1 transmits a signal to the insect-killing lamp 3, and the insect-killing lamp 3 is turned off; each second motor 5 can loosen the soil of camphor tree seedlings in the seedling raising buckets 13; the electromagnetic valve 16 can control nutrient solution to enter the seedling raising barrel 13 and control waste liquid to be discharged from the liquid outlet pipe 15, and the through hole 29 can facilitate the nutrient solution to enter the seedling raising barrel 13 and the waste liquid to be discharged from the seedling raising barrel 13; when the temperature in the shed body 28 is too low, the temperature sensor 2 transmits a signal to the heat preservation lamp 21, and the heat preservation lamp 21 is started to raise the temperature in the shed body 28.

The foregoing is only a preferred embodiment of the present invention, and the present invention is not limited thereto in any way, and any simple modification, equivalent replacement and improvement made to the above embodiment within the spirit and principle of the present invention still fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides an automatic shading deinsectization mechanism, includes the canopy body (28), the canopy body (28) are including shed roof (31), wall body (20), its characterized in that: be equipped with first transfer roller (22) and second transfer roller (26) in shed roof (31), be equipped with shading cloth (23) that can twine on first transfer roller (22), be equipped with printing opacity cloth (25) that can twine on second transfer roller (26), shading cloth (23) are connected with printing opacity cloth (25), the cover is equipped with conveyer belt (24) between first transfer roller (22) and second transfer roller (26), the output of first motor (27) is connected with the one end of first transfer roller (22) or second transfer roller (26), the canopy body (28) is equipped with photosensitive sensor (1) outward, be equipped with bugZapper (3) on wall body (20) inner wall, photosensitive sensor (1) respectively with first motor (27) and bugZapper (3) electric connection.

2. The automatic light-shielding and insect-killing mechanism of claim 1, wherein: the photosensitive sensor (1) is provided with a first threshold value and a second threshold value;

when the illumination intensity received by the photosensitive sensor (1) exceeds a first threshold value, the photosensitive sensor (1) transmits a signal to a first motor (27), the first motor (27) rotates forwards, and the shading cloth (23) wound on the first conveying roller (22) is unfolded between the first conveying roller (22) and a second conveying roller (26);

when the illumination intensity received by the photosensitive sensor (1) is lower than a first threshold value and higher than a second threshold value, the photosensitive sensor (1) transmits a signal to the first motor (27), the first motor (27) rotates reversely, and the transparent cloth (25) wound on the second conveying roller (26) is unfolded between the first conveying roller (22) and the second conveying roller (26);

when the illumination intensity received by the photosensitive sensor (1) is lower than a second threshold value, the photosensitive sensor (1) transmits a signal to the insect killing lamp (3), the insect killing lamp (3) is turned on, and when the illumination intensity received by the photosensitive sensor (1) is higher than the second threshold value, the photosensitive sensor (1) transmits a signal to the insect killing lamp (3), and the insect killing lamp (3) is turned off.

3. The automatic light-shielding and insect-killing mechanism of claim 1, wherein: the extension lengths of the shading cloth (23) and the light-transmitting cloth (25) are both larger than the distance between the first conveying roller (22) and the second conveying roller (26).

4. The automatic light-shielding and insect-killing mechanism of claim 1, wherein: the lower part of the insect killing lamp (3) is obliquely provided with an insect discharging channel (4), and the outlet of the insect discharging channel (4) is positioned below the insect discharging channel (4) and communicated with the wall body (20).

5. The utility model provides a full-automatic camphor tree seedling device of growing seedlings, includes the canopy body (28), the canopy body (28) are including shed roof (31), wall body (20) and shed bottom (30), its characterized in that: the automatic shading and pest killing mechanism comprises the automatic shading and pest killing mechanism of any one of claims 1 to 4, wherein a first conveying roller (22), a second conveying roller (26), a conveying belt (24), a light-transmitting cloth (25), a first motor (27), a photosensitive sensor (1) and a shading cloth (23) in the automatic shading and pest killing mechanism form the automatic shading mechanism which is arranged in a shed roof (31), and the automatic shading and pest killing mechanism also comprises an automatic soil loosening mechanism;

an automatic soil loosening mechanism comprises a shed body (28), wherein the shed body (28) comprises a wall body (20) and a shed bottom (30), at least one worm (6) is arranged in the shed body (28), the worm (6) is arranged above the shed bottom (30), one end of the worm (6) is connected with the output end of a second motor (5), at least one gear (7) matched with the worm (6) is distributed in the axis direction of the worm (6), a connecting shaft (8) is arranged at the center of the side face of the gear (7), the other end, far away from the gear (7), of the connecting shaft (8) is connected with a soil loosening disc (9) coaxial with the connecting shaft (8), at least one soil loosening sheet (10) is obliquely arranged on the other end face, far away from the connecting shaft (8), a seedling raising barrel (13) with two through ends is arranged on the soil loosening disc (9), and a ventilation plate (18) is connected to the outer side of the upper end of the seedling raising barrel (13), the outer side of the lower end of the seedling raising barrel (13) is connected with a bottom plate (14), and the air permeable plate (18) and the bottom plate (14) are both connected to the inner wall of the wall body (20);

seedling raising buckets (13) and soil loosening disks (9) in the automatic soil loosening mechanism form soil loosening seedling raising buckets (13) arranged above the shed bottom (30), and the insect killing lamp (3) is arranged above the ventilation plate (18).

6. The full-automatic camphor seedling raising device according to claim 5, wherein: the soil loosening disc (9) and the seedling raising barrel (13) are coaxially arranged, the soil loosening disc (9) can rotate by taking the axis of the seedling raising barrel (13) as a rotating shaft, and at least one protruding part (11) is distributed on the inner side surface of the seedling raising barrel (13).

7. The full-automatic camphor seedling raising device according to claim 5, wherein: the seedling raising barrel (13) is internally provided with a positioning ring (12) coaxial with the seedling raising barrel (13), the radius of the positioning ring (12) is smaller than that of the seedling raising barrel (13), and the soil loosening sheets (10) are annularly distributed outside the ring of the soil loosening disc (9) along the projection of the positioning ring (12) in the axial direction.

8. The full-automatic camphor seedling raising device according to claim 5, wherein: the side wall of the greenhouse body (28) is provided with a liquid inlet pipe (17) and a liquid outlet pipe (15) between the height of the ventilating plate (18) and the height of the bottom plate (14), the liquid inlet pipe (17) is arranged above the liquid outlet pipe (15), the liquid inlet pipe (17) is communicated with a liquid storage tank (19), the liquid inlet pipe (17) and the liquid outlet pipe (15) are both provided with an electromagnetic valve (16), and the surface of the seedling raising barrel (13) is provided with a through hole (29).

9. The full-automatic camphor seedling raising device according to claim 5, wherein: be equipped with heat preservation lamp (21) and temperature sensor (2) in canopy body (28), ventilative board (18) top is located in heat preservation lamp (21), and temperature sensor (2) and heat preservation lamp (21) electric connection.

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