CN215683739U - Multiple forestry device of growing seedlings - Google Patents

Abstract

The utility model relates to a forestry seedling growing technical field discloses a multiple forestry seedling growing device, including the subassembly and the water supply assembly of growing seedlings, the water supply assembly is located the side of the subassembly of growing seedlings and the one end of water supply assembly and the subassembly fixed connection that grows seedlings, the subassembly of growing seedlings includes pruning spare and the cabinet of growing seedlings, the vertical setting of cabinet of growing seedlings and the cabinet of growing seedlings are equipped with the connector that is used for installing water supply assembly, pruning spare is located the cabinet of growing seedlings and pruning spare can gliding and the cabinet fixed connection of growing seedlings, it is equipped with the upper segment that the piece of growing seedlings and the piece of growing seedlings is located the cabinet of growing seedlings to grow seedlings in the cabinet of growing seedlings, grow seedlings the piece and grow seedlings cabinet fixed connection. The utility model has the advantages that: a plurality of different plants can be cultivated in the seedling raising assembly, and the plants can be maintained according to the growth speed of the plants.

Description

Multiple forestry device of growing seedlings

Technical Field

The application relates to forestry seedling growing technology field especially relates to a multiple forestry seedling growing device.

Background

Forestry is closely related to our life, and trees not only can provide abundant resources for us, but also can purify air, block sand blown by the wind, so forestry development arouses people's high concern. Seedling culture is a key link in forestry, more and more talents and advanced planting techniques in the aspect of forestry emerge in recent years, but some problems still exist in the aspect of seedling culture.

The device of growing seedlings among the prior art can only cultivate to a seedling, places at same cultivation indoor when the device of growing seedlings, and the plant of growing because of the difference device of growing seedlings is different, and the plant of growing out also is the plant kind of cultivateing according to the space decision of cultivation room, and prior art can not cultivate multiple plant in a device of growing seedlings, so influenced the speed of cultivating the plant kind, and the current urgent need for a multiple forestry device of growing seedlings solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a multiple forestry device of growing seedlings, including the subassembly and the water supply subassembly of growing seedlings, the water supply subassembly is located the side of the subassembly of growing seedlings and the one end of water supply subassembly and the subassembly fixed connection that grows seedlings, the subassembly of growing seedlings includes the beta piece and the cabinet of growing seedlings, the vertical setting of the cabinet of growing seedlings and the cabinet of growing seedlings are equipped with the connector that is used for installing water supply subassembly, the beta piece is located the cabinet of growing seedlings and beta piece can gliding and the cabinet fixed connection of growing seedlings, it is equipped with the upper segment that the part of growing seedlings and the part of growing seedlings are located the cabinet of growing seedlings to grow seedlings in the cabinet of growing seedlings, grow seedlings the part and grow seedlings cabinet fixed connection.

Preferably, the seedling raising member comprises a first seedling raising plate, a second seedling raising plate and a third seedling raising plate, the first seedling raising plate and the second seedling raising plate are arranged on the inner wall of the seedling raising cabinet at intervals, the third seedling raising plate is arranged below the second seedling raising plate and is in sliding fit with the inner wall of the seedling raising cabinet, seedling raising grooves are formed in the first seedling raising plate, the second seedling raising plate and the third seedling raising plate, a seedling raising tray is arranged in each seedling raising groove, the bottoms of the first seedling raising plate, the second seedling raising plate and the second seedling raising plate are respectively provided with a temperature controller, the bottom of the second seedling raising plate is provided with a u-shaped frame which is fixedly arranged with the second seedling raising plate, the third seedling raising plate is provided with a spiral block fixed with the third seedling raising plate, the spiral holes are formed in the spiral blocks, fluorescent lamps are arranged at the inner top of the seedling raising cabinet, and the fluorescent lamps are arranged at the bottoms of the first seedling raising plate and the second seedling raising plate.

Preferably, a plurality of ventilation grooves and ventilation groove interval setting have been seted up on one side outer wall of the cabinet of growing seedlings, inlay on the lateral wall of the cabinet of growing seedlings and be equipped with operating panel and grow seedlings a electric connection, the hypomere of the cabinet of growing seedlings is equipped with storage water tank and the cabinet fixed connection of growing seedlings, it has just every to have seted up the drainage groove on the inner wall of the cabinet of growing seedlings the drainage inslot all is equipped with the drainage plate, the slip track has been seted up on the inner wall of the cabinet of growing seedlings, be equipped with the spacing post rather than being connected in the slip track, pruning spare sliding connection is on spacing post.

Preferably, the pruning spare includes sliding block, telescopic link, first telescopic cylinder, rotating electrical machines, rotating disc and cover, the lateral wall of sliding block is the oblique angle, the telescopic link is located the oblique angle of sliding block and telescopic link and sliding block fixed connection, first telescopic cylinder sets up in the telescopic link and the output of first telescopic cylinder and the interior top fixed connection of telescopic link, be equipped with the stopper that two intervals set up on the top of telescopic link, two the holding tank has all been seted up on the lateral wall of stopper, rotating disc is located two holding tanks, rotating electrical machines is located the lateral wall of two stoppers and rotating electrical machines's output runs through one of them stopper and rotating disc fixed connection, the cover covers the bottom of establishing on rotating electrical machines and cover and the lateral wall fixed connection of two stoppers.

Preferably, the pruning piece also comprises a cutting rack, a cutting block, a second telescopic cylinder and two cutting blades, the outer side wall of the rotating disc is provided with a connecting block, one end of the connecting block is fixedly connected with the side wall of the rotating disc, the cutting block is arranged at the other end of the connecting block, an accommodating cavity is arranged in the cutting block, a second telescopic cylinder is arranged in the accommodating cavity, the cutting rack is arranged at the side of the cutting block, the side wall of the cutting rack is attached to the side wall of the cutting block, the output end of the second telescopic cylinder penetrates through the cutting block and is fixedly connected with the cutting rack, the outer wall of the cutting block is provided with cutting grooves, the cutting blades are horizontally arranged in the cutting grooves at intervals, one ends of the cutting blades adjacent to each other are hinged to the cutting block, each cutting blade is provided with a cutting gear, and the cutting gears are meshed with the cutting racks.

Preferably, be equipped with elevator motor, lifting screw and guard flap in the cabinet of growing seedlings, elevator motor installation and the output shaft of the one end installation of the cabinet top of growing seedlings and lifting screw and elevator motor, lifting screw's the other end extend to the cabinet of growing seedlings and with rotatory piece threaded connection, guard flap sets up on elevator motor's lateral wall and guard flap's lateral wall and the cabinet fixed connection of growing seedlings, it is equipped with two slides to correspond the third board of growing seedlings on the inner wall of cabinet of growing seedlings, the side of the third board of growing seedlings is provided with and two slide matched with pulleys.

Preferably, the water supply unit includes the stirring piece, carries piece, feed tank, standpipe and support frame, the feed tank is located the side of the cabinet of growing seedlings and feed tank overlap joint on the support frame, the stirring piece is located the bottom of feed tank and stirs piece and feed tank fixed connection, carry the top that the piece is located the feed tank and carry a overlap joint on the feed tank, the delivery port has been seted up on the lateral wall of feed tank, the standpipe is located between feed tank and the cabinet of growing seedlings and standpipe and delivery port fixed connection, the water inlet has been seted up on the outer wall of feed tank, the feed opening has been seted up on the top of feed tank.

Preferably, be provided with two sets of raceway and two sets of raceway interval settings on the outer wall of standpipe, the input of four raceways is connected on the standpipe and the output of four raceways all passes the cabinet of growing seedlings and extends to first board and the second board of growing seedlings respectively, be equipped with the input and the standpipe fixed connection of two transportation pipelines and two transportation pipelines on the hypomere of standpipe two in the output of transportation pipeline passes the cabinet of growing seedlings and extends to the u shape frame of second board bottom of growing seedlings, two all be provided with two transportation shower nozzles on the transportation pipeline.

Preferably, the stirring piece includes agitator motor, (mixing) shaft, a plurality of stirring piece and base, the (mixing) shaft is located the feed tank and the (mixing) shaft can the pivoted be connected with the feed tank, and is a plurality of the stirring piece is located just a plurality of on the outer wall of (mixing) shaft the equal fixed connection of stirring piece is on the (mixing) shaft, the base cross-section is the I shape, the base is located the bottom of feed tank and base and support frame fixed connection, agitator motor sets up on the base, agitator motor's output pass the feed tank bottom and with (mixing) shaft fixed connection.

Preferably, carry the piece including suction pump, drinking-water pipe and drain pipe, the suction pump is installed in the top of feed tank, the one end of drinking-water pipe is connected in the input of suction pump and the other end of drinking-water pipe pass the cabinet of growing seedlings and extend to the storage water tank, the one end of drain pipe is connected in the output of suction pump and the other end of drain pipe passes the feed tank and extends to the feed tank.

The utility model has the following advantages:

firstly, plants with slower growth speed can be nursed through the first seedling raising plate and the second seedling raising plate, plants with faster growth speed can be nursed through the third seedling raising plate, when seedlings are nursed in a seedling raising cabinet, no way is available for absorbing photosynthesis, however, the plants cannot utilize inorganic matters to produce organic matters through photosynthesis and store energy, so that the plants wither or die, the fluorescent lamp at the top in the seedling raising cabinet can irradiate on the seedlings nursed through the first seedling raising plate, the fluorescent lamp at the bottom of the first seedling raising plate irradiates on the seedlings nursed through the second seedling raising plate, the fluorescent lamp at the bottom of the second seedling raising plate irradiates on the seedlings nursed through the third seedling raising plate, and the seedlings can be subjected to photosynthesis through the light emitted by the fluorescent lamp, so that the seedlings grow under the condition of photosynthesis.

Secondly, when the distance of the seedling to be maintained is far or the position of the seedling to be maintained deviates, the output end of the first telescopic cylinder can drive the telescopic rod to stretch or the rotating motor can drive the rotating disc to rotate, so that the connecting block drives the cutting block to rotate by taking the rotating disc as an axis, the cutting angle can be adjusted to trim the branch heads of the seedlings at different positions and angles, when the seedling is raised for some higher seedling raising devices, a worker needs to ascend to trim the seedlings, the operation is inconvenient, the labor intensity of the worker is increased, the maintenance efficiency is low, and the like, the output end of the second telescopic cylinder drives the cutting rack to move, so that two cutting blades meshed with the cutting rack can open and close to move, the branches and leaves on the seedling to be maintained can be cut, and the maintenance of the seedling can be more convenient through the steps, the labor intensity of workers is reduced.

Its third, after the seedling is cultivated a period at the third seedling raising plate, because the branch that the incessant growth of seedling leads to the seedling easily contacts with the second seedling raising plate or leads to unable shine light line or obstruct production closely apart from, at this moment rotates the rotatory spiral piece that can control of lifting screw through elevator motor and rises or descend to drive the pulley and make the third seedling raising plate rise and descend, make the seedling on the third seedling raising plate obtain sufficient growth space once more, in order to increase the survival rate of seedling.

Drawings

FIG. 1 is a perspective view of a first perspective of the present invention;

FIG. 2 is a perspective view of a second embodiment of the present invention;

FIG. 3 is a first perspective view of the cabinet for holding seedlings of the present invention;

FIG. 4 is a schematic perspective view of a pruning member according to the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a partial perspective view of a pruning member according to the present invention;

FIG. 7 is a schematic view of a second perspective structure of the cabinet for holding seedlings of the present invention;

FIG. 8 is an enlarged view of FIG. 7 at B;

FIG. 9 is a third perspective view of the cabinet for holding seedlings of the present invention;

FIG. 10 is a perspective view of a water supply assembly according to the present invention;

FIG. 11 is a schematic perspective view of a water storage tank according to the present invention;

FIG. 12 is a perspective view of the stirring member of the present invention.

In the figure: 1-seedling raising component, 2-water supply component, 11-pruning component, 12-seedling raising cabinet, 121-seedling raising component, 1211-first seedling raising plate, 1212-second seedling raising plate, 1213-third seedling raising plate, 1214-seedling raising tray, 1215-temperature controller, 1216-u-shaped frame, 1217-spiral block, 1218-fluorescent lamp, 122-operation panel, 123-water storage tank, 124-drainage plate, 125-spacing column, 111-sliding block, 112-telescopic rod, 113-first telescopic cylinder, 114-rotating motor, 115-rotating disk, 116-cover, 1121-spacing block, 117-cutting rack, 118-cutting block, 1110-cutting blade, 1151-connecting block, 11101-cutting gear, 126-lifting motor, 127-lifting screw, 128-protective baffle, 12131-pulley, 21-stirring piece, 22-conveying piece, 23-water supply tank, 24-water storage pipe, 25-support frame, 241-water conveying pipe, 242-conveying pipeline, 2421-conveying spray head, 211-stirring motor, 212-stirring shaft, 213-stirring block, 214-base, 221-water pump, 222-water pumping pipe and 223-water discharging pipe.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 12, a multiple forestry seedling culture device, including subassembly 1 and the water supply subassembly 2 of growing seedlings, the water supply subassembly 2 is located the side of subassembly 1 of growing seedlings and the one end of water supply subassembly 2 and the subassembly 1 fixed connection of growing seedlings, subassembly 1 of growing seedlings includes pruning piece 11 and the cabinet 12 of growing seedlings, the vertical setting of cabinet 12 of growing seedlings and be equipped with the connector that is used for installing water supply subassembly 2 on the cabinet 12 of growing seedlings, pruning piece 11 is located the cabinet 12 of growing seedlings and pruning piece 11 can gliding and the cabinet 12 fixed connection of growing seedlings, be equipped with in the cabinet 12 of growing seedlings and grow seedlings the piece 121 and grow seedlings the upper segment that the piece 121 is located the cabinet 12 of growing seedlings, grow seedlings the piece 121 and grow seedlings the cabinet 12 fixed connection of growing seedlings.

Specifically, the seedling raising member 121 includes a first seedling raising plate 1211, a second seedling raising plate 1212 and a third seedling raising plate 1213, the first seedling raising plate 1211 and the second seedling raising plate 1212 are installed at an interval on an inner wall of the seedling raising cabinet 12, the third seedling raising plate 1213 is disposed below the second seedling raising plate 1212 and is in sliding fit with the inner wall of the seedling raising cabinet 12, seedling raising grooves are disposed on the first seedling raising plate 1211, the second seedling raising plate 1212 and the third seedling raising plate 1213, each seedling raising tray 1214 is disposed in each seedling raising groove, temperature controllers 1215 are disposed at bottoms of the first seedling raising plate 1211, the second seedling raising plate 1212 and the second seedling raising plate 1212, a u-shaped frame 1216 is disposed at a bottom of the second seedling raising plate 1212, a spiral block 1217 is disposed on the third seedling raising plate 1213, spiral holes are disposed on the spiral blocks 1217, and a fluorescent lamp is disposed at an inner top of the seedling raising cabinet 12, the bottom parts of the first seedling raising plate 1211 and the second seedling raising plate 1212 are provided with fluorescent lamps 1218, plants with slower growth speed can be raised through the first seedling raising plate 1211 and the second seedling raising plate 1212, plants with faster growth speed can be raised through the third seedling raising plate 1213, when seedlings are raised in the seedling raising cabinet 12, no way is provided for absorbing photosynthesis, however, the seedlings cannot utilize inorganic substances to produce organic substances through photosynthesis and store energy to cause withering or death, the fluorescent lamps 1218 at the top part in the seedling raising cabinet 12 can irradiate the seedlings raised by the first seedling raising plate 1211, the fluorescent lamps 1218 at the bottom part of the first seedling raising plate 1211 irradiate the seedlings raised by the second seedling raising plate 1212, the fluorescent lamps 1218 at the bottom part of the second seedling raising plate 1212 irradiate the seedlings raised by the third seedling raising plate 1213, and the light irradiated by the fluorescent lamps 1218 causes the seedlings to carry out photosynthesis, the seedlings are grown under the condition of photosynthesis.

Specifically, a plurality of ventilating grooves are formed in the outer wall of one side of the seedling raising cabinet 12 at intervals, an operation panel 122 is embedded in the outer wall of the seedling raising cabinet 12, the operation panel 122 is electrically connected with the seedling raising member 121, a water storage tank 123 is arranged in the lower section of the seedling raising cabinet 12, the water storage tank 123 is fixedly connected with the seedling raising cabinet 12, drainage grooves are formed in the inner wall of the seedling raising cabinet 12, a drainage plate 124 is arranged in each drainage groove, a sliding rail is formed in the inner wall of the seedling raising cabinet 12, a limiting column 125 connected with the sliding rail is arranged in the sliding rail, the pruning member 11 is slidably connected to the limiting column 125, when the seedlings cultured on the first seedling raising plate 1211, the second seedling raising plate 1212 and the third seedling raising plate 1213 cannot drain excessive water, roots of the seedlings can be retted, then, the leaves of the seedlings can be subjected to a sharp phenomenon, and invasion of bacteria and pests can be easily caused, thereby causing the seedling to have the harm of leaf spot disease, irrigating every seedling through the produced water of water supply subassembly 2 to introduce unnecessary moisture in the storage water tank 123 through the drainage plate 124, make and can get rid of unnecessary moisture on first seedling plate 1211, second seedling plate and the third seedling plate 1213, make the seedling can avoid appearing the phenomenon of dry tip or leaf spot disease.

Specifically, the pruning part 11 includes a sliding block 111, a telescopic rod 112, a first telescopic cylinder 113, a rotating electrical machine 114, a rotating disc 115 and a cover 116, the outer side wall of the sliding block 111 is an oblique angle, the telescopic rod 112 is located on the oblique angle of the sliding block 111 and the telescopic rod 112 is fixedly connected with the sliding block 111, the first telescopic cylinder 113 is disposed in the telescopic rod 112 and the output end of the first telescopic cylinder 113 is fixedly connected with the inner top end of the telescopic rod 112, two spacing-arranged limit blocks 1121 are disposed on the top end of the telescopic rod 112, two accommodating grooves are disposed on the side walls of the limit blocks 1121, the rotating disc 115 is located in the two accommodating grooves, the rotating electrical machine 114 is located on the outer side walls of the two limit blocks 1121 and the output end of the rotating electrical machine 114 penetrates through one of the limit blocks 1121 to be fixedly connected with the rotating disc 115, the cover 116 covers the rotating electrical machine 114 and the bottom of the cover 116 is fixedly connected with the outer side walls of the two limit blocks 1121, when the seedling distance of required maintenance is far away or the position deviates, the output end of the first telescopic cylinder 113 of accessible drives the telescopic link 112 to stretch out and draw back, or the rotating electrical machines 114 drives the rotating disc 115 to rotate, thereby making the connecting block 1151 drive the cutting block 118 to rotate with the rotating disc 115 as the axle center, adjusting the cutting angle and pruning the seedling branch heads at different positions and different angles.

Specifically, the pruning piece 11 further comprises a cutting rack 117, a cutting block 118, a second telescopic cylinder 119 and two cutting blades 1110, a connecting block 1151 is arranged on the outer side wall of the rotating disc 115, one end of the connecting block 1151 is fixedly connected with the side wall of the rotating disc 115, the cutting block 118 is arranged at the other end of the connecting block 1151, a containing cavity is arranged in the cutting block 118, the second telescopic cylinder 119 is arranged in the containing cavity, the cutting rack 117 is arranged at the side of the cutting block 118, the side wall of the cutting rack 117 is attached to the side wall of the cutting block 118, the output end of the second telescopic cylinder 119 penetrates through the cutting block 118 and is fixedly connected with the cutting rack 117, a cutting groove is formed in the outer wall of the cutting block 118, the two cutting blades 1110 are horizontally arranged in the cutting groove at intervals, and the adjacent ends of the two cutting blades are hinged to the cutting block 118, every it all is equipped with on the blade 1110 of tailorring and tailors gear 11101, and two gear 11101 of tailorring all with tailor rack 117 and mesh mutually, when growing seedlings to some higher device of growing seedlings, it is pruned to need the staff to ascend a height, it is more inconvenient, thereby staff's intensity of labour has been increaseed, thereby lead to maintenance inefficiency scheduling problem, the output through second telescopic cylinder 119 drives and tailors rack 117 and remove, thereby make and tailor two blade 1110 movements of opening and shutting of rack 117 engaged with, alright tailor the branch and leaf on the seedling of required maintenance, can make the maintenance to the seedling more convenient through above-mentioned step, alleviate staff's intensity of labour.

Specifically, a lifting motor 126, a lifting screw 127 and a protective baffle 128 are arranged in the seedling raising cabinet 12, the lifting motor 126 is mounted on the top of the seedling raising cabinet 12, one end of the lifting screw 127 is mounted on an output shaft of the lifting motor 126, the other end of the lifting screw 127 extends to the seedling raising cabinet 12 and is in threaded connection with a spiral block 1217, the protective baffle 128 is arranged on the outer side wall of the lifting motor 126, the side wall of the protective baffle 128 is fixedly connected with the seedling raising cabinet 12, two slide ways are arranged on the inner wall of the seedling raising cabinet 12 corresponding to a third seedling raising plate 1213, a pulley 12131 matched with the two slide ways is arranged beside the third seedling raising plate 1213, when a seedling is cultivated on the third seedling raising plate 1213 for a period of time, the branch of the seedling is easy to contact with the second seedling raising plate 1212 or the seedling is close to cause that the light cannot be irradiated or the production cannot be blocked, at this time, the lifting screw 127 is rotated by the lifting motor 126 to control the spiral block 1217 to ascend or descend, thereby driving the pulley 12131 to make the third seedling raising plate 1213 ascend and descend, so that the seedlings on the third seedling raising plate 1213 can obtain enough growth space again to increase the survival rate of the seedlings.

Specifically, water supply unit 2 includes stirring piece 21, carries 22, feed tank 23, standpipe 24 and support frame 25, feed tank 23 is located the side of the cabinet 12 of growing seedlings and 23 overlap joints of feed tank on support frame 25, stirring piece 21 is located the bottom of feed tank 23 and stirs 21 and 23 fixed connection of feed tank, carry 22 top that is located feed tank 23 and carry 22 overlap joints on feed tank 23, the delivery port has been seted up on the lateral wall of feed tank 23, standpipe 24 is located feed tank 23 and grows seedlings between the cabinet 12 and standpipe 24 and delivery port fixed connection, the water inlet has been seted up on the outer wall of feed tank 23, the feed opening has been seted up on the top of feed tank 23.

Specifically, two sets of water pipes 241 are arranged on the outer wall of the water storage pipe 24, two sets of water pipes 241 are arranged at intervals, the input ends of the four water pipes 241 are connected to the water storage pipe 24, the output ends of the four water pipes 241 all penetrate through the seedling raising cabinet 12 and respectively extend to the first seedling raising plate 1211 and the second seedling raising plate 1212, two transport pipelines 242 are arranged on the lower section of the water storage pipe 24, the input ends of the two transport pipelines 242 are fixedly connected with the water storage pipe 24, the output ends of the two transport pipelines 242 penetrate through the seedling raising cabinet 12 and extend into the u-shaped frame 1216 at the bottom of the second seedling raising plate 1212, two transport pipelines 242 are respectively provided with two transport nozzles 2421, the seedling needs to be supplemented with a large amount of water in time, if the seedling is dried and died due to untimely or insufficient water, when the seedling needs to be watered, water can be delivered into the water storage pipe 24 through the water inlet, and then delivered into the water storage pipe 24 through the water outlet, then transported to two sets of water pipes 241 and a transport pipeline 242 through the water storage pipe 24, and then transported to the first seedling raising plate 1211 and the second seedling raising plate 1212 through the two sets of water pipes 241 respectively, and then transported to the third seedling raising plate 1213 through the transport pipeline 242, and then irrigated with seedlings, thereby reducing the workload of workers and increasing the survival rate of the seedlings.

Specifically, stirring piece 21 includes agitator motor 211, (mixing) shaft 212, a plurality of stirring piece 213 and base 214, (mixing) shaft 212 is located water supply tank 23 and (mixing) shaft 212 can the pivoted be connected with water supply tank 23, and is a plurality of stirring piece 213 is located on (mixing) shaft 212's the outer wall and a plurality of stirring piece 213 is equal fixed connection on (mixing) shaft 212, base 214 cross-section is the I shape, base 214 is located water supply tank 23's bottom and base 214 and support frame 25 fixed connection, agitator motor 211 sets up on base 214, agitator motor 211's output passes water supply tank 23 bottom and with (mixing) shaft 212 fixed connection, can influence the absorption of seedling and the scheduling problem of seedling survival rate when water and the nutrient solution in water supply tank 23 can not be abundant melt, drive (mixing) shaft 212 through agitator motor 211 and rotate, thereby (mixing) shaft 212 drives the water and the nutrient solution in the stirring water supply tank 23 of a plurality of stirring piece 213, make the abundant mixture of water and nutrient solution in the feed tank 23, then a set of raceway 241 irrigates the seedling that first seedling plate 1211 was planted, and another group raceway 241 irrigates the seedling that second seedling plate 1212 was planted, and transport pipe 242 is used for irrigating the seedling that third seedling plate 1213 was planted, adopts different irrigation methods to cultivate the seedling of difference, can improve the absorption of seedling and the survival rate of seedling.

Specifically, carry piece 22 to include suction pump 221, drinking-water pipe 222 and drain pipe 223, suction pump 221 installs in the top of feed water tank 23, the one end of drinking-water pipe 222 is connected in the input of suction pump 221 and the other end of drinking-water pipe 222 passes the cabinet 12 of growing seedlings and extends to storage water tank 123, the one end of drain pipe 223 is connected in the output of suction pump 221 and the other end of drain pipe 223 passes feed water tank 23 and extends to feed water tank 23 in, because the unnecessary moisture of irrigating the seedling can't be collected or reuse, so alright through the operation of suction pump 221, flow into the drain pipe 223 through drinking-water pipe 222 with the water in the storage water tank 123, then discharge into feed water tank 23, then make the hydroenergy of irrigating the seedling can recycle, avoid causing the waste of water resource.

The working process of the utility model is as follows: firstly, seedlings are put into a seedling raising tray 1214 by workers, then a first seedling raising plate 1211, a second seedling raising plate 1212 and a third seedling raising plate are arranged by an operation panel 122, the seedlings raised by the first seedling raising plate 1211 can be irradiated by a fluorescent lamp 1218 at the top in the seedling raising cabinet 12, the seedlings raised by the second seedling raising plate 1212 are irradiated by the fluorescent lamp 1218 at the bottom of the first seedling raising plate 1211, the seedlings raised by the third seedling raising plate 1213 are irradiated by the fluorescent lamp 1218 at the bottom of the second seedling raising plate 1212, the seedlings are subjected to photosynthesis by the light irradiated by the fluorescent lamp 1218, the seedlings grow under the photosynthesis condition, each seedling is irrigated by water generated by a water supply assembly 2, and redundant moisture is introduced into a water storage tank 123 by a drainage plate 124, so that the redundant moisture on the first seedling raising plate 1211, the second seedling raising plate 1212 and the third seedling raising plate 1213 can be removed, the seedlings can avoid the phenomenon of stem tip or leaf spot disease, each seedling is irrigated by water generated by the water supply component 2, and redundant water is introduced into the water storage tank 123 by the drainage plate 124, so that redundant water on the first seedling raising plate 1211, the second seedling raising plate and the third seedling raising plate 1213 can be discharged, the phenomenon of stem tip or leaf spot disease can be avoided, the telescopic rod 112 is driven by the output end of the first telescopic cylinder 113 to be telescopic, or the rotary disk 115 is driven by the rotary motor 114 to rotate, so that the cutting block 118 is driven by the connecting block 1151 to rotate by taking the rotary disk 115 as the axis, the cutting angles are adjusted to trim the branch heads of the seedlings at different positions and different angles, the cutting rack 117 is driven by the output end of the second telescopic cylinder 119 to move, so that the two cutting blades 1110 meshed with the cutting rack 117 move in an opening and closing manner, can cut branches and leaves on seedlings to be maintained, can ensure that the maintenance of the seedlings is more convenient through the steps, lightens the labor intensity of workers, can send water into the seedlings through the water inlet when the seedlings need to be irrigated, then the water is transported into the water storage pipe 24 through the water outlet, then transported into the two sets of water pipes 241 and the transport pipe 242 through the water storage pipe 24, and then transported onto the first seedling raising plate 1211 and the second seedling raising plate 1212 through the two sets of water pipes 241 respectively, then, the water is transported to the third nursing plate 1213 through the transporting pipe 242, and then, the seedlings are watered, thereby reducing the workload of workers, increasing the survival rate of the seedlings, the water in the storage tank 123 is discharged into the drain pipe 223 through the pumping pipe 222, then discharged into the water supply tank 23, and then the water for irrigating the seedlings can be recycled, thereby avoiding the waste of water resources.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a multiple forestry device of growing seedlings which characterized in that: including subassembly (1) and the water supply subassembly (2) of growing seedlings, water supply subassembly (2) are located the side of subassembly (1) of growing seedlings and the one end of water supply subassembly (2) and subassembly (1) fixed connection of growing seedlings, subassembly (1) of growing seedlings includes pruning piece (11) and cabinet (12) of growing seedlings, the vertical setting of cabinet (12) of growing seedlings is equipped with the connector that is used for installing water supply subassembly (2) and is equipped with on cabinet (12) of growing seedlings, pruning piece (11) are located cabinet (12) of growing seedlings and pruning piece (11) can gliding and cabinet (12) fixed connection of growing seedlings, be equipped with in cabinet (12) of growing seedlings and grow seedlings piece (121) and be located the upper segment of cabinet (12) of growing seedlings, grow seedlings piece (121) and cabinet (12) fixed connection of growing seedlings.

2. A multiple forestry seedling device according to claim 1, characterized in that: the seedling raising member (121) comprises a first seedling raising plate (1211), a second seedling raising plate (1212) and a third seedling raising plate (1213), the first seedling raising plate (1211) and the second seedling raising plate (1212) are installed on the inner wall of the seedling raising cabinet (12) at intervals, the third seedling raising plate (1213) is arranged below the second seedling raising plate (1212) and the third seedling raising plate (1213) is in sliding fit with the inner wall of the seedling raising cabinet (12), seedling raising grooves are formed in the first seedling raising plate (1211), the second seedling raising plate (1212) and the third seedling raising plate (1213), seedling raising discs (1214) are arranged in each seedling raising groove, temperature controllers (1215) are arranged at the bottoms of the first seedling raising plate (1211), the second seedling raising plate (1212) and the second seedling raising plate (1212), a u-shaped frame (1216) is arranged at the bottom of the second seedling raising plate (1212), and the u-shaped frame (1216) and the second seedling raising plate (1212) are fixedly arranged, the third seedling raising plate (1213) is provided with a spiral block (1217) fixed with the third seedling raising plate, the spiral block (1217) is provided with a spiral hole, the inner top of the seedling raising cabinet (12) is provided with a fluorescent lamp (1218), and the bottoms of the first seedling raising plate (1211) and the second seedling raising plate (1212) are provided with the fluorescent lamp (1218).

3. A multiple forestry seedling device according to claim 2, characterized in that: it sets up to have seted up a plurality of ventilation grooves and ventilation groove interval on the outer wall of one side of cabinet of growing seedlings (12), inlay on the lateral wall of cabinet of growing seedlings (12) and be equipped with operating panel (122) and grow seedlings piece (121) electric connection, the hypomere of cabinet of growing seedlings (12) is equipped with storage water tank (123) and grows seedlings cabinet (12) fixed connection, it has seted up drainage groove and every to grow seedlings on the inner wall of cabinet (12) the drainage inslot all is equipped with drainage plate (124), the slip track has been seted up on the inner wall of cabinet of growing seedlings (12), be equipped with spacing post (125) rather than being connected in the slip track, beta pruning piece (11) sliding connection is on spacing post (125).

4. A multiple forestry seedling device according to claim 3, characterized in that: beta pruning spare (11) include sliding block (111), telescopic link (112), first telescopic cylinder (113), rotating electrical machines (114), rotating disc (115) and cover (116), the lateral wall of sliding block (111) is the oblique angle, telescopic link (112) are located the oblique angle of sliding block (111) and telescopic link (112) and sliding block (111) fixed connection, first telescopic cylinder (113) set up in telescopic link (112) and the output of first telescopic cylinder (113) and the interior top fixed connection of telescopic link (112), be equipped with stopper (1121) that two intervals set up on the top of telescopic link (112), two all seted up the holding tank on the lateral wall of stopper (1121), rotating disc (115) are located two holding tanks, rotating electrical machines (114) are located on the lateral wall of two stopper (115) and the output of rotating electrical machines (114) run through one of them stopper (1121) and rotating disc (115) fixed connection And the cover (116) covers the rotating motor (114) and the bottom of the cover (116) is fixedly connected with the outer side walls of the two limit blocks (1121).

5. A multiple forestry seedling device according to claim 4, characterized in that: the pruning piece (11) further comprises a cutting rack (117), a cutting block (118), a second telescopic cylinder (119) and two cutting blades (1110), a connecting block (1151) is arranged on the outer side wall of the rotating disc (115), one end of the connecting block (1151) is fixedly connected with the side wall of the rotating disc (115), the cutting block (118) is arranged at the other end of the connecting block (1151), a containing cavity is arranged in the cutting block (118), the second telescopic cylinder (119) is arranged in the containing cavity, the cutting rack (117) is arranged beside the cutting block (118), the side wall of the cutting rack (117) is attached to the side wall of the cutting block (118), the output end of the second telescopic cylinder (119) penetrates through the cutting block (118) and is fixedly connected with the cutting rack (117), a cutting groove is formed in the outer wall of the cutting block (118), and the two cutting blades (1110) are horizontally arranged in the cutting groove at intervals, two adjacent one ends of cutting blade (1110) all are articulated with cutting block (118), every all be equipped with on cutting blade (1110) and cut gear (11101), and two gear (11101) of cutting all mesh mutually with cutting rack (117).

6. A multiple forestry seedling device according to claim 3, characterized in that: be equipped with elevator motor (126), lifting screw (127) and guard flap (128) in cabinet (12) of growing seedlings, elevator motor (126) are installed in the output shaft of cabinet (12) of growing seedlings top and lifting screw (127), the other end of elevator screw (127) extend to cabinet (12) of growing seedlings and with spiral piece (1217) threaded connection, guard flap (128) set up on the lateral wall of elevator motor (126) and the lateral wall and the cabinet (12) fixed connection of growing seedlings of guard flap (128), it is equipped with two slides to correspond third board (1213) of growing seedlings on the inner wall of cabinet (12) of growing seedlings, the side of third board (1213) of growing seedlings is provided with and two slide matched with pulley (12131).

7. A multiple forestry seedling device according to claim 1, characterized in that: the water supply assembly (2) comprises a stirring piece (21), a conveying piece (22), a water supply tank (23), a water storage pipe (24) and a support frame (25), the water supply tank (23) is positioned beside the seedling raising cabinet (12) and the water supply tank (23) is lapped on the supporting frame (25), the stirring piece (21) is positioned at the bottom of the water supply tank (23), the stirring piece (21) is fixedly connected with the water supply tank (23), the conveying member (22) is positioned at the top end of the water supply tank (23) and the conveying member (22) is lapped on the water supply tank (23), a water outlet is arranged on the side wall of the water supply tank (23), the water storage pipe (24) is positioned between the water supply tank (23) and the seedling raising cabinet (12) and the water storage pipe (24) is fixedly connected with the water outlet, the water inlet has been seted up on the outer wall of feed water tank (23), the feed opening has been seted up on the top of feed water tank (23).

8. A multiple forestry seedling device according to claim 7, characterized in that: be provided with two sets of raceway (241) and two sets of raceway (241) interval on the outer wall of standpipe (24) and set up, the input of four raceway (241) is connected on standpipe (24) and the output of four raceway (241) all passes cabinet (12) of growing seedlings and extends to first seedling raising plate (1211) and second seedling raising plate (1212) respectively, be equipped with the input and standpipe (24) fixed connection of two transportation pipeline (242) and two transportation pipeline (242) on the hypomere of standpipe (24), two the output of transportation pipeline (242) passes cabinet (12) of growing seedlings and extends to in the u shape frame (1216) of second seedling raising plate (1212) bottom, two all be provided with two transportation shower nozzles (2421) on the transportation pipeline (242).

9. A multiple forestry seedling device according to claim 7, characterized in that: stirring spare (21) includes agitator motor (211), (mixing) shaft (212), a plurality of stirring piece (213) and base (214), (mixing) shaft (212) are located feed tank (23) and (mixing) shaft (212) can pivoted be connected with feed tank (23), and are a plurality of stirring piece (213) are located on the outer wall of (mixing) shaft (212) and are a plurality of stirring piece (213) equal fixed connection is on (mixing) shaft (212), base (214) cross-section is the I shape, base (214) are located the bottom of feed tank (23) and base (214) and support frame (25) fixed connection, agitator motor (211) set up on base (214), the output of agitator motor (211) pass feed tank (23) bottom and with (mixing) shaft (212) fixed connection.

10. A multiple forestry seedling device according to claim 7, characterized in that: carry piece (22) to include suction pump (221), drinking-water pipe (222) and drain pipe (223), install in the top of feed water tank (23) suction pump (221), the one end of drinking-water pipe (222) is connected in the input of suction pump (221) and the other end of drinking-water pipe (222) passes cabinet (12) of growing seedlings and extends to storage water tank (123), the one end of drain pipe (223) is connected and is passed feed water tank (23) and extend to feed water tank (23) at the output of suction pump (221) and the other end of drain pipe (223).

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