CN219894145U - Automatic seedling production line of growing of plant - Google Patents
Automatic seedling production line of growing of plant Download PDFInfo
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- CN219894145U CN219894145U CN202320731745.XU CN202320731745U CN219894145U CN 219894145 U CN219894145 U CN 219894145U CN 202320731745 U CN202320731745 U CN 202320731745U CN 219894145 U CN219894145 U CN 219894145U
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 14
- 230000007704 transition Effects 0.000 claims abstract description 50
- 238000005286 illumination Methods 0.000 claims abstract description 14
- 230000005540 biological transmission Effects 0.000 claims description 15
- 230000007246 mechanism Effects 0.000 claims description 14
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 13
- 239000003643 water by type Substances 0.000 claims description 13
- 239000007921 spray Substances 0.000 claims description 9
- 230000001174 ascending effect Effects 0.000 claims description 5
- 230000009471 action Effects 0.000 claims description 4
- 230000000630 rising effect Effects 0.000 claims 2
- 238000009434 installation Methods 0.000 claims 1
- 238000000034 method Methods 0.000 abstract description 8
- 241000196324 Embryophyta Species 0.000 abstract description 7
- 230000008569 process Effects 0.000 abstract description 7
- 230000001502 supplementing effect Effects 0.000 abstract description 3
- 238000010899 nucleation Methods 0.000 description 4
- 238000005507 spraying Methods 0.000 description 4
- 230000033001 locomotion Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 239000002689 soil Substances 0.000 description 2
- 241000208125 Nicotiana Species 0.000 description 1
- 235000002637 Nicotiana tabacum Nutrition 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
- 210000000689 upper leg Anatomy 0.000 description 1
- 235000013311 vegetables Nutrition 0.000 description 1
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- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Abstract
The utility model provides an automatic plant seedling raising production line which comprises a main frame, wherein a long linear conveyor belt which is positioned at the front side and the rear side and is inclined at an angle and a 180-degree turning conveyor belt which is positioned at the left side and the right side are arranged on the main frame, a light source illumination plate is arranged on the main frame above each long linear conveyor belt, a seedling feeding tool is arranged at the starting point of the long linear conveyor belt at the bottommost section, the end point of the long linear conveyor belt at the highest position is connected to a continuous lifter through a first transition conveyor belt, a curve conveyor belt for supplementing seedlings is arranged at the rear of the lower part of the continuous lifter, a seedling emergence tool is arranged at the outlet of the curve conveyor belt, a second transition conveyor belt is arranged at the top of the seedling emergence tool, a watering tool is arranged in front of the second transition conveyor belt, and the front of the watering tool corresponds to the end point of the long linear conveyor belt at the bottommost end point. The utility model can effectively control temperature, humidity and illumination in the cultivation process of seedlings, and has small occupied area and high degree of automation.
Description
Technical Field
The utility model relates to plant seedling raising equipment, in particular to an automatic plant seedling raising production line.
Background
The plug seedling is a novel seedling technology developed in the 70 th century, is mainly used for seedling of vegetables and flowers, and can also be used for seedling of crops such as tobacco leaves, woods and the like. The method has the advantages of no damage to root systems, high yield, suitability for long-distance transportation and the like, and is welcomed by the mass of manufacturers. In order to meet the needs of plug seedling, manufacturers push out plug seedling machines, the plug seedling machines are developed to the present, the plug seedling machines can automatically and continuously finish the operations of soil paving, hole punching, seeding, soil covering, water spraying and the like of the plug, and people only need to put and take away the plug.
When the existing automatic crop seedling production line is used, firstly, a tray for cultivating crops is placed at the top end of a conveying belt, under the transmission action of the conveying belt, the tray is respectively subjected to earthing up, seeding and water spraying operations when sequentially passing through a earthing device, a seeding device and a water spraying device, the tray after seeding is transmitted to a thermal insulation bin under the action of the conveying belt to wait for seedling cultivation, and proper temperature, illumination and humidity are kept in the period of several days until seedlings grow to required heights, so that seedlings are removed. The seedling raising room generally occupies a large space, the illumination brightness needs to be adjusted, watering is needed on time, the whole cycle control process is complex, and the labor capacity is large.
Disclosure of Invention
Aiming at the problems, the utility model aims to provide an automatic plant seedling production line which can provide a proper temperature for seedling cultivation, automatically and regularly adjust illumination with different intensities, regularly water seedling trays, and can accommodate more seedling trays under the same occupied area.
The technical scheme of the utility model is that the plant automatic seedling raising production line comprises a main frame, at least two layers of rotary ascending conveyor belts are arranged on the main frame, each rotary ascending conveyor belt comprises a long straight line conveyor belt which is inclined at an angle and is positioned at the front side and the rear side, 180-degree turning conveyor belts which are positioned at the left side and the right side, two ends of each 180-degree turning conveyor belt respectively correspond to the end positions of the front long straight line conveyor belt and the rear long straight line conveyor belt, a light source illumination plate is arranged on the main frame above each long straight line conveyor belt, a seedling feeding tool is arranged at the starting point of the long straight line conveyor belt at the bottommost section, the end position of the end of the long straight line conveyor belt at the highest section is connected to a continuous lifter through a first transition conveyor belt, a seedling emergence tool is arranged at the outlet of the curved conveyor belt, a second transition conveyor belt is arranged at the top of the seedling emergence tool, watering tools are arranged in front of the second transition conveyor belts, and each long straight line conveyor belt at the front and the end of the bottom end of each watering tool is correspondingly provided with an independent driving section on a motor.
Preferably, the seedling feeding tool comprises a feeding frame arranged outside a main frame, the feeding frame comprises a rear-high front-low inclined feeding frame and a front-side horizontal feeding frame, conveying belts are arranged at the tops of the inclined feeding frame and the horizontal feeding frame, each conveying belt is driven by an independent motor, a seedling feeding transition frame is arranged in front of the horizontal feeding frame, a plurality of driving rollers are arranged at the tops of the seedling feeding transition frame, the driving rollers are connected through chains, one driving roller drives all driving rollers to move together after being driven by the motor, the advancing direction of the driving rollers is consistent with the advancing direction of a long straight-line conveying belt, a lifting mechanism is arranged on the top of the driving belt in a vertical manner, two parallel horizontal conveying chains are arranged at the top of the lifting mechanism, the driving direction of each horizontal conveying chain is consistent with the advancing direction of the driving belt at the top of the horizontal feeding frame, and the horizontal conveying chains extend upwards from a gap between the driving rollers or retract downwards from the upper side to the lower side of the driving rollers under the action of the lifting mechanism.
Preferably, the lifting mechanism comprises a fixed plate fixedly connected to the seedling feeding transition frame, a lifting cylinder is arranged on the fixed plate, a cylinder rod of the lifting cylinder penetrates through the fixed plate and then is connected to a movable plate above the fixed plate, the movable plate is movably mounted in a shaft sleeve of the fixed plate through a plurality of guide rods to achieve vertical stable lifting, two parallel horizontal conveying chains are mounted on the top surface of the movable plate through mounting blocks, the two horizontal conveying chains are uniformly driven through two chain wheels on the same transmission shaft, and the transmission shaft is driven by an independent motor.
Preferably, the seedling emergence tool comprises a seedling emergence transition rack, wherein two parallel guide rails are arranged at the top of the seedling emergence transition rack, a moving plate is arranged on the guide rails through a sliding block, two belt wheel mounting rods are arranged at the top of the seedling emergence transition rack in the direction perpendicular to the guide rails, a driving belt is arranged between the two belt wheel mounting rods through belt wheels, one belt wheel is driven by a motor, the top of the driving belt is fixedly connected with the moving plate through a connecting block, and the motor drives the driving belt to rotate forwards and backwards to drive the moving plate to slide forwards and backwards along the guide rails; the top of the moving plate is provided with a second transition conveyor belt, the second transition conveyor belt is driven by an independent motor, and the advancing direction of the second transition conveyor belt is perpendicular to the advancing direction of the conveyor belt; the seedling emergence transition rack is characterized in that the seedling emergence rack is arranged at the tail end of the seedling emergence transition rack, and a seedling emergence conveyor belt is arranged on the seedling emergence rack and driven by an independent motor.
Preferably, the watering tool comprises a watering rack at the lower part, a watering conveyor belt is arranged at the top of the watering rack, motors are connected to two ends of the watering conveyor belt through transmission shafts and belt wheels, a gantry hanging frame is arranged at the top of the watering rack, a series of water spray pipes are arranged on the gantry hanging frame along the direction of the width of the watering conveyor belt, water sources are connected to the water spray pipes, and seedling growing hole trays are sprayed with water through the water spray pipes when conveyed on the watering conveyor belt and pass through the lower part of the gantry hanging frame.
Preferably, each section of the long straight conveyor belt and the 180-degree turning conveyor belt are provided with photoelectric sensors at the end parts.
Preferably, the main frame is provided with an integrated control panel and an electric control box.
The utility model can automatically and regularly carry out selective illumination and regular watering on the seedling raising plug trays in the seedling raising process, can accommodate more seedling raising plug trays with the same occupied area, and has high automation degree in the whole process.
Drawings
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;
FIG. 3 is a schematic structural view of a seedling feeding tool in the utility model;
FIG. 4 is a schematic view of the structure of FIG. 3 from another perspective;
FIG. 5 is a schematic view of the lifting mechanism in FIG. 3;
FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;
FIG. 7 is a schematic view of a long linear conveyor belt of the present utility model with one end connected;
FIG. 8 is a schematic view of the connection of the other end of the long straight conveyor belt of the present utility model;
fig. 9 is a schematic structural view of the emergence tool in fig. 8;
FIG. 10 is a schematic view of the structure of FIG. 9 from another perspective;
FIG. 11 is a schematic structural view of the watering tool of FIG. 8;
wherein: 1-a main frame; 2-turning the lifting conveyor belt; 21-a long linear conveyor; 22-180 degree turn conveyor belt; 3-a light source illumination panel; 4-in Miao Gongzhuang; 41-a feeding frame; 411-tilting the feeding frame; 412-horizontal feed rack; 42-seedling feeding transitional frame; 43-driving roller; 44-lifting mechanism; 441—a fixed plate; 442-lifting cylinder; 443-a movable plate; 444—mounting blocks; 445-drive shaft; 45-horizontal conveying chain; 5-a first transition conveyor belt; 6-a continuous elevator; 7-a curve conveyor belt; 8, a seedling emergence tool; 81-a second transition conveyor; 82-a guide rail; 83-a motion plate; 84-pulley mounting bar; 85, a transmission belt; 86-seedling emergence frame; 87-seedling emergence conveyor belt; 9, watering the tool; 91-a watering rack; 92-a watering conveyor belt; 93-a gantry hanging frame.
Description of the embodiments
The present utility model will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1 to 11, the utility model provides an automatic plant seedling production line, which comprises a main frame 1, wherein at least two layers of rotary ascending conveyor belts 2 are arranged on the main frame 1, each rotary ascending conveyor belt 2 comprises a long straight conveyor belt 21 which is inclined at an angle and is positioned at the front side and the rear side, and 180-degree turning conveyor belts 22 which are positioned at the left side and the right side, the two ends of each 180-degree turning conveyor belt 22 respectively correspond to the end positions of the front long straight conveyor belt 21 and the rear long straight conveyor belt 21, a light source illumination plate 3 is arranged on the main frame 1 above each long straight conveyor belt 21, a seedling feeding tool 4 is arranged at the beginning point of the long straight conveyor belt 21 at the bottommost section, the end point of the long straight conveyor belt 21 at the highest position is connected to a continuous lifter 6 through a first transition conveyor belt 5, a seedling emergence tool 8 is arranged at the outlet of the curved conveyor belt 7 and is provided with a seedling emergence tool 8, the top of each seedling emergence tool 8 is provided with a second transition conveyor belt 81, the front transition conveyor belt is provided with a motor 9, and the end position of each seedling emergence tool is provided with a single-stage independent straight conveyor belt 9, and the front end 9 is provided with a corresponding watering tool 9.
In the above scheme, the seedling feeding fixture 4 comprises a feeding frame 41 arranged outside the main frame 1, the feeding frame 41 comprises a rear high front low inclined feeding frame 411 and a front horizontal feeding frame 412, conveying belts are arranged at the tops of the inclined feeding frame 411 and the horizontal feeding frame 412, each conveying belt is driven by an independent motor, a seedling feeding transition frame 42 is arranged in front of the horizontal feeding frame 412, a plurality of driving rollers 43 are arranged at the top of the seedling feeding transition frame 42, the driving rollers 43 are connected and driven by chains, one driving roller 43 drives all driving rollers 43 to move together after being driven by the motor, the advancing direction of the driving rollers 43 is consistent with the advancing direction of the long linear conveying belt 21, a lifting mechanism 44 is arranged on the seedling feeding transition frame 42 below the horizontal feeding frame 412, two horizontal conveying chains 45 are arranged at the top of the lifting mechanism 44, the driving direction of the horizontal conveying chains 45 is consistent with the advancing direction of the driving belts 412 on the tops of the horizontal feeding frame, and the driving rollers 45 extend downwards from the driving rollers 43 to the driving rollers 43 or extend downwards from the driving mechanisms below the driving rollers 44.
The lifting mechanism 44 comprises a fixed plate 441 fixedly connected to the seedling feeding transitional frame 42, a lifting cylinder 442 is arranged on the fixed plate 441, a cylinder rod of the lifting cylinder 442 penetrates through the fixed plate 441 and then is connected to a movable plate 443 above the fixed plate 441, the movable plate 443 is movably mounted in a shaft sleeve of the fixed plate 441 through a plurality of guide rods to achieve stable vertical lifting, two parallel horizontal conveying chains 45 are mounted on the top surface of the movable plate 443 through mounting blocks 444, the two horizontal conveying chains 45 are uniformly driven through two chain wheels on the same transmission shaft 445, and the transmission shaft 445 is driven by an independent motor.
Specifically, the seedling emergence tooling 8 comprises a seedling emergence transition frame 81, two parallel guide rails 82 are arranged at the top of the seedling emergence transition frame 81, a moving plate 83 is mounted on the guide rails 82 through a sliding block, two belt wheel mounting rods 84 are arranged at the top of the seedling emergence transition frame 81 in the direction perpendicular to the guide rails 82, a driving belt 85 is mounted between the two belt wheel mounting rods 84 through belt wheels, one belt wheel is driven by a motor, the top of the driving belt 85 is fixedly connected with the moving plate 83 through a connecting block, and the motor drives the driving belt 85 to rotate forwards and backwards so as to drive the moving plate 83 to slide forwards and backwards along the guide rails 82; the top of the moving plate 83 is provided with a second transition conveyor belt 81, the second transition conveyor belt 81 is driven by a single motor, and the advancing direction of the second transition conveyor belt 81 is perpendicular to the advancing direction of the conveyor belt 85; the seedling emergence transition frame 81 tail end is provided with seedling emergence frame 86, be provided with seedling emergence conveyer belt 87 on the seedling emergence frame 86, seedling emergence conveyer belt 87 is driven by independent motor.
In addition, the frock 9 that waters includes the frame 91 that waters of lower part, the frame 91 top that waters is provided with the conveyer belt 92 that waters, the conveyer belt 92 both ends are connected with the motor through transmission shaft and the band pulley that set up, the frame 91 top that waters is provided with longmen stores pylon 93, longmen stores pylon 93 is provided with a series of spray pipes along the conveyer belt 92 width direction that waters on, and the spray pipe is connected with the water source, and seedling culture cave dish realizes watering through the spray pipe watering when passing through longmen stores pylon 93 below when conveying on the conveyer belt 92 that waters.
In addition, each of the long straight conveyor 21 and the 180-degree turn conveyor 22 is provided with a photosensor at the end.
Further, an integrated control panel and an electrical control box are arranged on the main frame 1.
The working flow of the utility model is as follows:
the sown seedling trays are conveyed into the conveying belt on the inclined feeding frame 411 of the seedling feeding tool 4 through the conveying belt, the conveying belt of the horizontal feeding frame 412 at the front side reaches the front end position, the lifting cylinder 442 pushes the movable plate 443 to lift, so that the two horizontal conveying chains 45 lift out of the surface of the driving roller 43, the height of the upper surface of the horizontal conveying chains 45 corresponds to the height of the conveying belt at the top of the horizontal feeding frame 412, the motor drives the transmission shaft 445 to rotate, and the advancing direction of the conveying chains 45 is consistent with the advancing direction of the conveying belt at the top of the horizontal feeding frame 412, so that the seedling trays are transferred from the conveying belt at the top of the horizontal feeding frame 412 to the positions above the two horizontal conveying chains 45 and are advanced in place.
Then the lifting cylinder 442 descends to reset, the seedling raising plug falls on the driving roller 43, and the motor is controlled to drive the driving roller 43 to rotate, so that the seedling raising plug is fed into the long linear driving belt 21.
Then the seedling raising tray moves forward to the 180-degree turning conveyor belt 22 at the lowest end along the long straight conveyor belt 21 at the lowest end, and then passes through the opposite long straight conveyor belt 21, and the tray is reciprocated for several times to alternately move forward at the long straight conveyor belt 21 and the 180-degree turning conveyor belt 22, in the process, the opening and closing of the light source illumination plate 3 at the top of each long straight conveyor belt 21 are set according to the requirement, or the tray is partially opened, so that the illumination time is controlled and regulated, finally the end position of the long straight conveyor belt 21 at the highest end is reached, the seedling raising tray enters the continuous lifter 6 through the first transition conveyor belt 5, the seedling raising tray descends to the curve conveyor belt 7, the height of the place is about the height of the thigh of a human body, the staff can observe the seedling in the seedling raising tray conveniently, and the seedling supplementing operation can be carried out on some holes without sprouting.
Then the seedling tray enters the second transition conveyor belt 81 at the top of the seedling emergence transition frame 81, if the seedlings observed at the curve conveyor belt 7 in the previous step grow to the extent that the seedlings can be transplanted, the motor of the conveyor belt 85 drives the conveyor belt 85 to rotate, and the moving plate 83 is driven by the conveyor belt 85 to the seedling emergence frame 86 at the outer side and is sent out by the seedling emergence conveyor belt 87. If the observed seedlings at the curve conveyor belt 7 in the previous step are not grown to the extent that the seedlings can be transplanted, the motor of the second transition conveyor belt 81 drives the second transition conveyor belt 81 to rotate, seedling raising trays are conveyed into the watering conveyor belt 92 at the top of the watering rack 91, and when the seedlings pass under the gantry hanging frame 93, the watering operation is carried out on the seedling raising trays by the water spraying pipes arranged on the gantry hanging frame 93. The seedling raising tray is conveyed into the long linear conveyor belt 21 at the bottommost end by the forward movement of the seedling raising tray carried by the watering conveyor belt 92, and the seedling raising tray is conveyed forward in the long linear conveyor belt 21 again by the driving roller 43 during the period, and the operations of illumination, seedling supplementing, watering and the like are circulated in the process. The device is placed in a relatively airtight greenhouse in the whole process, the room temperature is controlled at the same time, the temperature, the humidity and the illumination can be controlled effectively as required, the automation degree is high, and the seedling emergence rate is high.
The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation or modification made to the above embodiments according to the technical principles of the present utility model still falls within the scope of the technical solutions of the present utility model.
Claims (7)
1. The utility model provides an automatic seedling production line of growing seedlings of plant, includes main frame (1), its characterized in that: the utility model provides a high-speed automatic watering device for the large-scale water dispenser, including main frame (1) is provided with gyration rising conveyer belt (2) more than two-layer, gyration rising conveyer belt (2) is including being the long straight line conveyer belt (21) of an angle slope and being located 180 degrees turn conveyer belt (22) of left and right sides that are located the front and back both sides, and the end position of two long straight line conveyer belts (21) around each section 180 degrees turn conveyer belt (22) both ends head corresponds respectively, is provided with light source illumination board (3) on main frame (1) of each section long straight line conveyer belt (21) top, and the long straight line conveyer belt (21) start point department of bottommost is provided with into seedling frock (4), and the long straight line conveyer belt (21) end point department of the highest is connected to continuous lift (6) through first transition conveyer belt (5), continuous lift (6) lower part rear is provided with curved road conveyer belt (7) for the benefit seedling, curved road conveyer belt (7) exit is provided with seedling (8), seedling (8) top is provided with second transition conveyer belt (21) top, the end is provided with frock (81) on the top of each section long straight line conveyer belt (9) of the top, and the top is provided with frock (81) that waters in the top of the control section, and the top is provided with frock (81) that is independent on the top section.
2. The plant automatic seedling raising production line according to claim 1, wherein: the feeding Miao Gongzhuang (4) comprises a feeding frame (41) arranged outside the main frame (1), the feeding frame (41) comprises a rear high front low inclined feeding frame (411) and a front horizontal feeding frame (412) which are arranged at the rear side, conveying belts are respectively arranged at the tops of the inclined feeding frame (411) and the horizontal feeding frame (412), each conveying belt is driven by an independent motor, a seedling feeding transition frame (42) is arranged in front of the horizontal feeding frame (412), a plurality of driving rollers (43) are arranged at the tops of the seedling feeding transition frame (42), the driving rollers (43) are connected and driven by chains, one driving roller (43) drives all driving rollers (43) to move together after being driven by the motor, the advancing direction of the driving rollers (43) is consistent with the advancing direction of the long linear conveying belt (21), a lifting mechanism (44) is arranged on the seedling feeding transition frame (42) below the driving rollers (43), the lifting mechanism (44) is arranged at the tops of the driving rollers (43), the two driving rollers (45) are horizontally arranged in parallel with the advancing direction of the driving chains (45), the horizontal conveying chain (45) extends upwards to the upper part of the driving roller (43) or retracts downwards to the lower part of the driving roller (43) from a gap between the driving rollers (43) under the action of the lifting mechanism (44).
3. A plant automated seedling raising line according to claim 2, wherein: lifting mechanism (44) are including fixed connection fixed plate (441) on advancing seedling transition frame (42), be provided with lift cylinder (442) on fixed plate (441), the cylinder pole of lift cylinder (442) passes fixed plate (441) back and is connected to fly leaf (443) of top, fly leaf (443) realize vertically ascending steady lift in the axle sleeve of fixed plate (441) through a plurality of guide bars movable mounting, two parallel horizontal conveying chains (45) are installed through installation piece (444) to fly leaf (443) top surface, and two horizontal conveying chains (45) are unified through two sprocket drive on same transmission shaft (445), and transmission shaft (445) are driven by independent motor.
4. The plant automatic seedling raising production line according to claim 1, wherein: the seedling emergence tool (8) comprises a seedling emergence transition rack (81), two parallel guide rails (82) are arranged at the top of the seedling emergence transition rack (81), a moving plate (83) is arranged on the guide rails (82) through a sliding block, two belt wheel mounting rods (84) are arranged at the top of the seedling emergence transition rack (81) in the direction perpendicular to the guide rails (82), a transmission belt (85) is arranged between the two belt wheel mounting rods (84) through belt wheels, one belt wheel is driven by a motor, the top of the transmission belt (85) is fixedly connected with the moving plate (83) through a connecting block, and the motor drives the transmission belt (85) to rotate forwards and backwards to drive the moving plate (83) to slide forwards and backwards along the guide rails (82); the top of the moving plate (83) is provided with a second transition conveyor belt (81), the second transition conveyor belt (81) is driven by an independent motor, and the advancing direction of the second transition conveyor belt (81) and the advancing direction of the conveyor belt (85) are vertically arranged; the seedling emergence transition rack (81) tail end is provided with a seedling emergence rack (86), the seedling emergence rack (86) is provided with a seedling emergence conveyor belt (87), and the seedling emergence conveyor belt (87) is driven by an independent motor.
5. The plant automatic seedling raising production line according to claim 1, wherein: the utility model provides a frock (9) that waters, including frame (91) that waters of lower part, frame (91) top is provided with conveyer belt (92) that waters, conveyer belt (92) both ends are connected with the motor through transmission shaft and the band pulley that set up, frame (91) top is provided with longmen stores pylon (93) that waters, longmen stores pylon (93) are provided with a series of spray pipes along the conveyer belt (92) width direction that waters on, and the spray pipe is connected with the water source, and seedling culture cave dish is through the spray pipe watering realization when conveying on conveyer belt (92) below through longmen stores pylon (93).
6. The plant automatic seedling raising production line according to claim 1, wherein: photoelectric sensors are arranged at the extreme ends of each section of long straight conveyor belt (21) and 180-degree turning conveyor belt (22).
7. The plant automatic seedling raising production line according to claim 1, wherein: an integrated control panel and an electric control box are arranged on the main frame (1).
Priority Applications (1)
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CN202320731745.XU CN219894145U (en) | 2023-03-31 | 2023-03-31 | Automatic seedling production line of growing of plant |
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CN202320731745.XU CN219894145U (en) | 2023-03-31 | 2023-03-31 | Automatic seedling production line of growing of plant |
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CN219894145U true CN219894145U (en) | 2023-10-27 |
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CN202320731745.XU Active CN219894145U (en) | 2023-03-31 | 2023-03-31 | Automatic seedling production line of growing of plant |
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