CN218006975U - Full-automatic hydroponic sponge seeder - Google Patents

Abstract

The utility model relates to an agricultural seeding technical field, concretely relates to full-automatic hydroponic sponge seeder, its technical scheme is: including the work platform subassembly, the work platform subassembly includes the workstation, and the workstation top is provided with electronic slip table, its characterized in that: still include swing arm system subassembly, be used for saving the required seed of sowing seed save dish subassembly, be used for the required seedling dish subassembly and the bracket component of sowing seed of water planting, the beneficial effects of the utility model are that: utilize the sponge as the carrier of growing seedlings, the sponge can be carried storage system by the root system cladding, so can not fall into the nutrition night, the back of results, with the root system excision abandonment together, even the sponge drops, because of its volume is great, can not block up the filter house, can directly clear up and go out, so can greatly lighten the water and bank up the management burden.

Description

Full-automatic hydroponic sponge seeder

Technical Field

The utility model relates to an agricultural seeding technical field, concretely relates to full-automatic hydroponic sponge seeder.

Background

At present, the market does not have a full-automatic seeder specially used for sponge seedling trays, and only has an automatic seeder used for matrix seedling trays.

The seeding method of the substrate seedling tray comprises the steps of firstly filling loose substrates into the seedling tray (usually 50-128 holes), pressing a hole on the corresponding hole by using an appliance or the bottom of the seedling tray after scraping the seedling tray, wherein the length and the width of the hole reach 30 x 30 mm even though the smallest 128 holes in the seedling tray are large, so that the positioning requirement on a suction nozzle of the seeder is not high, and the seeds can normally sprout as long as the seeds fall in the 30 x 30 mm area and are covered with a layer of loose substrates with the thickness of about 10 mm after seeding.

Although the automatic seeding machine for the substrate seedling tray can also be used for water culture, the attached substrate on the seedling lump falls into the nutrient night conveying and storing system along with the flushing of the water culture nutrient night to block the filtering component and the pipeline, so that the daily management and maintenance work is greatly increased. Therefore, the invention is necessary to invent the full-automatic hydroponic sponge seeder.

Disclosure of Invention

Therefore, the utility model provides a full-automatic hydroponic sponge seeder utilizes the sponge as the carrier of growing seedlings, and the sponge can be by the root system cladding, so can not fall into nutrition and carry storage system night, and the abandonment is amputated with the root system together to the results back, even the sponge drops, because of its volume is great, can not block up the filter unit, can directly clear up and go out, so can greatly reduce the water and cultivate the management burden.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a full-automatic hydroponic sponge seeder, includes the work platform subassembly, and the work platform subassembly includes the workstation, and the workstation top is provided with electronic slip table, its characterized in that: the device also comprises a swing arm system component, a seed storage disc component for storing seeds needing to be sown, a seedling disc component and a support component for water planting the seeds needing to be sown;

the seedling tray subassembly top is provided with the sponge of growing seedlings, the bracket component is used for preventing that the sponge from droing by growing seedlings a set subassembly top, the seed of deposit in the seed savings dish subassembly is removed by swing arm system subassembly and is educated in the seedling tray subassembly.

Preferably, the swing arm system component comprises a swing arm motor, a motor fixing plate, a coupler, a first pulley fixing piece, a first pulley, a tensioning wheel, a second pulley, a transmission belt, a first fixing plate, a first bearing, a first synchronizing shaft, a tensioning wheel fixing piece, a first swing arm plate, a second bearing and a first bearing adapter, wherein the lower side of the first fixing plate is connected with the workbench through a bolt, the right side of the first fixing plate is connected with the motor fixing plate through a screw rod, the lower side of the motor fixing plate is connected with the workbench through a bolt, the right side of the motor fixing plate is connected with the swing arm motor through a bolt, the swing arm motor is connected with the coupler through a sleeve joint mode, the coupler is connected with the first synchronizing shaft through a sleeve joint mode, the first synchronizing shaft is connected with the first bearing through a sleeve joint mode, the first synchronizing shaft is fixedly connected to the right side of the first swing arm plate through a clamping mode, and the first bearing is fixed to the left side of the first fixing plate through a rotary connection mode.

Preferably, the first belt wheel is of a hollow structure, the first synchronizing shaft penetrates through the first belt wheel, the first synchronizing shaft is not connected with the first belt wheel, the right side of the first belt wheel is connected with a first belt wheel fixing piece in a sleeved mode, the first belt wheel fixing piece is fixedly connected to the right side of the first fixing plate through a bolt, the tensioning wheel is connected with a tensioning wheel fixing piece in a sleeved mode, the tensioning wheel fixing piece is fixedly connected to the right side of the first swing arm plate through a bolt, the second belt wheel is connected with a first bearing adapter in a sleeved mode, the right side of the first bearing adapter is rotatably connected to the left side of the first swing arm plate through a second bearing, and the transmission belt is connected with the first belt wheel, the tensioning wheel and the second belt wheel in a rotating connection mode.

Preferably, the swing arm system component further comprises a second bearing adapter, a third bearing, a second swing arm plate, a second synchronizing shaft, a fourth bearing and a second fixing plate, the second swing arm plate is connected with the third bearing through a rotating connection mode, the third bearing is connected with the second bearing adapter through a sleeving connection mode, the second swing arm plate is connected with the second synchronizing shaft through a clamping connection mode, the second synchronizing shaft is connected with the fourth bearing through a sleeving connection mode, the fourth bearing is connected with the second fixing plate through a rotating connection mode, and the lower side of the second fixing plate is connected with the workbench through a bolt.

Preferably, the swing arm system component further comprises a negative pressure pipe, a suction nozzle, a joint, a pipe clamp and a connecting plate, the upper side of the negative pressure pipe is connected with the pipe clamp through a joint, the lower side of the negative pressure pipe is connected with the suction nozzle through a joint, the right side of the negative pressure pipe is connected with a first bearing adapter through a joint, the left side of the negative pressure pipe is connected with a second bearing adapter through a joint, and the connecting plate is connected with a first swing arm plate and a second swing arm plate through a joint.

Preferably, the seed saving disc component comprises a seed saving disc, a spring, a first saving disc support, a second saving disc support, a connecting rod, a vibration motor fixing frame and a vibration motor, a plurality of grooves are formed in the center of the seed saving disc, the right side of the seed saving disc is connected with the two springs in a hooking mode, the spring is connected with the first saving disc support in a hooking mode, the first saving disc support is connected with the first fixing plate through a bolt, the left side of the seed saving disc is connected with the two springs in a hooking mode, the spring is connected with the second saving disc support in a hooking mode, the second saving disc support is connected with the second fixing plate through a bolt, the left side of the connecting rod is connected with the second fixing plate in a threaded connection mode, the right side of the connecting rod is connected with the first fixing plate in a threaded connection mode, and the vibration motor fixing frame is fixed outside the saving disc through a bolt.

Preferably, educate seedling tray subassembly including educating seedling tray, educate seedling tray, bottom plate and slider, educate seedling tray and pass through bolted connection and educate seedling tray, four sliders of bolted connection are passed through to the seedling tray downside, slider fixed connection is at electronic slip table top.

Preferably, the bracket component includes support, baffle, the support passes through first fixed plate of bolted connection and second fixed plate, the baffle passes through bolt fixed connection between the support, the baffle is located educates seedling tray top.

The beneficial effects of the utility model are that:

1. through the matching use of the workbench, the first electric sliding table, the second electric sliding table, the swing arm system assembly, the seed storage disc assembly for storing the needed sowing seeds, the seedling tray assembly for water planting the needed sowing seeds and the bracket assembly, the sponge is used as a seedling culture carrier and can be coated by the root system, so the sponge cannot fall into a nutrient night conveying and storing system, and after harvesting, the sponge and the root system are cut off together to be abandoned, even if the sponge falls off, the sponge cannot block a filtering part due to larger volume, and can be directly cleaned out, so the water planting management burden can be greatly reduced;

2. the row of suction nozzles are arranged on the swing arm, when the swing arm swings left and right, the suction nozzles are constantly kept in a vertical downward state due to the action of the synchronous belt, when the suction nozzles swing to the seed storage disc, the suction nozzles vacuum-adsorb seeds, keep an adsorption state, swing to one side of the seedling tray, accurately insert sponges with a certain depth, control the air valve to blow air from the suction nozzles for seed sowing, then the swing arm is rotated back to the seed storage disc, the seedling tray moves into a grid, and the next round of operation is continued, so that the effect of full-automatic sowing is achieved;

3. the seed storage disc is provided with a plurality of grooves downwards at the corresponding position of the center of the suction nozzle, so that under the action of the vibration motor, seeds can be collected to the grooves, the seeds can be smoothly adsorbed by the suction nozzle, and even a small amount of seeds can be smoothly sowed.

Drawings

Fig. 1 is an exploded view of the structure provided by the present invention;

FIG. 2 is an exploded view of the swing arm system assembly provided by the present invention;

FIG. 3 is an exploded view of a portion of the swing arm system assembly provided by the present invention;

FIG. 4 is an exploded view of the seed storage tray assembly according to the present invention;

FIG. 5 is an exploded view of the structure of the tray assembly provided by the present invention;

FIG. 6 is a perspective view of the structure provided by the present invention;

fig. 7 is a perspective view of the structure provided by the present invention.

In the figure: 100. a work platform assembly; 110. a work table; 120. an electric sliding table; 200. a swing arm system assembly; 201. a swing arm motor; 202. a motor fixing plate; 203. a coupling; 204. a first pulley mount; 205. a first pulley; 206. a tension pulley; 207. a second pulley; 208. a transmission belt; 209. a first fixing plate; 210. a first bearing; 211. a first synchronizing shaft; 212. a tension wheel holder; 213. a first swing arm plate; 214. a second bearing; 215. a first bearing adapter; 216. a negative pressure tube; 217. a suction nozzle; 218. a joint; 219. a pipe clamp; 220. a connecting plate; 222. a second bearing adapter; 223. a third bearing; 224. a second swing arm plate; 225. a second synchronizing shaft; 226. a fourth bearing; 227. a second fixing plate; 300. a seed storage tray assembly; 310. a seed storage tray; 320. a spring; 330. a first savings tray support; 340. a second savings tray support; 350. a connecting rod; 360. a vibration motor fixing frame; 370. a vibration motor; 400. a nursery tray assembly; 410. a seedling raising plate; 420. a seedling tray; 430. a base plate; 440. a slider; 500. a bracket assembly; 510. a support; 520. and a baffle plate.

Detailed Description

The preferred embodiments of the present invention will be described hereinafter with reference to the accompanying drawings, and it should be understood that the preferred embodiments described herein are merely for purposes of illustration and explanation, and are not intended to limit the present invention.

Referring to the attached drawings 1-7, the utility model provides a full-automatic hydroponic sponge seeder, including work platform subassembly 100, work platform subassembly 100 includes workstation 110, workstation 110 top is provided with electronic slip table 120, still include swing arm system subassembly 200, be used for depositing the seed savings disk subassembly 300 of the required seeding seed, be used for the required seeding seed of water planting nursery site subassembly 400 and bracket component 500, nursery site subassembly 400 top is provided with the sponge of growing seedlings, bracket component 500 is used for preventing the sponge from coming off by nursery site subassembly 400 top, the seed of deposit in nursery site subassembly 300 is moved to nursery site subassembly 400 by swing arm system subassembly;

the swing arm system assembly 200 comprises a swing arm motor 201, a motor fixing plate 202, a coupler 203, a first pulley fixing piece 204, a first pulley 205, a tensioning wheel 206, a second pulley 207, a transmission belt 208, a first fixing plate 209, a first bearing 210, a first synchronizing shaft 211, a tensioning wheel fixing piece 212, a first swing arm plate 213, a second bearing 214 and a first bearing adapter 215, wherein the lower side of the first fixing plate 209 is connected with the workbench 110 through a bolt, the right side of the first fixing plate 209 is connected with the motor fixing plate 202 through a screw rod, the lower side of the motor fixing plate 202 is connected with the workbench 110 through a bolt, the right side of the motor fixing plate 202 is connected with the swing arm motor 201 through a bolt, the swing arm motor 201 is connected with the coupler 203 in a sleeving manner, the coupler 203 is connected with the first synchronizing shaft 211 in a sleeving manner, the swing arm motor 201 can drive the first synchronizing shaft 211 to rotate through the coupler 203, the first synchronizing shaft 211 is connected with the first bearing 210 in a sleeving manner, the first synchronizing shaft 211 is fixedly connected with the right side of the first swing arm plate 213 in a clamping manner, so that the first synchronizing shaft 211 rotates while driving the first swinging arm plate 213, that the first synchronizing shaft 211 rotates, and when the first synchronizing shaft 210 is connected with the first swing arm plate 213 in a first synchronizing shaft fixing plate 213 in a first synchronizing shaft bearing in a first synchronizing shaft, and drives the first synchronizing shaft to rotate;

the first belt wheel 205 is of a hollow structure, the first synchronizing shaft 211 penetrates through the first belt wheel 205, the first synchronizing shaft 211 is not connected with the first belt wheel 205, the right side of the first belt wheel 205 is connected with the first belt wheel fixing member 204 in a sleeving manner, the first belt wheel fixing member 204 is fixedly connected to the right side of the first fixing plate 209 through a bolt, as the first belt wheel 205 is hollow, the first belt wheel is not connected with the first synchronizing shaft 211 and is limited by the first belt wheel fixing member 204, when the swing arm 213 rotates, the first belt wheel 205 is kept static, the tension wheel 206 is connected with the tension wheel fixing member 212 in a sleeving manner, the tension wheel fixing member 212 is fixedly connected to the right side of the first swing arm plate 213 through a bolt, that is, when the first swing arm plate 213 is driven to rotate by the swing arm motor 201, the tension wheel fixing member 212 and the tension wheel 206 rotate along with the first swing arm plate 213, the second belt wheel 207 is connected with the first bearing adapter 215 in a sleeving manner, the right side of the first bearing adapter 215 is rotatably connected to the left side of the first swing arm plate 213 through the second bearing 214, 208 is connected with the first belt wheel 205, the first belt wheel 206 and the first belt wheel 207, so that the first belt wheel 207 can rotate without rotating under the first belt wheel 205, the first belt wheel 207, and the first belt wheel 205 rotates;

the swing arm system assembly 200 further comprises a second bearing adapter 222, a third bearing 223, a second swing arm plate 224, a second synchronizing shaft 225, a fourth bearing 226 and a second fixing plate 227, wherein the second swing arm plate 224 is connected with the third bearing 223 in a rotating connection mode, the third bearing 223 is connected with the second bearing adapter 222 in a sleeving connection mode, the second swing arm plate 224 is connected with the second synchronizing shaft 225 in a clamping connection mode, the second synchronizing shaft 225 is connected with the fourth bearing 226 in a sleeving connection mode, the fourth bearing 226 is connected with the second fixing plate 227 in a rotating connection mode, and the lower side of the second fixing plate 227 is connected with the workbench 110 through bolts;

the swing arm system assembly 200 further includes a negative pressure tube 216, suction nozzles 217, a connector 218, a pipe clamp 219 and a connecting plate 220, the upper side of the negative pressure tube 216 connects the connector 218 and the pipe clamp 219 in a clamping manner, it should be noted that the connector 218 connects a vacuum pump, an air cylinder and a control air valve (not shown in the figure) through a conduit to form a vacuum negative pressure system and a positive pressure blowing system, as the present invention is a common technology in the field, the present invention is not described in much detail, under the action of the vacuum pump, the internal environment of the negative pressure tube 216 is in a negative pressure state, the lower side of the negative pressure tube 216 connects a plurality of suction nozzles 217 in a clamping manner, so that in the negative pressure state, the plurality of suction nozzles 217 generate suction to be used for seeding, the right side of the negative pressure tube 216 is connected with a first bearing adapter 215 in a clamping manner, when the first swing arm plate 213 rotates, the first bearing adapter 215 can drive the first bearing adapter 215 to rotate, the left side of the negative pressure tube 216 is connected with a second bearing adapter 222 in a clamping manner, the connecting plate 220 is connected with the first swing arm plate 213, and the second swing arm plate 224 can rotate between the first swing arm plate 216 and the second swing arm plate 224;

to sum up, since the first pulley 205 is hollow, is not connected to the second pulley 211 and is limited by the first pulley fixing member 204, when the swing arm 213 rotates, the first pulley 205 remains stationary, the first swing arm 213 drives the first bearing adapter 215 and the second pulley 207 to rotate around the axis of the first synchronizing shaft 211 through the second bearing 214, the first pulley fixing member 212 and the tension pulley 206 rotate along the first swing arm 213, the first bearing adapter 215 rotates to drive the second pulley 207 to rotate, the second pulley 207 rotates to drive the transmission belt 208 to rotate, the rotational angular speed of the second pulley 207 is opposite to that of the transmission belt 208, since the first pulley 205 remains stationary, the second pulley 207 and the first bearing adapter 215 rotate along the transmission belt 208 under the constraint of the first swing arm 208, but the direction is opposite to the rotational direction of the first swing arm 213, the rotational angular speed is determined by the gear ratio of the first pulley 205 and the second pulley 207, and a certain gear ratio is controlled, so that the rotational speed of the first bearing adapter 215, the second bearing adapter 215 and the first swing arm 207 are connected to the first pulley fixing member 213, but the rotational angular speed of the first pulley 215 is equal to the rotational speed of the first bearing adapter 216, and the rotational speed of the first pulley 213 is not equal to the negative pressure swing arm 213, but the rotational speed of the first bearing adapter 216 is kept perpendicular to the rotational speed of the first bearing adapter 216, and the negative pressure swing arm 213 is equal to the rotational speed of the first bearing adapter 216;

the seed storage disc assembly 300 comprises a seed storage disc 310, springs 320, a first storage disc support 330, a second storage disc support 340, a connecting rod 350, a vibration motor fixing frame 360 and a vibration motor 370, wherein a plurality of grooves are formed in the center of the seed storage disc 310, a person skilled in the art can place seeds required for water culture in the seed storage disc 310, the right side of the seed storage disc 310 is connected with the two springs 320 in a hooking manner, the springs 320 are connected with the first storage disc support 330 in a hooking manner, the first storage disc support 330 is connected with the first fixing plate 209 through bolts, the left side of the seed storage disc 310 is connected with the two springs 320 in a hooking manner, the springs 320 are connected with the second storage disc support 340 in a hooking manner, the second storage disc support 340 is connected with the second fixing plate 227 through bolts, so under the action of the springs 320, the sub-storage disc 310 can be suspended by using the spring 320, enough vibration amplitude can be ensured in a low-power vibration motor, the left side of the connecting rod 350 is connected with the second fixing plate 227 in a threaded connection mode, the right side of the connecting rod 350 is connected with the first fixing plate 209 in a threaded connection mode, and the vibration motor fixing frame 310 fixes the vibration motor 370 outside the storage disc 310 through bolt connection, so that when seeds are sucked, the vibration motor 370 acts to enable the seed storage disc 310 to shake at high frequency to drive the seeds to enter a boiling state so as to be convenient to adsorb, and a plurality of grooves are formed downwards in the position of the seed storage disc 310 corresponding to the center of the suction nozzle 217, so that the seeds can be collected towards the grooves under the action of the vibration motor 370, so that the seeds can be smoothly adsorbed by the suction nozzle 217, and even a small amount of seeds can be smoothly sowed;

in summary, the swing arm motor 201 makes the first swing arm plate 213 perform reciprocating rotation motion around the axis of the first synchronizing shaft 211, while the negative pressure pipe 216 remains relatively stationary, the direction of the suction nozzle 217 remains vertically downward, when the suction nozzle 217 rotates to above the deposit disk 310, the inside of the suction nozzle 217 is in a negative pressure state, and the suction nozzle sucks the seeds in the deposit disk 310 through the action of atmospheric pressure;

the seedling raising disc assembly 400 comprises a seedling raising disc 410, a seedling raising disc tray 420, a bottom plate 430 and sliding blocks 440, the seedling raising disc 410 is connected with the seedling raising disc tray 420 through bolts, the lower side of the seedling raising disc tray 420 is connected with the four sliding blocks 440 through bolts, the sliding blocks 440 are fixedly connected to the top of the electric sliding table 120, breeding sponges are loaded above the seedling raising disc 410, and the seedling raising disc assembly 400 slides under the action of the electric sliding table 120;

the bracket component 500 comprises a bracket 510 and a baffle 520, the bracket 510 is connected with the first fixing plate 209 and the second fixing plate 227 through bolts, the baffle 520 is fixedly connected between the bracket 510 through bolts, the baffle 520 is positioned above the seedling raising tray 410, and under the blocking action of the baffle 520, the baffle can be used for preventing the seedling raising sponge loaded on the seedling raising tray 410 from moving upwards due to the return of the suction nozzle 217 and even falling off from the seedling raising tray 410, so that the utility model has reasonable structural design;

to sum up, educate seedling tray subassembly 400 and slide to baffle 520 below, suction nozzle 217 rotates to continue to rotate above baffle 520, and suction nozzle 217 inserts together with absorbent seed and educates seedling tray 410 in order to accomplish the seeding, under swing arm motor 201's effect, and suction nozzle 217 makes back and forth movement between seed deposit dish 310 and educate seedling tray subassembly 400 to reach the effect of full-automatic seeding, just the utility model discloses utilize the sponge as the carrier of growing seedlings, the sponge can be by the root system cladding, so can not fall into nutrition night and carry storage system, after the results, with the root system excision abandonment together, even the sponge drops, because of its volume is great, can not block up filter component, can directly clear up and go out, so can greatly lighten the water and bank up management burden.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solutions described above. Therefore, any simple modifications or equivalent replacements made according to the technical solution of the present invention belong to the scope of the claimed invention as far as possible.

Claims (8)

1. The utility model provides a full-automatic hydroponic sponge seeder, includes work platform subassembly (100), and work platform subassembly (100) are provided with electronic slip table (120), its characterized in that including workstation (110), workstation (110) top: the seed water culture device also comprises a swing arm system component (200), a seed storage disc component (300) for storing seeds required to be sowed, a seedling raising disc component (400) for water culture of the seeds required to be sowed and a bracket component (500);

the seedling tray subassembly (400) top is provided with the sponge of growing seedlings, bracket component (500) are used for preventing that the sponge from droing by seedling tray subassembly (400) top, the seed of deposit in seed storage tray subassembly (300) is removed by swing arm system subassembly and is educated in seedling tray subassembly (400).

2. The full-automatic hydroponic sponge seeder according to claim 1, characterized in that: the swing arm system component (200) comprises a swing arm motor (201), a motor fixing plate (202), a coupler (203), a first belt wheel fixing piece (204), a first belt wheel (205), a tension wheel (206), a second belt wheel (207), a transmission belt (208), a first fixing plate (209), a first bearing (210), a first synchronous shaft (211), a tension wheel fixing piece (212), a first swing arm plate (213), a second bearing (214) and a first bearing adapter (215), the lower part of the first fixing plate (209) is connected with a workbench (110) through a bolt, the right side of the first fixing plate (209) is connected with a motor fixing plate (202) through a screw rod, the lower side of the motor fixing plate (202) is connected with the workbench (110) through a bolt, the right side of the motor fixing plate (202) is connected with a swing arm motor (201) through a bolt, the swing arm motor (201) is connected with a coupler (203) in a sleeved mode, the coupling (203) is connected with a first synchronous shaft (211) in a sleeved mode, the first synchronous shaft (211) is connected with the first bearing (210) in a sleeved mode, the first synchronous shaft (211) is fixedly connected to the right side of the first swing arm plate (213) in a clamping manner, the first bearing (210) is fixed on the left side of the first fixing plate (209) in a rotating connection mode.

3. The full-automatic hydroponic sponge seeder according to claim 2, characterized in that: the first belt pulley (205) is of a hollow structure, the first synchronizing shaft (211) penetrates through the first belt pulley (205), the first synchronizing shaft (211) is not connected with the first belt pulley (205), the right side of the first belt pulley (205) is connected with a first belt pulley fixing piece (204) in a sleeved mode, the first belt pulley fixing piece (204) is fixedly connected to the right side of a first fixing plate (209) through bolts, the tensioning wheel (206) is connected with a tensioning wheel fixing piece (212) in a sleeved mode, the tensioning wheel fixing piece (212) is fixedly connected to the right side of a first swing arm plate (213) through bolts, the second belt pulley (207) is connected with a first bearing adapter (215) in a sleeved mode, the right side of the first bearing adapter (215) is rotatably connected to the left side of the first swing arm plate (213) through a second bearing (214), and the transmission belt (208) is connected with the first belt pulley (205), the tensioning wheel (206) and the second belt pulley (207) in a rotatable mode.

4. The full-automatic hydroponic sponge seeder according to claim 3, characterized in that: swing arm system subassembly (200) still includes second bearing adapter (222), third bearing (223), second swing arm board (224), second synchronizing shaft (225), fourth bearing (226) and second fixed plate (227), third bearing (223) are connected through the mode of rotating to be connected to second swing arm board (224), third bearing adapter (222) is connected through the mode of cup jointing to third bearing (223), second synchronizing shaft (225) is connected through the mode of joint to second swing arm board (224), fourth bearing (226) is connected through the mode of cup jointing to second synchronizing shaft (225), second fixed plate (227) is connected through the mode of rotating to fourth bearing (226), bolted connection workstation (110) is passed through to second fixed plate (227) downside.

5. The full-automatic hydroponic sponge seeder according to claim 4, characterized in that: swing arm system subassembly (200) still includes negative pressure pipe (216), suction nozzle (217), connects (218), pipe clamp (219) and connecting plate (220), negative pressure pipe (216) upside is through mode attach fitting (218) and pipe clamp (219) of joint, a plurality of suction nozzle (217) are connected through the mode of joint to negative pressure pipe (216) downside, negative pressure pipe (216) right side is connected first bearing adapter (215) through the mode of joint, negative pressure pipe (216) left side is connected second bearing adapter (222) through the mode of joint, first swing arm board (213) and second swing arm board (224) are connected through the mode of joint to connecting plate (220).

6. The full-automatic hydroponic sponge seeder according to claim 4, characterized in that: seed deposit dish subassembly (300) includes seed deposit dish (310), spring (320), first deposit dish support (330), second deposit dish support (340), connecting rod (350), vibrating motor mount (360) and vibrating motor (370), a plurality of recesses have been seted up at seed deposit dish (310) center, two springs (320) are connected through the mode of hookup in seed deposit dish (310) right side, first deposit dish support (330) is connected through the mode of hookup in spring (320), first deposit dish support (330) is through bolted connection first fixed plate (209), two springs (320) are connected through the mode of hookup in seed deposit dish (310) left side, second deposit dish support (340) is connected through the mode of hookup in spring (320), second deposit dish support (340) is through bolted connection second fixed plate (227), second fixed plate (227) are connected through the mode of threaded connection in connecting rod (350) left side, first fixed plate (209) is connected through the mode of threaded connection in connecting rod (350) right side, vibrating motor (360) are fixed in the deposit dish (370) outside through bolted connection.

7. The full-automatic hydroponic sponge seeder according to claim 6, characterized in that: seedling tray subassembly (400) is including educating seedling tray (410), educating seedling tray (420), bottom plate (430) and slider (440), educate seedling tray (410) and educate seedling tray (420) through bolted connection, four slider (440) of bolted connection are passed through to seedling tray (420) downside, slider (440) fixed connection is at electronic slip table (120) top.

8. The full-automatic hydroponic sponge seeder according to claim 7, characterized in that: bracket component (500) include support (510), baffle (520), first fixed plate (209) of bolted connection and second fixed plate (227) are passed through in support (510), baffle (520) are through bolted connection between support (510), baffle (520) are located educate seedling tray (410) top.

Images