CN113785725A - Kiwi fruit is planted and is cultivated equipment with seedling pole - Google Patents

Abstract

The invention relates to cultivation equipment, in particular to seedling cultivation equipment for kiwi fruit planting. Mainly provide one kind and be convenient for when cultivating moisturizing, cultivate the after-flushing, and provide the kiwi fruit of light-heating demand and plant and use seedling pole cultivation equipment. The utility model provides a kiwi fruit is planted and is cultivated equipment with seedling pole, including: support, installation piece, artificial containers, fixed establishment, stabilizing mean and take-out mechanism, installation piece bottom bilateral symmetry is equipped with the support, and installation piece top is equipped with artificial containers, is equipped with fixed establishment, stabilizing mean and take-out mechanism in the artificial containers. Place the cultivation board between lower cardboard and make it unsettled on the clear water, go up the cardboard simultaneously and can reset the cultivation board, prevent that the cultivation board from taking place the skew and dropping.

Description

Kiwi fruit is planted and is cultivated equipment with seedling pole

Technical Field

The invention relates to cultivation equipment, in particular to seedling cultivation equipment for kiwi fruit planting.

Background

The kiwi fruits are fruit trees which need water and are afraid of waterlogging, have weak physiological drought resistance and weak moisture resistance, and therefore have strict requirements on soil moisture and air humidity.

Need place many plants seedling at the internal cultivation of seedling box before kiwi fruit is planted, transplant the young cat to outdoor planting again after waiting to cultivate, current seedling box of growing seedlings is to ordinary foam cube, moisturizing and cultivation effect to many batches of seedlings are not good, and a case can be by repetitious usage, wash inconvenient result and all receive same influence for different batches of seedlings, foam material heat resistance is not strong, consequently can't provide sufficient light and warm demand sometimes, therefore, moisturizing when we need design one kind to be convenient for cultivate, wash after cultivating, and provide the kiwi fruit of light and warm demand and plant and use seedling pole cultured equipment.

Disclosure of Invention

In order to overcome the defects that the existing seedling raising box body has poor effects on seedling water supplement and cultivation, is inconvenient to clean and has poor heat resistance, the technical problem to be solved is as follows: the seedling pole cultivation equipment for kiwi fruit planting is convenient to replenish water during cultivation, rinse after cultivation and provide light heating requirements.

The technical scheme of the invention is as follows: the utility model provides a kiwi fruit is planted and is cultivated equipment with seedling pole, is equipped with fixed establishment, stabilizing mean and take-out mechanism including support, installation piece, artificial containers, fixed establishment, stabilizing mean and take-out mechanism, installation piece bottom bilateral symmetry, and installation piece top is equipped with artificial containers, is equipped with fixed establishment, stabilizing mean and takes-out mechanism in the artificial containers.

In one embodiment, the fixing mechanism comprises a lower clamping plate, an upper clamping plate, a first guide rod, a first spring and an incubation plate, wherein the lower clamping plate is symmetrically arranged on the front side and the rear side of the incubation box in a left-right mode, 4 first guide rods are arranged in the incubation box, the upper clamping plate is arranged on the first guide rods in a sliding mode, the first spring is connected between the rear side of the upper clamping plate and the first guide rods, and the incubation plate can be placed between the tops of the lower clamping plates.

In one embodiment, the stabilizing mechanism comprises a second guide rod, a second spring, a discharge pipe, a liquid storage tank and a waterproof plate, wherein the second guide rod is symmetrically arranged at the bottoms of the front side and the rear side of the inside of the incubator in a left-right mode, the liquid storage tank is slidably arranged between the second guide rods, the second spring is connected between the liquid storage tank and the second guide rods, the discharge pipe is symmetrically arranged on the front side and the rear side of the right side of the incubator in a front-rear mode, the waterproof plate is arranged on the left side of the discharge pipe, and first through holes are symmetrically formed in the front side and the rear side of the left side of the liquid storage tank.

In one embodiment, the taking-out mechanism comprises a first guide block, a third guide rod, wedge-shaped blocks, a transverse plate and a pressing rod, the first guide block is symmetrically arranged at the front side and the rear side in the incubator in a left-right mode, the third guide rod is slidably arranged on the first guide block, the transverse plate is connected between the wedge-shaped blocks at the same transverse side, the pressing rods are symmetrically arranged at the bottoms of the transverse plates in a left-right mode, and second through holes are formed in the lower portions of the pressing rods.

In one embodiment, the device also comprises a flushing mechanism, the flushing mechanism comprises a mounting plate, a telescopic rod, a third spring, a stop block, a top block, a one-way valve, a water outlet pipe, a fourth spring, a gasket, a second guide block, a guide rail, a stress rod, a triangular clamping door and an eighth spring, the mounting plate is symmetrically arranged in front and back of the left side in the incubator, the telescopic rods are symmetrically arranged in front and back of the right side of the top of the mounting plate, the third spring is sleeved on the telescopic rods, the stop blocks are connected between the tops of the telescopic rods on the same side, the one-way valve is symmetrically embedded in front and back of the left side of the incubator, the water outlet pipe is connected on the right side in the one-way valve in a sliding manner, the top block is arranged on the right side of the top of the mounting plate, the fourth spring is connected between the water outlet pipe and the right side of the one-way valve, the 3 second guide blocks are arranged on the front and back of the left side of the liquid storage tank, the guide rails are arranged on the inner sides of the second guide blocks, and the stress rod is arranged in the guide rails in a sliding manner, the bottom of the stress rod is provided with a triangular clamping door, the outer side of the stress rod is connected with an eighth spring between the outer side of the stress rod and the inner side and the outer side of the guide rail, and a gasket is arranged in each first through hole.

In one embodiment, the incubator further comprises an illumination mechanism, the illumination mechanism comprises a light supplementing frame, a light supplementing rod, a light supplementing plate, gears, a third guide block, clamping rods and a fifth spring, the light supplementing frame is symmetrically arranged on the left and right sides of the rear side of the incubator, the light supplementing rod is hinged to the light supplementing frame, the light supplementing plate is arranged on the top of the light supplementing rod, the gears are arranged on the left and right sides of the lower portion of the light supplementing rod, the third guide block is symmetrically arranged on the left and right sides of the light supplementing frame, the clamping rods are arranged on the third guide block in a sliding mode, and the fifth spring is connected between the clamping rods and the inner side of the third guide block.

In one embodiment, the incubator further comprises a locking mechanism, the locking mechanism comprises a locking frame, locking rods and sixth springs, transverse grooves are formed in the front side and the rear side of the lower portion of the incubator respectively, the locking frames are symmetrically arranged in the transverse grooves in a left-right mode, the locking rods are arranged on the locking frames in a sliding mode, and the sixth springs are connected between the locking rods and the inner sides of the locking frames.

In one embodiment, the incubator further comprises a positioning mechanism, the positioning mechanism comprises a fourth guide block, a special-shaped rod and a seventh spring, the left side of the incubator is provided with a placing groove, the fourth guide block is symmetrically arranged in the right side of the incubator front and back, the special-shaped rod is arranged on the fourth guide block in a sliding mode, and the seventh spring is connected between the special-shaped rod and the top of the fourth guide block.

Has the advantages that: 1. the cultivation plate is placed between the lower clamping plates and is suspended above clear water, and meanwhile, the upper clamping plates can reset the cultivation plate to prevent the cultivation plate from being deviated and falling;

2. after the cultivation in one stage is finished, the liquid storage tank can be pushed to move downwards to discharge the sewage and the nutrient through the discharge pipe, and the next batch of cultivation is matched;

3. while discharging sewage, clean water can be driven to enter the liquid storage tank through the water outlet pipe, so that residual nutrient is washed, and the influence on the cultivation of the next batch is avoided;

4. after the light supplementing plate is opened, the illumination requirements of different states of kiwi seedlings can be met, and the illumination angle of the light supplementing plate can be adjusted by rotating the light supplementing rod in the period;

5. the locking rod moves backwards to clamp the second through hole, so that the fixing in a first taking-out state is realized, and the transverse plate is not required to be pressed by hands all the time.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of a first fixing mechanism according to the present invention.

Fig. 5 is a schematic perspective view of the present invention at a.

Fig. 6 is a schematic perspective view of a second fixing mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a first embodiment of the stabilizing mechanism of the present invention.

Fig. 8 is a schematic perspective view of a second embodiment of the stabilizing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first embodiment of the removing mechanism of the present invention.

Fig. 10 is a schematic perspective view of the present invention at B.

Fig. 11 is a schematic perspective view of a second embodiment of the removal mechanism of the present invention.

Fig. 12 is a schematic perspective view of a first embodiment of the flushing mechanism of the present invention.

Fig. 13 is a schematic perspective view of the present invention at C.

Fig. 14 is a schematic perspective view of a second embodiment of the flushing mechanism of the present invention.

Fig. 15 is a schematic perspective view of the present invention at D.

Fig. 16 is a schematic perspective view of the illumination mechanism of the present invention.

Fig. 17 is a schematic perspective view of the present invention at E.

Fig. 18 is a perspective view of the locking mechanism of the present invention.

Fig. 19 is a schematic perspective view of the present invention at F.

Fig. 20 is a schematic perspective view of the positioning mechanism of the present invention.

Labeled as: 1-bracket, 2-mounting block, 3-incubator, 4-fixing mechanism, 41-lower clamping plate, 42-upper clamping plate, 43-first guide rod, 44-first spring, 45-incubator, 5-stabilizing mechanism, 51-second guide rod, 52-second spring, 53-discharge pipe, 54-liquid storage tank, 55-waterproof plate, 56-first through hole, 6-taking mechanism, 61-first guide block, 62-third guide rod, 63-wedge block, 64-transverse plate, 65-pressure bar, 66-second through hole, 7-flushing mechanism, 71-mounting plate, 72-telescopic rod, 73-third spring, 74-stop block, 75-top block, 76-one-way valve, 77-water outlet pipe, 78-a fourth spring, 79-a gasket, 711-a second guide block, 712-a guide rail, 713-a stress rod, 714-a triangular clamping door, 715-an eighth spring, 8-a lighting mechanism, 81-a light supplementing frame, 82-a light supplementing rod, 83-a light supplementing plate, 84-a gear, 85-a third guide block, 86-a clamping rod, 87-a fifth spring, 9-a locking mechanism, 91-a locking frame, 92-a locking rod, 93-a sixth spring, 12-a positioning mechanism, 121-a fourth guide block, 122-a special-shaped rod and 123-a seventh spring.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

The utility model provides a kiwi fruit is planted and is used seedling pole cultivation equipment, as shown in fig. 1-20, including support 1, installation piece 2, artificial containers 3, fixed establishment 4, stabilizing mean 5 and take- out mechanism 6, 2 bottom bilateral symmetry of installation piece are equipped with support 1, and 2 tops of installation piece are equipped with artificial containers 3, are equipped with fixed establishment 4, stabilizing mean 5 and take-out mechanism 6 in artificial containers 3.

Fixing mechanism 4 is including cardboard 41 down, go up cardboard 42, first guide arm 43, first spring 44 and artificial board 45, the equal bilateral symmetry in both sides is equipped with down cardboard 41 around in the artificial board 3, be equipped with 4 first guide arms 43 in the artificial board 3, equal slidingtype is equipped with cardboard 42 on the first guide arm 43, it is located cardboard 41 top down respectively to go up cardboard 42, go up cardboard 42 rear side all with be connected with first spring 44 between the first guide arm 43, can place between the 41 top of cardboard down and open artificial board 45 that has a plurality of apertures to cultivate the seed.

Stabilizing mean 5 is including second guide arm 51, second spring 52, discharge tube 53, liquid reserve tank 54 and waterproof board 55, the equal bilateral symmetry in incubator 3 front and back both sides bottom is equipped with second guide arm 51, slidingtype is equipped with liquid reserve tank 54 between the second guide arm 51, liquid reserve tank 54 all is connected with second spring 52 with between the second guide arm 51, incubator 3 right side front and back symmetry is equipped with the discharge tube 53 that discharges sewage, discharge tube 53 left side all is equipped with waterproof board 55, waterproof board 55 lower part can communicate with each other with liquid reserve tank 54, liquid reserve tank 54 left side front and back symmetry is opened there is first through-hole 56.

The taking-out mechanism 6 comprises a first guide block 61, a third guide rod 62, wedge blocks 63, transverse plates 64 and pressing rods 65, the first guide block 61 is symmetrically arranged on the front side and the rear side of the inside of the incubator 3 in a left-right mode, the third guide rod 62 is slidably arranged on the first guide block 61 through elastic pieces, the wedge blocks 63 are arranged at the bottoms of the third guide rods 62, the wedge blocks 63 are matched with the adjacent upper clamping plates 42, the transverse plates 64 are connected between the wedge blocks 63 on the same transverse side, the pressing rods 65 are symmetrically arranged on the bottoms of the transverse plates 64 in a left-right mode, and second through holes 66 are formed in the lower portions of the pressing rods 65.

The staff can directly add the clear water into the liquid storage tank 54, the water level needs to be lower than the first through hole 56, the upper part of the waterproof board 55 in the initial state blocks the liquid storage tank 54, the water cannot be discharged, the water is stored to a certain degree and then stops being pumped into the clear water, then the cultivation board 45 is placed, the upper clamping board 42 is manually pushed to move outwards, the first spring 44 is compressed, then the cultivation board 45 is placed between the lower clamping boards 41, the upper clamping board 42 is stopped being pushed, the first spring 44 is reset to drive the upper clamping board 42 to move inwards and reset to limit the cultivation board 45, then the kiwi fruit seeds are scattered into the cultivation board 45, the roots of the seeds can be contacted with the clear water in the liquid storage tank 54, during the period, the nutrients can be put into the clear water to be matched with the cultivation of the seeds, when the seeds are cultivated to form seedlings, the transverse board 64 is pushed to move downwards to drive the pressing rod 65 to move downwards to press the liquid storage tank 54 to move downwards, the second spring 52 is compressed, when the liquid storage tank 54 moves downwards to be communicated with the lower part of the waterproof board 55, the used water can be discharged through the discharge pipe 53, meanwhile, the transverse plate 64 moves downwards to drive the wedge-shaped block 63 to move downwards to press the upper clamping plate 42 to move outwards again, the breeding plate 45 is not limited any more, the breeding plate 45 and the seedlings are manually taken out, at the moment, the wedge-shaped block 63 moves downwards to drive the elastic piece to be compressed through the third guide rod 62, if the breeding is needed again, a new breeding plate 45 can be directly put in, the transverse plate 64 stops being pushed, the elastic piece resets to drive the wedge-shaped block 63 to move upwards through the third guide rod 62, the upper clamping plate 42 is not stressed to reset to limit the new breeding plate 45, the wedge-shaped block 63 moves upwards to drive the pressing rod 65 to move upwards through the transverse plate 64, the liquid storage tank 54 is not stressed any more, the second spring 52 resets to drive the liquid storage tank 54 to move upwards, the upper part of the waterproof board 55 blocks the liquid storage tank 54 again, adding clear water again.

The device also comprises a washing mechanism 7, the washing mechanism 7 comprises a mounting plate 71, an expansion link 72, a third spring 73, a stop block 74, a top block 75, a one-way valve 76, a water outlet pipe 77, a fourth spring 78, a gasket 79, a second guide block 711, a guide rail 712, a stress rod 713, a triangular clamp door 714 and an eighth spring 715, the mounting plate 71 is symmetrically arranged in front and at the back of the left side in the incubator 3, the expansion links 72 are symmetrically arranged in front and at the back of the right side of the top of the mounting plate 71, the third spring 73 is sleeved on the expansion link 72, the stop block 74 is connected between the tops of the expansion links 72 on the same side, the one-way valve 76 is symmetrically embedded in front and at the back of the left side of the incubator 3, the water outlet pipe 77 is slidably connected to the right side in the one-way valve 76, the top block 75 is arranged on the right side of the top of the mounting plate 71, the water outlet pipe 77 is connected with the fourth spring 78 between the water outlet pipe 77 and the right side of the one-way valve 76, the front and back of the left side of the liquid storage tank 54 are provided with the 3 second guide blocks 711, the inner sides of the second guide blocks 711 are provided with guide rails 712, the guide rails 712 are internally provided with stress rods 713 in a sliding manner, the bottoms of the stress rods 713 are provided with triangular clamping doors 714 matched with the water outlet pipe 77, the adjacent 3 triangular clamping doors 714 can be combined into a whole circle, the outer sides of the stress rods 713 and the inner sides and the outer sides of the guide rails 712 are connected with eighth springs 715, the first through holes 56 are internally provided with gaskets 79, and the gaskets 79 are positioned on the inner sides of the triangular clamping doors 714.

In the initial state, the stop block 74 abuts against the water outlet pipe 77, the one-way valve 76 blocks the water outlet pipe 77, the fourth spring 78 is compressed, after the cultivation in one stage is finished, the liquid storage tank 54 moves downwards to drive the upper parts of the liquid storage tank to move downwards, the gasket 79 moves downwards to press the stop block 74 to move downwards so as not to block the water outlet pipe 77 when sewage is discharged, the telescopic rod 72 and the third spring 73 are compressed, the force bearing rod 713 moves downwards to contact with the top block 75, the force bearing rod 713 is forced to drive the triangular clamping door 714 to move outwards so as not to block the first through hole 56, the eighth spring 715 is compressed, at the moment, the fourth spring 78 is reset to drive the water outlet pipe 77 to move rightwards and insert the triangular clamping door 714 into the first through hole 56, the water outlet pipe 77 moves rightwards and is not blocked by the one-way valve 76, so that an external water pipe can be connected into the one-way valve 76, clean water can be discharged into the liquid storage tank 54 to flush residual nutrient and sewage, avoid its cultivation of influence next stage, wash to a certain extent, drive liquid reserve tank 54 upward movement and stop the discharge sewage, liquid reserve tank 54 upward movement drives its upper part all upward movement, gasket 79 upward movement no longer extrudees dog 74, telescopic link 72 and third spring 73 reset and drive dog 74 upward movement and block outlet pipe 77, and extrude outlet pipe 77 to move left once more and be stopped up by one-way valve 76, fourth spring 78 is compressed, atress pole 713 upward movement no longer contacts with kicking block 75 immediately, eighth spring 715 resets and drives triangle card door 714 inboard through atress pole 713 and move and accomplish the block, first through-hole 56 is blocked.

Still including illumination mechanism 8, illumination mechanism 8 is including light filling frame 81, light filling pole 82, light filling board 83, gear 84, third guide block 85, kelly 86 and fifth spring 87, 3 rear side bilateral symmetry of artificial containers are equipped with light filling frame 81, it has light filling pole 82 all to articulate on the light filling frame 81, light filling pole 82 top all is equipped with can shine warm light or cold-light filling board 83, light filling pole 82 lower part left and right sides all is equipped with gear 84, the equal longitudinal symmetry in light filling frame 81 left and right sides is equipped with third guide block 85, all be equipped with slidingtype kelly 86 on the third guide block 85, kelly 86 all with be connected with fifth spring 87 between the third guide block 85 inboard.

Still including locking mechanical system 9, locking mechanical system 9 is including locking frame 91, locking lever 92 and sixth spring 93, and horizontal groove has all been opened to both sides around the artificial feed incubator 3 lower part, and equal bilateral symmetry is equipped with locking frame 91 in the horizontal groove, and locking lever 92 is equipped with all to slidingtype on the locking frame 91, and locking lever 92 all is connected with sixth spring 93 between the locking frame 91 inboard.

Still including positioning mechanism 12, positioning mechanism 12 is including fourth guide block 121, dysmorphism pole 122 and seventh spring 123, it has the standing groove to open in the incubator 3 left side, the right side front and back symmetry is equipped with fourth guide block 121 in the incubator 3, all slidingtype is equipped with dysmorphism pole 122 on the fourth guide block 121, liquid reserve tank 54 bottom and adjacent locking lever 92 cooperation are all walked around to dysmorphism pole 122, dysmorphism pole 122 all with fourth guide block 121 between the top all be connected with seventh spring 123.

When the condition of insufficient illumination intensity is met, a worker can open the light supplementing plate 83, then push the clamping rod 86 to move outwards to stop clamping the gear 84, the fifth spring 87 is compressed, the light supplementing rod 82 is rotated to drive the light supplementing plate 83 to rotate above the seedling, after the adjustment is carried out to a proper angle, the light supplementing rod 82 is stopped rotating, then the clamping rod 86 is stopped being pushed, the fifth spring 87 is reset to drive the clamping rod 86 to move inwards to clamp the gear 84, and then the light supplementing plate 83 is fixed to meet the illumination requirement required by cultivation; the staff can push the cultivation board 45 through the left-side placing groove or directly place the cultivation board 45, the special-shaped rod 122 can position the moving position of the cultivation board 45, when the cultivation board 45 needs to be taken out after the cultivation is finished, the pressure lever 65 moves downwards to press the special-shaped rod 122 to move downwards and no longer position the cultivation board 45, the cultivation board is taken out in a matching manner, at the moment, the seventh spring 123 is compressed, the special-shaped rod 122 moves downwards to press the locking rod 92 to move outwards, the sixth spring 93 is compressed, when the pressure lever 65 moves to the utmost, the sixth spring 93 resets to drive the locking rod 92 to move inwards to block the second through hole 66, further, the taking-out state is fixed through the pressure lever 65, after the cultivation board 45 is taken out, the locking rod 92 is manually pushed to move outwards to move no longer to block the pressure lever 65, the pressure lever 65 moves upwards to reset and no longer presses the special-shaped rod 122, the seventh spring 123 resets to drive the special-shaped rod 122 to move upwards to reset, while stopping pushing the lock lever 92 to move inwardly to be reset by the sixth spring 93.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. The utility model provides a kiwi fruit is planted and is cultivated equipment with seedling pole which characterized in that, including: support (1), installation piece (2), artificial containers (3), fixed establishment (4), stabilizing mean (5) and take out mechanism (6), installation piece (2) bottom bilateral symmetry is equipped with support (1), and installation piece (2) top is equipped with artificial containers (3), is equipped with fixed establishment (4), stabilizing mean (5) and take out mechanism (6) in artificial containers (3).

2. The seedling pole cultivation device for kiwi planting as claimed in claim 1, wherein said fixing mechanism (4) comprises: cardboard (41) down, go up cardboard (42), first guide arm (43), first spring (44) and artificial board (45), the equal bilateral symmetry in both sides is equipped with down cardboard (41) around in artificial board (3), be equipped with 4 first guide arms (43) in artificial board (3), all slidingtype is equipped with cardboard (42) on first guide arm (43), go up cardboard (42) rear side all with be connected with between first guide arm (43) first spring (44), artificial board (45) can be placed between cardboard (41) top down.

3. The seedling cultivation apparatus for kiwi planting as claimed in claim 2, wherein said stabilizing means (5) comprises: second guide arm (51), second spring (52), discharge pipe (53), liquid reserve tank (54) and waterproof board (55), the equal bilateral symmetry in incubator (3) front and back both sides bottom is equipped with second guide arm (51), slidingtype is equipped with liquid reserve tank (54) between second guide arm (51), be connected with second spring (52) between liquid reserve tank (54) all and second guide arm (51), incubator (3) right side front and back symmetry is equipped with discharge pipe (53), discharge pipe (53) left side all is equipped with waterproof board (55), liquid reserve tank (54) left side front and back symmetry is opened there are first through-hole (56).

4. The seedling cultivation apparatus for kiwi planting as claimed in claim 3, wherein said taking-out mechanism (6) comprises: first guide block (61), third guide arm (62), wedge (63), diaphragm (64) and depression bar (65), the equal bilateral symmetry in front and back both sides is equipped with first guide block (61) in artificial containers (3), all be equipped with third guide arm (62) on first guide block (61) in the slidingtype, all be connected with diaphragm (64) between the wedge (63) of horizontal homonymy, the equal bilateral symmetry in diaphragm (64) bottom is equipped with depression bar (65), second through-hole (66) have all been opened to depression bar (65) lower part.

5. The seedling cultivation equipment for kiwi planting as claimed in claim 4, further comprising a washing mechanism (7), wherein said washing mechanism (7) comprises: the cultivation box comprises a mounting plate (71), a telescopic rod (72), a third spring (73), a stop block (74), a top block (75), a one-way valve (76), a water outlet pipe (77), a fourth spring (78), a gasket (79), a second guide block (711), a guide rail (712), a stress rod (713), a triangular clamp door (714) and an eighth spring (715), wherein the mounting plate (71) is symmetrically arranged in the front and at the back of the left side in the cultivation box (3), the telescopic rods (72) are symmetrically arranged in the front and at the back of the right side of the top of the mounting plate (71), the third spring (73) is sleeved on the telescopic rods (72), the stop block (74) is connected between the tops of the telescopic rods (72) on the same side, the one-way valve (76) is symmetrically arranged in the front and at the back of the left side of the cultivation box (3), the water outlet pipe (77) is slidably connected to the right side of the one-way valve (76), the top block (75) is arranged on the right side of the mounting plate (71), the fourth spring (78) is connected between the water outlet pipe (77) and the right side of the one-way valve (76), the left front side and the left rear side of the liquid storage tank (54) are respectively provided with 3 second guide blocks (711), the inner sides of the second guide blocks (711) are respectively provided with a guide rail (712), stress rods (713) are respectively arranged in the guide rails (712) in a sliding manner, the bottoms of the stress rods (713) are respectively provided with a triangular clamping door (714), the outer sides of the stress rods (713) are respectively connected with the inner side and the outer side of the guide rails (712), and gaskets (79) are respectively arranged in the first through holes (56).

6. The seedling cultivation device for kiwi planting as claimed in claim 5, further comprising a lighting mechanism (8), wherein said lighting mechanism (8) comprises: light filling frame (81), light filling pole (82), light filling board (83), gear (84), third guide block (85), kelly (86) and fifth spring (87), incubator (3) rear side bilateral symmetry is equipped with light filling frame (81), all articulated on light filling frame (81) have light filling pole (82), light filling pole (82) top all is equipped with light filling board (83), light filling pole (82) lower part left and right sides all is equipped with gear (84), the equal longitudinal symmetry in light filling frame (81) left and right sides is equipped with third guide block (85), all slidingtype is equipped with kelly (86) on third guide block (85), kelly (86) all with be connected with fifth spring (87) between third guide block (85) the inboard.

7. The seedling pole cultivation equipment for kiwi planting as claimed in claim 6, further comprising a locking mechanism (9), wherein said locking mechanism (9) comprises: locking frame (91), locking lever (92) and sixth spring (93), both sides are all opened horizontal groove around artificial containers (3) lower part, and horizontal inslot equal bilateral symmetry is equipped with locking frame (91), all is equipped with locking lever (92) on locking frame (91) slidingtype, and locking lever (92) all are connected with sixth spring (93) with between locking frame (91) the inboard.

8. The seedling cultivation device for kiwi planting as claimed in claim 7, further comprising a positioning mechanism (12), wherein said positioning mechanism (12) comprises: fourth guide block (121), dysmorphism pole (122) and seventh spring (123), open on incubator (3) left side has the standing groove, and right side front and back symmetry is equipped with fourth guide block (121) in incubator (3), and fourth guide block (121) are gone up all to be equipped with dysmorphism pole (122) of slidingtype, and dysmorphism pole (122) all and fourth guide block (121) top between all be connected with seventh spring (123).

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