CN114451176A

CN114451176A - Energy-efficient forestry seedling culture device

Info

Publication number: CN114451176A
Application number: CN202210225733.XA
Authority: CN
Inventors: 付德刚; 王新媛; 赵晓燕; 蔡其臣; 厉峰; 刘金鑫; 李耀斌; 高赞东; 李景涛; 刘英军; 李海涛; 郑惠中; 李亚红; 郑占敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-07
Filing date: 2022-03-07
Publication date: 2022-05-10
Anticipated expiration: 2042-03-07
Also published as: CN114451176B

Abstract

The invention discloses an efficient and energy-saving forestry seedling cultivation device, which comprises a soil mixing bin, wherein a first working table for supporting is arranged below the soil mixing bin, a first support frame is arranged at the lower end of the first working table, a second working table is arranged in front of the first working table, a third working table is arranged on the left side of the first working table, a third support frame is arranged below the third working table, the front area of the third support frame is an operator working area, a discharge mechanism for discharging is arranged on the upper surface of the first working table, a feeding mechanism for feeding is arranged on the right side of the discharge mechanism, seeds of forestry trees are packaged by adopting a comprehensive culture body, a degradable paper board is arranged below a fixing ring and can absorb moisture to provide moisture required by germination for the seeds in seed clamping holes, and meanwhile, the air permeability of a soil base body can be improved by an air permeable bottom plate, the comprehensive culture body is placed in the culture box, so that the germination rate of seeds and the survival rate of seedlings can be further improved.

Description

Energy-efficient forestry seedling culture device

Technical Field

The invention relates to the technical field of forestry seedling cultivation, in particular to an efficient and energy-saving forestry seedling cultivation device.

Background

With the increasing emphasis on environmental protection in China, the work of returning to the forest after returning to the farmland is developed in various regions. Increase the greening area of the local area and improve the water and soil conservation capability. Afforestation not only can promote the afforestation effect, can also promote local resident's economic income simultaneously, at the afforestation in-process, select to plant some economic type trees, can obtain better income effect. Certainly, the growth of the afforestation industry also promotes the seedling cultivation technology.

The afforestation needs a large amount of saplings, the prior individual cultivation mode can not really meet the requirements of the afforestation engineering, the operation steps of the individual cultivation mode are complicated, the seed germination rate is low, and therefore a large-scale scientific cultivation mode needs to be adopted, and the invention provides the high-efficiency energy-saving forestry seedling cultivation device.

Disclosure of Invention

The invention aims to provide an efficient and energy-saving forestry seedling cultivation device, which is used for packaging seeds to be germinated by adopting a comprehensive culture body, adopts mechanical operation in the packaging step, improves the working efficiency, and is beneficial to batch cultivation of forestry seedlings by further culturing a soil matrix arranged in the comprehensive culture body with necessary nutrients and moisture required by seed germination through a culture box.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-efficient forestry seedling breeding device, includes the soil mixing storehouse, the below in soil mixing storehouse is provided with the first workstation that plays supporting role, and the lower extreme of first workstation is provided with first support frame, and the place ahead of first workstation is provided with the second workstation, and the left side of first workstation is provided with the third workstation, and the below of third workstation is provided with the third support frame, and the place ahead region of third support frame is operator's workspace, its characterized in that: the upper surface of first workstation is provided with the discharge mechanism who is used for the ejection of compact, and discharge mechanism's right side is provided with the feeding mechanism who is used for the pay-off, and the left side of first workstation is provided with the third workstation, and the upper surface of third workstation is provided with the incubator that is used for the seedling to cultivate, and discharge mechanism's conveyer belt is used for the conveying to synthesize the culture body.

Preferably, discharge mechanism is including the rubber scraper blade that is used for scraping the material, rubber scraper blade's left surface fixed surface has the second telescopic link, the both sides of second telescopic link are provided with the gag lever post that makes rubber scraper blade can only follow the horizontal direction motion, the gag lever post left side is provided with first fixed bolster, the gag lever post is sliding connection with first fixed bolster, the lower extreme and the first workstation fixed connection of first fixed bolster, the left end fixedly connected with second telescopic cylinder of second telescopic link, second telescopic cylinder passes through shell and first fixed bolster fixed connection, the central point of first fixed bolster puts the position department that corresponds the second telescopic link and is provided with the through-hole, second telescopic link and first fixed bolster sliding connection, the left side of first fixed bolster is provided with exit conveyor.

Preferably, feeding mechanism includes gear motor, gear motor passes through shell and first workstation fixed connection, gear motor's top is provided with the second fixed bolster at the upper surface of first workstation, gear motor's motor shaft is worn to establish in the inside of second fixed bolster, the second fixed bolster rotates with gear motor's motor shaft to be connected, the upper end of second fixed bolster is provided with the backup pad, backup pad and gear motor's motor shaft fixed connection, the backup pad rotates with the second fixed bolster through gear motor's motor shaft to be connected, the both ends of backup pad are provided with the flexible cylinder of third respectively, the telescopic link lower extreme fixedly connected with vacuum chuck of the flexible cylinder of third, vacuum chuck sets up the lower terminal surface at the backup pad, the flexible cylinder of third sets up the up end at the backup pad.

Preferably, the incubator includes operating panel, the right flank of incubator is provided with the vent that is used for taking a breath for the seedling of incubator inside, the inside cavity that is provided with of box of incubator, be provided with the layering board in the cavity, the fixed humidification pipe that is used for keeping humidity for the incubator seedling that is provided with in the place ahead of layering, humidification pipe distributes in the dead ahead of each layering, the left side limit of incubator rotates and is connected with the chamber door, the intermediate position of chamber door is provided with the visual window, the inside cavity left surface of incubator is provided with the pipe of heating, the rear portion of the pipe of heating is provided with the light filling lamp, the even distribution of light filling lamp is directly over each layering, the pipe of heating spirals the side of distributing at the box cavity.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the seeds of forestry trees are packaged by adopting the comprehensive culture body, the degradable paperboard arranged below the fixing ring can absorb water to provide water required for germination for the seeds in the seed clamping holes, meanwhile, the air permeability of the soil matrix can be improved by the air permeable bottom plate, and the germination rate of the seeds and the survival rate of seedlings can be further improved by placing the comprehensive culture body in the culture box.

2. According to the seedling culture medium, the material pressing mechanism and the feeding mechanism are matched with the rotary feeding plate to work, so that the assembly efficiency of the comprehensive seed culture medium is improved, the forestry seedlings can be cultured in a large-scale and batch mode by means of equipment, the labor cost is reduced, and the germination rate of the seeds and the survival rate of the seedlings are improved.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a front view of the apparatus of the present invention;

FIG. 3 is a top view of the apparatus of the present invention;

FIG. 4 is a schematic structural view of a soil mixing bin of the apparatus of the present invention;

FIG. 5 is a front view of the structure of the soil mixing bin of the apparatus of the present invention;

FIG. 6 is a schematic diagram of the structure of the integrated culture according to the present invention;

FIG. 7 is a schematic view of the incubator of the present invention installed;

FIG. 8 is a schematic view of the structure of the incubator of the present invention;

in the figure: 1. a soil mixing bin; 2. a mixing bin support frame; 3. a discharge pipe; 4. adjusting a valve; 5. rotating the feed tray; 6. a clamping groove; 7. a first support frame; 8. a vibration damping pad; 9. a transverse support bar; 10. a discharging mechanism; 11. a material pressing mechanism; 12. a first telescopic cylinder; 13. a seed conveyor; 14. vibrating the discharge hopper; 15. a conveyor belt vibration generator; 16. a first table; 17. a second support frame; 18. a second table; 19. a discharge hopper vibration generator; 21. a third working table; 22. a third support frame; 23. an operator work area; 24. a conveyor belt; 101. a rubber blade; 102. a second telescopic rod; 103. a limiting rod; 104. a first fixed bracket; 105. a second telescopic cylinder; 106. a discharge conveyor belt; 20. a feeding mechanism; 201. a reduction motor; 202. a second fixed bracket; 203. a support plate; 204. a third telescopic cylinder; 205. a vacuum chuck; 30. an incubator; 301. an operation panel; 302. a vent; 303. a box door; 304. a visual window; 305. a warming tube; 306. a light supplement lamp; 307. a humidifying pipe; 40. a comprehensive culture; 401. a fixing ring; 402. a degradable paperboard; 403. seed clamping holes; 404. a soil matrix; 405. a snap ring; 406. a breathable bottom plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution: the utility model provides an energy-efficient forestry seedling culture apparatus, mix storehouse 1 including soil, the below that the storehouse is mixed to soil 1 is provided with the first workstation 16 that plays the supporting role, the lower extreme of first workstation 16 is provided with first support frame 7, the place ahead of first workstation 16 is provided with second workstation 18, the left side of first workstation 16 is provided with third workstation 21, the below of third workstation 21 is provided with third support frame 22, the place ahead region of third support frame 22 is operator's workspace 23, its characterized in that: the upper surface of the first workbench 16 is provided with a discharging mechanism 10 for discharging, the right side of the discharging mechanism 10 is provided with a feeding mechanism 20 for feeding, the left side of the first workbench 16 is provided with a third workbench 21, the upper surface of the third workbench 21 is provided with an incubator 30 for seedling culture, and a conveyor belt of the discharging mechanism 10 is used for conveying a comprehensive culture body 40.

The discharging mechanism 10 comprises a rubber scraper 101 for scraping materials, a second telescopic rod 102 is fixed on the surface of the left side surface of the rubber scraper 101, two sides of the second telescopic rod 102 are provided with limiting rods 103 enabling the rubber scraper 101 to move only in the horizontal direction, a first fixing support 104 is arranged on the left side of the limiting rods 103, the limiting rods 103 are in sliding connection with the first fixing support 104, the lower end of the first fixing support 104 is fixedly connected with the first workbench 16, a second telescopic cylinder 105 is fixedly connected with the left side of the second telescopic rod 102, the second telescopic cylinder 105 is fixedly connected with the first fixing support 104 through a shell, a through hole is formed in the position, corresponding to the second telescopic rod 102, of the center of the first fixing support 104, the second telescopic rod 102 is in sliding connection with the first fixing support 104, and a discharging conveyor belt 106 is arranged on the left side of the first fixing support 104.

The feeding mechanism 20 comprises a speed reducing motor 201, the speed reducing motor 201 is fixedly connected with the first workbench 16 through a shell, a second fixing support 202 is arranged on the upper surface of the first workbench 16 above the speed reducing motor 201, a motor shaft of the speed reducing motor 201 is arranged inside the second fixing support 202 in a penetrating mode, the second fixing support 202 is rotatably connected with the motor shaft of the speed reducing motor 201, a supporting plate 203 is arranged at the upper end of the second fixing support 202, the supporting plate 203 is fixedly connected with the motor shaft of the speed reducing motor 201, the supporting plate 203 is rotatably connected with the second fixing support 202 through the motor shaft of the speed reducing motor 201, third telescopic cylinders 204 are respectively arranged at two ends of the supporting plate 203, vacuum suction cups 205 are fixedly connected to the lower end faces of telescopic rods of the third telescopic cylinders 204, the vacuum suction cups 205 are arranged on the lower end faces of the supporting plate 203, and the third telescopic cylinders 204 are arranged on the upper end faces of the supporting plate 203.

Incubator 30 includes operating panel 301, incubator 30's right flank is provided with the vent 302 that is used for taking a breath for the inside seedling of incubator 30, incubator 30's the inside cavity that is provided with of box, be provided with the layering board in the cavity, the fixed humidification pipe 307 that is used for keeping humidity for incubator 30 interior seedling that is provided with in the place ahead of layering, humidification pipe 307 distributes in the dead ahead of each layering, incubator 30's left side is rotated and is connected with chamber door 303, the intermediate position of chamber door 303 is provided with visual window 304, incubator 30's the inside cavity left surface is provided with heating tube 305, humidification pipe 307's rear portion is provided with light filling lamp 306, light filling lamp 306 even distribution is directly over each layering, heating tube 305 spirals the side of distributing at the box cavity.

The comprehensive culture body 40 comprises a fixing ring 401, a paper degradable paperboard 402 is fixed at the bottom of the fixing ring 401, a seed clamping hole 403 for fixing seeds is uniformly formed in the middle of the degradable paperboard 402, the aperture of the seed clamping hole 403 is the same as the diameter of the seeds, a snap ring 405 is sleeved on the outer side of the fixing ring 401, an air-permeable bottom plate 406 is arranged at the bottom of the snap ring 405, and a soil matrix 404 is arranged between the degradable paperboard 402 and the air-permeable bottom plate 406.

The lateral surface of the first support frame 7 is provided with a transverse support rod 9 through an articulated piece fixedly connected with, the bottom fixedly connected with of the first support frame 7 plays a vibration damping cushion and a vibration damping pad 8 for adjusting the levelness of the workbench, the bottom of the first support frame 7 is provided with the vibration damping pad 8, the upper surface fixedly connected with of the first workbench 16 is provided with a material pressing mechanism 11, the upper end surface fixedly connected with of the material pressing mechanism 11 is provided with a first telescopic cylinder 12, the lower part of the material pressing mechanism 11 is provided with a rotary feeding disc 5, the rotary feeding disc 5 is connected with the first workbench 16 in a rotating manner, and the edge position of the upper end surface of the rotary feeding disc 5 is provided with a clamping groove 6.

The upper surface fixedly connected with of second workstation 18 goes out hopper vibration generator 19, the lower extreme of second workstation 18 is provided with second support frame 17, go out hopper vibration generator 19's top fixedly connected with vibration hopper 14, fixedly connected with conveyer belt vibration generator 15 between vibration hopper 14 and the first workstation 16, conveyer belt vibration generator 15's top fixedly connected with seed conveyer belt 13, the lower extreme of soil mixing bin 1 is provided with discharging pipe 3, the outside of discharging pipe 3 is fixed with mixes storehouse support frame 2, the lower extreme of discharging pipe 3 is fixed with governing valve 4.

The lower end of the adjusting valve 4 is a material clamping groove 6, the snap ring 405 and the air-permeable bottom plate 406 are conveyed into the material clamping groove 6 by the conveyer belt 24 behind the first workbench 16, the fixed ring 401 and the degradable paperboard 402 are conveyed onto the seed conveyer belt 13 by the vibrating discharge hopper 14, and the material conveying mechanism 20 conveys the material clamping groove 6.

The working principle is as follows: when the device is used, firstly, soil matrix 404 and fertilizer are mixed and sprayed with proper moisture, the mixture is put into a soil mixing bin 1, 24 conveys a clamping ring 405 to enter a material clamping groove 6 of a rotary feed tray 5, the rotary feed tray 5 rotates on the upper surface of a first workbench 16 at a constant speed, when the clamping ring 405 rotates to be right below a regulating valve 4, the powdery soil matrix 404 in the soil mixing bin 1 is intermittently poured into the clamping ring 405 in the material clamping groove 6 through a discharge pipe 3 and the regulating valve 4, a fixing ring 401 is placed in a vibrating discharge hopper 14, tree seeds are clamped in a degradable paperboard 402 at the bottom of the fixing ring 401 in the air, the fixing ring 401 placed in the vibrating discharge hopper 14 can slide to the upper surface of a seed conveyor belt 13 through vibration generated by a discharge hopper vibration generator 19, and the fixing ring 401 on the upper surface of the seed conveyor belt 13 can slide to the leftmost end through vibration generated by a conveyor belt vibration generator 15, under the vibration of the supporting plate 203 in the feeding mechanism 20, the third telescopic cylinder 204 and the vacuum chuck 205 work in a matching way to suck and transfer the fixing ring 401 at the left end of the seed conveyor belt 13 to the clamping groove 6 at the edge of the rotary feeding plate 5, and as the loose and powdery soil matrix 404 is contained in the clamping ring 405 in the clamping groove 6, after the fixing ring 401 is placed in the clamping ring 405, the fixing ring 401 is continuously conveyed to the position below the first telescopic cylinder 12, and then the first telescopic cylinder 12 can compact the fixing ring 401 in the clamping ring 405;

after the clamp ring 405 is conveyed to the lower part of the discharging mechanism 10, the rubber scraper 101 in the discharging mechanism 10 pulls the clamp ring 405 onto the discharging conveyor belt 106 under the action of the second telescopic rod 102 and the second telescopic cylinder 105, and conveys the clamp ring onto a designated area on the discharging conveyor belt 106;

operating personnel is in operator workspace 23, shift snap ring 405 assembled on discharging conveyor 106 to the incubator 30 in, vent 302 can be for the sufficient oxygen that the seed in the incubator 30 provided that sprouts, but the visual window 304 that sets up on the chamber door 303 can make things convenient for the sprouting condition of the seed in the operating personnel observation incubator 30, heating tube 305 can provide suitable temperature for the seed germination in the incubator 30, light filling lamp 306 can provide suitable illumination for the sprouting of the seed in the incubator 30, humidification tube 307 can provide suitable moisture for the sprouting of the seed in the incubator 30.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and alterations can be made to these embodiments without departing from the spirit and scope of the invention, which is defined by the claims and their equivalents.

Claims

1. The utility model provides an energy-efficient forestry seedling breeding device, includes soil mixing storehouse (1), the below in soil mixing storehouse (1) is provided with first workstation (16) that plays supporting role, the lower extreme of first workstation (16) is provided with first support frame (7), the place ahead of first workstation (16) is provided with second workstation (18), the left side of first workstation (16) is provided with third workstation (21), the below of third workstation (21) is provided with third support frame (22), the place ahead region of third support frame (22) is operator workspace (23), its characterized in that: the upper surface of first workstation (16) is provided with discharge mechanism (10) that are used for the ejection of compact, the right side of discharge mechanism (10) is provided with feeding mechanism (20) that are used for the pay-off, the left side of first workstation (16) is provided with third workstation (21), the upper surface of third workstation (21) is provided with incubator (30) that are used for the seedling to cultivate, the conveyer belt of discharge mechanism (10) is used for conveying comprehensive culture body (40).

2. An energy-efficient seedling growth device as claimed in claim 1, wherein: the discharging mechanism (10) comprises a rubber scraper (101) for scraping materials, a second telescopic rod (102) is fixed to the surface of the left side face of the rubber scraper (101), and limiting rods (103) enabling the rubber scraper (101) to move in the horizontal direction are arranged on two sides of the second telescopic rod (102).

3. An energy-efficient seedling growth device as claimed in claim 1, wherein: the utility model discloses a telescopic door, including gag lever post (103), first fixed bolster (104), stop lever post (103) and first fixed bolster (104) are sliding connection, the lower extreme and first workstation (16) fixed connection of first fixed bolster (104), the left end fixedly connected with second telescopic cylinder (105) of second telescopic link (102), second telescopic cylinder (105) are through shell and first fixed bolster (104) fixed connection, the central point of first fixed bolster (104) puts the position department that corresponds second telescopic link (102) and is provided with the through-hole, second telescopic link (102) and first fixed bolster (104) sliding connection, the left side of first fixed bolster (104) is provided with exit conveyor (106).

4. An energy-efficient seedling growth device as claimed in claim 1, wherein:

the feeding mechanism (20) comprises a speed reducing motor (201), the speed reducing motor (201) is fixedly connected with a first workbench (16) through a shell, a second fixing support (202) is arranged on the upper surface of the first workbench (16) above the speed reducing motor (201), a motor shaft of the speed reducing motor (201) penetrates through the second fixing support (202), the second fixing support (202) is rotatably connected with the motor shaft of the speed reducing motor (201), a supporting plate (203) is arranged at the upper end of the second fixing support (202), the supporting plate (203) is fixedly connected with the motor shaft of the speed reducing motor (201), the supporting plate (203) is rotatably connected with the second fixing support (202) through the motor shaft of the speed reducing motor (201), third telescopic cylinders (204) are respectively arranged at two ends of the supporting plate (203), and vacuum suction cups (205) are fixedly connected to the lower ends of telescopic rods of the third telescopic cylinders (204), the vacuum chuck (205) is arranged on the lower end face of the support plate (203), and the third telescopic cylinder (204) is arranged on the upper end face of the support plate (203);

the incubator (30) comprises an operation panel (301), the right side face of the incubator (30) is provided with a vent (302) used for ventilating seedlings in the incubator (30), a cavity is arranged in the incubator body of the incubator (30), a layered plate is arranged in the cavity, a humidifying pipe (307) used for maintaining humidity for seedlings in the incubator (30) is fixedly arranged in front of the layered plate, the humidifying pipe (307) is distributed in the front of each layered part, the left side edge of the incubator (30) is rotatably connected with a chamber door (303), a visual window (304) is arranged in the middle of the chamber door (303), a warming pipe (305) is arranged on the left side face of the inner cavity of the incubator (30), a light supplement lamp (306) is arranged at the rear part of the warming pipe (307), and the light supplement lamp (306) is uniformly distributed over each layered part, the warming pipes (305) are distributed on the side surface of the cavity of the box body in a spiral way.

5. An energy-efficient seedling growth device as claimed in claim 1, wherein: the comprehensive culture body (40) comprises a fixing ring (401), a paper degradable paperboard (402) is fixed at the bottom of the fixing ring (401), seed clamping holes (403) for fixing seeds are uniformly formed in the middle of the degradable paperboard (402), the aperture of each seed clamping hole (403) is the same as the diameter of each seed, a snap ring (405) is sleeved on the outer side of the fixing ring (401), a breathable bottom plate (406) is arranged at the bottom of the snap ring (405), and a soil matrix (404) is arranged between the degradable paperboard (402) and the breathable bottom plate (406);

the side surface of the first support frame (7) is fixedly connected with a transverse support rod (9) through an articulated piece, the bottom of the first support frame (7) is fixedly connected with a vibration damping cushion (8) which plays a role in vibration damping and adjusting the levelness of the workbench, the bottom of the first support frame (7) is provided with the vibration damping cushion (8), the upper surface of the first workbench (16) is fixedly connected with a material pressing mechanism (11), the upper end surface of the material pressing mechanism (11) is fixedly connected with a first telescopic cylinder (12), a rotary feeding disc (5) is arranged below the material pressing mechanism (11), the rotary feeding disc (5) is rotatably connected with the first workbench (16), and the edge position of the upper end surface of the rotary feeding disc (5) is provided with a clamping groove (6);

the upper surface of second workstation (18) is fixedly connected with out hopper vibration generator (19), the lower extreme of second workstation (18) is provided with second support frame (17), the top fixedly connected with vibration play hopper (14) of hopper vibration generator (19), fixedly connected with conveyer belt vibration generator (15) between vibration play hopper (14) and first workstation (16).

6. An energy-efficient seedling growth device as claimed in claim 5, wherein: the top fixedly connected with seed conveyer belt (13) of conveyer belt vibration generator (15), the lower extreme in soil mixing bunker (1) is provided with discharging pipe (3).